JP2012231151A - Generic electromagnetically-countering systems and processes - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide counter units which emit counter electromagnetic waves for countering harmful electromagnetic waves against at least one wave source emitting the harmful electromagnetic waves.SOLUTION: Generic counter units 40 of electromagnetically countering systems are provided. The counter units 40 minimize irradiation of harmful waves, e.g., by matching the configuration of the counter units 40 to the configuration of a wave source, by matching the form of a corresponding counter wave to the form of a harmful wave, or by the like.

Description

  The present invention relates to an electromagnetic countering system including at least one wave source that irradiates harmful electromagnetic waves and at least one counter unit that emits the counter electromagnetic waves to counter the harmful waves by the counter electromagnetic waves. is there. More specifically, the present invention relates to a general-purpose counter unit of an electromagnetic countering system, and its counter unit, for example, matching between the configuration of the counter unit and the configuration of a wave source, the shape of harmful waves, and the shape of such counter waves. This is related to various mechanisms that counteract the harmful waves by performing matching. The present invention also relates to various methods for countering harmful waves with counter waves by such source matching or wave matching, and various methods for providing counter units as well as counter waves. The present invention also relates to various processes for providing such a system and such a counter unit of the system. The present invention relates to a variety of electrical and / or magnetic shields that can be used alone or in conjunction with such a counter unit to minimize the exposure of harmful waves from the system.

  Currently, it is well established in the scientific community that electromagnetic waves with variable frequency emitted by various devices are harmful to human health. In some cases, electromagnetic waves in the megahertz and gigahertz range are a major cause of culprit, while in other cases 60 Hz electromagnetic waves can be a major health concern. It is difficult to shield from 60 Hz electromagnetic waves having a wavelength of several thousand kilometers, and it is clear that such 60 Hz magnetic waves are ubiquitous at any point in the current civilization.

  However, the intensity of the electromagnetic wave usually decreases in inverse proportion to the square of the distance from the source to the target of the electromagnetic wave. Thus, potential adverse effects from electromagnetic waves can be minimized by maintaining a safe distance from such sources. However, electric devices such as hair dryers, hair curlers, electric mattresses or blankets, heating pads, earphones, headphones, mobile phones, electric razors, electric toothbrushes, etc. are used in close proximity by users. It is supposed to be. However, all conventional devices have failed to provide an remedy for such potential hazards.

  For general purpose counter units that can be included in a variety of conventional devices and that allow the device to be converted into an electromagnetic countering system to minimize the exposure of harmful electromagnetic waves from the device. There is a request. There is also a need to provide a possible solution to combat harmful waves emitted by various wave sources of different shapes and / or sizes. In addition, in order to counter harmful waves, it is necessary to define various characteristics of the wavefront and provide other possible solutions.

  The present invention relates to an electromagnetic countering system including at least one wave source that irradiates harmful electromagnetic waves and at least one counter unit that emits counter waves against the harmful waves, and the counter unit includes, for example, The harmful electromagnetic wave is countered by, for example, erasing at least a part of the harmful wave with the counter electromagnetic wave and suppressing the harmful electromagnetic wave from propagating to the target space. More particularly, the present invention relates to a general-purpose counter unit of the electromagnetic countering system, and various mechanisms for countering harmful waves emitted from various basic units of the wave source by the counter unit. Thus, the counter unit can be shaped, sized and / or arranged such that its configuration matches the configuration of the basic unit of the wave source, thereby automatically matching such harmful wave characteristics. A counter wave is emitted. Alternatively, the counter unit can be formed, sized and / or arranged in a defined arrangement along the wavefront of one or more harmful waves, thereby automatically adjusting to the characteristics of the harmful waves A counter wave that matches the target. The invention also relates to a variety of counter units provided as analogs of the basic unit of the wave source, the analogs approximating more complex basic units than the counter unit, and also three-dimensional or two-dimensional. A dimensional basic unit can also be approximated as a two-dimensional or one-dimensional analogue or the like. The invention also relates to a large number of simple counter units which are simpler than the basic unit, but arranged in an arrangement approximating the shape and / or arrangement of the basic unit. The invention also relates to a counter unit that can be formed and / or sized by the configuration and arrangement of the basic unit. The present invention also relates to various countering modes in which a single counter unit is at least two basic units that are not all basic units of a single basic unit, multiple basic units. A unit, or all multiple basic units, can be countered, and multiple counter units can counter a single basic unit, more basic units, fewer multiple units, etc. The present invention relates to a variety of electrical and / or magnetic shields that can be used alone or in conjunction with a counter unit to minimize the exposure of harmful waves from the system.

  The present invention also relates to various methods for countering harmful waves with counter waves by source matching or wave matching. More specifically, the present invention is based on a simpler counter unit for various ways of forming a counter unit as an analog of the base unit and then emitting a counter wave that matches such harmful waves. It relates to various ways of approximating the unit and various ways of approximating the basic unit by a number of simpler counter units. The present invention also provides various methods for arranging a counter unit along the wavefront of the harmful wave and then emitting a counterwave to automatically match the wavefront of the harmful wave, and the wavefront of the harmful wave. The present invention relates to various methods and the like in which a large number of counter units are arranged, and then the counter wave is emitted by the counter unit in order to automatically match the wave front. The present invention also provides various methods for manipulating the wavefront of the counter wave by arranging the counter unit so as to be closer to and / or away from the target space with respect to the basic unit. By including one or multiple counter units that emit counter waves of opposite phase angle, various ways of controlling the radius of curvature of the wave front of the counter wave, defining a shape that is similar or different from the shape of the basic unit 1 The present invention relates to various methods for adjusting the wavefront of a counter wave by arranging one or many counter units. The invention also relates to various ways of countering harmful waves from one or many basic units with counter waves emitted by a single or multiple counter units. Accordingly, the present invention provides various methods for emitting counter waves from a single counter unit to harmful waves irradiated by one or more basic units, harmful waves irradiated by a single or multiple basic units. In contrast, the present invention relates to various methods for emitting counter waves by two or more counter units. The present invention also relates to various methods for minimizing harmful wave irradiation by including an electrical shield, a magnetic shield, and any or both of the shields together with the counter unit.

  The present invention also relates to various processes providing various counter units and various systems including one or multiple counter units therein. In more detail, the present invention forms a counter unit as the analog of the basic unit, various processes for forming the counter unit to emit a counter wave having a wavefront similar (or different) to the shape of the counter unit. Various processes, various processes that provide a counter unit that emits such counter waves that define similar or opposite phase angles, various processes that provide such counter units with wavefronts formed similar to harmful waves, preset The present invention relates to various processes and the like in which counter units are arranged in the arranged arrangement and a counter wave having a wavefront similar to that arrangement is emitted from the counter unit. The present invention also counters harmful waves emitted by a single basic unit for local countering or counters harmful waves from multiple basic units for global countering. Various processes to assign a single counter unit, and to counter harmful waves irradiated by a single basic unit for global countering, or depending on the number of counter units and basic units It relates to various processes for assigning multiple counter units to counter harmful waves from multiple basic units for local or global countering. In addition, the present invention is not limited to various processes including an electrical and / or magnetic shield for minimizing harmful wave radiation, and the use of such a shield as well as such a shield. It relates to various processes that minimize wave irradiation.

  Accordingly, the main object of the present invention is to counteract harmful waves with such counter waves, thereby minimizing the irradiation of harmful waves from at least one basic unit of at least one wave source (hereinafter referred to as “EMC”). ) Electromagnetic countering (hereinafter "EMC" system or simply "system") system. Therefore, a related object of the present invention is to eliminate the harmful waves by erasing at least a part of the harmful waves by the counter wave and / or suppressing the harmful waves from propagating in the preset direction by the counter wave. It is to provide an EMC system capable of resisting waves. Another related object of the present invention is to counter harmful waves with counter waves only in the target space (or area) defined only on one side of the system, not all around the basic unit of the EMC system. Is to do. In general, such a target space is defined between the user of the system or a particular body part of the user and the basic unit. Another related object of the present invention is to provide a phase angle that is at least partially opposite to the phase angle of the harmful wave in order to eliminate and / or suppress the harmful wave when propagated to the target space. The counter waves are arranged so as to define Another related object of the present invention is that the harmful wave phase angle and / or at least part of the harmful wave is eliminated and / or suppressed when propagated from the opposite side of the basic unit to the target space. The counter waves are arranged so as to define similar phase angles. Another related object of the present invention is to manipulate the phase angle of the counter wave so that counter waves from different counter units counter harmful waves in the target space, while from the same side or the opposite side of the basic unit with respect to the target space. It is to emit a counter wave.

  Yet another object of the present invention is to provide such an EMC system with at least one counter unit capable of emitting such counter waves. Accordingly, a related object of the present invention is to provide at least one characteristic or configuration (eg, shape, size, arrangement, etc.) of the counter unit so that the counter wave emitted from the counter unit matches the harmful wave emitted from the basic unit. Is matched to the characteristics or configuration of the basic unit. Yet another related object of the present invention is to match the shape of a single counter unit that defines the shape of a single basic unit such that the counter wave emitted by the counter unit matches the harmful wave due to the basic unit. That is. Another related object of the present invention is to provide an arrangement of multiple basic units and a single counter unit so that the counter wave emitted from the counter unit matches the sum of harmful waves emitted by the multiple basic units. Matching the shape of Yet another related object of the present invention is that a number of such counter waves emitted from a number of counter units are arranged in a number of arrangements that match the shape of a single basic unit such that the sum of the counter waves matches the harmful waves by the basic unit. It is to arrange a counter unit. Yet another related object of the present invention is that the number of counter units of the multiple basic units is matched so that the sum of the counter waves emitted by the multiple counter units matches the sum of the harmful waves by the multiple basic units. Arranging a number of counter units in an array that matches the array. Yet another related object of the present invention is to use a minimum amount of electrically conductive material, semiconductive material, and / or insulating material to minimize the total bulk or size of the counter unit, It is to provide such a counter unit while minimizing the mass. Yet another related object of the present invention is to emit a counter wave by the counter unit while using minimal electrical energy and drawing a minimum amount of current or voltage from the base unit or other parts of the EMC system. It is.

  Yet another object of the present invention is to provide an EMC system that includes therein at least one counter unit that matches the shape of at least one basic unit. Therefore, the related object of the present invention is to form a counter unit as a one-dimensional, two-dimensional or three-dimensional analogue of a three-dimensional basic unit, and to make a single or multiple basic units by means of a single or multiple analogues. It is to resist. Yet another related object of the present invention is to provide the counter unit as a one-dimensional or two-dimensional analog of a three-dimensional basic unit and to counter a single or multiple basic units by a single or multiple analogs. Is to do. Yet another related object of the present invention is to provide the counter unit as a one-dimensional or two-dimensional analogue of a two-dimensional basic unit and then to defeat a single or multiple basic unit with a single or multiple analogues. Is to do. Yet another related object of the present invention is to form the counter unit as a one-dimensional analogue of a two-dimensional basic unit and to resist a single or multiple basic units by a single or multiple analogues. It is. Yet another related object of the present invention is to provide a counter unit as a one-dimensional analog of a one-dimensional basic unit and to use a single or multiple analogs to counter single or multiple basic units. Is to do. Yet another related object of the present invention is to provide such a counter unit as a one-dimensional, two-dimensional and / or three-dimensional analogue of a one-dimensional, two-dimensional and / or three-dimensional basic unit and then mixed It is to counter the mixed dimensional basic unit by the dimensional counter unit. For this purpose, such a counter unit emits a counter wave that can be matched to harmful waves emitted by the basic unit. Another related object of the invention is to form a counter unit that matches the shape of the basic unit in order to match such harmful waves with the counter wave emitted by the counter unit. Yet another related object of the invention is to form a counter unit that does not match the shape of the basic unit, but is arranged in an array for matching harmful waves by such counter waves emitted by the counter unit. . Yet another related object of the present invention is to provide one or many wires, strips, sheets, tubes, coils, spirals, meshes (in order to emit counter waves that match the shape of the basic unit and match the harmful waves) mesh), forming a counter unit in the form of a mixture, a combination thereof, and / or an array thereof. Yet another related object of the present invention is to match at least a portion of the wavefront of the counter wave emitted by the counter unit with a predetermined distance from the basic unit in order to match the wavefront of at least a portion of the harmful wave. Arbitrary units in the counter unit are arranged. Another related object of the invention is to arrange any unit in the counter unit in a pre-arranged arrangement with respect to the basic unit in order to match the wave front of at least part of the counter wave with at least part of the harmful wave. It is to let you.

  Still another object of the present invention is to provide at least one size that is operatively matched to the size of the basic unit in order to match the counter wave emitted by the at least one counter unit with the harmful wave emitted by the basic unit. It is to provide an EMC system including one counter unit therein. Accordingly, a related object of the present invention is to provide a counter unit that is larger, wider and / or longer than the basic unit, where such counter unit is for the purpose of matching to the target space and its basics. It is preferably arranged between the units (hereinafter referred to as “front arrangement”). Yet another related object of the present invention is to form a counter unit that defines a size, width and / or length similar (or identical) to the size, width and / or length of the basic unit; Here, for the purpose of matching, the counter unit is preferably arranged on the side surface or side by side with respect to the basic unit with respect to the target space (hereinafter referred to as “side surface arrangement”). Another related object of the present invention is to form a counter unit that is smaller, narrower and / or shorter than the basic unit, where the counter unit is targeted relative to the basic unit for matching purposes. It is preferably arranged on the opposite side of the space (hereinafter referred to as “rear arrangement”). Another related object of the present invention is to surround at least a part of the counter unit by the basic unit for such a matching, or alternatively surround at least a part of the basic unit by the counter unit (hereinafter referred to as the following). , Designated “concentric arrangement”). Yet another related object of the invention is to place a number of counter units in such a front, side, back or concentric arrangement with respect to a single basic unit for such matching. Yet another related object of the invention is to form a single or multiple counter units arranged in front, side, rear or concentric arrangement with respect to multiple basic units for such matching. Yet another related object of the present invention is to define a number of counter units, and for such matching all of the number of counter units are such front, side, rear and back with respect to all the number of basic units. Arranged in only one arrangement of concentric arrangements, or at least two counter units of such multiple counter units arranged in a different (or mixed) arrangement with respect to at least two basic units of multiple basic units Is done.

  Yet another object of the present invention is to provide an EMC system that includes at least one counter unit in an arrangement (eg, orientation, alignment, and distance) that matches the arrangement of the basic units. Therefore, the related object of the present invention is that for such matching, the propagation direction of harmful waves, the other direction in which current flows through the basic unit, the other direction in which the voltage is applied across the basic unit, the vertical axis of the basic unit Orienting the counter unit in the direction and / or the minor axis direction of the basic unit. Yet another related object of the present invention is to form multiple counter units, and for such matching all of the multiple counter units are oriented in one direction or axis of the same direction or axis. And at least two counter units of the multiple counter units are oriented along different directions and / or axes, and all of the multiple counter units are oriented in different directions or axes. Yet another related object of the invention is that for the purpose of matching, the counter unit is axially aligned with respect to the basic unit so that the counter wave emitted by the counter unit is aligned axially with the harmful waves emitted by the basic unit. Alignment (hereinafter referred to as “axis alignment”). Another related object of the present invention is to misalign the counter unit together with the basic unit in the axial direction for such matching (hereinafter referred to as “off-axis alignment”), but is preset. The counter units are arranged in the arranged arrangement. Yet another related object of the present invention is to provide a number of counter units arranged in axial or off-axis alignment with respect to a single basic unit for such matching. Yet another related object of the present invention is to provide a single or multiple counter units arranged for axial alignment or off-axis alignment with respect to multiple basic units for such matching. Yet another related object of the present invention is to define multiple counter units, and for matching, all of these multiple counter units are arranged in axial alignment or off-axis alignment with respect to all multiple basic units. Or at least two counter units of such multiple counter units are arranged in a different (or mixed) alignment with respect to at least two basic units of the multiple basic units. Yet another related object of the invention is that for matching, at least some wavefronts of counter waves from the counter unit are matched to at least some wavefronts of harmful waves from the basic unit. The counter unit is arranged at a preset distance. Another related object of the present invention is to place a single counter unit at a preset distance from each (or at least two) of the multiple basic units for such matching. Yet another related object of the present invention is that a predetermined distance from a single basic unit, or alternatively, from each (or at least two) of the multiple basic units for matching purposes. A large number of counter units are arranged at a set distance.

  Yet another object of the present invention is to provide an EMC system including therein at least one counter unit that emits a counter wave having an amplitude matching the amplitude of the harmful wave. Therefore, a related object of the present invention is to provide a counter unit that emits a counter wave having an amplitude greater than that of harmful waves, where such a counter unit is fundamental for such matching. It is preferable that they are arranged away from the target space or in a rear surface arrangement as compared with the unit. Another related object of the invention is to form a counter unit that emits a counter wave having an amplitude similar to (or identical to) the harmful wave amplitude, where such counter unit is for matching purposes. Furthermore, it is preferable to arrange the target space side by side with the basic unit or in a side-by-side arrangement. Yet another related object of the present invention is to form a counter unit that emits a counter wave having an amplitude smaller than that of harmful waves, where such counter unit is a basic unit for matching purposes. It is preferable to arrange them closer to the target space or in front arrangement. Yet another related object of the invention is to provide a number of counter units that emit counter waves, the sum of the counter waves comprising the amplitude of a single basic unit, all the amplitudes of a number of basic units, It is also possible to define an amplitude that is larger, similar, or even smaller than the amplitude of at least two counter units, but not all of the multiple counter units.

  Yet another object of the present invention is to provide such an EMC system that includes at least one counter unit that emits a counter wave that matches at least a portion of the harmful wave and thereby can counter the harmful wave. is there. Accordingly, it is a related object of the present invention to provide a counter unit that emits such counter waves defining a number of wavefronts that match at least one wavefront of the harmful wavefront in the target space. Another related object of the present invention is to place a counter unit along at least a portion of at least one wavefront of the harmful wave wavefront and emit a counterwave that matches that portion of the wavefront of the harmful wave wave. It is. Another related object of the present invention is to place a number of counter units along at least a part of at least one wavefront of the harmful wave wavefront and emit a counterwave, the sum of the counterwaves being Matches the part of the wavefront of the harmful wave. Yet another related object of the present invention is to place a counter unit over at least two of the wavefronts of harmful waves, but to counter the counterwaves that can match at least a part of at least one wavefront of the harmful wave fronts Is to release. Yet another related object of the present invention is to provide a number of counter units in which at least two counter units are arranged over at least two wavefronts of the harmful wave front, but to match a part of the harmful wave front. The counter wave that can be generated is emitted. Another related object of the present invention is to form and size such a counter unit to emit a counter wave having a radius of curvature that matches the radius of curvature of at least a portion of the harmful wave. Another related object of the invention is that the counter wave emitted by the counter unit is a preset distance or preset distance from the basic unit defining a radius of curvature that matches the radius of curvature of at least a portion of the harmful wave. The counter unit is arranged at a certain position. Yet another related object of the present invention is to provide a number of counter units that emit such counter waves that define a radius of curvature in which the sum of the counter waves matches a harmful wave irradiated by a single basic unit or multiple basic units. Forming and sizing. Yet another related object of the present invention is to provide a counter unit in the form of one or many wires, strips, sheets, tubes, coils, spirals, meshes, mixtures thereof, combinations thereof, and / or arrays thereof. Providing and emitting a counter wave that can be matched to at least a part of at least one wavefront of the harmful waves from the basic unit. Another related object of the present invention is to manufacture the counter unit in a solid shape without matching any openings or holes across the counter unit for matching. Another related object of the present invention is to manufacture the counter unit as an array that defines a number of holes or openings across the counter unit for such matching.

  Still another object of the present invention is to provide an EMC system that includes at least one counter unit that emits counter waves and locally resists harmful waves emitted from the basic unit. Therefore, a related object of the present invention is to provide a single counter unit that resists harmful waves from a single basic unit locally by a counter wave emitted by the single counter unit. Yet another related object of the present invention is to provide multiple counter units, each of which is the same number (or less) of the counter waves emitted from each of the multiple counter units. The harmful wave from only one of the number of basic units is locally resisted. Yet another related object of the present invention is that a single defining a characteristic (or configuration) similar to (or identical to) the characteristics of a single basic unit (or multiple basic units) for such local countering. Counter unit (or multiple counter units). Yet another related object of the invention is to define a wavefront matched to at least one wavefront of harmful waves emitted from a single basic unit (or multiple basic units) for such local countering. It is to provide a single counter unit (or multiple counter units) that emits counter waves. Yet another related object of the present invention is to provide multiple counter units, at least one counter unit of which is similar (or identical) to the characteristics (or configuration) of the basic unit. And at least the other counter unit of the multiple counter units defines a wavefront matched to at least one of the harmful wavefronts from the base unit for such local countering.

  Yet another object of the present invention is to provide an EMC system that includes at least one counter unit that emits counter waves and globally resists harmful waves emitted from the basic unit. Accordingly, a related object of the present invention is to form one or a number of counter units each emitting a counter wave to globally match harmful waves emitted from one or a smaller number of basic units. is there. Yet another related object of the present invention is to provide a single counter unit that globally resists the summation of harmful waves emitted by a number of basic units by means of a counter wave emitted by a single counter unit. It is. Another related object of the invention is to form a number of counter units, each of which is illuminated by at least two basic units by a counter wave emitted by each of the number of counter units. To counter the harmful waves generated globally. Yet another related object of the present invention is to provide a single (or identical) characteristic (or configuration) for global countering that is similar (or identical) to the characteristics of at least two (or a larger number) of basic units. To define a counter unit (or multiple counter units). Another related object of the present invention is to provide a counter that defines a wavefront that matches at least one wavefront of harmful wavefronts emitted from at least two (or a larger number) of basic units for global countering. It is to provide a single counter unit (or multiple counter units) that emits waves. Yet another related object of the present invention is to provide a number of counter units, and because of such local countering, at least one counter unit of the number of counter units has characteristics of at least two basic units and Defines similar (or identical) characteristics (or configuration) and at least other counter units of the multiple counter units match at least one wavefront of harmful waves emitted by at least two other basic units Specifies the wavefront to be used.

  Yet another object of the present invention is to provide an EMC system including therein at least one counter unit disposed at a predetermined position or location defined with respect to the basic unit and / or target space. Therefore, a related object of the present invention is to arrange a counter unit on (or above) the outer surface of the basic unit, arrange a counter unit on (or below) the inner surface of the basic unit, and set the counter in the basic unit. For example, inserting at least part of the unit. Another related object of the present invention is to provide a case member to the system, with a counter unit disposed on (or above) the outer surface of the case member, on the inner surface of the case member. For example, the counter unit is disposed (or below), at least a part of the counter unit is inserted into the case member, and the counter unit is disposed between the case member and the basic unit. Another related object of the present invention is to provide the case member with a case member such as exposing at least a part (or all) of the counter unit through the case member, surrounding the entire part of the counter unit in the case member, and the like. The counter unit is arranged in a preset relationship.

  Yet another object of the present invention is to provide an EMC system including therein at least one counter unit that emits counter waves that propagate along a preset direction. Therefore, the related object of the present invention is based on a predetermined relationship with the propagation direction of the harmful wave, such as a predetermined angle related to the harmful wave, parallel to the harmful wave, perpendicular to the harmful wave, and the like. In order for the counter wave to propagate along a defined direction, the counter unit is arranged so as to always emit the counter wave in a fixed direction with respect to the basic unit. Another related object of the present invention is to arrange the counter unit so as to emit a counter wave in a variable direction with respect to the propagation direction of the harmful wave, wherein the counter unit changes the direction of the counter wave. In order to change the arrangement and / or orientation of the counter units along a variable direction and / or to receive current and / or voltage. Another related object of the present invention is to arrange the counter unit so as to emit a counter wave in a direction adaptively determined by the variable propagation direction of harmful waves, wherein the counter unit is As described above, the direction of the counter wave can be changed. Accordingly, such a counter unit can also change the range of the counter ring based on its arrangement and / or orientation. Another related object of the present invention is to synchronize the propagation direction of the harmful wave and the propagation direction of the counter wave based on the above-described preset relationship. Another related object of the present invention is to arrange the counter units to manipulate the amplitude of the counter wave by various mechanisms similar to the mechanism for manipulating the direction of the counter wave.

  Another object of the present invention is to provide at least one counter unit of the counter unit to the EMC system, and to counter such harmful waves by such counter waves emitted by the counter unit, Or to supply voltage. Accordingly, a related object of the present invention is to provide a counter unit with a current or voltage supplied to at least one basic unit of the basic unit or a number of basic units. Another related object of the present invention is to provide the counter unit with at least a portion of the current or voltage supplied to at least one basic unit of such a basic unit or a number of basic units, rather than all. Yet another related object of the present invention is to provide the counter unit with such a portion of current or voltage whose amplitude and / or direction is changed before being supplied to the counter unit. In all such examples, the current or voltage supplied to the counter unit is automatically synchronized with such current or voltage supplied to at least one of the basic unit or multiple basic units. Yet another related object of the invention is to synchronize at least partly with the current or voltage supplied to the basic unit, rather than the current or voltage supplied to at least one basic unit of the basic unit or multiple basic units. Is to supply the current or voltage to the counter unit. Another related object of the present invention is to manipulate the amplitude or direction of the current or voltage depending on the configuration and / or arrangement of the counter unit. Another related object of the invention is to electrically couple the basic unit and the counter unit in parallel, in series or in hybrid mode. Another related object of the present invention is, for example, first the basic unit and then the counter unit, first the counter unit and then the counter unit, first the counter unit of the multiple counter units and then the remaining counter unit or basic unit, First, supply such current or voltage based on various sequences such as one basic unit among many basic units and then the remaining basic unit or counter unit, and simultaneously the counter unit and basic unit.

  It is understood for all such purposes that the counter unit is preferably arranged so as not to adversely affect other intended operations of the system. For example, a counter unit of an EMC speaker system can effectively counter harmful waves emitted by the sound generation basic unit of the system, but does not adversely affect the quality of the acoustic sound generated by the unit. Absent. In another example, the counter unit of the EMC actuator system can effectively counter such harmful waves irradiated by the electric basic unit of the system, but has an adverse effect on the amplitude of the electromotive force generated by the unit. Never give. In another example, the counter unit of the EMC heating system can effectively counter the harmful waves irradiated by the heating basic unit of the system, but has an adverse effect on the amount of thermal energy generated by the unit. Never give. In another example, the counter unit of an EMC transformer system can effectively counter the harmful waves radiated by the system's transformer coil, but does not adversely affect the voltage level obtained by the coil. Absent. Also, the counter unit is preferably arranged to emit a counter wave defining a phase angle that is at least partially opposite to the harmful wave phase angle for countering, but with respect to the target space If placed on the opposite side or if the system includes multiple counter units, the counter unit can also emit a counter wave that defines a phase angle that is at least partially similar to the phase angle of the harmful wave. It is preferable to change the radius of curvature of the wavefront of the counter wave. Also, to counter harmful waves, the electrical and / or magnetic shield disclosed in the current pending application is included in any system in the EMC system alone or in combination with the counter unit. It should be understood that this can be done.

  The basic principle of the counter unit of the universal electromagnetic countering system of the present invention forms a wavefront that is similar (or identical) to the wavefront of harmful waves, but is at least partially opposite to the phase angle of such harmful waves. A counter wave that defines the phase angle is emitted. Therefore, by propagating the counter wave to the target space, the counter wave can be propagated to the target space, for example, by erasing at least part of the harmful wave to the target space. By suppressing, harmful waves can be effectively resisted in the target space. For this purpose, the counter unit is arranged to emit a counter wave defining a wavefront that matches the wavefront of the harmful wave by various mechanisms. In one example, such counter units are formed similar (or identical) to the basic units of the wave source, or are arranged similar (or identical) to such basic units, thus resisting harmful waves in the target space A counter wave that can be generated is emitted. In another example, such a counter unit is disposed along one or more of the harmful wave fronts and emits a counter wave that is similar (or identical) to the harmful wave, and thus is harmful in the target space. Try to resist the waves. In two such examples, the counter unit emits a counter wave having a wavefront similar (or identical) to the shape of such counter unit itself, such counter wave being at least partially opposite to the phase angle of the harmful wave. Define a phase angle. In another example, the counter unit is formed in a shape different from that of the basic unit, but instead, the counter waves emitted from the counter unit are arranged in an array that matches harmful waves in the target space. . In another example, the counter unit is arranged over different wavefronts of the harmful wave, but emits a counter wave similar to (or identical to) the harmful wave, so as to counter the harmful wave in the target space. In the last two examples, the counter unit defines a phase angle that is at least partially opposite to the phase angle of the harmful wave, while the counter unit is similar (or identical) or similar (similar to the shape of the counter unit itself) (Or the same) may be arranged to emit that counter wave with a wavefront that does not.

  The basic principle of the counter unit of the general-purpose electromagnetic countering system of the present invention can be embodied in various prior art devices in order to minimize harmful wave irradiation from various prior art devices. For example, by countering such harmful waves by counter waves, such as erasing at least a part of harmful waves in the target space and / or suppressing the propagation of the harmful waves toward the target space, In order to minimize the irradiation of the wave, the counter unit can be connected to any basic unit in the electrically conductive wires, coils and / or sheets, or otherwise to any electrically semiconductive And / or can be embodied in an insulating wire, coil, and / or sheet, where the counter unit can be composed of at least one electrically conductive, insulating or semiconductive material. And / or materials thereof. Any that defines the shape formed by the counter unit including one or multiple wires, coils and / or sheets and by deforming the shape of one or multiple wires, coils and / or sheets It can also be embodied in a basic unit, where some examples of deformed shapes each include a solenoid and a toroid formed by deforming the shape of the coil. Accordingly, in one example, such a counter unit may be implemented in various speakers such as cone-drive speakers, electrostatic speakers, and piezoelectric speakers in order to minimize harmful wave irradiation. . Thus, any prior art device that includes an electromagnetic countering speaker, such as an earphone, a headphone, a wired telephone, a mobile phone, and an audiovisual device can be converted to an electromagnetic countering system. Similarly, the counter unit can be used in a variety of microphones that are examples of such speaker inverses, and any prior art devices that include such electromagnetic countering microphones such as wired telephones, cell phones, audio and / or audiovisual sound systems. It can also be implemented and the earphone and microphone assembly can be converted into an electromagnetic countering system. In another example, the counter unit may be implemented in various motors such as a DC motor, a universal motor, an AC synchronous motor, an AC induction motor, a linear motor, etc., in order to minimize the irradiation of the harmful wave. You can also Therefore, kitchen equipment (eg food processors, mixers, juicers, grinders, mixers, presses, can openers, dishwashers, refrigerators, refrigerators, coolers, etc.), cooking equipment (eg electric grills, electric ovens, etc.) Electric stoves, electric ranges, electric toasters, electric fans for them), household appliances (eg washing machines, dryers, air conditioners, garage openers, dry or wet vacuum cleaners), tools (eg electric Electromagnetic countering motors such as drills, electric saws, electric screwdrivers, electric nails or staple guns, electric sanders, etc., and personal hygiene devices (eg, electric razors, electric toothbrushes, electric hair dryers, etc.) Any prior art actuator device, including It can also be converted to Temu. Similarly, the counter unit can be embodied in a variety of generators and can be any conventional generator having an electromagnetic countering generator such as an AC generator, a DC generator, and an (automobile) alternator. The generating device can also be converted into an electromagnetic countering system. In another example, such a counter unit may be embodied in a variety of transformers including at least two coils therein, such as step-up transformers, step-down transformers, and electromagnetic devices such as AC / DC adapters for various electrical devices. Any prior art device that includes a countering transformer can also be converted to an electromagnetic countering system. In yet another example, such a counter unit may have a variety of heating including at least one resistive heating wire, heating strip, heating sheet, and / or heating coil to minimize harmful radiation during heating. It can also be embodied in a unit. Accordingly, personal heating equipment (eg, electric mattress or mat, electric blanket, electric heating pad, etc.), cooking equipment (eg, electric grill, electric oven, electric stove, electric range, electric toaster, electric toast oven, etc.), and Any prior art heating device, such as beauty-related equipment (e.g., hair dryer, hair set machine, hair curler, hair steamer, etc.) can also be converted to an electromagnetic countering system. In another example, the counter unit may be implemented in various light emitting units in order to minimize harmful radiation during illumination. Thus, any prior art display device such as a cathode ray tube, light emitting device, organic light emitting device, inorganic light emitting device, and plasma display panel can be converted to an electromagnetic countering system.

  Each may also include at least one basic unit, and thus radio waves (hereinafter abbreviated as “EW”) and electromagnetic waves (hereinafter abbreviated as “MW”) having a frequency of about 50 Hz to 60 Hz and / or It should be understood that any electrical and / or electronic device that irradiates harmful waves, including high frequency EW and MW, can include the various counter units of the general purpose EMC system of the present invention. Any portable or fixed electrical and / or electronic device including a detailed example of at least one basic unit provided previously and subsequently may also include the general purpose EMC system of the present invention. Please understand that you can. Such counter units can also be provided on a micron scale and can be included in semiconductor chips and circuits such as LSI and VLSI devices, and such counter units are provided on a nanoscale, in which case a single molecule or compound It should be understood that it can also be included in a variety of nanodevices comprising at least one basic unit that is or is a cluster of multiple molecules or compounds.

  Next, various system, method, and / or process aspects of a general purpose electromagnetic countering system and various embodiments of such aspects are listed. However, the following system, method, and / or process aspects of the present invention may be embodied in many other different forms, and thus are limited to such aspects and / or embodiments disclosed herein. You can understand that it must not. Instead, various exemplary aspects and embodiments described below are provided so that this disclosure is thorough and complete, and can fully convey the scope of the invention to those skilled in the art.

  In one aspect of the invention, an exemplary system removes harmful waves in the target space and / or prevents the harmful waves from propagating toward the target space, thereby eliminating the fundamental unit of at least one wave source. It can also be provided to counter the harmful electromagnetic waves that have been irradiated, where such a basic unit irradiates the harmful waves and is one of the sources that cause the harmful wave paths to be affected therethrough. The target space is defined between the system and the user.

  In one exemplary embodiment of this aspect of the invention, the system defines at least one shape that defines the same (or similar) shape as the base unit and then emits counter electromagnetic waves. A counter unit can also be included, where such counter waves define a phase angle that is at least partially opposite to the phase angle of the harmful wave, and its shape is at least partially similar to the wave characteristics of the harmful wave. It defines the wave characteristics and is thus arranged to counter such harmful waves with opposite phase angles in the target space. Such a counter wave is hereinafter referred to as “first type counter wave” or “first counter wave”.

  In yet another exemplary embodiment of this aspect of the present invention, the system is in the form of a one-dimensional (or 1D), two-dimensional (or 2D), or three-dimensional (or 3D) analog of the basic unit. And a single counter unit arranged to emit a first counter electromagnetic wave. Alternatively, such a single counter unit defines a 1D (or 2D, 3D) analog shape of at least two basic units of a number of basic units and emits a first counter electromagnetic wave. It can also be arranged.

  In yet another exemplary embodiment of this aspect of the invention, the system can also include multiple counter units, wherein at least two counter units of the multiple counter units are the basic unit 1D (or 2D, 3D) defining the shape of the analogue and arranged to emit a counter electromagnetic wave, the counter electromagnetic wave defining a phase angle that is at least partially opposite to the phase angle of the harmful wave and depending on its shape It defines a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave and is therefore arranged to counter the harmful wave with such an opposite phase angle in the target space. Alternatively, at least two units of such multiple units define a 1D (or 2D, 3D) shape of at least two basic units of the multiple basic units, and the counter electromagnetic wave described above in such paragraphs. Can alternatively be arranged to release

  In yet another aspect of the present invention, the exemplary system matches the shape and / or arrangement of the basic unit with other shapes and / or arrangements of at least one part of the system and in the target space. It can also be provided to counteract the waves irradiated from the basic unit of at least one wave source by eliminating harmful electromagnetic waves and / or suppressing the waves from propagating to the target space, where The basic unit is arranged to contain only a part of the source that irradiates such harmful waves and affects the path of the waves therethrough, and the target space is between the system and the user. Stipulated between.

  In one exemplary embodiment of this aspect of the invention, the system has a shape that is similar (or identical) to (or matches) the shape of the base unit and the first counter electromagnetic wave. At least one counter unit arranged to release the.

  In yet another exemplary embodiment of this aspect of the invention, the system has a shape that is different from (or does not match) the shape of such a basic unit and is preset for that basic unit. It may also include at least one counter unit present in the array and arranged to emit counter electromagnetic waves, the counter electromagnetic waves defining a phase angle that is at least partially opposite to the phase angle of such harmful waves. , Which has a wave characteristic at least partially similar to the wave characteristic of the harmful wave due to its arrangement, and is therefore arranged to resist such harmful wave in the target space with its opposite phase angle. Such a counter wave is hereinafter referred to as a “second type counter wave” or a “second counter wave”.

  In yet another exemplary embodiment of this aspect of the invention, the system includes at least one counter unit that emits the first counter wave, although provided in various arrangements. In one example, the counter unit defines a 1D analogue shape of a 1D, 2D or 3D basic unit and is arranged to emit a first counter wave. In yet another example, the counter unit defines a shape of at least one 1D analog of a number of 1D, 2D or 3D basic units and is arranged to emit such a first counter wave. In yet another example, the counter unit defines the shape of a 2D analog of a 1D, 2D or 3D basic unit and is arranged to emit the first counter wave. In yet another example, the counter unit has the shape of at least one 2D analog of a number of 1D, 2D or 3D basic units and is arranged to emit a first counter wave. In yet another example, the counter unit defines a 3D analog shape of a 1D, 2D or 3D basic unit and is arranged to emit a first counter wave. In yet another example, such a counter unit has the shape of at least one 3D analog of a number of 1D, 2D or 3D basic units and is arranged to emit a first counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system can be provided in a variety of arrangements. In one example, such a system includes at least one counter unit that is arranged to define a shape that matches the shape of the base unit and to also emit a first counter wave. In yet another example, the system includes at least one counter unit arranged to define a shape that matches the shape of a number of basic units and then emits a first counter wave. In yet another example, the system may also have multiple counter units arranged to form an overall shape that matches the shape of the base unit and emit a first counter wave. In yet another example, the system may have multiple counter units arranged to emit a first counter wave, forming an overall shape that matches another overall shape of multiple basic units. .

  In yet another exemplary embodiment of this aspect of the invention, the system can be provided in a variety of arrangements. In one example, such a system includes at least one counter unit disposed between the base unit and the target space, having a width longer than the width of the base unit and then arranged to emit counter electromagnetic waves. The counter electromagnetic wave defines a phase angle that is at least partially opposite to the phase angle of the harmful wave and has a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave due to its width. Thus, the opposite phase angle is arranged to counter the harmful waves in the target space. In yet another example, the system is included between a target space and a number of basic units and has a width that is even longer than a contour formed by the width of the basic units, and is later described in this paragraph. It is also possible to have at least one counter unit arranged to emit a counter wave that has been transmitted. In yet another example, the system is arranged between a basic unit and a target space, arranged in an array defined along a width that is greater than the width of the basic unit, and the counter wave described above in this paragraph is It includes a number of counter units that are also arranged to discharge. In another example, the system is arranged between a target space and a number of basic units, arranged in an array defined along a width longer than the contour defined by all basic units, this paragraph Including a number of counter units arranged to emit counter waves as described above. In yet another example, the system is positioned on the opposite side of the target space with respect to the base unit, and defines a width that is even shorter than the width of the base unit, and is arranged to emit the counter wave described above in this paragraph. Including at least one counter unit. In yet another example, the system is positioned on the opposite side of the target space for a number of basic units, has a width that is even shorter than the contour formed by the basic units, and emits the counter wave described above in this paragraph. Including at least one counter unit arranged to. In yet another example, and other systems are located on the opposite side of the target space with respect to the base unit, and are arranged in a defined arrangement along a width that is even shorter than the width of the base unit, as described above in this paragraph. It is also possible to have a number of counter units arranged to emit counter waves. In yet another example, such a system is placed on the opposite side of the target space with respect to the basic unit and arranged in an array along a width that is even shorter than the contour formed by all the basic units, as described above in this paragraph. Alternatively, it may have multiple counter units arranged to emit counter waves.

  In yet another exemplary embodiment of this aspect of the invention, the system matches the shape of the base unit with the shape of the at least one counter unit, while the wire, strip, sheet, tube, coil, helix, The mesh, a mixture thereof, a combination thereof, and / or an array thereof define the shape of the at least one counter unit arranged to emit a first counter wave. Alternatively, such a counter unit can be combined with a wire, strip, sheet, tube, coil, helix, mesh, mixture thereof, or combination thereof while matching the shape of the counter unit to the overall shape of a number of basic units. And / or define at least one shape of the array and may be arranged to emit a first counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system is arranged in an arrangement similar to (or identical to) the shape of the basic unit and arranged to emit a second counter wave. At least one counter unit.

  In yet another exemplary embodiment of this aspect of the invention, the system is arranged in an arrangement different from the shape of such a basic unit and is arranged to emit a second counter wave. Includes a counter unit.

  In yet another exemplary embodiment of this aspect of the invention, the system defines a size that is larger than the size of such a basic unit and is positioned between that basic unit and the target space, after which the counter It may also include at least one counter unit arranged to emit electromagnetic waves, the counter electromagnetic waves defining a phase angle that is at least partially opposite to the phase angle of such harmful waves and based on its size It has a wave characteristic that is at least partially similar to that of the harmful wave, and is therefore arranged to counter the harmful wave in the target space with a phase angle that is opposite. Alternatively, such a counter unit defines a size that is larger than the size of the basic unit and is arranged on the opposite side of the target space with respect to the basic unit and arranged to emit the counter wave described above in this paragraph. Can also be done.

  In yet another aspect of the present invention, an exemplary system matches the arrangement of at least one portion of the system with the arrangement of the basic unit, and eliminates harmful waves in the target space and / or the harmful waves. Can be provided to counter harmful electromagnetic waves radiated from the basic unit of at least one wave source by suppressing the heading toward the target space, where the basic unit is The target space is defined between the system and the user, including only a portion of the source that causes the radiation to affect the path of harmful waves therethrough.

  In one exemplary embodiment of this aspect of the invention, the system matches the direction of propagation of such harmful waves, matches the direction of the current flowing through the base unit, and matches the direction of the voltage applied to the base unit. Arranged in an alignment to match the direction along the longitudinal axis of the basic unit and / or to match the minor axis direction of such basic unit perpendicular to the longitudinal axis and arranged to emit counter electromagnetic waves It may also include at least one counter unit, wherein the counter wave defines a phase angle that is at least partially opposite to the phase angle of the harmful wave, and its alignment causes at least a wave characteristic of the harmful wave and Have partially similar wave characteristics and are therefore arranged to counter harmful waves in the target space by the opposite phase angle

  In yet another exemplary embodiment of this aspect of the invention, the system emits a counter electromagnetic wave that is located at a location between the target space and the base unit and that defines an amplitude that is less than the amplitude of the harmful wave. Including at least one counter unit. In another example, the counter unit may be arranged at a position on the opposite side of the target space with respect to the basic unit and arranged to emit a counter electromagnetic wave that defines an amplitude greater than the amplitude of the harmful wave. In any example, the counter unit defines a phase angle that is at least partially opposite the phase angle of the harmful wave, and depending on its position, the counter unit has a wave characteristic that is at least partially similar to that of the harmful wave. And therefore also arranged to counter harmful waves in the target space with a phase angle that is the opposite.

  In yet another exemplary embodiment of this aspect of the invention, the system is in an arrangement surrounding at least a portion (or the entire) of the basic unit and is arranged to emit at least one counter electromagnetic wave. Includes one counter unit. In another example, the counter unit may exist in an arrangement surrounded by at least a part (or all) of the basic unit and may be arranged to emit counter electromagnetic waves. In another example, the counter unit may be arranged on the side (or side by side) with respect to the basic unit and arranged to emit counter electromagnetic waves. In each of these examples, the counter electromagnetic wave defines a phase angle that is at least partially opposite to the phase angle of the harmful wave, and the wave characteristic that is at least partially similar to the wave characteristic of the harmful wave due to its placement. And therefore arranged to counter harmful waves in the target space with a phase angle that is the opposite.

  In yet another exemplary embodiment of this aspect of the invention, the system is present in a symmetric (or asymmetric) arrangement with respect to at least a portion of the basic unit, and then emits counter electromagnetic waves. Wherein the counter electromagnetic wave has a phase angle that is at least partly opposite to the phase angle of the harmful wave, and the arrangement causes a wave characteristic of the harmful wave and at least It has partially similar wave characteristics and is therefore arranged to counter harmful waves in the target space with the opposite phase angle.

  In yet another exemplary embodiment of this aspect of the invention, the system may also include at least one counter unit that is in a fixed arrangement relative to the base unit and is arranged to emit counter electromagnetic waves. The counter electromagnetic wave defines a phase angle that is at least partially opposite to the phase angle of the harmful wave, and has a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave due to its fixed arrangement, and thus , With the phase angle being the opposite, arranged to counter harmful waves in the target space.

  In yet another exemplary embodiment of this aspect of the invention, the system includes at least one counter unit that is in a moving arrangement with respect to the base unit and is then arranged to emit counter electromagnetic waves. The counter electromagnetic wave defines a phase angle that is at least partially opposite to the harmful wave and has a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave while moving with respect to such a basic unit. Therefore, it is arranged to counter harmful waves in the target space with the opposite phase angle.

  In yet another aspect of the present invention, the exemplary system matches such counter waves and harmful waves along the wavefront of the counter electromagnetic wave, and eliminates harmful waves in the target space and / or By suppressing the propagation towards the target space, it can also be provided to counter the harmful electromagnetic waves emitted from the basic unit of at least one wave source with its counter electromagnetic wave, where the basic unit Is arranged to contain only a part of the source that irradiates the harmful waves and thereby affects the path of the harmful waves, but the target space is between the system and the user. It is formed.

  In one exemplary embodiment of this aspect of the invention, the system is arranged based on a pre-set arrangement along (or with respect to) the wavefront of the wavefront, and It may also comprise at least one counter unit arranged to emit, the counter wave having a phase angle that is at least partly opposite to the phase angle of such harmful waves and is harmful by such arrangement in the target space. It is at least partially matched to the wavefront of the wave and is therefore arranged to counter such harmful waves by the opposite phase angle in the target space. Such counter wave is hereinafter referred to as “third type counter wave” or simply “third counter wave”.

  In yet another exemplary embodiment of this aspect of the invention, the system can be provided in a variety of arrangements. In one example, the system is arranged in a frontal array defined along at least one wavefront of such a wavefront and then arranged to emit a counter wave that defines an amplitude that is less than the amplitude of the harmful wave. A counter unit can also be included, where the counter unit is arranged in an array between the basic unit and the target space. In yet another example, such a system is arranged in such a front array along at least one wavefront of the wavefront, each of a number of counters arranged to emit a counterwave defining an amplitude that is less than the amplitude of the harmful wave. Units can also be included, where the counter units are arranged in an array between the basic unit and the target space. In both examples, the counter unit is arranged to emit a third counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system can be provided in a variety of arrangements. In one example, the system can also include a single counter unit arranged in a rear array and arranged to emit a counter wave that defines an amplitude greater than that of the harmful wave, where such counter unit is Arranged in the arrangement on the opposite side of the target space with respect to the basic unit. In yet another example, the system can also include a number of counter units, each arranged in a rear array and arranged to emit a counter wave that defines an amplitude greater than the amplitude of the harmful wave, where The counter units can also be arranged in that arrangement on the opposite side of the target space with respect to the basic unit. In both examples, the counter unit is arranged to emit a third counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system can be provided in a variety of arrangements. In one example, the system includes a single counter unit arranged in a front array along one of the wave fronts and arranged to emit a counter wave defining an amplitude that is less than the amplitude of the harmful wave. Where the wavefront is defined by harmful waves emitted by a number of basic units, and the counter units are arranged in such an arrangement between the basic units and the target space. In yet another example, the system is arranged in a number of frontal arrangements along one of the wavefronts, each arranged to emit counter waves that define an amplitude that is less than the amplitude of the harmful wave. A counter unit can also be included, where the wavefront is defined by harmful waves irradiated by a number of basic units, all counter units being arranged in such an arrangement between the basic unit and the target space. In both examples, the counter unit is arranged to emit a third counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system can be provided in a variety of arrangements. In one example, the system can also include a single counter unit arranged in a rear surface arrangement and then arranged to emit a counter wave having an amplitude greater than that of the harmful wave, where the wave front is Defined by such harmful waves emitted by a number of basic units, such counter units are arranged in such an arrangement on the opposite side of the target space with respect to the basic units. In yet another example, the system can also include a number of counter units arranged in a rear surface arrangement and arranged to emit a counter wave that defines an amplitude greater than that of the harmful wave, where the wave front is Formed by such harmful waves irradiated by a number of basic units, the counter unit is arranged in an array on the opposite side of the target space with respect to the basic unit. In both examples, the counter unit is arranged to emit a third counter wave.

  In yet another aspect of the present invention, the exemplary system matches the harmful wave along the wavefront of the harmful wave with the counter electromagnetic wave, and / or eliminates the harmful wave in the target space with the counter wave. By suppressing the propagation of harmful waves to the target space with the counter wave, it can also be provided to counter the harmful electromagnetic waves irradiated from the basic unit of at least one wave source with the counter electromagnetic wave, The basic unit is arranged to contain only a part of the source that irradiates the harmful waves and thereby affects the path of the harmful waves, but the target space is the system and the user. Stipulated in between.

  In one exemplary embodiment of this aspect of the invention, such a system can be provided in a variety of arrangements. In one example, such a system includes a single counter unit that emits counter waves and is arranged to be included in a preset array defined along at least one wavefront of the wavefront. In yet another example, the system emits a counter wave and is arranged to be included in a preset arrangement defined along at least one wavefront of a wavefront formed by multiple basic units of multiple wave sources. Single counter unit. In yet another example, the system includes a number of counter units that are arranged to emit counter waves and to be arranged in a pre-defined arrangement defined along at least one wave front of the wave front. In yet another example, the system emits counter waves and is arranged in a pre-set array defined along at least one wavefront defined by multiple basic units of multiple wave sources. It includes a number of counter units arranged. In all such examples, the counter unit is arranged to emit a third counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system can be provided in a variety of arrangements. In one example, the system can also include a single counter unit that emits counter waves and is arranged between the target space and the basic unit based on the arrangement, which in turn, the arrangement is , Defined along at least one of the wavefronts, and arranged to be wider than its basic unit. In yet another example, such a system may include a number of counter units each arranged to emit counter waves and arranged in an array between the base unit and the target space, The arrangement is formed along at least one wavefront of the wavefront and arranged to be wider than the basic unit. In both examples, such a counter unit is arranged to emit a third counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system can be provided in a variety of arrangements. In one example, the system can also include a single counter unit that emits counter waves and is arranged to be positioned between the target space and the base unit based on the arrangement, and in turn, the arrangement is , Defined along at least one wavefront of such wavefronts and arranged to be narrower than its basic unit. In yet another example, the system may include a number of counter units, each arranged to emit such counter waves and arranged in an array between the base unit and the target space, The arrangement is arranged so as to be defined along at least one wavefront of the wavefront and arranged to be narrower than the basic unit. In both examples, such a counter unit is arranged to emit a third counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system can be provided in a variety of arrangements. In one example, the system may include a single counter unit that emits counter waves and is arranged to be positioned between the base unit and the target space based on the arrangement, which in turn, Are arranged so as to be similar (or identical or identical) to the arrangement of at least one wavefront of the wavefront. In yet another example, the system can include a single counter unit that emits such counter waves and is arranged to be arranged in an array on the opposite side of the target space with respect to the basic unit, the arrangement being Arranged to be similar (or identical or identical) to at least one arrangement of wavefronts. In yet another example, the system may include a number of counter units arranged such that each emits such counter waves and is arranged in an array between the base unit and the target space, the array being The wavefronts are arranged to be similar (or identical or coincident) with at least one wavefront. In yet another example, the system can also include a number of counter units arranged such that each emits a counter wave and is arranged in an array on the opposite side of the target space with respect to the base unit, the array being The wavefronts are arranged to be similar (or identical or coincident) with at least one wavefront. In all such examples, such a counter unit is arranged to emit a third counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system can be provided in a variety of arrangements. In one example, such a system emits a counter wave, defines a shape that does not resemble (or is identical to, coincides with) the shape of at least one wavefront of the wavefront, and is similar (or identical) to an array of at least one wavefront of that wavefront. And at least one counter unit arranged to be arranged between the basic unit and the target space based on the arrangement arranged so as not to coincide. In yet another example, the system emits such counter waves, defines a shape that is not similar (or identical or identical) to the shape of at least one wavefront of the wavefront, and is similar to an array of at least one wavefront of that wavefront ( Or at least one counter unit arranged to be arranged on the opposite side of the target space with respect to the basic unit in an arrangement arranged so as not to be identical or identical. In both cases, such a counter wave has a phase angle that is at least partially opposite to the phase angle of the harmful wave, and at least partially matches the wave front of such harmful wave by its shape in the target space, and thus the target Arranged to counter harmful waves with the opposite phase angle in space.

  In yet another exemplary embodiment of this aspect of the invention, the system can be provided in a variety of arrangements. In one example, such a system includes at least one counter unit arranged to emit a counter wave and to be arranged in an array surrounding at least a portion (or all) of such a wavefront. In yet another example, the system includes at least one counter unit arranged to emit a counter wave and be arranged in an array surrounded by at least a portion (or all) of the wavefront. In yet another example, the system includes at least one counter unit arranged to emit counter waves and to be arranged in a side-by-side (or side-by-side) arrangement with respect to at least a portion (or all) of the wavefront. In all such examples, the counter unit is arranged to emit a third counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system can be provided in a variety of arrangements. In one example, such a system is along a wavefront of at least one of the wavefronts in an array defining wires, strips, sheets, tubes, coils, spirals, meshes, mixtures thereof, combinations thereof, and / or arrays thereof. It may also comprise at least one counter unit arranged and arranged between the basic unit and the target space while being arranged to emit counter waves. In yet another example, the system is along a wavefront of at least one of the wavefronts in an array of wires, strips, sheets, tubes, coils, spirals, meshes, mixtures thereof, combinations thereof, and / or arrays thereof. It is arranged and comprises at least one counter unit arranged to emit counter waves while being arranged on the opposite side of the target space with respect to the basic unit. In both examples, the counter unit is arranged to emit a third counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system is arranged in an array, each defined on the far side of the target space with respect to the base unit, and individually by the counter unit. The sum of the emitted counter waves includes at least two counter units arranged to emit a counter wave to define a wave front having a larger radius of curvature than the individual counter wave wave fronts. Thereafter, at least one or both of such counter units can also be arranged to emit a third counter wave.

  In yet another aspect of the present invention, the exemplary system matches the harmful wave along the wavefront of the harmful wave with the counter wave, and / or eliminates the harmful wave in the target space with the counter wave. By suppressing the harmful wave from propagating to the target space with the counter wave, it can also be provided to counter the harmful electromagnetic wave emitted from the basic unit of at least one wave source with the counter electromagnetic wave, The basic unit is arranged to contain only a part of the source that emits the harmful waves and thereby affects the path of the harmful waves, but the target space is between the system and the user. Stipulated in between.

  In one exemplary embodiment of this aspect of the invention, such a system can be provided in a variety of arrangements. In one example, such a system includes a single counter unit that defines a shape that matches the shape of a single basic unit and can also be arranged to emit such counter waves. In yet another example, the system includes a number of counter units that are arranged to define an overall shape that matches the overall shape of a single basic unit and emit counter waves. In both cases, the counter wave defines a phase angle that is at least partially opposite to the phase angle of the harmful wave and matches at least partially the wave front of the harmful wave by its shape in the target space, and thus the target space. In order to counter harmful waves, the phase angle is the opposite.

  In yet another exemplary embodiment of this aspect of the invention, the system can be provided in a variety of arrangements. In one example, the system defines a shape that matches the overall shape and / or arrangement of at least one of the basic units, not all of the multiple basic units, and is simply arranged to emit counter waves. Including one counter unit. In yet another example, the system includes a single counter unit arranged to define a shape that matches the overall shape and / or the overall arrangement of all multiple basic units. In yet another example, the system defines an overall shape that matches the overall shape and / or overall arrangement of at least one basic unit of the basic unit, not all of the multiple basic units, and emits a counter wave. Including a large number of counter units. In yet another example, the system includes multiple counter units that are arranged to emit a counter wave that defines an overall shape that matches the overall shape and / or arrangement of all multiple basic units. In all such examples, the counter wave also has a phase angle that is at least partially opposite to the phase angle of such noxious waves, and such noxious wave fronts due to such shape and / or arrangement in target space. Are thus arranged to counter harmful waves with a phase angle that is the opposite in the target space.

  In yet another exemplary embodiment of this aspect of the invention, the system can be provided in a variety of arrangements. In one example, the system includes a single counter unit that defines a preset shape and is arranged with respect to a single basic unit based on a preset arrangement and arranged to emit a counter wave. Where, afterwards, such shapes and / or arrangements can also be arranged to match at least one wavefront of such wavefronts. In yet another example, the system includes a number of counter units that define a preset overall shape, are arranged with respect to a number of basic units in a preset arrangement, and are arranged to emit such counter waves. Here, the shape and / or the arrangement can also be arranged to match at least one wavefront of the wavefront. In both cases, the counter wave has a wavefront similar to (or identical to) such shape and / or arrangement and matches the wavefront of the harmful wave with the wavefront of the counter wave in the target space, while the phase angle of the harmful wave And are arranged to counter harmful waves by the opposite phase angle in the target space.

  In yet another exemplary embodiment of this aspect of the invention, the system can be provided in a variety of arrangements. In one example, the system includes a single counter unit that is shaped, sized, and / or arranged to emit a counter wave that matches at least one wavefront of such a wavefront of harmful waves from a single basic unit. Including. In yet another example, such a system may include a number of counter units configured, sized and arranged to emit such counter waves, the sum of the counter waves being emitted by a single basic unit. And arranged to match at least one wavefront of the generated harmful wavefront. In yet another example, the system emits a counter wave that matches at least one wavefront of the combined wavefronts of harmful waves emitted by multiple basic units of multiple sources, and is shaped, sized. And may have a single counter unit arranged. In yet another example, the system is configured, sized, and arranged to emit a counter wave that matches at least one wavefront of the combined wavefronts of harmful waves emitted from multiple basic units of multiple sources. A number of counter units. In all examples, the counter wave forms a wavefront similar to (or identical to) such shape, size and / or arrangement of the counter unit and matches the wavefront in the target space, while adding up the harmful waves. It has a phase angle that is at least partially opposite to the phase angle and is therefore arranged to counter harmful waves with a phase angle that is opposite to it in the target space.

  In yet another aspect of the present invention, an exemplary system eliminates harmful waves in the target space and / or propagates the harmful waves to the target space with counter electromagnetic waves emitted by other parts of the system and By suppressing this, it is also possible to provide a counter wave to counter harmful electromagnetic waves emitted from the basic unit of at least one wave source, where the basic unit emits the harmful waves. And is arranged to include only a portion of the source that causes the harmful wave path to be affected, and the harmful wave defines a number of wave fronts while being arranged to propagate, and its target space is It is formed between the system and the user.

  In one exemplary embodiment of this aspect of the invention, the system defines a pre-set shape and / or size, and the array is defined along at least a portion of at least one wavefront of the wavefront. And then arranged to emit a counter wave that propagates along its wavefront in the target space, the counterwave being at least one of the wavefronts of harmful waves Define a phase angle that matches the wavefront while at least partially opposite the phase angle of such harmful waves, and is therefore arranged to counter the harmful waves by the opposite phase angle in the target space You can also.

  In yet another exemplary embodiment of this aspect of the invention, the system can be provided in a variety of arrangements. In one example, the systems are each arranged to define a pre-set shape and size, arranged in an array defined along at least a portion of at least one wavefront of the wavefront, and then in the target space It includes a number of counter units arranged to emit counter waves that propagate along the wavefront. In yet another example, such systems are each arranged to define a pre-set shape and / or size and are arranged in an arrangement that does not match any wavefront in such wavefront, but in the target space It is also possible to have multiple counter units arranged to emit counter waves that propagate along the wavefront. In both cases, the sum of the counter waves emitted by at least two counter units of the counter unit has a phase angle that matches the wavefront of the harmful wave while at least partially opposite the phase angle of the harmful wave. However, it can also be arranged to counter the harmful waves with the opposite phase angle in the target space.

  In yet another aspect of the invention, an exemplary loudspeaker system includes at least one loudspeaker having a number of basic units that emit harmful electromagnetic waves when current flows through them, and that eliminates such harmful waves in the target space. It can also be provided to be able to counter the harmful waves by erasing and / or suppressing the harmful waves from propagating towards the target space, where the basic unit is The target space is defined between the user and the system, arranged to include only the part of the speaker that emits harmful waves and through which it affects the path of the harmful waves.

  In one exemplary embodiment of this aspect of the invention, the system includes at least one cone, at least one voice coil, at least one permanent magnet, and at least one counter unit. The cone is arranged to define at least two ends, but the voice coil forms or includes at least one electromagnet formed around one of the cone ends, within which the source Signals and functions as one of these basic units, defines a dynamic magnetic field around its voice coil, and functions as one of the basic units in response to its signal source However, it is arranged to emit such harmful waves. The permanent magnet forms a static dynamic field around it, magnetically couples to the voice coil, and functions as another basic unit among such basic units that transmit harmful waves through the voice coil Are arranged as follows. The interaction between such static and dynamic magnetic fields is then arranged to oscillate the cone and generate an audible sound in response to the source signal. In one example, the counter unit defines the same (or similar) shape as its voice coil and / or magnet and is then arranged to emit a counter electromagnetic wave, which counters the harmful wave phase angle. Define a phase angle that is at least partially opposite, and its shape defines a wave characteristic that is at least partially similar to that of the harmful wave, and is therefore based on the opposite phase angle in the target space To counter the harmful waves. In another example, the counter unit is arranged in a defined arrangement along at least one wavefront of multiple wavefronts of harmful waves formed by the voice coil and permanent magnet so as to emit counter electromagnetic waves. The counter electromagnetic wave defines a phase angle that is at least partially opposite to the phase angle of the harmful wave, and the arrangement causes a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave. So that the harmful waves are counteracted by the opposite phase angle in the target space.

  In yet another exemplary embodiment of this aspect of the invention, the system includes at least one diaphragm, at least two grids, and at least one counter unit. The diaphragm is arranged to define a static electric field around the diaphragm while functioning as one of the basic units that are electrically charged and vibrate. Such a grid is disposed on the opposite side of the diaphragm and creates a dynamic electric field between them in response to the source signal while flowing the source signal therein, while vibrating the diaphragm. An audible sound is generated by the interaction between the static and dynamic electric fields, and arranged to emit harmful waves in response to the source signal while acting as another basic unit of the basic unit Is done. In one example, such a counter unit defines the same (or similar) shape as its diaphragm and / or grid and is arranged to emit counter electromagnetic waves, which counter electromagnetic waves have a phase angle of the harmful waves. Has a phase angle that is at least partially opposite and has a wave characteristic that is at least partially similar to that of the harmful wave due to its shape and is therefore based on the opposite phase angle in the target space To counter the harmful waves. In another example, the counter unit is arranged in an array defined along at least one wavefront of multiple wavefronts of harmful waves defined by the diaphragm and / or grid to emit counter electromagnetic waves. The counter electromagnetic wave has a phase angle that is at least partially opposite to the phase angle of the harmful wave, and is based on such an arrangement and has a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave. And thus counteract the harmful waves by the opposite phase angle in the target space.

  In yet another exemplary embodiment of this aspect of the invention, the system includes at least one piezoelectric plate, at least two electrodes, at least one counter unit, and the like. The piezoelectric plate is arranged to convert the source voltage by the vibration of the piezoelectric plate while functioning as one of the basic units when vibrating, but the electrode is on the opposite side of the piezoelectric plate When the source voltage is applied to such a plate and then functions as another basic unit of the basic unit, the harmful voltage is released in response to the source signal while the source voltage is applied to the source voltage. Responsive to vibrate along the plate. In one example, the counter unit may define the same (or similar) shape as the diaphragm and / or electrode and be arranged to emit counter electromagnetic waves, which counter electromagnetic waves Defines a phase angle that is at least partially opposite to the phase angle of the wave, and its shape defines a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave, and is therefore opposite in the target space. Counter the harmful waves by the phase angle. In another example, the counter unit is arranged in an arrangement along at least one wavefront of multiple wavefronts of harmful waves defined by at least one of the piezoelectric plate and the electrode so as to emit counter electromagnetic waves. The counter electromagnetic wave is arranged and has a phase angle that is at least partly opposite to the phase angle of the harmful wave, and the arrangement defines a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave Therefore, the harmful wave is countered by the opposite phase angle in the target space.

  In yet another exemplary embodiment of this aspect of the invention, the system includes at least one body, a speaker, and at least one counter unit. Such a body part is placed on the user's ear and / or in the user's ear canal, but the speaker is supported by the body part and the basic unit is used to emit harmful waves. Arranged to contain. In one example, the counter unit defines the same (or similar) shape as at least one basic unit of the speaker basic unit and is arranged to emit counter electromagnetic waves, which counter electromagnetic waves Defines a phase angle that is at least partially opposite the phase angle of the wave, and by its shape has a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave, and is therefore opposite in the target space Counter the harmful wave by the phase angle. In another example, the counter unit is instead arranged in a defined arrangement along at least one wavefront of multiple wavefronts of harmful waves formed by the basic unit so as to emit counter electromagnetic waves. The arrayed electromagnetic wave defines a phase angle that is at least partially opposite the phase angle of the harmful wave, and the arrangement defines a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave. Therefore, the harmful wave is countered by the opposite phase angle in the target space.

  In yet another aspect of the present invention, the communication system includes a number of basic units that emit harmful electromagnetic waves, and eliminates the waves in the target space and / or directs the harmful waves to the target space. By suppressing, it can also be provided that it can counteract the harmful waves, where such a basic unit emits the harmful waves and through which it affects the path of the harmful waves The target space is defined between the user and the system.

  In one exemplary embodiment of this aspect of the invention, such a system may also have a main body part, a handset, at least one input module, at least one output module, and at least one counter unit. . The handset is arranged to be electrically connected to the main body part by a wire, but the input module is arranged on the handset and has at least one microphone functioning as one of the basic units. And then arranged to convert the user's audible sound into an output signal. Such an output module is arranged in the handset and has at least one speaker functioning as another basic unit among the basic units, which emits harmful waves from the basic unit while converting external source signals to audible sounds To be arranged. In one example, the counter unit is placed in the handset and defines the same (or similar) shape as at least one basic unit of the basic units of the input and / or output module, and then emits counter electromagnetic waves. The counter electromagnetic wave defines a phase angle that is at least partially opposite to the phase angle of the harmful wave, and a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave by its shape. Therefore, the counter wave is countered by a phase angle that is the opposite in the target space. In another example, the counter unit is arranged in an array formed along at least one wavefront of multiple wavefronts of harmful waves formed by the basic unit of the output module so as to emit counter electromagnetic waves. The arrayed electromagnetic wave defines a phase angle that is at least partially opposite the phase angle of the harmful wave, and the arrangement defines a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave. Therefore, the harmful wave is countered by the opposite phase angle in the target space.

  In yet another exemplary embodiment of this aspect of the invention, such a system includes a handset, at least one input module, at least one transmission module, at least one reception module, at least one output module, and at least One counter unit is included. The input module is arranged in the handset and includes at least one microphone functioning as a basic unit of one of such basic units and is arranged to convert a user's audible sound into an output signal, The transmission module is arranged to transmit its output signal wirelessly. Such a receiving module is arranged to receive the source signal wirelessly, and its output module is arranged in the handset and has at least one speaker functioning as the other basic unit among the basic units; Arranged to convert the source signal into audible sound while emitting harmful waves from the basic unit. In one example, the counter unit is located in the handset and defines the same (or similar) shape as at least one basic unit of the input and / or output module basic units, and then emits counter electromagnetic waves The counter electromagnetic wave defines a phase angle that is at least partially opposite to the phase angle of the harmful wave, and its shape causes a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave So that the harmful phase is counteracted by the opposite phase angle in the target space. In another example, the counter unit is arranged in an array defined along at least one wavefront of a number of such harmful waves formed by the basic unit of the output module and then emits a counter electromagnetic wave The counter electromagnetic wave defines a phase angle that is at least partially opposite to the phase angle of the harmful wave, and the arrangement causes a wave characteristic that is at least partially similar to the wave characteristics of the harmful wave. And thus counteract the harmful waves by the opposite phase angle in the target space.

  In yet another aspect of the invention, an exemplary system includes at least one motor that includes a number of basic units that emit harmful electromagnetic waves, suppressing the propagation of harmful waves toward the target space, and It can also be provided to counteract the harmful waves by eliminating the harmful waves in the target space, where such a basic unit emits the harmful waves and through which the harmful waves It includes only the part of the motor that is responsible for affecting the wave path, and its target space is defined between the user and the system.

  In one exemplary embodiment of this aspect of the invention, the system includes at least one body portion, at least one stator, at least one rotor, and at least one counter unit. The stator is fixedly coupled to the body portion, generates a static magnetic field around the stator, transmits harmful waves through the basic unit, and one of the basic units. Including at least one permanent magnet arranged to function as: The rotor is movably disposed on the stator, defines a dynamic magnetic field around the rotor when current flows through it, emits harmful waves, and other basic units of such a basic unit While functioning as a unit, it has at least one electromagnet arranged to rotate due to the interaction between such a static and dynamic magnetic field when current flows through it. In one example, the counter unit defines the same (or similar) shape as the stator and / or rotor and is arranged to emit counter electromagnetic waves, which counter electromagnetic waves have a phase angle of such harmful waves. Define a phase angle that is at least partially opposite to and, by virtue of its shape, also has a wave characteristic that is at least partially similar to that of the harmful wave, and thus is opposite to that in the target space. To resist the harmful waves. Such a counter unit is hereinafter referred to as “first type counter unit” or “first counter unit”. In yet another example, the counter unit is arranged in an array formed along at least one wavefront of multiple wavefronts of harmful waves formed by the rotor and / or stator and emits counter electromagnetic waves. The counter electromagnetic wave defines a phase angle that is at least partially opposite to the phase angle of the harmful wave, and the arrangement causes a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave. So that the harmful phase is counteracted by the opposite phase angle in the target space. Such a counter unit is hereinafter referred to as a “second type counter unit” or a “second counter unit”.

  In yet another exemplary embodiment of this aspect of the invention, the system includes at least one body portion, at least one stator, at least one rotor, and at least one first counter unit or at least One second counter unit is included. The stator is fixedly coupled to the body portion and generates a first dynamic magnetic field around the stator when current flows through the stator, transmitting harmful waves, and Including at least one first electromagnet arranged to function as one of the basic units. The rotor is movably disposed on the stator, defines a second dynamic magnetic field around the rotor when current flows through it, emits harmful waves, and other elements of the basic unit At least one second electromagnet arranged to rotate due to the interaction between the first dynamic magnetic field and the second dynamic magnetic field when the current flows through the basic unit. Including. Therefore, the first or second counter unit can counter the harmful wave by the counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system includes at least one body portion, at least one stator, at least one rotor, and at least one first counter unit or at least One second counter unit is included. Such a stator is fixedly coupled to its body part and generates a dynamic magnetic field around the stator when current flows through it, transmitting harmful waves, and one of the basic units. Forms or includes at least one electromagnet arranged to function as a basic unit. The rotor is movably coupled to the stator, defines a dynamic magnetic field around the rotor, transmits such harmful waves through it, and functions as another basic unit of the basic unit. However, it includes at least one permanent magnet arranged to rotate due to the interaction between the static and dynamic magnetic fields when current flows through the stator. Therefore, the first or second counter unit can counter the harmful wave by the counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system includes at least one body portion, at least one stator, at least one rotor, and at least one first counter unit or at least One second counter unit is included. The stator is fixedly coupled to the body and generates a dynamic magnetic field around the stator when current flows through it, transmitting one such harmful wave, while one of the basic units. Having at least one electromagnet arranged to function as one basic unit. The rotor is movably coupled to such a stator, induces a current in response to the dynamic magnetic field, transmits harmful waves therethrough, and functions as another basic unit among the basic units. , Including at least one electrical conductor arranged to rotate due to an interaction between a counterbalancing magnetic field defined by the induced current and such a dynamic magnetic field. Therefore, the first or second counter unit can counter the harmful wave by the counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system includes at least one body portion, at least one stator, at least one rotor, and at least one first counter unit or at least One second counter unit is included. The stator is fixedly coupled to the body, and when current flows through it, it generates a dynamic magnetic field around the stator and transmits harmful waves while transmitting one of the basic units. Includes or forms at least one electromagnet arranged to function as a basic unit. The rotor is movably coupled to the stator, forms a static magnetic field around the rotor, and then transmits such harmful waves through it as another basic unit of the basic unit While functioning, it has at least one permanent magnet arranged to translate linearly by interaction between static and dynamic magnetic fields when current flows through the stator. Therefore, the first or second counter unit can counter the harmful wave by the counter wave.

  In yet another aspect of the present invention, the system includes a number of basic units that emit harmful electromagnetic waves to prevent the harmful waves from propagating to the target space and / or to eliminate the harmful waves in the target space. Is manufactured to resist the harmful waves emitted from such basic units, where the basic unit emits the harmful waves and through which the path of such harmful waves is affected. And the target space is defined between the system and the user.

  In one exemplary embodiment of this aspect of the invention, such a system includes a main body portion, at least one electric motor, at least one shaft, and at least one first counter unit or at least one first. 2 counter units. Such an electric motor is supported by its body part and includes at least one rotor and at least one stator, both of which function as a basic unit, and rotates (or translates) the rotor when current flows through it. To be arranged. The shaft is movably maintained by the body portion and is movably coupled with the stator and arranged to rotate according to the rotor while generating an electromotive force. Accordingly, the first or second counter unit can also counter harmful waves by the counter wave.

  In yet another exemplary embodiment of this aspect of the invention, such a system includes at least one mesh, at least one blade, at least one electric motor, and at least one first counter unit. Or it can also have a main body part provided with at least 1 2nd counter unit. The blade is movably disposed under the mesh and arranged to cut the hair protruding through the mesh, but the electric motor is supported by the body part and takes both Includes at least one rotor and at least one stator that function as a basic unit, mechanically coupled to the blade, and rotating (or translating) the blade when current flows through it, Arranged to cut. Accordingly, the first or second counter unit can also counter harmful waves by the counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system may also have a handle, a brush, at least one electric motor, and at least one first (or second) counter unit. . The brush is arranged to be movably disposed on one end of the handle, but the electric motor is supported by the body part, at least one rotor, both functioning as a basic unit, and at least It includes a stator and is mechanically coupled to the brush and arranged to rotate (or translate) the brush as current flows through it. Accordingly, the first or second counter unit can also counter harmful waves by the counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system includes a main body portion, at least one fan, at least one electric motor, at least one heating unit, and at least one counter unit or at least One second counter unit is included. The main body portion includes an air passage having at least one air inlet and at least one air outlet, but the fan is disposed along the air passage. The electric motor is supported by such a body part and includes at least one rotating part and at least one fixed part, both of which function as a basic unit, mechanically coupled with the plate, and rotating (or translating) the fan. The fan is arranged to move), the fan flows air through the air inlet, moves the air through the air passage, and then exhausts such air through the air outlet when current flows through it. To do. The heating unit is disposed along the air passage, heats the air flowing through the air passage, and is heated by one of the clothes stored in the user's hair and body from the air outlet. Arranged to exhaust air. Accordingly, the first or second counter unit can also counter harmful waves by the counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system includes a main body portion, a chamber, at least one fan, at least one electric motor, and at least one first counter unit or at least one. Two second counter units. The main body portion includes an air passage having at least one air inlet and at least one air outlet, the chamber is arranged to be disposed along the passage, and the fan is disposed in the air passage. Arranged along. The electric motor is supported by the body part and has at least one rotor and at least one stator, both functioning as a basic unit, mechanically coupled to the fan, rotating the fan, Arranged to collect undesired particles in the chamber, the fan causes air to flow through the air inlet and move the air through the air passage while creating a vacuum in the chamber, and the current is When it flows in, the air is discharged through the air discharge port. Accordingly, the first or second counter unit can also counter harmful waves by the counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system includes a main body portion, at least one applicator, at least one electric motor, and at least one first counter unit or at least one A second counter unit is included. The applicator is arranged to be movably coupled to the body part, but the electric motor is supported by the body part, at least one rotor and at least one of which both function as a basic unit It has two stators in it and is mechanically coupled to the applicator and arranged to rotate (or translate) the applicator as current flows through it. Accordingly, the first or second counter unit can also counter harmful waves by the counter wave. Such a system includes an electric can opener whose applicator is arranged to secure and rotate the can, an electric drill including the shaft arranged so that the applicator rotates the shaft angularly, and the applicator is a shaft An electric screwdriver having its shaft arranged to rotate, a sander having its shaft arranged so that its applicator moves (or translates) its shaft, and its motor is in one position within its body part A dishwasher arranged to transmit water from one position to another and the applicator arranged to spray (or spray) the water at the body, the applicator being at least one of the shafts Arranged to rotate at least part of one shaft and its body part It is arranged to be used as the washing machine or the like.

  In yet another exemplary embodiment of this aspect of the invention, the system includes a main body portion, at least one electric motor, at least one compressor, and at least one first counter unit or at least one A second counter unit is included. The main body part includes at least one chamber, and the electric motor is supported by the body part and has at least one rotor and at least one stator, both functioning as a basic unit, and is mechanically connected to the applicator. Coupled to each other and arranged to rotate (or translate) such an applicator as current flows through it. The compressor is arranged to generate cold air and expand the compressed at least one gas while supplying the cold air into or from the chamber. Accordingly, the first or second counter unit can also counter harmful waves by the counter wave. Such systems are arranged to be used as refrigerators, coolers, refrigerators, and / or air conditioners, each of which can generate its cold air.

  In yet another aspect of the present invention, an exemplary generation system includes a number of basic units that generate AC and / or DC electricity while emitting harmful electromagnetic waves to eliminate harmful waves in the target space and / or Or, it is manufactured to resist the harmful wave irradiated by the basic unit by suppressing the propagation of the harmful wave to the target space, where the basic unit emits the harmful wave. , Arranged to include only a portion of the system through which the harmful wave path is affected, and the target space is defined between the system and the user.

  In one exemplary embodiment of this aspect of the invention, such a system includes at least one body portion, at least one stator, at least one rotor, and at least one first counter unit or at least It is also possible to have one second counter unit. Such a stator is coupled to the body portion and arranged to generate a first magnetic field around the stator, but the rotor is movably coupled to the body portion and Generating a second magnetic field around the rotor, rotating in response to an external force, and generating such electricity in response to a force due to an interaction between the first magnetic field and the second magnetic field; Arranged. Therefore, the first or second counter unit can counter the harmful wave by the counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system includes at least one body portion of an automobile or airplane, at least one stator, at least one rotor, and at least one first. A counter unit or at least one second counter unit. The stator is placed in such a car or airplane and arranged to generate a first magnetic field around the stator, but the rotor is movably coupled with the stator, Generate a second magnetic field around the rotor, rotate in response to an external force, and generate electricity in response to such a force due to an interaction between the first magnetic field and the second magnetic field Arranged. Accordingly, the first or second counter unit can also counter harmful waves by the counter wave.

  In yet another aspect of the present invention, an exemplary system includes at least one coil of a conductive wire that irradiates harmful electromagnetic waves when current flows therein to suppress propagation of such harmful waves to the target space. And / or by erasing the harmful waves in the target space, provided to counter the harmful waves emitted from the coil, wherein the basic unit emits the harmful waves and through which the harmful waves are irradiated. Arranged to include only the portion of the system responsible for affecting the wave path, the target space is defined between the user and the system.

  In one exemplary embodiment of this aspect of the invention, the system includes at least one insert, a coil, and at least one first counter unit or at least one second counter unit. The insert is arranged to include therein at least one ferromagnetic material, paramagnetic material, and / or ferrimagnetic material, but the coil has a predetermined direction and a predetermined number of turns. It is wound along a predetermined portion of the insertion portion, and is arranged so as to emit harmful waves when a current flows therein. In one example, such counter unit defines the same (or similar) shape as the coil and is arranged to emit counter electromagnetic waves, which counter electromagnetic waves are at least partially opposite to the phase angle of such harmful waves. And has a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave due to its shape, and therefore the harmful wave is caused by the opposite phase angle in the target space. Try to resist. In yet another example, the counter unit is instead arranged in an array formed along at least one wavefront of the multiple wavefronts of the harmful wave formed by the coil so as to emit counter electromagnetic waves. The counter electromagnetic wave defines a phase angle that is at least partially opposite to the phase angle of the harmful wave, and the arrangement causes a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave. And therefore counteract the harmful waves by the opposite phase angle in the target space.

  In yet another exemplary embodiment of this aspect of the invention, the system includes at least one insert, at least two coils, and at least one counter unit. The insert includes at least one ferromagnetic material, paramagnetic material, and / or ferrimagnetic material therein and is arranged to define at least two sides thereon. One of the coils is arranged to be wound around the first side surface of the insertion portion with a preset direction and a preset number of turns, and the other coil of the coil is Arranged to be wound around the second side of the insertion section in a preset direction and also in other preset turns, both of which are spaced apart from each other and harmful when current flows through them Arranged to emit waves. In one example, the counter unit defines the same (or similar) shape as at least one of the coils and is arranged to emit a counter wave, the counter electromagnetic wave having at least a phase angle of the harmful wave and at least Has a phase angle that is partially opposite, and its shape includes a wave characteristic that is at least partially similar to the wave characteristic of that harmful wave, and therefore is affected by the opposite phase angle in the target space. To resist. Hereinafter, such a counter unit is referred to as a “third type counter unit” or a “third counter unit”. In yet another example, the counter unit is also arranged in an array formed along at least one wavefront of the multiple wavefronts of such harmful waves formed by the coil and arranged to emit counter electromagnetic waves The counter electromagnetic wave defines a phase angle that is at least partially opposite to the phase angle of the harmful wave, and the arrangement has a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave. In the target space, the harmful phase is countered by the opposite phase angle. Hereinafter, such a counter unit is referred to as a “fourth type counter unit” or a “fourth counter unit”.

  In yet another exemplary embodiment of this aspect of the invention, the system comprises a body portion, at least one insert, at least two coils, and at least one third counter unit or at least one fourth. Including a counter unit. The body portion is arranged to terminate with at least two electrical couplers, one coupled to an electrical source and the other coupled to an electrical device. The insert is disposed in the body portion and includes at least one ferromagnetic material, paramagnetic material, and / or ferrimagnetic material, and is arranged to define at least two sides on the insert. One of the coils is arranged to be wound around the first side surface of the insertion portion in a preset direction and a preset number of turns, and then the other coil of the coil is , Arranged not only in other preset directions but also around the second side of the insertion part by other preset turns, both of these coils being spaced apart from each other, Is arranged to emit harmful waves when flowing into it. Accordingly, the third or fourth counter unit can also counter harmful waves by the counter wave.

  In yet another aspect of the present invention, the wave emission system includes at least one basic unit that irradiates harmful electromagnetic waves to suppress propagation of the harmful waves toward the target space and / or in the target space. It is provided to counter the harmful waves by eliminating the harmful waves, where such a basic unit irradiates the harmful waves and through which one of the systems responsible for affecting the path of the harmful waves. The target space is defined between the user and the system.

  In one exemplary embodiment of this aspect of the invention, the system can also include a main body portion, at least one light emitting unit, and at least one counter unit. The light emitting units are arranged to emit visible light waves while being maintained in or inside such body parts and functioning as basic units that irradiate harmful waves when current flows through them, where such light emission At least a portion of the unit is arranged to be exposed through the body portion for propagating such visible light waves to the outside of the body portion. In one example, the counter unit defines the same (or similar) shape as the light emitting unit and is arranged to emit a counter electromagnetic wave, the counter electromagnetic wave being at least partially opposite to the phase angle of the harmful wave. Define a phase angle that is at least partially similar to the wave characteristics of such harmful waves by its shape, and thus resist such harmful waves by the opposite phase angle in the target space Like that. Hereinafter, such a counter unit is referred to as a “fifth type counter unit” or a “fifth counter unit”. In another example, the counter unit is arranged in an arrangement defined along at least one wavefront of multiple wavefronts of harmful waves formed by the light emitting unit, arranged to emit counter electromagnetic waves, The counter electromagnetic wave has a phase angle that is at least partially opposite to the phase angle of the harmful wave, and its arrangement defines a wave characteristic that is at least partially similar to the wave characteristic of such harmful wave, and therefore In the target space, the harmful phase is countered by the opposite phase angle. Hereinafter, such a counter unit is referred to as a “sixth type counter unit” or a “sixth counter unit”.

  In yet another exemplary embodiment of this aspect of the invention, the system includes a main body portion, at least one light emitting unit, and at least one fifth (or sixth) counter unit. Such a light emitting unit can also correspond to a cathode ray tube, a light emitting diode, an organic light emitting diode, and / or a plasma display panel, and is supported by its body part and irradiates such harmful waves when a current flows in it. Can be arranged to emit visible light waves. In addition, at least a part of the light emitting unit is arranged to be exposed through the body part in order to propagate the visible light wave to the outside of the body part. Accordingly, the fifth or sixth counter unit can also counter harmful waves by the counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system includes a main body portion, at least one light emitting unit, and at least one fifth (or sixth) counter unit. The light emitting unit includes at least one magnetron and at least one waveguide. The magnetron is arranged to generate microwaves therein, but the waveguide is arranged to guide the microwaves therethrough, where such magnetrons and / or waveguides are detrimental. It can also be arranged to function as a basic unit for irradiating waves. Accordingly, the fifth or sixth counter unit can also counter harmful waves by the counter wave.

  In yet another aspect of the present invention, an exemplary heating system includes at least one basic unit that irradiates harmful electromagnetic waves, eliminates harmful waves in the target space, and / or directs the harmful waves toward the target space. Manufactured to resist such harmful waves by suppressing propagation, where the basic unit irradiates the harmful waves and thereby causes the harmful wave paths to be affected again Arranged to include only a portion of such a system, the target space is defined between the user and the system.

  In one exemplary embodiment of this aspect of the invention, the system can also include a main body portion, at least one heating unit, and at least one counter unit. The heating unit is supported by the body portion and is arranged to irradiate heat waves (or infrared waves) while functioning as a basic unit that irradiates harmful waves when an electric current flows therein. Such a heating unit is arranged to include at least one linear resistive wire and / or a coiled resistive wire, at least part of such a heating unit for propagating the heat wave outside the body part. Arranged to be exposed through the body part. In one example, the counter unit defines the same (or similar) shape as the heating unit and is then arranged to emit a counter electromagnetic wave, the counter electromagnetic wave being at least part of the phase angle of the harmful wave A phase angle that is opposite in nature and has a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave due to its shape, and is therefore affected by the opposite phase angle in the target space. To resist. Therefore, the counter unit is hereinafter referred to as “seventh type counter unit” or “seventh counter unit”. In another example, such counter units are arranged in an array defined along at least one wavefront of a number of such harmful wave fronts formed by the heating unit and arranged to emit counter electromagnetic waves. The counter electromagnetic wave defines a phase angle that is at least partially opposite to the phase angle of the harmful wave and has a wave characteristic that is at least partially similar to the wave characteristic of the harmful wave due to the arrangement; Therefore, the harmful wave is resisted by the opposite phase angle in the target space. Such a counter unit is hereinafter referred to as “eighth type counter unit” or “eighth counter unit”.

  In yet another exemplary embodiment of this aspect of the invention, the system includes a main body portion, at least one heating unit, and at least one seventh (or eighth) counter unit. Its main body part is formed as an electric blanket, electric mat (or mattress), electric heating pad, hair set machine or hair curler and is arranged to physically contact at least a part of the user during use. The Such a heating unit functions as a basic unit that irradiates such harmful waves when an electric current flows through it, while being maintained in its body part, generating heat and transferring the heat to the user by conduction of heat. The heating unit is arranged to have at least one linear resistive wire and / or at least one coiled resistive wire. Therefore, the seventh or eighth counter unit can counter the harmful wave by the counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system includes a main body portion, at least one heating unit, at least one actuator, and at least one seventh (or eighth) counter unit. including. The main body portion is formed as a hair dryer or a convection heater and is arranged to include at least one air passage having at least one air inlet and at least one air outlet. Such a heating unit is arranged along the air passage and is arranged to heat the air in the air passage while functioning as a basic unit for irradiating such harmful waves when electric current flows in the air unit. The actuator is fluidly coupled to the passage and arranged to discharge heated air through the air outlet. Therefore, the seventh or eighth counter unit can also counter harmful waves by the counter wave.

  In yet another exemplary embodiment of this aspect of the invention, the system includes a main body portion, at least one heating unit, and at least one seventh (or eighth) counter unit. The main body portion is arranged to form an area (or chamber) in which food is arranged for cooking. The heating unit is mechanically supported on or by the body portion and exposed through at least a portion of the region (or is thermally coupled to at least a portion of the chamber) and within it. At least one linear resistive wire and / or coiled resistive wire that functions as a basic unit when current flows, generates heat while emitting such harmful waves, and transmits the heat to the food. Arranged to contain. Therefore, the seventh or eighth counter unit can counter the harmful wave by the counter wave.

  Embodiments of such system aspects of the invention may also include one or more of the following characteristics, etc., and configuration and / or operational changes and / or variations of the system are within the scope of the invention.

  At least a portion (or all) of such a basic unit can be exposed through the wave source, or the basic unit can be placed in the wave source, where the basic unit is a conductive wire, sheet, and / or It can also include a system plate. Such a system can also be any electrical device that includes at least one coil of electrical conductors, where the device including that coil is an electromagnet, solenoid, toroid, speaker, motor, generator, transformer, etc. There can also be. The basic unit of such a device includes a coil, an insert made of at least one ferrimagnetic material, any part of the device through which unstable current flows, any part of the device to which unstable current is applied, etc. You can also.

  The system can also be any electrical device including at least one speaker capable of converting acoustic sound into electrical and / or optical signals, where examples of such devices are earphones, headphones, telephone mains Including, but not limited to, body parts or handsets, mobile telephones and the like. Such speakers can also include cone drive speakers, electrostatic speakers, piezoelectric speakers, etc. The basic unit of the speaker can be any coil, permanent magnet, piezoelectric unit, electrode, any device through which unstable current flows. It may also include any part, any part of a device to which an unstable voltage is applied, and the like. A device with a speaker may be at least two identical (or similar, different) speakers enclosed within a single case member, at least two identical (or similar) separately enclosed within different members, (Different) speakers, earphone pairs, headphone pairs, at least one speaker and at least one microphone assembly, and the like. Such signals can also be electrical signals, optical signals, magnetic signals, and the like.

  The system can also be any electrical device that includes at least one mechanism for converting electrical and / or optical signals to acoustic sound, where examples of such devices include, but are not limited to, microphones. Rather, such signals can be electrical signals, optical signals, magnetic signals, and the like. The system can also be any electrical device that can also include therein at least one motor that generates mechanical energy from electrical energy. Such a motor includes a stator composed of a permanent magnet and a DC motor including a rotor including an electromagnet, a stator composed of an electromagnet and a universal motor including a rotor composed of an electromagnet, and a stator composed of an electromagnet. And a synchronous AC motor including a rotor composed of a permanent magnet, a stator composed of an electromagnet and an induction AC motor including a rotor composed of an electric conductor, a stator composed of an electromagnet, and a permanent magnet A linear motor including a configured rotor can also be included. Such a basic unit may include a rotor, a stator, a permanent magnet, any part of a device through which unstable current flows, any part of a device to which unstable voltage is applied, and the like. Such a device with its motor can also include any kitchen equipment, examples of which are food processors, mixers, can openers, electric grills (or ovens, ranges) with fans, dishwashers, refrigerators, refrigerators Including, but not limited to, a cooler. The device having the motor may be a home appliance, and examples of the home appliance include a washing machine, a dryer, an air conditioner, a dry (or wet) vacuum cleaner, etc., but are not limited thereto. Absent. The device with the motor can be a tool including an electric drill, screwdriver, nail gun, stapler, sander, and the like. Devices that include such motors can also be personal hygiene equipment including razors, electric toothbrushes, hair dryers, and the like. The system can also be any electrical device that includes at least one generator capable of generating electrical energy from mechanical energy. The device having the generator can also include an AC generator, a DC generator, an automotive alternator, and the like. The basic unit of the device can be an electromagnet, a permanent magnet, any part of the device through which unstable current flows, any part of the device to which unstable voltage is applied, etc.

  The system can also be any electrical device that includes at least one transformer that can increase or decrease the voltage from the source. Devices having such transformers are step-up transformers, step-down transformers, adapters for changing the voltage for electrical devices, and the like. The basic unit of such a device may also be a coil, an insert made of at least one ferrimagnetic material, any part of the device through which unstable current flows, any part of the device to which unstable voltage is applied, etc. Can also be included.

  The system can also be any electrical device that includes at least one heating unit capable of generating thermal energy from electrical energy. The heating unit can also include a linear heating wire, a coil heating wire, a solenoidal coiled wire, a toroidal coiled wire, and the like. The basic unit of such a device may be a coil, a support comprising at least one ferrimagnetic material, any part of the device through which unstable current flows, any part of the device to which unstable voltage is applied, etc. it can. The device having the heating unit can be any personal heating device including an electric heating mattress, an electric heating blanket, an electric heating pad, and the like. The device with the heating unit can also be a cooking appliance such as an electric grill (or oven, range), a toaster oven or the like. The device having the heating unit can also be a hair treatment device including a hair dryer, a hair set machine, a hair curler, a hair steamer and the like. Such a system can also be any electrical device that includes at least one light emitting unit. A device having the light emitting unit may include a CRT, LED, OLED, PDP, and the like. The system can also be any electrical device that includes at least one wave emitting unit. Devices having the wave emitting unit can also include microwave ovens, radars and the like.

  Harmful waves can include carrier frequency waves having a frequency less than about 50 Hz to less than 60 Hz, extremely low frequencies less than 300 Hz, etc., and counter waves can also have similar frequencies. Alternatively, harmful waves can include ultra low frequencies defining frequencies below 3 kHz, ultra low frequencies having frequencies below 30 kHz, low frequencies having frequencies below 300 kHz, etc., and counter waves can have similar frequencies. Can also be included. The target space can also be formed on one side of the counter and the basic unit, between the counter unit and the basic unit, etc. with respect to a preset angle for the counter unit. Preferably, the harmful wave may define a frequency larger than 300 kHz, 1 MHz, 10 MHz, 100 MHz, 1 GHz, 10 GHz, 100 GHz, 1 THz, or the like. Countering may also include the erasure and / or suppression. Such a counter unit may also include an electrical conductor through which a current flows, an electrical conductor to which a voltage is applied, and / or an insulator. The counter unit can also be arranged side by side with (or in connection with) the basic unit, can be wound with respect to a preset part of the basic unit, or alternatively can be arranged in a concentric arrangement with respect to the basic unit, It can also be arranged axially with respect to the basic unit. Such a counter unit can be maintained by at least one support, and the shape of the counter unit can be maintained or the shape of the counter unit can be changed while emitting a counter wave. The counter unit may also include at least one ferrimagnetic insert disposed therethrough.

  The shape of the counter unit can also be determined based on whether the counter unit matches the shape of the basic unit or is arranged to match the harmful wave (the shape). The shape of the counter unit can be the same, similar or different from the shape of the basic unit and / or the source. Such a counter unit may also define wires, strips, sheets, tubes, coils, spirals, mesh shapes, mixtures of at least one of the shapes, combinations thereof, arrays thereof, and the like. The array can also have shapes such as bundles, braids, coils, meshes and the like. The shape of the counter unit can also match (or do not match) the shape of the basic unit and / or the source. The counter unit may form a 1D, 2D and / or 3D analog of the base unit and / or source, or may define only one such analog of the base unit and / or source, At least two of the base unit and / or source analogues may be defined, and only one of the base unit and / or source analogues may be defined, and the base unit and / or source analogues Alternatively, at least two of the objects can be formed instead. The analogs can also be arranged to maintain similarity with such basic units and / or sources. The analogs can also be arranged to maintain similarity with such basic units and / or sources. The at least two parts of the counter unit and / or the at least two counter units may also define different sizes of the same shape, similar or different sizes of different shapes, etc. The counter unit can also have a shape and / or size that is at least substantially uniform along its longitudinal axis and along at least a substantial portion thereof, and a shape that varies along that portion and / or axis etc. And / or have a size.

  The size of the counter unit may (or may not match) the size of the base unit and / or the source. Such counter units can also be arranged in the same, similar or different arrangement from the arrangement of such basic units and / or sources. The counter units can also be arranged in an arrangement that matches (or does not match) the arrangement of the basic units and / or sources. The counter units can also be arranged in a symmetric (or asymmetric) arrangement with respect to each other or with respect to the basic unit and / or source. The counter units can also be aligned (or misaligned) in the direction of propagation of harmful waves, the direction of current and / or voltage, the longitudinal axis of the basic unit or source, the minor axis of the basic unit or source, or the like. Any of the counter units are only partly, one is aligned (or misaligned) with at least one of the direction and / or axis, or any counter unit is at least with its direction and / or axis. It may not be aligned (or misaligned). Further, the counter unit and the basic unit can be arranged at the same (or similar) distance from the target space. Arrangement of at least a part of the counter unit and / or the basic unit in another part of the unit or alternatively the counter unit and the basic unit axially along a single common axis etc. of the unit It can also be arranged. Such counter units can also be arranged angularly around the vertical axis of the basic unit or source. The counter unit can also be arranged movably or fixedly closer to (or farther from) the target space than the basic unit (or source). The counter unit or the basic unit can be arranged on the same axis in the target space, or alternatively, the counter unit and the basic unit can be arranged on the opposite side of the target space. A counter unit may coincide with a basic unit (or unit, etc.), or alternatively such counter unit may coincide with a basic unit (or unit, etc.).

  The counter unit can be arranged on the outside or arranged on the inside and / or embodied in a basic unit and / or source. The counter unit can also be placed on, within or within the case member of the system. Such counter unit and basic unit may be composed of and / or include at least one common material, be composed of the same material and / or include that material or not include any common material You can also. The counter unit and the basic unit may be separated from each other by a preset distance, or may be mechanically coupled to each other, or may form an arbitrary article or the like. The counter unit can be coupled directly to the case member, the base unit, and / or other parts of the system, or indirectly to them through at least one coupler. It can also be coupled directly or indirectly to another. The counter unit may be arranged to emit a counter wave with a minimum amount of material while consuming a minimum amount of current and / or voltage, and arranged to emit a counter wave with other quantities. You can also.

  The basic unit can also be supplied with a source current and / or voltage, where the source current or voltage can also be supplied as a counter current or voltage to the counter unit, and only a part of the source current or voltage is countered It can also be supplied to the counter unit as current or voltage, and the amplitude and / or direction of at least part of the source current or voltage can be changed and supplied to the counter unit as counter current or voltage. It can be formed and synchronized to the source current or voltage and supplied to the counter unit as a counter current or voltage, or another other current or voltage can be supplied to the counter unit. The counter units can be supplied with the same counter current or voltage, different counter currents or voltages, and the like. Further, the counter unit and the basic unit may be electrically coupled to each other in a serial mode, a parallel mode, or a hybrid mode, or alternatively, may not be coupled directly to each other. The counter units may be electrically coupled to each other in series mode, parallel mode or hybrid mode, or alternatively may not be coupled directly to each other. All of the counter units (or only a part of the counter unit) are electrically coupled to the basic unit in the same mode, or alternatively any counter unit is electrically connected to the basic unit in the same mode. It can also be uncoupled. Depending on the arrangement of the counter unit relative to the basic unit, the counter wave may define an amplitude that is greater than, similar to, or less than the amplitude of the harmful wave. Further, the counter unit and the basic unit may define substantially the same, similar, or different resonance frequencies, or alternatively, the same, similar, or different resonance frequencies may be defined. At least a part of the counter unit and / or at least one counter unit of the counter unit may also have a resonance frequency different from the resonance frequency of the rest.

  Such a system may also include at least one of the magnetic shields described above or in the current pending application. Such magnetic shields can also be arranged on, above, above, around, inside or through at least one of the counter unit and / or the basic unit. The magnetic shield defines a shape that can also at least partially match the shape of the counter unit and / or the basic unit, or alternatively differs at least partially from the shape of the counter unit and / or the basic unit It is also possible to define shapes that can also be The magnetic shield may also have at least one path member having a relative magnetic permeability greater than 1,000, 10,000, 100,000, 1,000,000, etc. Such a magnetic shield may also include at least one magnetic member defining at least one south pole. The magnetic shield may also include at least one shunt member that is coupled directly or indirectly to the magnetic member. Such shunt members can also have a relative magnetic permeability greater than 1,000, 10,000, 100,000, 1,000,000, etc. The magnetic shield described above or in the current pending application may be included in any of the devices described above. The system may also include at least one of the electrical shields described above or in the current pending application. Such an electrical shield as described above and / or described in the current pending application can also be included in any of the devices described above. Such magnetic and / or electrical shields can be maintained uniformly along the longitudinal axis of the counter unit or basic unit, or can also form varying shapes and / or sizes. The shape and / or size of the magnetic and / or electrical shield can be the same, similar or different from the shape and / or size of such counter unit and / or basic unit. The system can also include multiple magnetic and / or electrical shields. At least two of the magnetic and / or electrical shields may be protected against harmful magnetic and / or radio waves having the same or different frequencies in the same or different ranges. Magnetic and / or electrical shields can also be arranged over at least part (or all) of the counter unit and / or the basic unit.

  In another aspect of the present invention, the counter electromagnetic wave is emitted, the shape of the counter wave is adjusted, and the harmful wave is prevented from propagating to the target space. By erasing, there is provided a method of countering harmful electromagnetic waves emitted from at least one basic unit of at least one wave source, wherein such basic unit irradiates the harmful waves through which the harmful waves are emitted. The target space is defined between the source and the user.

In one exemplary embodiment of this aspect of the invention, the method provides a step of providing at least one counter unit (hereinafter referred to as a “first providing step”); Extending the counter unit; placing the counter unit between the source and the user while aligning the width of the counter unit with at least a portion of the wavefront of the harmful wave; and then in the target space In order to counteract the harmful wave, the counter unit includes a step of emitting a counter wave similar to the harmful wave by the counter unit. Expanding the counter unit to be narrower than the source; and expanding the counter unit with respect to the source while aligning the width of the counter unit with at least a portion of the wavefront of the harmful wave. An alternative is to place the counter unit on the opposite side of the target space.
In yet another exemplary embodiment of this aspect of the invention, such a method provides a single counter unit; a counter wave having a first set of multiple wavefronts is emitted by that counter unit. Identifying a second set of multiple wavefronts of harmful waves; at least along a second set of wavefronts such that the first set of wavefronts matches the second set of wavefronts in the target space. Calculating a position; and placing the counter unit at such a position to counteract the harmful wave with the counter wave in the target space.

  In yet another exemplary embodiment of this aspect of the invention, such a method comprises providing at least two counter units; counter waves having similar (or identical) phase angles from such counter units. Emitting and forming a first set of multiple wavefronts, each of which is the sum of at least two wavefronts generated by at least two counter units; at the respective radii of curvature of the first set of wavefronts Discovering a relationship between the increase and the distance between such counter units; identifying a second set of multiple wavefronts of harmful waves; the first set of wavefronts being the second set of wavefronts Selecting the distance between such counter units that match to the first set of wavefronts of the second of the wavefronts Calculating at least two positions relative to such counter unit with a second set of wavefronts matching the base; and placing the counter unit at a position separated by the distance to counter in the target space Including damaging harmful waves with waves. The emission step and the discovery step emit a counter wave having a phase that is at least partially opposite by its counter unit, each indicating a sum of at least two wave fronts generated by such at least two counter units. Defining a first set of wavefronts; and finding a relationship between the decrease in radius of curvature of each of the first set of wavefronts and the distance between the counter units may be substituted. .

  In yet another aspect of the present invention, matching at least one characteristic of the basic unit and then suppressing the harmful waves from propagating toward the target space and eliminating the harmful waves in the target space. At least one provides a method of combating harmful electromagnetic waves emitted from at least one basic unit of at least one wave source. The basic unit is configured to include only the part of the source that irradiates the harmful waves and through which it affects the path of the harmful waves, and the target space includes the source and the user. And the characteristics include shape, size, and / or arrangement.

  In one exemplary embodiment of this aspect of the present invention, the method comprises a first providing step; configuring a counter unit to match the characteristics of the basic unit; Releasing the counter electromagnetic wave by the counter unit; and then placing the counter unit in a position for matching the harmful wave by the counter wave in the target space. Configuring the counter unit to define a simpler configuration than that of the basic unit while maintaining its characteristics at a minimum while configuring the basic unit; maintaining the characteristics at least at a minimum Configuring the counter unit to define a more complex configuration than the configuration of; so as to define a dimension defined by a smaller number of unit axes than the base unit while maintaining its characteristics at least to a minimum One of the steps of: determining the counter unit; and configuring the counter unit to define a dimension defined by a greater number of unit axes than the dimensions of the base unit while maintaining its characteristics to a minimum It can be replaced by steps.

  In yet another exemplary embodiment of this aspect of the invention, such a method provides a single counter unit; a simpler configuration than that of a single basic unit while maintaining the characteristics. Configuring the counter unit to have; emitting a counter electromagnetic wave similar to the harmful wave by the configuring step by the counter unit; and position the target space to match the harmful wave by the counter wave in the target space Arranging the counter unit to counteract the harmful wave with the counter wave in the target space. The step of configuring the counter unit to define a configuration that is similar (or identical) to the arrangement of multiple basic units while maintaining its characteristics; Configuring such a counter unit to have a dimension formed by fewer orthogonal unit axes than the array; and by increasing more orthogonal unit axes than the number of basic unit dimensions while maintaining its characteristics. It may also include configuring the counter unit to have a dimension formed.

  In yet another exemplary embodiment of this aspect of the invention, such a method provides a number of counter units; said configuration with a simpler configuration than a single basic unit configuration while maintaining the characteristics. Arranging at least two counter units of the counter unit; emitting counter electromagnetic waves similar to harmful waves by the configuration by the counter unit; and in a position for matching the harmful waves by the counter wave in the target space. Arranging the counter unit to counter harmful waves by counter waves in the target space. Arranging the at least two units of the counter unit in a configuration similar or identical to the arrangement of a number of basic units while maintaining such characteristics; Arranging the counter units in an array defining a dimension formed by fewer mutually orthogonal unit axes than the other dimensions; and more mutually orthogonal than the dimensions of a number of basic units while maintaining its characteristics It can also be replaced by one of the steps of arranging the counter units in an array having a dimension formed by unit axes.

  In yet another exemplary embodiment of this aspect of the invention, such a method provides a smaller number of such counter units for a larger number of basic units; approximating an array of basic units. Arranging the counter unit while maintaining the characteristics; emitting the counter electromagnetic wave similar to the harmful wave by the arrangement by the counter unit; and positioning the counter unit to the harmful wave by the counter wave in the target space. Arranging the counter unit to counteract the harmful wave with the counter wave in the target space. Providing such a providing and arranging step with a larger number of counter units for a smaller number of basic units; and at least two of the counter units around at least one basic unit of the basic units It can be replaced by a step of arranging the counter units and arranging the counter units while maintaining the characteristics.

  In yet another exemplary embodiment of this aspect of the invention, such a method comprises the first providing step; configuring the counter unit to move with respect to the base unit; Emitting; finding a relationship between the matching range (or degree) between the counter wave and the harmful wave and the distance from the counter unit to the basic unit; the counter wave is at the top of the harmful wave Calculating a matching position; and moving the counter unit to a position that best matches the harmful wave by the counter wave in the target space; It can also have a step to resist.

  In yet another aspect of the present invention, at least one of matching to harmful waves and suppressing the harmful waves from propagating to the target space and eliminating the harmful waves in the target space, at least A method is provided for combating harmful electromagnetic waves emitted from at least one basic unit of one wave source. Such a basic unit is configured to include only a portion of the source that irradiates such harmful waves and thereby affects the path of the harmful waves, and the target space is between the source and the user. Stipulated in

  In one exemplary embodiment of this aspect of the present invention, the method identifies a first set of multiple wavefronts of harmful waves; at least one counter along at least one wavefront of such wavefronts. Placing a unit; and a number of wavefronts similar to (or identical to) the first set of wavefronts in the target space by the placement step to counteract the harmful waves by the counter wave in the target space. Emitting counter-electromagnetic waves forming a second set of the counter unit.

  In yet another exemplary embodiment of this aspect of the invention, such a method identifies a number of wavefronts of harmful waves; defining a number of wavefronts similar to the shape and / or arrangement of counter units. Providing at least one counter unit for emitting counter electromagnetic waves; positioning the counter unit along at least one wavefront of the wavefront of the harmful wave; and then with the counterwave in the target space In order to counteract the harmful waves, it is possible to have the step of emitting the counter wave while aligning the wave front of the counter wave with the wave front of the harmful wave in the target space by the providing step and the arranging step. And providing the providing and arranging steps at least one counter unit for emitting counter electromagnetic waves defining a number of wavefronts different from the shape and / or arrangement of the counter units; and based on the providing step Alternatively, the counter unit can be replaced by placing the counter unit over at least two wavefronts of the harmful wavefront (or along the wavefront).

  In yet another exemplary embodiment of this aspect of the invention, such a method comprises the step of identifying a number of wavefronts of harmful waves; a number of in a defined arrangement along at least one wavefront of such wavefronts. Arranging the counter unit; configuring the counter unit to emit a counter electromagnetic wave defining a number of wavefronts similar to the arrangement of the counter units; and the harmful wave with the counter wave in the target space; In order to counteract, it is possible to have a step of emitting a counter wave while aligning the wave front of the counter wave with the wave front of such harmful wave in the target space by the construction step. Further, in the arranging step and the configuring step, a step of arranging a large number of counter units in an arrangement over at least two wavefronts of the wavefront or along the wavefront, and a counter electromagnetic wave defining a large number of wavefronts different from the arrangement of the counter units Alternatively, the counter unit may be configured to release the counter.

  In yet another exemplary embodiment of such an aspect of the present invention, the method comprises the first providing step; identifying multiple wavefronts of harmful waves; electromagnetic waves having multiple wavefronts by such a counter unit. Emitting; positioning the counter unit between the basic unit and the target space; comparing the longer radius of curvature of the harmful wave with the shorter radius of curvature of the wavefront of the counter wave; and the counter wave And countering the harmful wave by the counter wave in the target space by placing the counter unit at a position where the radius of curvature of the harmful wave is best matched to each other in the target space. Can also be included. Such positioning and comparing steps, placing the counter unit on the opposite side of the target space with respect to the basic unit; and then comparing the longer radius of curvature of the wave front of the counter wave with the shorter radius of curvature of the harmful wave It can also be replaced by a step.

  In yet another exemplary embodiment of this aspect of the invention, such a method comprises the first providing step; configuring the counter unit to move with respect to the base unit; Emitting; finding a relationship between the range (or degree) of matching between the radius of curvature of the counter wave and the radius of harmful wave and the distance from the counter unit to the base unit; Calculating a position that best matches the harmful wave; and moving the counter unit to a position for matching the harmful wave by the counter wave in the target space, thereby moving the counter in the target space. Have steps to counter the harmful waves by waves Rukoto can also.

  In yet another aspect of the present invention, at least one of the at least one wave source by emitting counter electromagnetic waves by at least one counter unit and propagating the counter waves in a preset direction towards harmful waves. A method of resisting harmful electromagnetic waves emitted from a basic unit is provided. The basic unit is configured to include only the part of the source that irradiates the harmful waves and thereby affects the path of the harmful waves, but the target space is between the wave source and the user. Stipulated in between.

  In one exemplary embodiment of such an aspect of the present invention, the method comprises configuring a counter wave to define a shape similar to the shape of the harmful wave and a phase angle that is at least partially opposite ( Hereinafter referred to as “first configuration step”); surrounding at least a portion of the basic unit by the counter unit; and in the target space to counter the harmful waves by the counter wave in the target space; A step of emitting a counter wave while surrounding the harmful wave. The surrounding step may be replaced by a step of arranging a number of counter units around at least a part of the basic unit.

  In yet another exemplary embodiment of this aspect of the invention, such a method includes a first configuration step; placing at least a portion of a counter unit within the base unit; and in the target space. In order to counter the harmful wave by the counter wave, it is possible to have a step of emitting the counter wave while being surrounded by the harmful wave in the target space. The arranging step can be replaced by a step of surrounding at least a part of the counter unit by a number of basic units.

  In yet another exemplary embodiment of this aspect of the invention, such a method comprises a first configuration step; placing a counter unit on a side with respect to a basic unit; and then in its target space In order to counter the harmful wave by the counter wave, the counter wave may be emitted to the target space together with the harmful wave. Placing the counter unit along the longitudinal axis of the basic unit and spaced apart from the basic unit; and placing at least a portion of one of the counter unit and the basic unit on the unit. It can also be replaced by one of the steps surrounded by other units.

  In yet another exemplary embodiment of this aspect of the invention, such a method comprises: a first configuration step; aligning a counter unit in the direction of such harmful wave propagation; and In order to counter the harmful wave by the counter wave, the counter wave may be emitted together with the harmful wave toward the target space. Aligning the counter unit in the direction of current and / or voltage applied to the basic unit; aligning the counter unit with the longitudinal axis of the basic unit; aligning the counter unit with the minor axis of the basic unit; It can be replaced by one of the steps such as aligning the counter units.

  In yet another exemplary embodiment of this aspect of the invention, such a method comprises a first configuration step; placing a counter unit between the basic unit and the target space; less than the harmful wave amplitude. Emitting a counter wave having an amplitude by the counter unit; and propagating the counter wave along with the harmful wave toward the target space to counter the harmful wave by the counter wave in the target space. Includes steps. Placing the counter unit on the opposite side of the target space with respect to the basic unit; and emitting by the counter unit a counter wave defining an amplitude greater than the amplitude of the harmful wave Can also be substituted.

  In yet another exemplary embodiment of this aspect of the invention, such a method comprises: a first configuration step; placing a counter unit between the base unit and the target space; Expanding the counter unit in a direction that is perpendicular to the propagation direction of the harmful wave to have a larger width; and emitting the counter wave toward the target space together with the harmful wave; And countering the harmful wave by the counter wave. Placing and extending the counter unit on the opposite side of the target space with respect to the basic unit; and a width smaller than the width of the basic unit in a direction perpendicular to the propagation direction of the harmful wave It is also possible to replace the counter unit with a step of expanding the counter unit.

  In yet another aspect of the present invention, at least one of emitting counter electromagnetic waves and erasing harmful waves with the counter waves in the target space and suppressing the harmful waves from propagating to the target space. Thus, a method is provided for countering harmful electromagnetic waves emitted from at least one basic unit of at least one wave source by the counter wave. The basic unit is configured to include only the part of the source that irradiates the harmful waves and through which it affects the path of the harmful waves, but the target space is the source and the user. It is prescribed between.

  In one exemplary embodiment of this aspect of the invention, the method comprises the steps of providing a single counter unit that emits counter waves; its first configuration step; and a single basic unit. A step of resisting the irradiated harmful wave by the counter wave.

  In yet another exemplary embodiment of this aspect of the invention, providing a single counter unit that emits such counter waves; its first configuration step; and all multiple basic units A step of counteracting the summation of irradiated harmful waves with the counter wave. The countering step may be replaced by a step of counteracting the harmful wave irradiated by at least one unit of the unit, not all of the multiple basic units, by the counter wave.

  In yet another exemplary embodiment of this aspect of the invention, such a method provides a number of counter units that emit such counter waves; its first configuration step; and then all A step of counteracting harmful waves emitted from a single basic unit by summing up all counter waves emitted by the counter unit.

  In yet another exemplary embodiment of this aspect of the invention, such a method provides a number of counter units that emit such counter waves; its first configuration step; and then the counter And counteracting the summation of counter waves emitted by at least two counter units of the unit against other summations of harmful waves emitted by all of the multiple basic units. The countering step may be carried out by the harmful waves irradiated by at least one basic unit of the basic unit, not all of the multiple basic units due to other summations of counter waves emitted by at least two counter units of the counter unit. It can be replaced by a step to resist waves.

  In yet another exemplary embodiment of this aspect of the invention, such a method provides at least two counter units each emitting a set of counter waves; and moves with respect to other basic units. Configuring at least one counter unit of the counter unit; first configuring step; and then moving at least one counter unit of the counter unit with respect to the basic unit at the time of discharge, thereby To counter the harmful waves emitted from the basic unit with different sets of counter waves.

  In yet another aspect of the present invention, a method is provided for combating harmful electromagnetic waves emitted from at least one wave source formed as at least one curved wire by emitting counter electromagnetic waves.

  In one exemplary embodiment of this aspect of the invention, the method includes the first providing step; forming the counter unit as one of a wire, strip and sheet; along the wire And placing the counter unit in close proximity to the wire; and discharging the counter wave from the counter unit to counter the harmful waves by the counter wave while passing the current to the wave source of the wire and the counter unit. In the opposite direction (hereinafter referred to as “first supply step”). The placing step can be replaced by the step of braiding the counter unit around and near the wire.

  In yet another exemplary embodiment of this aspect of the invention, such a method provides a number of counter units each formed as a wire, strip, and / or sheet; Placing the counter unit in proximity to the wire; and the first feeding step. Such an arrangement step can be replaced by a step of braiding each counter unit in the same or different directions around and near the wire.

  In yet another exemplary embodiment of this aspect of the invention, such a method comprises the first providing step; forming the counter unit as at least one coil or helix; the counter unit around the wire And a first supply step thereof. The forming and winding steps may be replaced by forming the counter unit as a sheet or mesh; and winding the counter unit around the wire. The forming and winding steps can also be replaced by forming the counter unit in an annular tube having a lumen; and placing the wire in the lumen of the counter unit.

  In yet another exemplary embodiment of this aspect of the invention, such a method comprises identifying multiple wavefronts of harmful waves formed around a wire; along at least one wavefront of said wavefront Placing at least one counter unit; and emitting a counter wave of a number of wave fronts similar to (or identical to) the wave front of the wire by the counter unit, thereby counteracting the harmful wave with the counter wave. A step to do so.

  In yet another aspect of the present invention, a method is provided for combating harmful electromagnetic waves emitted from at least one wave source formed as at least one curved strip (or sheet) by emitting counter electromagnetic waves. .

  In one exemplary embodiment of such an aspect of the invention, the method includes the first providing step; forming the counter unit as a wire, strip, or sheet; along the strip (or sheet) And placing the counter unit in proximity to the strip; and emitting the counter wave by the counter unit to counter such harmful waves by the counter wave, and the wave source of the strip (or sheet) and the A step of supplying current to the counter unit in the opposite direction (hereinafter referred to as a “second supply step”). Also, such an arrangement step can be replaced by the step of braiding the counter unit around and adjacent to the strip (or sheet).

  In yet another exemplary embodiment of this aspect of the invention, such a method provides a number of counter units each formed as a wire, strip or sheet; the periphery of the strip (or sheet) And placing such a counter unit proximate to the strip; and its second feeding step. Such an arrangement step can be replaced by the step of braiding each counter unit in the same direction or in one of the different directions in the vicinity of the strip (or sheet) and close to the strip.

  In yet another exemplary embodiment of this aspect of the invention, such a method comprises the first providing step; forming the counter unit as one of at least one coil and at least one helix. Winding the counter unit around the strip (or sheet); and then a second feeding step. The forming and winding steps can be replaced by forming the counter unit as a sheet or mesh; and winding the counter unit around the strip (or sheet). Further, the forming step and the winding step are replaced with a step of forming the counter unit as a pair of strips or the like (or sheets or the like); and a step of arranging the wires between the strips or the like (or sheets or the like). You can also.

  In yet another exemplary embodiment of such an aspect of the present invention, such a method comprises identifying multiple wavefronts of harmful waves around the strip (or sheet); at least one wavefront of the wavefront Positioning at least one counter unit along the line; and emitting such counter waves from the counter unit together with a number of wave fronts similar (or identical) to the wave front of the strip (or sheet), thereby the counter And having the wave counteract that harmful wave.

  In yet another aspect of the present invention, a method is provided for combating harmful electromagnetic radiation from at least one wave source formed as at least one annular tube having a lumen by emitting counter electromagnetic waves.

  In one exemplary embodiment of this aspect of the invention, the method includes the first providing step; forming the counter unit as a wire, strip or sheet; along and in proximity to the tube. Positioning the counter unit; and supplying the current along the opposite direction to the tube source and the counter unit while emitting the counter wave by the counter unit to counter harmful waves by the counter wave. (Hereinafter referred to as “third supply step”). Such a placement step can be replaced by the step of braiding the counter unit in the vicinity of the tube and close to the tube.

  In yet another exemplary embodiment of this aspect of the invention, such a method provides multiple counter units each formed as a wire, strip or sheet; around the tube and in proximity to the tube And disposing the counter unit; and a third supply step. The arranging step can be replaced by a step of braiding the counter units in the same or different directions around the tube and in the vicinity of the tube.

  In yet another exemplary embodiment of this aspect of the invention, the method includes the first feeding step; forming the counter unit as at least one wire or strip; the counter unit within the lumen of the tube And a third supply step thereof.

  In yet another exemplary embodiment of this aspect of the invention, such a method comprises the first feeding step; forming the counter unit as at least one coil or helix; the counter unit around the tube And a third supply step thereof. Forming and winding the counter unit on one of the sheet and mesh and then winding the counter unit around the tube; forming the counter unit on a larger tube having a lumen; Then replacing the tube by placing the tube in the lumen of the counter unit; and forming the counter unit in a smaller tube having the lumen and then placing the counter unit in the lumen of the tube. You can also.

  In yet another exemplary embodiment of such an aspect of the present invention, such a method includes identifying multiple wavefronts of harmful waves formed around the tube; along at least one wavefront of the wavefront Placing at least one counter unit; and then emitting a counter wave having a number of wavefronts similar to (or identical to) the wavefront of the tube, thereby causing the harmful It can also have a step to withstand waves.

  In yet another aspect of the present invention, a method is provided for combating harmful electromagnetic waves emitted from at least one wave source formed in at least one curvilinear coil to emit counter electromagnetic waves.

  In one exemplary embodiment of this aspect of the invention, the method comprises the first providing step; forming a counter unit in the toroid by placing opposite ends of such coils adjacent to each other; Supplying current to the coil; and supplying current to the wave source of the coil and the counter unit in the opposite direction while emitting the counter wave by the counter unit to counter harmful waves by the counter wave ( Hereinafter, referred to as “fourth supply step”).

  In yet another exemplary embodiment of this aspect of the invention, such a method comprises the first providing step; forming the counter unit as a wire, strip or spiral smaller than the coil of the basic unit; Winding a coil of the basic unit around the periphery of the unit; and its fourth supply step. The forming and winding steps may be replaced by the step of forming the counter unit as another coil smaller than that of the basic unit; and the step of winding the basic unit coil around the counter unit. .

  In yet another exemplary embodiment of this aspect of the present invention, the method includes the first providing step; and forming the counter unit as another coil; the counter unit and the base unit coils adjacent to each other. And a fourth supply step thereof. Such an arrangement step can be replaced by a step of braiding the coils of the counter unit and the basic unit.

  In yet another exemplary embodiment of this aspect of the invention, such a method comprises identifying multiple wavefronts of harmful waves formed around such a coil; along at least one wavefront of the wavefront Placing at least one counter unit; and then countering the harmful wave with the counter wave, such counter wave having a number of wavefronts similar to (or identical to) the wavefront of the tube by the counter unit. Releasing.

  Embodiments of such method aspects of the invention may also include one or more of the following characteristics, and configuration and / or operational changes and / or variations of the method are within the scope of the invention.

  Such a countering step resists harmful waves, but can also include a step of protecting audible waves. The countering step includes a step of suppressing by the counter wave that at least a part of the harmful wave is transmitted to the target space; a step of erasing a part of the harmful wave by the counter wave in the target space, etc. Of these, at least one step may be included. And the countering step is to resist harmful waves having a frequency of less than about 50 Hz to less than about 60 Hz; to resist harmful waves defining a frequency of less than about 300 Hz; and less than about 1 kHz. It may also include at least one step of combating frequency harmful waves. Also, the countering step is to resist such harmful waves having a frequency less than about 10 kHz; to resist harmful waves having a frequency less than about 100 kHz; about 1 MHz, 10 MHz, 100 MHz, 1 GHz, It can also include at least one step of combating harmful waves having a frequency of less than 10 GHz, 100 GHz, 1 THz, etc. The countering step includes the step of countering harmful waves only in a part of a preset frequency range while protecting the rest of the frequency range; the step of resisting harmful magnetic waves; It can also include at least one of the steps of resisting all parts.

  The step of affecting may include at least one of a step including a permanent magnet; a step of applying a voltage; a step of passing a current, and the like. Such an expansion step may also include at least one step of extending the counter unit along the length of the counter unit; expanding the counter unit along the width of the counter unit, and the like. The providing step includes forming a counter unit in at least one shape of wire, strip, sheet, tube, coil, helix and mesh; mixing the shapes, combining the shapes, and the counter units in the shape array It is also possible to include at least one step among the steps of forming. The forming step comprises surrounding at least a portion of such a basic unit by an array (or bundle) of multiple wires of the counter unit; enclosing a portion of the basic unit by an array (or bundle) of multiple strips of the counter unit Enclosing a portion of the basic unit by an array (or bundle) of multiple sheets of the counter unit; enclosing a portion of the basic unit by an array (or bundle) of multiple tubes of the counter unit; Winding a portion of the basic unit with at least one coil of the counter unit; winding a portion of the basic unit with an array (or bundle) of multiple coils; and enclosing a portion of the basic unit with at least one annular mesh of the counter unit Tsu can also include at least one step up. Also, the step of forming such a counter unit includes expanding a single wire to at least a portion of the counter unit; expanding an array (or bundle) of multiple wires to the portion; Expanding a single strip for a part; expanding an array (or bundle) of multiple strips for a part; expanding a single sheet for a part; Expanding an array (or bundle) of multiple sheets relative to a portion; expanding a single tube relative to a portion thereof; expanding a bundle (or array) of multiple tubes relative to a portion thereof Winding a single coil on the part; bundles of multiple coils on the part (or At least one of the steps of: expanding a single annular mesh over a portion thereof; and expanding an array (or bundle) of multiple annular meshes over the portion. It can also be included.

  The providing step may also include at least one step of exposing the counter unit through the basic unit; hiding the counter unit under (or in) the basic unit, and the like. The providing step may include at least one of a step of fixedly arranging the counter unit; a step of movably arranging the counter unit, and the like. The providing step comprises: forming a base and counter unit of the same material; forming a base and counter unit of different materials; not all materials in the base and counter unit, but at least one of the materials It can also include at least one of the included steps. The providing step includes at least one of: arranging the basic and counter units to have similar (or identical) resonant frequencies; arranging the basic and counter units to define different resonant frequencies, etc. Can also be included.

  The arranging step includes arranging a counter unit on a side surface (or side by side) with respect to the basic unit; enclosing at least one unit of the counter unit and the basic unit with another unit of the unit; the basic unit and the counter unit It is also possible to include at least one step of axially aligning and the like. Such enclosing steps include placing the counter unit indirectly on (or around) the base unit (or source); placing the counter unit directly on (or around) the base unit (or source). Etc. can also include at least one step. The enclosing step includes a step of concentrically arranging at least two units of the counter unit; a step of electrically coupling the counter unit in any one of a serial mode, a parallel mode, and a hybrid mode, etc. It may also include at least one step. The aligning step includes aligning the counter unit with the longitudinal axis of the basic unit; aligning the counter unit with the minor axis of the basic unit; in the direction of the current flowing through the basic unit (or the voltage applied to the basic unit). It may also include at least one step of aligning the counter unit; aligning the counter unit in the propagation direction of harmful waves, and the like.

  The step of configuring the counter unit may include at least one of a step of controlling the shape of the counter unit; a step of controlling the size of the counter unit; a step of controlling the arrangement of the counter units, and the like. The positioning step comprises controlling the orientation of such a counter unit with respect to the basic unit (or target space); controlling the alignment of the counter unit with respect to the basic unit; and a first step between the counter unit and the basic unit (or target space). It may also comprise at least one step of controlling a distance of one; controlling a second distance between the counter units.

  The emitting step includes controlling the phase angle of the counter wave to be at least similar to the phase angle of the harmful wave when propagating along a direction in which the counter wave and the harmful wave are at least partially opposite; And, when the harmful wave propagates along at least a similar direction, controlling the phase angle of the counter wave to be at least opposite to the phase angle of the harmful wave; and the direction in which the counter wave and the harmful wave cross each other It is also possible to have at least one step of controlling the phase angle of the counter wave so as to traverse the phase angle of the harmful wave when propagating to. Such emission step is a step of manipulating the amplitude of the counter wave so that it is larger (or smaller) than the harmful wave amplitude when measured in the target space; similar to the harmful wave amplitude when measured in the basic unit It is also possible to include at least one step of manipulating the amplitude of the counter wave so as to be (or the same). The emission step is a step of propagating a counter wave in the same direction as the harmful wave; a direction different from the direction of the harmful wave irradiated by each of such basic units, but the direction of the sum of harmful waves from the basic unit Can also include one of the steps of propagating the counter wave in the same direction. The emitting step may also include manipulating the counter wave phase angle to be at least partially (or substantially) opposite to the harmful wave phase angle.

  The method also includes the steps of passing current through all parts of the basic unit; passing current through only a part of the basic unit; applying a voltage across all parts of the basic unit; It can also include one of the steps of applying a voltage. The method includes the steps of passing current in a single direction through a basic (or counter) unit; passing such current along different directions in different parts of the basic (or counter) unit; It may also include one step of applying a voltage in one direction; applying a voltage in a different direction along different parts of the basic (or counter) unit, etc. The method may also include providing a number of basic units for harmful waves, the flowing step flowing currents having the same amplitude along the same direction to all basic (or counter) units. Flowing the same amplitude current in different directions along the basic (or counter) unit; flowing different amplitude current in the same direction to all basic (or counter) units; different amplitudes in different directions It may also include one of the steps of passing current through the basic (or counter) unit. The method may also include providing multiple basic units for harmful waves, the applying step applying a voltage having the same amplitude along the same direction to all basic (or counter) units. Applying voltage of the same amplitude in different directions along the basic (or counter) unit; applying voltage of different amplitude in the same direction to all basic (or counter) units; in different directions It may also include one of the steps of applying different amplitude voltages to the basic (or counter) unit.

  Such a flow step includes flowing a current of the same (or different) amplitude to the counter unit; a time that is at least partially similar to the time pattern of the current supplied to the basic unit that is not derived from the current supplied to the basic unit. Flowing another current through the counter unit that can also have a pattern; not induced from the current to the basic unit, but can also have a different time pattern from the current time pattern to the basic unit It is also possible to include one of the steps of flowing through. The step of supplying the current includes one of a step of supplying a current to the basic unit and then the counter unit; a step of supplying a current to the counter unit and then the basic unit; a step of supplying a current to the basic and the counter unit at least simultaneously; Steps can also be included.

  In yet another aspect of the present invention, the counter electromagnetic wave is emitted, the shape of the counter unit is controlled, and the harmful waves are prevented from propagating toward the target space, and the target space A system is provided for counteracting harmful electromagnetic waves emitted from at least one basic unit of at least one wave source by counter waves by at least one of eliminating harmful waves by counter waves, wherein The basic unit is configured to contain only the part of the source that irradiates the harmful waves and thereby affects the path of the harmful waves, and the target space is between the system and the user. Stipulated in

  In one exemplary embodiment of such an aspect of the invention, such a system arranges at least one counter unit to have a width that is longer than the width of the basic unit; at least one of the wavefronts of harmful waves Placing the counter unit between the wave source and the user while aligning the width of the counter unit to the section; defining a wave characteristic similar to the harmful wave, but at least partially opposite the harmful wave Configuring the counter unit to emit such a counter wave having a phase angle; and propagating the counter wave toward the target space to counter the harmful wave by the counter wave in the target space; Aligning the counter unit with each other (hereinafter referred to as “first alignment step”) It is manufactured by a process comprising. Aligning the width of the counter unit with at least a portion of the wavefront of the harmful wave; An alternative is to place the counter unit on the opposite side of the target space with respect to the wave source.

  In yet another exemplary embodiment of this aspect of the invention, the system identifies a number of wavefronts of harmful waves; having a phase angle that is at least partially opposite the harmful wave phase angle. And a single counter unit configured to emit a counter wave that defines a number of wavefronts that can match the wavefront of the harmful wave when placed at a preset distance from the base unit. The counter unit is disposed at the distance from the basic unit; and the first alignment step is performed.

  In yet another exemplary embodiment of this aspect of the invention, the system provides at least two counter units; defining similar (or identical) phase angles, each generated by the counter unit Configuring such a counter unit to emit a counter wave having a first set of wavefronts corresponding to the sum of at least two wavefronts generated; at each radius of curvature of the first set of wavefronts; Discovering a relationship between the increase and the distance between such counter units; identifying a second set of multiple wavefronts of harmful waves; when placed at a preset distance from the base unit; The counter unit is configured to match the radius of curvature of the second set of wavefronts with the radius of curvature of the first set of wavefronts. Steps; step to place the counter unit to the distance; and, thereafter, is manufactured by a process comprising the first alignment step. A counter defining a first set of wavefronts corresponding to a phase angle that is at least partially opposite, and a sum of at least two wavefronts each generated by the counter unit; Configuring the counter unit to emit waves; and substituting by discovering a relationship between the decrease in the radius of curvature of each of the first set of wavefronts and the distance between the counter units. You can also.

  In yet another aspect of the present invention, by emitting counter electromagnetic waves, matching at least one characteristic of the basic unit with the counter waves, and eliminating harmful waves with the counter waves in the target space and A system for resisting harmful electromagnetic waves irradiated from at least one basic unit of at least one wave source by at least one of suppressing propagation of harmful waves toward the target space by such counter waves Where such a basic unit is configured to include only a portion of the source that causes the harmful wave to irradiate and thereby affect the path of the harmful wave, but the target path is Defined between the system and the user.

  In one exemplary embodiment of such an aspect of the present invention, such a system arranges at least one counter unit to match such characteristics of the basic unit; (Or the same), but configuring the counter unit to emit a counter wave having a phase angle that is at least partially opposite to the phase angle of the harmful wave (hereinafter referred to as a “second countering step”) And the first alignment step. Arranging the at least one counter unit so as to define a simpler configuration than that of the basic unit while maintaining the characteristics at least to a minimum; Arranging at least one counter unit to define a more complex configuration than the configuration; at least one to have a dimension defined by a fewer number of unit axes than the base unit while maintaining its characteristics at least to a minimum Arranging two counter units; and arranging at least one counter unit to have a dimension defined by a greater number of unit axes than that of the base unit while maintaining its characteristics at least to a minimum. One of It can also be replaced by a step.

  In yet another exemplary embodiment of this aspect of the invention, the system uses a single counter unit to define a simpler configuration than that of a single basic unit while maintaining its characteristics. The second countering step; and the first alignment step. Arranging the single counter unit so that the arrangement step defines a similar (or identical) configuration to the arrangement of multiple basic units while maintaining such characteristics; multiple basics while maintaining the characteristics; Arranging a single counter unit to define a dimension formed by fewer unit axes that are mutually orthogonal than the arrangement of units; and more mutual dimensions than a number of basic units while maintaining its characteristics It can be replaced by one of the steps of arranging a single counter unit to define the dimension formed by the orthogonal unit axes.

  In yet another exemplary embodiment of this aspect of the invention, the system provides a number of counter units; the counter unit in a simpler configuration than that of a single basic unit while maintaining the characteristics. Arraying at least two counter units of the system; emitting a counter wave that defines a phase angle that is similar (or identical) to the harmful wave but at least partially opposite the harmful wave phase by such arranging step And configuring the counter unit to align the counter unit to propagate the counter wave to the target space, thereby counteracting the harmful wave by the counter wave in the target space. Manufactured by a process that includes. And arranging the at least two counter units of the counter unit in a configuration similar to (or identical to) the arrangement of a plurality of basic units while maintaining such characteristics; Arranging the counter units in an array defining a dimension formed by mutually orthogonal unit axes that is less than the dimension of one basic unit; and more than the dimensions of a number of basic units while maintaining its characteristics It can also be replaced by one of the steps of arranging the counter units in an array defining a dimension formed by unit axes that are orthogonal to each other.

  In yet another exemplary embodiment of this aspect of the present invention, the system provides fewer counter units than such basic units; approximating the arrangement of basic units by the counter units while maintaining such characteristics. A step of approximating such counter unit to emit a counter wave that defines a phase angle that is similar (or identical) to the harmful wave but at least partially opposite the harmful wave phase by the approximating step. Making by a process comprising the steps of: aligning the counter unit to propagate the counter wave in the target space, and thereby resisting the harmful wave by the counter wave in the target space Is done. The providing step and the approximating step may include providing more counter units for fewer basic units; and disposing at least two counter units of the counter unit around at least one basic unit of the basic units. The counter unit can be replaced by a step approximating the arrangement of the basic units while maintaining the characteristics.

  In yet another exemplary embodiment of this aspect of the invention, the system arranges at least one counter unit to move relative to the base unit; similar (or identical) to harmful waves, Configuring the counter unit to emit a counter wave defining a phase angle that is at least partially opposite to the phase angle of the harmful wave; the distance from the counter unit to the base unit and the distance between the counter wave and the harmful wave Discovering a relationship between the matching degree of; and then moving the counter unit to a position where the range is maximum, thereby counteracting the harmful wave by the counter wave in the target space Manufactured by a process including the steps of:

  In yet another aspect of the invention, a counter electromagnetic wave is emitted and then matched to the harmful wave by the counter wave, and the harmful wave is eliminated by the counter wave in the target space and the harmful wave is the target. It is also possible to provide a system that counters harmful electromagnetic waves radiated from at least one basic unit of at least one wave source by the counter wave by one of suppressing propagation to the space. Such a basic unit is configured to contain only a part of the source that irradiates the harmful waves and thereby affects the path of the harmful waves, but the target space is composed of the system and the system. It is prescribed between users.

  In one exemplary embodiment of such an aspect of the present invention, such a system identifies a first set of multiple wavefronts of such harmful waves; at least one along at least one wavefront of the wavefront Placing a counter unit; the placing step causes the counter unit to emit a counter wave forming a second set of wave fronts similar to (or identical to) the first set of wave fronts in the target space. And a first alignment step.

  In yet another exemplary embodiment of this aspect of the invention, the system identifies multiple wavefronts of such harmful waves; defining multiple wavefronts similar to the shape and / or arrangement of the counter unit Configuring at least one counter unit to emit a counter wave; placing the counter unit along at least one wavefront of the wavefront of the harmful wave; and Arranging the counter unit to emit its counter wave whose wavefront is aligned with the wavefront of the harmful wave in the target space, thereby counteracting the harmful wave by the counter wave in the target space; Manufactured by a process that includes. Configuring the at least one counter unit to emit a counter wave having a number of wavefronts different from at least one of the shape and arrangement of the counter unit; and based on the configuration step Alternatively, the counter unit may be placed over at least two wavefronts of the harmful wavefront (or along the wavefront).

  In yet another exemplary embodiment of this aspect of the present invention, such a system includes identifying multiple wavefronts of harmful waves; multiple counter units in an array along at least one wavefront of the wavefront. Configuring the counter unit to emit such counter waves having a number of wavefronts similar to the arrangement of the counter units; and based on the configuration steps, the wavefronts of the counter waves in the target space Produced by a process including the step of arranging the counter unit to emit the counter wave aligned with the wavefront of the harmful wave. Disposing a plurality of counter units in an arrangement over (or along) the wavefront of the wavefront; and a counter wave having a number of wavefronts different from the arrangement of the counter units. Alternatively, the counter unit can be configured to release the

  In yet another exemplary embodiment of this aspect of the present invention, the system identifies multiple wavefronts of such harmful waves; emitting such counter waves each having multiple wavefronts that define a radius of curvature. Configuring at least one counter unit to position the counter unit between the basic unit and the target space; comparing the longer radius of curvature of the harmful wave and the shorter radius of curvature of the wavefront of the counter wave And configuring the counter unit so that the radius of curvature of the wavefront of the counter wave is located in the target space at a position configured to match the radius of curvature of the wavefront of the harmful wave, thereby To counteract that harmful wave by its counter wave in its target space It is manufactured by a process comprising. And the positioning and comparing steps of positioning the counter unit on the opposite side of the target space with respect to the basic unit; and a shorter radius of curvature of the harmful wave and a longer wavefront of the counter wave It can also be replaced by a step of comparing the radii of curvature.

  In yet another exemplary embodiment of this aspect of the invention, the system arranges at least one counter unit to move relative to the base unit; similar (or identical) to harmful waves, Configuring the counter unit to emit a counter wave having a phase angle that is at least partially opposite to the phase angle of the harmful wave; the distance between the counter unit and the base unit, the radius of curvature of the counter wave, Discovering a relationship between the radius of curvature of the harmful wave; calculating a position where the counter wave and the wave front of the harmful wave are best matched to each other; and Move the counter unit to the position to be matched, so that its target It is manufactured by a process comprising the step of so against the harmful wave by the counter wave space.

  In yet another aspect of the invention, the basic unit of at least one wave source through one of eliminating the harmful wave in the target space and suppressing the harmful wave from being transmitted toward the target space. A system is provided that resists harmful harmful electromagnetic waves, where such a basic unit irradiates the harmful wave and through which one of its sources causing the harmful wave path to be affected. The target space is defined between the system and the user.

  In one exemplary embodiment of this aspect of the invention, such a system has the same (or similar) shape as the base unit and arranges at least one counter unit to emit counter electromagnetic waves. And defining a wave characteristic that has a phase angle that is at least partially opposite to the phase angle of the harmful wave and whose shape is at least partially similar to the wave characteristic of the harmful wave; It is fabricated by a process that includes a step (hereinafter referred to as a “third configuration step”) of constructing such a counter wave to counteract the harmful wave with a phase angle that is opposite in the target space.

  In yet another exemplary embodiment of this aspect of the invention, the system defines a 1D (or 2D, 3D) analog shape of the base unit and emits a single counter electromagnetic wave so as to emit counter electromagnetic waves. The counter unit is arranged; and is manufactured by a process comprising a third countering step. Such an alignment step is replaced by the step of defining a 1D (or 2D, 3D) analog of at least two basic units of a large number of basic units and arranging a single counter unit to emit counter electromagnetic waves. You can also

  In yet another exemplary embodiment of this aspect of the invention, the system defines the shape of a 1D (or 2D, 3D) analog of such a base unit where at least two counter units of a number of counter units are such. And arranging the multiple counter units configured to emit counter electromagnetic waves; and a third countering step. In addition, the arranging step may be performed in the form of 1D (or 2D, 3D) analogs of at least two basic units of at least two basic units, not at least two counter units of multiple counter units. And then arranging the multiple counter units configured to emit counter electromagnetic waves; and at least two counter units of the multiple counter units are each 1D (or 2D) of the multiple basic units. 3D) can be substituted by one of the steps of defining the shape of the analogue and arranging its multiple counter units configured to emit counter electromagnetic waves. Product-by-process claims relating to more production methods can be obtained by modifying the preambles of the device and / or method claims and by such body parts of the device and / or method claims. Can be added to the preamble. Such process claims may also include one or more of the characteristics of the apparatus and / or method claims of the present invention.

  As used herein, the term “unit” collectively refers to both the “basic unit” and the “counter unit” of the electromagnetic countering system of the present invention, where such a system is described below. Abbreviated as “EMC system” or simply “system”. Such classification between “units etc.” is mainly based on their intended function. That is, the “basic unit” generates, for example, an audible sound from a source signal (a speaker and a device including the speaker), or generates a source signal from an audible sound (a microphone and a device including the microphone), electrical energy, Generating an electromotive force by converting (electric motor and device including the electric motor), generating electric energy by converting the electromotive force (generator), generating a visible image from the source signal (Display elements such as CRTs, LEDs, OLEDs and PDPs and devices including the display elements), generating heat from electrical energy (linear or coil heating elements and devices including the heating elements), etc. Intended for such systems Performing a capability indicating the various portions of the EMC system. All such “basic units” irradiate harmful waves while performing their intended functions, and such “basic units” are always included in the device. In contrast, a “counter unit”, for example, eliminates at least some of the harmful waves in the target space and / or suppresses or prevents some of the harmful waves from propagating towards the target space. 2 shows a part of an EMC system that performs such a countering function. Preferably, the “counter unit” performs the function intended for the “basic unit” and can therefore also be arranged to function as an extra “basic unit” that also performs the countering function. . Such a unit is considered a “counter unit” within the scope of the present invention unless otherwise specified. Thus, within the scope of the present invention, a “base unit” is present anywhere in any prior art device, whereas a “counter unit” is not physically or functionally a prior art device.

  A “basic unit” is distinguished from a “wave source” within the scope of the present invention. More specifically, the “wave source” collectively refers to a part of the EMC system that emits such harmful waves, while the “basic unit” directly emits harmful waves and directly affects the propagation path of such waves. In particular, only a part of the “wave source” causing the problem is designated. For example, the speaker of a mobile phone is a “wave source” and the “base unit” of such a phone includes a voice coil and a permanent magnet, where the cone and bracket coupled to the coil and magnet are the cone. And / or because the bracket does not generate harmful waves and does not affect the propagation path of the harmful waves, it is part of the “wave source” but not part of the “basic unit”. Similarly, the motor of the actuating device is a “wave source”, but the “basic unit” of the motor is a permanent magnet and / or an electromagnet contained in the rotor and / or stator of the motor, where The shaft and case of the motor are part of the “wave source” because the shaft and / or case does not generate harmful waves and do not affect the propagation path of the harmful waves. Not a part. Similarly, the heater of the heating device is a “wave source” and the “basic unit” of the heating device is a linear or coiled heating element, where the insulating support and the outer coating are the support and / or Or, since the coating does not generate such harmful waves and does not affect the propagation path of the harmful waves, it is part of the “wave source” but not part of the “basic unit”. Accordingly, the shape of the “wave source” is generally different from the shape of the “basic unit”, where the “basic unit” can have a simpler or more complex shape than the shape of the “wave source”. However, a “basic unit” can also be considered as a subset of a “wave source”, so such a “basic unit” almost always defines a size that is smaller than or identical to the size of the “wave source”.

  As used herein, the term “configuration” collectively refers to shape, size, and / or arrangement, whereas the term “arrangement” collectively refers to orientation, alignment, and / or distance. Including. Accordingly, the “configuration” of a (counter or basic) unit can also refer to the unit shape, unit size, and / or arrangement of units with respect to other units of the basic and counter units. Similarly, the “arrangement” of the unit is the basic unit and the counter unit among the other units, the target space, the harmful wave or the counter wave propagation direction, the other units of the unit or the basic unit and the counter unit. The orientation and / or alignment of such units can also be referred to with respect to the direction of the flowing current or the direction of the applied voltage. The “arrangement” of the unit can also refer to a distance from the unit to another unit among the basic unit and the counter unit, a target space, and the like. If the system includes multiple counter units, the “arrangement” of the units may also include the distance between at least two counter units of such counter units.

  Within the scope of the present invention, the term “wire” refers to articles having the shape of wires, fibers, filaments, rods, and / or strands, and each of which is a straight line or a curve (ie, a curved shape). Each of which refers collectively to the shape of any other similarly extended article formed in a loop, coil, roll, spiral, mesh, or the like. The term “strip” refers to strip, bar, pad, and / or tape shapes, each arranged in a straight line or curve, each arranged in a two-dimensional or three-dimensional configuration, each of which is a loop, coil, roll Collectively refers to the shape of any other planar or curvilinear article having a large aspect ratio (ie, ratio of length to width or height) that can also be arranged in a spiral, mesh, etc. Also, the term “sheet” is broader than articles having the shape of sheets, slabs, foils, membranes, plates, and / or layers, and “strips”, each being planar (ie, two-dimensional or 2D) or curved. (Ie, 3D or 3D), each of which refers collectively to the shape of any other article formed of segments, rolls, etc. The term “tube” can also define any shape described above or below, and collectively refers to an article that forms at least one lumen through that shape. Such “tubes” may be arranged in a straight line or a curve, and may be arranged in a loop, a coil, a roll, a spiral, a mesh, or the like. The term “coil” refers to an article that defines a spiral and / or spring shape and any other article that is wound around the object along the longitudinal or minor axis of such object at a certain distance from the object. The shape and the like are collectively referred to. The “coils” may be arranged in a straight line or a curve, and may be arranged in a loop (such as a toroid), a coil, a roll, a helix, a mesh, or the like. The term “spiral” refers to articles that also define other spiral and / or spring shapes that can expand or decrease along the longitudinal or minor axis of the object, and any that are wrapped around such objects at variable distances Other shapes of articles are designated collectively. It should be understood that the planar “spiral” can also be formed on a single curved plane that is perpendicular to the longitudinal or minor axis of the object. The term “mesh” refers to the shape of an article having the shape of a mesh, net, screen, quilt, woven, and / or garment, and any other article formed into a networking structure, woven structure, interwoven structure, etc. And point to it. The term “bundle” is the same or different extended in a manner that includes at least two shapes of the cross-section of the “bundle” or “bundled article” side by side or aligned on the sides. Articles defining two or more shapes are collectively referred to. The term “braid” means that the “braid” or “braided article” is braided in a manner that consists of at least two shapes that are extended in a cross-section perpendicular to the longitudinal and / or minor axis of the braid. Collectively refers to an article having two or more shapes of the same or different extended shapes, where examples of such articles are threads, yarns, any other made by conventional braiding techniques Including, but not limited to, articles. It can be appreciated that at least a portion of each such article formed in accordance with the terminology in this paragraph can also be arranged to be three-dimensional, hollow or porous, such as, for example, foam, sponge, etc. . It should also be understood that each such article formed in accordance with the terminology previously described in this paragraph can be arranged to include (or define) at least one hole, gap or opening. Similarly, as described herein, the term “mixture” refers collectively to liquids, solutions, sols, gels, emulsions, suspensions, slurries, and / or powders, each of which is a multiple Particles, particulates, particles, granular spots, filings, debris, and / or pellets, each of which can be a sphere, ellipse, cylinder, flake, “wire”, “strip” , Etc., each of which can be in the millimeter, micron or nanometer range. When adapted, such a “mixture” is at least one chemically, electrically, and / or magnetically inert to provide the mixture with at least one solvent, mechanical strength and / or integrity. Fillers and the like can also be included.

  The term “combined” also refers to a collection of different shapes, examples of which include the aforementioned wires, strips, sheets, tubes, coils, spirals, meshes, braids thereof, and bundles thereof. However, it is not limited to this. Similarly, the term “array” refers to a collection of such shapes. However, the “array” refers to a “collection” through which a number of holes or openings are also formed.

  As described herein, “axis”, “radius” and “angle” are used with reference to the central axis of the system. Based on that, “axial” refers to the direction along the central axis of the system, while “radial” means other directions that are perpendicular to such “axial” and thus the system The direction extending away from the center and outward is shown. It is understood that such “radial direction” may be other directions that may be spaced away from the center of the system and extend outwards, and may not necessarily be perpendicular to the “axial direction”. I want to be. The term “angular direction” refers to another direction that rotates clockwise or counterclockwise with respect to the “axial direction”.

  It should be understood that the various electrical and magnetic shielding provisions of the present invention are similar to the provisions as provided in the above-mentioned co-pending applications. Therefore, such a definition is omitted here for the sake of simplicity of illustration.

  Unless defined otherwise in the following description, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Although methods or materials similar or similar to those described herein can be used in the practice or testing of the present invention, suitable methods and materials are described below. All publications, patent applications, patents, and / or other references disclosed herein are incorporated by reference in their entirety. In the case of any collision, the specification of the invention, including the provisions, is controlled. In addition, the materials, methods, and examples are not intended to be limiting and are merely exemplary.

  Other features and / or advantages of the invention will be apparent from the following detailed description, and from the claims.

FIG. 2 is a schematic top view of an exemplary electromagnetic countering mechanism, in which each single counter unit is a harmful wave irradiated by a single basic unit of a single source according to the present invention. A counter wave is emitted to counteract. FIG. 2 is a schematic top view of an exemplary electromagnetic countering mechanism, in which each single counter unit is a harmful wave irradiated by a single basic unit of a single source according to the present invention. A counter wave is emitted to counteract. FIG. 2 is a schematic top view of an exemplary electromagnetic countering mechanism, in which each single counter unit is a harmful wave irradiated by a single basic unit of a single source according to the present invention. A counter wave is emitted to counteract. FIG. 2 is a schematic top view of an exemplary electromagnetic countering mechanism, in which each single counter unit is a harmful wave irradiated by a single basic unit of a single source according to the present invention. A counter wave is emitted to counteract. FIG. 2 is a schematic top view of an exemplary electromagnetic countering mechanism, in which each single counter unit is a harmful wave irradiated by a single basic unit of a single source according to the present invention. A counter wave is emitted to counteract. FIG. 2 is a schematic top view of an exemplary electromagnetic countering mechanism, in which each single counter unit is a harmful wave irradiated by a single basic unit of a single source according to the present invention. A counter wave is emitted to counteract. FIG. 2 is a schematic top view of an exemplary electromagnetic countering mechanism, in which each of the multiple counter units is configured to detect harmful waves irradiated by a single basic unit of a single source according to the present invention. A counter wave is emitted to resist. FIG. 2 is a schematic top view of an exemplary electromagnetic countering mechanism, in which each of the multiple counter units is configured to detect harmful waves irradiated by a single basic unit of a single source according to the present invention. A counter wave is emitted to resist. FIG. 2 is a schematic top view of an exemplary electromagnetic countering mechanism, in which each of the multiple counter units is configured to detect harmful waves irradiated by a single basic unit of a single source according to the present invention. A counter wave is emitted to resist. FIG. 2 is a schematic top view of an exemplary electromagnetic countering mechanism, in which each of the multiple counter units is configured to detect harmful waves irradiated by a single basic unit of a single source according to the present invention. A counter wave is emitted to resist. FIG. 2 is a schematic top view of an exemplary electromagnetic countering mechanism, in which each of the multiple counter units is configured to detect harmful waves irradiated by a single basic unit of a single source according to the present invention. A counter wave is emitted to resist. FIG. 2 is a schematic top view of an exemplary electromagnetic countering mechanism, in which each of the multiple counter units is configured to detect harmful waves irradiated by a single basic unit of a single source according to the present invention. A counter wave is emitted to resist. FIG. 2 is a schematic perspective view of an exemplary counter unit included in a speaker including various basic units according to the present invention. FIG. 2 is a schematic perspective view of an exemplary counter unit included in a speaker including various basic units according to the present invention. FIG. 2 is a schematic perspective view of an exemplary counter unit included in a speaker including various basic units according to the present invention. FIG. 2 is a schematic perspective view of an exemplary counter unit included in a speaker including various basic units according to the present invention. FIG. 2 is a schematic perspective view of an exemplary counter unit included in a speaker including various basic units according to the present invention. FIG. 2 is a schematic perspective view of an exemplary counter unit included in a speaker including various basic units according to the present invention. FIG. 2 is a schematic perspective view of an exemplary counter unit included in a speaker including various basic units according to the present invention. FIG. 2 is a schematic perspective view of an exemplary counter unit included in a speaker including various basic units according to the present invention. FIG. 2 is a schematic perspective view of an exemplary counter unit included in a speaker including various basic units according to the present invention. FIG. 3 is a schematic perspective view of an exemplary counter unit included in a motor including various basic units according to the present invention. FIG. 3 is a schematic perspective view of an exemplary counter unit included in a motor including various basic units according to the present invention. FIG. 3 is a schematic perspective view of an exemplary counter unit included in a motor including various basic units according to the present invention. FIG. 3 is a schematic perspective view of an exemplary counter unit included in a motor including various basic units according to the present invention. FIG. 3 is a schematic perspective view of an exemplary counter unit included in a motor including various basic units according to the present invention. FIG. 3 is a schematic perspective view of an exemplary counter unit included in a motor including various basic units according to the present invention. FIG. 3 is a schematic perspective view of an exemplary counter unit included in a heating unit including various basic units according to the present invention. FIG. 3 is a schematic perspective view of an exemplary counter unit included in a heating unit including various basic units according to the present invention. FIG. 3 is a schematic perspective view of an exemplary counter unit included in a heating unit including various basic units according to the present invention. FIG. 3 is a schematic perspective view of an exemplary counter unit included in a heating unit including various basic units according to the present invention. FIG. 3 is a schematic perspective view of an exemplary counter unit included in a heating unit including various basic units according to the present invention. FIG. 3 is a schematic perspective view of an exemplary counter unit included in a heating unit including various basic units according to the present invention. FIG. 3 is a schematic perspective view of an exemplary counter unit included in a heating unit including various basic units according to the present invention. FIG. 3 is a schematic perspective view of an exemplary counter unit included in a heating unit including various basic units according to the present invention. 1 is a schematic perspective view of an exemplary speaker having a counter unit and an electromagnetic (or magnetic) shield according to the present invention. FIG. 1 is a schematic perspective view of an exemplary speaker having a counter unit and an electromagnetic (or magnetic) shield according to the present invention. FIG. 1 is a schematic perspective view of an exemplary speaker having a counter unit and an electromagnetic (or magnetic) shield according to the present invention. FIG. 1 is a schematic perspective view of an exemplary speaker having a counter unit and an electromagnetic (or magnetic) shield according to the present invention. FIG. 1 is a schematic perspective view of an exemplary speaker having a counter unit and an electromagnetic (or magnetic) shield according to the present invention. FIG. 1 is a schematic perspective view of an exemplary speaker having a counter unit and an electromagnetic (or magnetic) shield according to the present invention. FIG.

  The present invention includes at least one wave source that irradiates harmful electromagnetic waves, and at least one counter unit that emits the counter wave in order to counter the harmful wave by the counter wave, and the counter unit includes, for example, An electromagnetic countering system that counters the harmful wave by the counter wave by, for example, suppressing the harmful wave from propagating to the target space by erasing at least a part of the harmful wave by the counter electromagnetic wave. It is about. More specifically, the present invention relates to a general-purpose counter unit of the electromagnetic countering system and various mechanisms for resisting harmful waves radiated from various basic units of the wave source by the counter unit. Thus, the counter unit is shaped, sized and / or arranged so that its configuration matches that of the basic unit of the wave source, thereby emitting a counter wave that automatically matches the characteristics of the harmful waves . Alternatively, the counter unit is formed, sized and / or arranged in a defined arrangement along one or more wavefronts of the harmful wave, thereby automatically adjusting the harmful wave characteristics. A matching counter wave is emitted. The present invention also relates to various counter units provided as analogs of the basic unit of the wave source, where the analogs approximate a more complex basic unit than the counter unit and are also three-dimensional. Alternatively, the two-dimensional basic unit can be approximated as a two-dimensional or one-dimensional analog or the like. The invention also relates to a number of simple counter units which are simpler than the basic unit but are arranged in an arrangement approximating such shape and / or arrangement of the basic unit. The invention also relates to a counter unit that is formed and / or sized by the configuration and arrangement of the basic unit. In addition, the present invention also provides that a single counter unit can resist at least two basic units, or all multiple basic units, but not all of multiple basic units among a single basic unit and multiple basic units. It relates to various countering modes in which a large number of counter units can withstand a single basic unit, more basic units or fewer units. The present invention relates to various electrical and / or magnetic shields used alone or in conjunction with a counter unit to minimize the exposure of harmful waves from the system.

  The present invention also relates to various methods for countering harmful waves with counter waves by source matching or wave matching. In more detail, the present invention provides a base unit with various methods of forming a counter unit as an analog of the base unit and then emitting a counter wave that matches such harmful waves, a simpler counter unit for countering. And various methods of approximating the basic unit by a number of simpler counter units. In addition, the present invention automatically arranges a counter unit along the wavefront of the harmful wave in order to automatically match the wavefront of the harmful wave, and then automatically matches the wavefront with various methods for emitting the counterwave. Therefore, the present invention relates to various methods for arranging a number of counter units along the wavefront of the harmful wave and then emitting the counter wave. In addition, the present invention provides various methods for manipulating the wavefront of the counter wave by placing the counter unit closer and / or further away from the target space with respect to the basic unit, with the same or opposite phase angle. Various methods for controlling the radius of curvature of the wavefront of the counter wave by including one or multiple counter units that emit counter waves, one or multiple counters that define a shape that is similar or different from the shape of the basic unit The present invention relates to various methods for adjusting the wavefront of a counter wave by arranging units. The invention also relates to various methods for countering harmful waves from one or many basic units with counter waves emitted by a single or multiple counter units. Accordingly, the present invention provides various methods for emitting such counter waves from a single counter unit to harmful waves irradiated by one or more basic units, harmful waves irradiated by a single or multiple basic units. The present invention relates to various methods for emitting such counter waves by two or more counter units. The present invention also relates to various methods for minimizing the exposure of harmful waves by including any one or both of such shields together with such an electrical shield, magnetic shield, or counter unit. .

  The invention also relates to various processes for providing various counter units and various systems including one or multiple counter units. More specifically, the present invention relates to various processes for forming a counter unit to emit a counter wave having a wavefront similar to (or different from) such a shape of the counter unit, the counter unit as the analog of the basic unit. Various processes to form, various processes to provide a counter unit that emits such counter waves that define a phase angle that is similar or opposite, various to provide such counter units with wave fronts that are shaped similar to harmful waves The present invention relates to a process, various processes in which the counter units are arranged in a preset arrangement, and a counter wave having a wavefront similar to the arrangement is emitted from the counter unit. In addition, the present invention is to prevent harmful waves emitted from a single basic unit for local countering, or to prevent harmful waves from multiple basic units for global countering. Various processes for assigning a single counter unit, and its local or global, depending on the number of counter units and basic units, and against the harmful waves emitted from a single basic unit for its global countering It relates to various processes for allocating multiple counter units to counter harmful waves from multiple basic units for countering. The present invention also provides various processes including electrical and / or magnetic shields to minimize the radiation of such harmful waves, and by utilizing the counter unit as well as such shields, It relates to a variety of processes that minimize irradiation.

  The basic principle of the counter unit of the universal electromagnetic countering system of the present invention is to form a wavefront similar to (or identical to) the wavefront of the harmful wave, but at least partially opposite the phase angle of such harmful wavefront The counter wave that defines the angle is emitted. Therefore, by propagating the counter wave to the target space, the counter wave eliminates at least a part of the harmful wave in the target space and / or the harmful wave propagates toward the target space, for example. By suppressing, the harmful waves in the target space can be effectively resisted. For this purpose, the counter unit is arranged to emit a counter wave that defines a wavefront that matches the wavefront of the harmful wave by various mechanisms. In one example, such a counter unit is formed (similarly) similar to (or identical to) the basic unit of the wave source or arranged (similarly) similar to such a basic unit, and thus can resist harmful waves in the target space. A counter wave that can be emitted. In yet another example, such a counter unit is arranged along one or more of the harmful wave fronts and emits a counter wave similar to (or identical to) the harmful waves, and thus the target space. To resist harmful waves. In two such examples, the counter unit emits a counter wave having a wavefront similar to (or identical to) the shape of the counter unit itself, which counter wave is at least partially opposite the phase angle of the harmful wave. A phase angle is specified. In another example, the counter unit is formed differently from the basic unit, but instead, the counter wave emitted from the counter unit is arranged in an array that matches such harmful waves in the target space. In another example, the counter unit is arranged over different wavefronts of the harmful wave, but emits a counter wave that is similar (or identical) to the harmful wave, and thus resists the harmful wave in the target space. To do. In the last two examples, the counter unit can be arranged to emit a counter wave having a wavefront that is similar (or identical) or not similar (or identical) to the shape of the counter unit itself, The counter wave defines a phase angle that is at least partially opposite the phase angle of the harmful wave.

  The basic principle of the counter unit of the general-purpose electromagnetic countering system of the present invention can be implemented in various conventional devices in order to minimize harmful wave irradiation from the system. For example, the counter unit, for example, eliminates at least a part of harmful waves in the target space and / or suppresses the harmful waves from propagating toward the target space, and counters the harmful waves with the counter wave. In order to minimize the exposure of harmful waves, any basic unit of electrically conductive wires, coils, and / or sheets, alternatively, any electrically semiconductive and / or insulated wires, coils And / or a sheet. Here, the counter unit can also consist of and / or comprise at least one electrically conductive, insulating or semiconductive material. The counter unit defines a shape formed by having one or many wires, coils and / or sheets and by deforming the shape of one or many wires, coils and / or sheets. Embodied in any of these basic units, where some examples of deformed shapes include solenoids and toroids, each of which is formed by deforming the shape of such a coil Is done. Accordingly, in one example, such a counter unit can be implemented in various speakers such as a cone drive speaker, an electrostatic speaker, and a piezoelectric speaker in order to minimize harmful wave irradiation. Thus, any prior art device including electromagnetic countering speakers such as earphones, headphones, wired telephones, mobile telephones, and audiovisual devices can be converted to an electromagnetic countering system. Similarly, the counter unit may be embodied in any prior art device including various microphones that are inverse examples of such speakers, and electromagnetic countering microphones such as wired telephones, mobile telephones, audio and / or audiovisual sound systems. The earphone and microphone assembly can be converted to an electromagnetic countering system. In another example, the counter unit may be implemented in various motors such as a DC motor, a universal motor, an AC synchronous motor, an AC induction motor, a linear motor, etc., in order to minimize the irradiation of the harmful wave. Is done. Therefore, kitchen equipment (eg, food processor, mixer, juicer, pulverizer, mixer, press, can opener, dishwasher, refrigerator, refrigerator, cooler, etc.), cooking equipment (eg, electric grill, electric oven, electric stove) , Electric range, electric toaster, electric fan for them, household appliances (eg washing machine, dryer, air conditioner, garage opener, dry or wet vacuum cleaner, etc.), tools (eg electric drill, electric Any prior art including electromagnetic countering motors such as saws, electric screwdrivers, electric nails or staple guns, electric sanders, etc., and personal hygiene devices (eg, electric razors, electric toothbrushes, electric hair dryers, etc.) The actuator device can be converted to an electromagnetic countering system. Similarly, the counter unit can also be embodied in a variety of generators, including any prior art generator device having an electromagnetic countering generator such as an AC generator, a DC generator, and an (automotive) AC generator. Can be converted to an electromagnetic countering system. In another example, such a counter unit may be embodied in a variety of transformers including at least two coils therein, such as a step-up transformer, a step-down transformer, and an electromagnetic counter ring such as an AC / DC adapter for various electrical devices. Any prior art device including a transformer can be converted to an electromagnetic countering system. In yet another example, such a counter unit may include a variety of heating including at least one resistive heating wire, heating strip, heating sheet, and / or heating coil to minimize harmful radiation during heating. Embodied in the unit. Thus, personal heating equipment (eg, electric mattress or mat, electric blanket, electric heating pad, etc.), cooking equipment (eg, electric grill, electric oven, electric stove, electric range, electric toaster, electric toast oven, etc.), and Any prior art heating device such as beauty-related equipment (eg, hair dryer, hair set, hair curler, hair steamer, etc.) can be converted to an electromagnetic countering system. In another example, such a counter unit may be implemented in various light emitting units to minimize such harmful wave irradiation during illumination. Thus, any prior art display device such as a cathode ray tube, light emitting device, organic light emitting device, inorganic light emitting device, and plasma display panel can be converted to an electromagnetic countering system.

  By including at least one basic unit, radio waves (hereinafter abbreviated as “EW”) and electromagnetic waves (hereinafter abbreviated as “MW”) having a frequency of about 50 Hz to 60 Hz and / or higher frequency EW and All electric and / or electronic devices that irradiate harmful waves including MW include various counter units of the general-purpose electromagnetic countering system of the present invention (hereinafter referred to as “EMC system” or simply “system”). I hope it will come. Also, all portable or stationary electrical and / or electronic devices, including detailed examples of at least one basic unit provided previously and subsequently, can further include the general purpose EMC system of the present invention. I want you to understand. Such counter units may also be provided on a micron scale and included in semiconductor chips and circuits such as LSI and VLSI devices, such counter units being provided on a nanoscale, in which case a single molecule or compound or It should be understood that it may be included in a variety of nanodevices comprising at least one basic unit that is a cluster of multiple molecules or compounds.

  Various aspects and / or embodiments of the various systems, methods and / or processes of the present invention will now be described in more detail with reference to the accompanying drawings, wherein Such aspects and / or embodiments merely show different forms. However, such systems, methods, and / or processes of the present invention can be embodied in many other different forms, and thus are not limited to such aspects and / or embodiments described herein above. Instead, the various exemplary aspects and / or embodiments described herein are provided so that this disclosure is thorough and complete, and fully conveys the scope of the invention to those skilled in the art. .

  Unless otherwise specified, it is generally understood that the various members, units, elements, and portions of the various systems of the present invention are not shown to scale and / or proportions for ease of illustration. In addition, each such member, unit, element, and / or portion of the various systems of the present invention designated by the same reference numeral is typically the same, similar, and / or functionally equivalent member of the system. , Unit, element, and / or portion.

  In a general aspect of the present invention, an EMC system includes at least one wave source and at least one counter unit, from which the counter electromagnetic wave (hereinafter abbreviated as “counter wave”) emitted from the counter unit. It resists the harmful electromagnetic waves irradiated (hereinafter abbreviated as “harmful waves”). The source of the harmful wave, that is, the actual source of the harmful wave, such as irradiating the harmful wave, affecting the propagation path of the harmful wave while maintaining or changing the amplitude and / or phase angle of the harmful wave Always contain at least one basic unit. Examples of such basic units are wires, strips, plates, rings of the basic unit, coils of the basic unit, spirals of the basic unit, and of the basic unit that emit harmful waves when current flows through it. Conductive or semi-conductive articles such as meshes, wires, strips, plates, their basic units that cannot carry such current when voltage is applied, but can emit harmful waves A ring of the base unit, a coil of the base unit, a spiral of the base unit and its insulating article, such as a mesh of the base unit, a permanent magnet capable of influencing the direction, path and / or amplitude of such harmful waves, etc. Yes, but not limited to this. The wave source further includes at least one optional part that does not irradiate the harmful wave and does not affect the propagation path of the harmful wave, but mechanically supports or maintains such a basic unit. Examples of the optional part include, but are not limited to, a case surrounding the basic unit, a protective cover, a coupler, an arbitrary part where no such current flows, an arbitrary part where no voltage is applied, and the like. The counter unit emits a counter wave that can counter the harmful wave, for example, by eliminating the harmful wave and / or suppressing the harmful wave from propagating along a specific direction. Arranged. The counter unit is arranged to counter the harmful waves in all directions from the basic unit of the wave source, for example above, below and around the basic unit. However, such an embodiment is expensive to implement and may not be feasible, especially when the EMC system is used in a specific orientation by a user protected from such harmful waves. In such a case, the counter unit resists harmful waves only around the specific target space (or area) generally defined between the basic unit and the user (or a specific body part of the basic unit). To be arranged.

  In order for a counter wave to counter (ie, eliminate and / or suppress) such harmful waves, there are several prerequisites that the counter wave must satisfy. The first is the phase angle of the counter wave. In general, when such a counter wave propagates from the same side as the basic unit to the target space, the harmful wave phase angle and at least the counter wave can be eliminated and / or suppressed. It is preferred to define phase angles that are partially or substantially opposite. Alternatively, if the counter wave propagates from the other side of the base unit to the target space, the counter wave phase angle and / or suppression is at least partially such that the counter wave cancels and / or suppresses the harmful wave. Have similar (or identical) phase angles. If the system includes multiple counter units, each counter unit emits a counter wave having the same, similar or different phase angle. Next is the amplitude of the counter wave. In contrast to its phase angle, such counter waves can define a variety of amplitudes that effectively counteract the harmful waves in the target space. When arranged closer to the target space than the basic unit, the counter unit only has to emit a counter wave having an amplitude smaller than that of the harmful wave. Similarly, the counter unit adjacent to the basic unit with respect to the target space must emit a counter wave having an amplitude similar to or the same as that of the harmful wave, whereas the counter unit is spaced apart from the basic unit. The unit must emit a counter wave having an amplitude greater than that of the harmful wave. If the system includes a number of counter units, all such counter units may be located at similar distances from the base unit and / or target space; alternatively, at least two counter units of the counter unit are It may be arranged at different distances from the unit and / or target space. In addition to the distance and / or placement of the counter unit, the counter wave may vary depending on whether the counter wave resists harmful waves over all parts of the target space or only at preset positions in the target space. It can also have a sufficient strength. For example, the counter unit preferably emits a counter wave that can resist the harmful waves in the entire target space when the user is located at any place over the target space. However, if the user is located only at a preset position in the target space, the counter unit emits a counter wave that best counters the harmful waves at such position, and in other parts of the target space It can also be formed, sized, arranged and arranged so as not to be efficient.

  Once the counter unit is arranged to emit a counter wave that defines the appropriate phase angle and amplitude, such a counter unit can be formed, sized to resist harmful waves depending on a detailed countering mechanism. It can also be determined, arranged and arranged.

  In one example, the counter unit may be formed, sized, and / or arranged similar (or identical) to the base unit, which is hereinafter referred to as “source matching”. The basic concept of “source matching” is that the counter unit emits a counter wave that defines a wavefront similar to the configuration (ie, shape, size, and arrangement) of the counter unit, and the wavefront of the counter wave is harmful. It automatically matches the wave front of the wave so that the counter wave resists the harmful wave due to the similarity between the counter unit and the basic unit. If the system includes a number of basic units, a single counter unit resists harmful waves emitted by one of such basic units, or all such basic units or at least two of such basic units. Arranged to emit counter waves that can counteract the summation of harmful waves emitted by two basic units. If the system includes multiple counter units, such counter units can also emit counter waves that can counter the harmful waves emitted by a single basic unit or multiple basic units. If the system includes a large number of counter units and basic units, such counter waves from each counter unit can counteract harmful waves from each basic unit, and the sum of such counter waves from at least two counter units is A counter wave from one basic unit can counter harmful waves, a counter wave from a single counter unit can also counter the sum of harmful waves from at least two basic units, all such The sum of counter waves from the counter units can counteract the sum of harmful waves from all basic units. In such “source matching”, it is preferable that the counter unit emits a counter wave having a wavefront having a configuration similar to that of the counter unit. However, as long as the counter wave resists harmful waves in the target space, the counter unit can emit a counter wave having a wavefront having a configuration different from that of the counter unit and is emitted by a large number of counter units. The combined wavefronts of the counter waves can have a configuration different from the configuration of each counter unit or an arrangement of the counter units.

  In yet another example, the counter unit is arranged (ie, oriented, aligned, and / or positioned) such that at least one wavefront of the counter wave matches at least one wavefront of the harmful wave. Here, such a mechanism is hereinafter referred to as “wave matching”. The basic concept of the “wave matching” is that the counter unit is positioned to match the wavefront of the harmful wave and the wavefront of the counterwave as long as the configuration of the counter unit is appropriately adjusted to satisfy the “wavematching”. When placed, the counter wave resists the harmful wave. When the system includes a large number of basic units, a single counter unit can match and resist harmful waves emitted from one of the basic units; It can also be arranged to emit counter waves that can match and counter the sum of harmful waves emitted from at least two basic units of the unit or all of its basic units. When such a system includes multiple counter units, the counter unit emits a counter wave that can counter the harmful waves emitted by a single basic unit or multiple basic units. If the system includes multiple counter units and basic units, as long as at least one wavefront of the counterwave wavefront matches at least one wavefront of the harmful wavefront in the target space, such counterwaves from each counter unit will be The harmful waves caused by each basic unit can be resisted, and the sum of the counter waves emitted by at least two counter units can resist harmful waves from one of the basic units. The counter wave from the counter unit can counter the summation of harmful waves from at least two basic units, and the sum of counter waves from all such counter units is the sum of harmful waves irradiated by all basic units. Can also resist.

  Various counter units configured based on source matching and / or wave matching are disclosed below. It should be understood that at the source matching there is no one-to-one correlation between the configuration of such a counter unit and the configuration of the counter wave emitted by the counter unit. That is, a single counter unit provided with a constant arrangement (or wave characteristic) of counter waves having a fixed shape and size and a fixed arrangement, a similar shape and size, but other arrangements Other counter units provided in, at least two other counter units having different shapes and sizes but provided in a similar arrangement, provided in a preset arrangement with a preset shape and size Two counter units, defining different shapes and / or sizes, or the same number of counter units in different arrangements, and defining different shapes and / or sizes, or different numbers of counters in similar arrangements Can be obtained by unit. Similarly, in the wave matching, it should be understood that there is no one-to-one correlation between the arrangement of the counter unit and the wavefront of the counter wave emitted by the counter unit. That is, a wavefront having a certain shape is defined at a certain position with respect to the basic unit and / or the target space by defining a certain structure, or at another position by forming another structure. Other single counter units to be arranged, at least two counter units having a preset configuration and arranged at preset positions, the same number arranged at different positions defining different configurations Counter units, different numbers of counter units arranged at different positions by defining different configurations, and the like. Accordingly, it should be understood that such a counter unit may be embodied in many other different forms and is not limited to the following aspects and / or embodiments of those aspects described herein. Instead, the various exemplary aspects and / or embodiments described herein are such that such disclosure is thorough and complete, and can fully convey the scope of the invention to those skilled in the art. Provided.

  In yet another aspect of the invention, a single general purpose counter unit is provided for the basic unit to counter harmful waves from a single general purpose basic unit by the counter wave from the counter unit. can do. FIGS. 1 a-1 f schematically show a top view of an exemplary electromagnetic countering mechanism, in each of which a single counter unit is in accordance with the present invention a single source of a single wave source. A counter wave that can resist harmful waves emitted from the basic unit is emitted. The basic unit is a point source in FIGS. 1a to 1c and 1f, but an extended source in FIGS. 1d and 1e. However, it should be understood that such drawings can be interpreted from different perspectives. For example, such a drawing can also be interpreted as a cross-sectional view at the top, where the basic unit of FIGS. 1a to 1c and 1f is a wire extending perpendicular to the sheet, and the basic unit of FIGS. Is a strip or rectangular rod that also extends perpendicular to the sheet. In another example, the drawing can also be interpreted as a cross-sectional view of a more complex article, where the basic units of FIGS. 1a-1c and 1f correspond to cross-sections of coils, spirals, meshes, etc. The basic unit of FIGS. 1d and 1e may correspond analogously to the cross-section of a curved rod or strip. In such drawings and the like, it should be understood that such a basic unit is surrounded by a wave source that is a case or other part of a system that does not emit such harmful waves. In all such drawings, it should be understood that the EMC system is arranged in such a manner that the target space is formed on the right side of the counter unit and the basic unit.

  In one exemplary embodiment of such an aspect of the present invention, as described in FIG. 1a, the EMC system 5 includes a single rectangular wave source 10 and a single counter unit 40, where the source 10 is It includes a single basic unit 10B that defines the shape of the point source. The counter unit 40 is also formed similar to other point sources and is arranged on the right side of the basic unit 10b. With such an arrangement, the counter unit 40 emits a counter wave, and the wave front of the counter wave is the same as the wave front of the harmful wave irradiated by the basic unit 10B. Since the counter unit 40 is arranged on the right side of the drawing in close proximity to the temporary target space, such counter wavefront always defines a radius of curvature that is smaller than the radius of curvature of the harmful wavefront. Therefore, the counter unit 40 can also counter (ie, eliminate or suppress) harmful waves along or around only the line connecting the counter unit 40 and the basic unit 10B. It should be understood that such an embodiment corresponds to source matching that has been found to be inefficient due to a mismatch in the radius of curvature of the wavefronts of the counter and harmful waves.

  In yet another exemplary embodiment of this aspect of the invention, as shown in FIG. 1B, the EMC system 5 includes a single counter unit 40 and a single basic unit 10B disposed therein. A single wave source 10 is included. The basic unit 10B is similar to the basic unit of FIG. 1A, but the counter unit 40 is extended, vertically oriented along its length, and placed on the right side of the basic unit 10B. Due to its extended shape, the counter unit 40 emits a counter wave, and the wave front of the counter wave is also extended vertically, so that the curvature is greater than the radius of curvature of FIG. 1A and matches the radius of curvature of the harmful wave. Specify the radius. Therefore, the counter unit 40 defines a target space 50 that resists harmful waves within a preset range of the counter wave. It should be understood that such an embodiment corresponds to a wave matching mechanism in which the counter unit 40 is formed similar to one of the wavefronts of harmful waves.

  In yet another exemplary embodiment of this aspect of the invention, as shown in FIG. 1C, the EMC system 5 includes a single counter unit 40 and a single basic unit 10B disposed therein. A single rectangular wave source 10 is included. Its basic unit 10B is similar to the basic unit of FIG. 1A, but its counter unit 40 is shaped and sized to match one wavefront of such harmful waves. That is, the counter unit 40 is formed as an arc, and is arranged in a concave orientation on the right side of the drawing or in the target space 50. Due to its arcuate shape, such counter unit 40 emits counterwaves, and the wavefront of the counterwave is also arcuate, thus defining a radius of curvature similar or identical to the radius of curvature of harmful waves. Therefore, the counter unit 40 defines a target space 50 that resists harmful waves within a preset range of the counter wave. In such an embodiment, the counter wave emitted from such an arcuate counter unit 40 matches the harmful wave front most, and extends around the basic unit 10B at a wider angle than the basic unit of FIGS. 1A and 1B. It should be understood that it corresponds to other wave matching mechanisms that define the target space 50.

In yet another exemplary embodiment of this aspect of the invention, as shown in FIG. 1D, the EMC system 5 includes a single counter unit 40 and a single base unit 10B. A rectangular wave source 10 is included. In contrast to the basic unit, such a basic unit 10B is rectangular and is oriented vertically along the length or long axis of the basic unit to emit harmful waves, the wave front of which is A vertical and relatively straight portion resulting from the length or major axis of the basic unit 10B is defined. The counter unit 40 is formed and sized similar or identical to the basic unit 10B and is arranged in the same orientation as the basic unit 10B. Such orientation can also be observed to place the counter unit 40 along the vertical part of the wavefront of the harmful wave. The counter unit 40 emits a counter wave, and similarly, the length or major axis of the counter wave defines a portion where the wave front of the counter wave is vertical and relatively straight. Since such part of the counter wavefront matches that part of the harmful wavefront, the counter unit 40 forms the target space 40 on the right side.
Such an embodiment corresponds to source matching, wave matching, or a combination thereof. The counter unit of FIG. 1a is formed and sized as a basic unit, but is inefficient due to a mismatch in radius of curvature between the wavefront of the counter wave and the wavefront of the source wave. The counter unit 40 of such an embodiment is similarly formed and sized as the basic unit 10B, but efficiently resists harmful waves in the target space 50. The main reason for such countering is due to the fact that both harmful waves and counter waves define a vertical section along the wave front of the wave that is generally independent of their radius of curvature. Otherwise, configuring a counter unit 40 similar to the base unit 10B and then placing such counter unit 10 between the base unit 10B and the target space generally does not provide efficient counter ring. Additional details of such a front arrangement will be described later. It should be understood that such embodiments correspond to source matching in which the counter unit 40 is formed, sized, and / or arranged in a similar (or identical) manner to the base unit 10B.

  In yet another exemplary embodiment of this aspect of the invention, as shown in FIG. 1e, the EMC system 5 is similar to the single counter unit 40 and the basic unit illustrated in FIG. 1d. It includes a single rectangular wave source 10 having a single basic unit 10B. However, the counter unit 40 is shaped and sized to match one wavefront of such harmful waves. Similar to the counter unit of FIG. 1 c, the counter unit 40 is formed as an arc and is arranged in a concave orientation on the right side of the drawing or in the target space 50. Due to its arcuate shape, such a counter unit 40 emits such a counter wave, and the wave surface of the counter wave is also arcuate, and therefore mainly due to the arcuate shape of the counter unit 40, A radius of curvature similar to or the same as that of harmful waves is defined along the vertical portion and the curved portion. Accordingly, such a counter unit 40 defines a target space 50 that extends over a wide angle that counter waves effectively resist such harmful waves. It should be understood that such an embodiment is compatible with other wave matching mechanisms.

  In yet another exemplary embodiment of this aspect of the invention, as shown in FIG. 1f, the EMC system 5 includes a single counter unit 40 and a single base unit 10B. A rectangular wave source 10 is included. Both the counter unit 40 and the basic unit 10B are identical to the unit of FIG. However, the counter unit 40 is located on the opposite side of the target space 50 with respect to the basic unit 10B and is aligned with the basic unit 10B as in the previous drawings. With such an arrangement, the counter unit 40 emits a counter wave, and the wave front of the counter wave is the same as the wave front of the harmful wave irradiated by the basic unit 10B. Since the counter unit 40 is arranged away from the target space 50, when the counter unit 40 is arranged at an appropriate distance from the basic unit 10B, the counter wavefront reaches the radius of curvature of the harmful wavefront and matches the radius of curvature. Specify the radius. Accordingly, the counter units 40 arranged in such a rear surface arrangement can effectively resist harmful waves, and define a target space 50 extending over a wide angle around the basic unit 10B. The only difference between the counter unit of FIG. 1a and the counter unit of FIG. 1f is their arrangement, ie one counter unit is arranged in the “front arrangement” of FIG. 1a and the other counter unit is shown in FIG. Are arranged in a “rear arrangement”. In addition, the rear surface arrangement is not necessarily superior to the front surface arrangement, and additional details for selecting an appropriate arrangement will be described later. In addition, it should be understood that this embodiment corresponds to wave matching in which the counter unit 40 is disposed at a position for matching the counter wavefront and the harmful wavefront.

  Although not shown, a single counter unit is horizontal to the basic unit with respect to the target space, horizontal to the propagation direction of harmful waves, horizontal to the current or the other direction in which the current flows to the basic unit or other direction, voltage is basic or the counter unit It can also be arranged in an array such as horizontal in the other direction applied. With such a “side arrangement,” the radius of curvature of the counter wavefront matches the radius of curvature of the harmful wavefront, so the counterwave effectively matches the harmful wave in the target space and effectively counters the harmful wave. Like that. However, for such an arrangement, the wave source must provide a space in which the counter unit is contained. Accordingly, the counter unit can be implemented within the wave source and, if applicable, close to the basic unit of the wave source. Otherwise, the counter unit could instead be placed above, below or beside the wave source and possibly close to the basic unit. However, a counter unit arranged beside the basic unit may propagate a counter wave to the basic unit, thereby hindering normal operation of the basic unit. Therefore, the side arrangement is preferably selected only if such arrangement does not interfere with the normal operation of the basic unit, the wave source including the basic unit or the EMC system including them. If the side arrangement does not affect the operation of the basic unit, but the counter unit is not placed in close proximity to the basic unit due to space limitations, two or more counter units may be on the opposite side of the basic unit (e.g., left side and Right side, top and bottom, front and back, etc.) and if possible close to the basic unit. Further, such counter units can be arranged so as to emit counter waves, and the sum of the counter waves is symmetric or asymmetric in a preset direction based on the wave characteristics of harmful waves.

  In yet another aspect of the present invention, multiple general purpose counter units can be provided for a single general purpose basic unit, in which case all counter units or at least two counter units of the counter units are provided. Counter the harmful waves emitted from the basic unit with the counter wave emitted from the unit. Figures 2a to 2f are schematic top views of an exemplary electromagnetic countering mechanism, in which each multiple counter unit is separated from a single basic unit of a single wave source according to the present invention. A counter wave is emitted to counter the damaging harmful waves, and the basic unit is a point source in FIGS. 2a to 2e, but the basic unit is an extended source in FIG. 2f. However, it should be understood that such drawings are to be interpreted from different perspectives. For example, such a drawing can also be observed as a top sectional view, in which case the basic unit of FIGS. 2a to 2e is a wire extending perpendicular to the sheet and the basic unit of FIG. 2f is also perpendicular to the sheet. An extended strip or rectangular rod. In another example, the drawing can also be interpreted as a cross-sectional view of a more complex article, in which case the basic units of FIGS. 2a-2e can correspond to cross-sections of coils, spirals, meshes, etc. However, the basic unit of FIG. 2f can correspond analogously to the cross-section of a curved rod or strip. Also, in such drawings, it should be understood that the basic unit is surrounded by a wave source that is the case or other part of the system that does not emit harmful waves. It should also be understood that in all the drawings, the EMC system is arranged in such a manner that the target space is formed on the right side of the counter unit and the basic unit.

  In one exemplary embodiment of such an aspect of the present invention, as shown in FIG. 2a, the EMC system 5 includes a single wave source 10 having two counter units 40 and a single basic unit 10B. . The basic unit 10B is similar to the basic unit of FIGS. 1a to 1c, but a pair of counter units 40 is arranged between the basic unit 10B and the target space 50. Further, the counter unit 40 is symmetrical to the basic unit 10B, and is disposed horizontally with respect to the basic unit, that is, the counter unit 40 is disposed at the same distance from the basic unit 10B and / or the target space 50. The counter units 40 are arranged so as to emit counter waves having the same phase angle so that the wavefronts of the counter waves from the respective counter units 40 overlap each other while increasing their amplitude. Due to the propagation of the counter wave, the wave front of the counter wave corresponding to the sum of the respective set of wave fronts from the respective counter unit 40 is emitted from the extended counter unit of FIGS. 1b to 1e. So that the radius of curvature of the wavefront is increased. Thus, the counter wavefront matches the harmful wavefront and the pair of counter units 40 matches and resists the basic unit 10B while defining a target space 50 that extends over a limited corner around the counter unit. To. It can be seen that arranging more than one counter unit 40 results in flattening the wavefront of the counter wave and increasing the radius of curvature of the superimposed portion of the counter wavefront. It should also be understood that such an arrangement corresponds to wave matching in which a large number of counter units 40 are arranged along one wavefront of harmful waves.

  In yet another exemplary embodiment of this aspect of the invention, as shown in FIG. 2b, the EMC system 5 is a single unit surrounding three counter units 40 and a single base unit 10B. A wave source 10 is included. The basic unit 10B is similar to the basic unit of FIGS. 1a to 1c, except that all the counter units 40 are horizontally arranged in the basic unit 10B between the basic unit 10B and the target space 50. , Similar to the counter unit of FIG. 2a. However, the system 5 further comprises one counter unit 40 so that the array of three counter units 40 more closely approximates the harmful wavefront than that shown in FIG. 2a. Thus, the counter unit 40 better counters the basic unit 10B and emits a counter wave that defines a target space 50 that extends around the basic unit over an angle wider than that of FIG. 2a. It should be understood that the arrangement of three counter units 40 will additionally flatten the superimposed wavefront of the counter wave and increase the radius of curvature of such part of the wavefront of the counter wave. It should be understood that such an arrangement is another wave matching in which all of the three counter units 40 are arranged along one wavefront of harmful waves.

  In yet another exemplary embodiment of this aspect of the invention, as shown in FIG. 2c, the EMC system 5 is similar to the two counter units 40 and the basic unit of FIGS. 1a-1c. It includes a single wave source 10 having one basic unit 10B. The two counter units 40 are arranged horizontally on the basic unit 10B with respect to the target space 50 on the opposite side of the basic unit 10B at the same distance from the basic unit. Similar to all the counter units of the above-described embodiments, such counter unit 40 has a counter wave emitted from each of the counter units 40 to increase the amplitude of the counter wave and the curvature of the wave front of the counter wave. The counter waves defining similar or identical phase angles are emitted so as to be superimposed on each other in order to flatten the superimposed portions of the wavefront of the counter wave while increasing the radius. Therefore, the counter unit 40 counts harmful waves and defines a target space 50 over a somewhat limited angle around the target space. It should be understood that such an arrangement is more a source matching than a wave matching in that the counter units 40 are arranged in a symmetric arrangement, are arranged horizontally in the basic unit 10B and affect the extended counter unit. .

  In yet another exemplary embodiment of this aspect of the invention, as shown in FIG. 2d, the EMC system 5 is similar to the three counter units 40 and the basic unit of FIGS. 1a to 1f. It includes a single wave source 10 that surrounds a single basic unit 10B. In contrast to the counter unit of FIG. 2b, the three counter units 40 are arranged on the opposite side of the target space 50 with respect to the basic unit 10B. The counter units 40 are arranged horizontally with respect to the basic unit 10B and the target space 50, and are spaced apart from each other by the same distance. Similar to the counter unit of FIGS. 2a to 2c, both outer counter units 40A, 40C are detrimental because the portion where the wavefront of the counter wave is superimposed becomes flat while increasing the radius of curvature of that portion. Arranged to emit a counter wave defining a phase angle that is at least partially opposite the phase angle of the wave. In contrast to the counter unit of the previous drawing, the intermediate counter unit 40B is at least partly similar to the phase angle of such harmful waves and the phase angle of the counter waves emitted by the outer counter units 40A, 40C. Is arranged to emit a counter wave defining a phase angle that is opposite to. Therefore, the total effect including the intermediate counter unit 40B sharpens the curvature of the superimposed wavefront of the sum of the counter waves, as is apparent from the comparison of the target space 50 in FIG. 1f and the target space 50 in FIG. 2d. The target space 50 that extends to a narrower angle around the basic unit 10B is defined. That is, by including a large number of counter units 40A to 40C that emit counter waves having phase angles opposite to each other, the wave front of the sum of the counter waves and the curvature of the wave front are used to best match the wave front of the harmful waves. It is possible to manipulate the radius accurately. It should be understood that such embodiments correspond to source matching, wave matching, or a combination thereof.

  The counter units 40A to 40C of such an embodiment may be included in different arrangements. For example, only two counter units can be included to emit counter waves with phase angles that are opposite, in which case the resulting wavefront of the sum of the counter waves is symmetrical to one side or the other side. Not asymmetric. Further, the distance between the counter units can be operated so as to adjust the wavefront of the sum of the counter waves regardless of the number of counter units. In addition, a counter unit that emits a counter wave that defines a phase angle similar to the phase angle of harmful waves may be used as an outer unit to additionally sharpen the portion where the counter wave is superimposed. it can.

  In yet another exemplary embodiment of this aspect of the invention, as shown in FIG. 2e, the EMC system 5 is similar to the three counter units 40 and the basic unit of FIGS. 1a-1c. It includes a single wave source 10 that surrounds a single basic unit 10B. Further, since all of the counter units 40A to 40C are arranged between the basic unit 10B and the target space 50 and are similar to each other, and the counter units 40A to 40C emit counter waves having the same or similar phase angle, The counter units 40A to 40C are similar to the counter unit of FIG. 2B. However, each counter unit 40A-40C is arranged to form an arcuate article that is shaped and sized to match a portion of the wavefront of the counter wave. Further, the upper counter unit 40A and the lower counter unit 40C are spaced apart from each other and arranged along one wavefront of harmful waves, but the intermediate counter unit 40B is configured to add counter waves while defining a larger radius of curvature. The upper counter unit 40A and the lower counter unit are formed in such a manner that a part of the wave front is flattened and matched with the wave front of harmful waves, thereby forming a target space 50 extending around the basic unit 10B at a wide angle. 40C is disposed along the adjacent wavefront of the harmful wave. It should be understood that such an arrangement is another wave matching in which all three counter units 40A-40C are arranged along multiple wavefronts of harmful waves.

  In yet another exemplary embodiment of this aspect of the invention, as shown in FIG. 2f, the EMC system 5 includes a single wave source that surrounds three counter units and a single basic unit 10B. 10 is included. The basic unit 10B is similar to the basic unit of FIGS. 1d and 1e, but the counter unit 40 is similar to the counter unit of FIG. . Thus, the counter wave matches the vertical part of the harmful wave and defines a target space 50 similar to the target space of FIG. It should be understood that such an embodiment is another source matching in which the three counter units 40 approximate the extended basic unit 10B.

  In yet another aspect of the present invention, a single general purpose counter unit is provided for the basic unit to counter harmful waves from multiple general purpose basic units by the counter wave from the counter unit. You can also. In one example, such counter units can also be arranged to resist the summation of harmful waves emitted by the respective basic units, where the detailed arrangement of the counter units depends on the basic unit configuration and / or arrangement. It can also depend on the amplitude and / or direction of harmful waves emitted by such a basic unit. Based on them, the counter units can be arranged symmetrically on all or at least a part of their basic units, and can be included in front, back or side arrangements, etc. Referred to as "global or global countering". In yet another example, the counter unit is arranged instead to counter harmful waves irradiated by only one basic unit of a number of basic units, and such arrangement is generally referred to as “local or individual counter ring” below. ". Such local countering is used when a non-defective basic unit emits a harmful amount of harmful waves that other non-defective basic units emit in a different direction from the target space. It is effective only when irradiating the light. Otherwise, it is preferable to operate the counter unit, for example, to counter the harmful waves of the basic unit that is not countered, and to include an additional counter unit to counter the harmful waves.

  It should be understood that the various countering mechanisms described above for a single basic unit are equally applicable to systems having multiple basic units in a global countering mechanism. In other words, the countering mechanism can be applied to the summation of harmful waves irradiated by a large number of basic units without being applied to the harmful waves irradiated by a single basic unit. If the system operates with a local countering mechanism, the mechanism described above can also be applied to each of a number of basic units regardless of the exact number of such basic units.

  In yet another aspect of the present invention, a large number of general purpose counter units are provided for the basic unit in order to counter harmful waves from the large number of general purpose basic units by the counter wave from the counter unit. You can also. In one example, multiple counter units are provided in the same number as their basic units, and each counter unit is arranged to resist only one of such basic units with a local countering mechanism. Alternatively, at least one counter unit of such a counter unit can resist only one of the basic units based on a local countering mechanism, but at least one of the counter units Other counter units can also counter at least two of the basic units with a global countering mechanism. In another example, each counter unit is arranged to resist at least two basic units of the basic unit based on a global countering mechanism, and at least one counter unit of the counter unit is connected to the local countering mechanism. Based on that, against one of the basic units, at least one other counter unit of the counter unit counters at least two of the basic units with a global countering mechanism. A smaller number of counter units are provided. In another example, each basic unit can be countered by at least two counter units of the counter unit, and one counter unit of the counter units can be controlled by a local counter ring mechanism. A larger number of counter units is provided such that at least one other counter unit of the counter unit counters at least two of the basic units with a global countering mechanism. In all such examples, any of the front, rear, or side countering mechanisms may be used for the counter unit, and such countering mechanism may be the same or different for each counter unit. it can.

  Not only the configuration and / or operation change of such an EMC system and its counter unit illustrated in FIGS. 1a to 1f and FIGS. Within the scope of the invention.

  As described above, a typical EMC system includes at least one wave source and at least one counter unit, which in turn includes or surrounds at least one basic unit, the counter unit being a lead. It may also include at least one optional electrical connector, such as a wire, and at least one optional coupler that couples the counter unit to other parts of the system. The EMC system may also include at least one optional case member surrounding at least a portion of the basic unit, at least a portion of the counter unit, and the like. Alternatively, all parts of the counter and / or basic unit are exposed with or without such a case member.

  In more detail, the counter unit is composed of various parts such as at least one body part, at least one optional support part and at least one inlet. The body part of the counter unit corresponds in nature to the basic unit of the wave source in that it is the only component of the counter unit that emits a counter wave when a current flows, when a voltage is applied, etc. . Thus, such a body portion can be composed of and / or include at least one conductor when current flows therein, and can be any electrically conductive, semi-conductive or It is preferable that it is comprised and / or contains the material with an insulating material. The support is provided to mechanically support and / or retain such body portion therein for mechanical protection and / or electrical isolation. Typically, the inlet is used to increase the amplitude of the counter wave, particularly when the counter unit has at least one coil of a conductive wire in which such inlet is located. The inlet can also be composed of and / or include various magnetic materials, such as, for example, ferromagnetic materials, paramagnetic materials, diamagnetic materials, and ferrimagnetic materials, where the ferromagnetic materials are It is the preferred material. In general, it can be appreciated that the counter unit is configured to maintain its configuration while emitting counter waves, and such a fixed configuration forms the body portion of the hard material counter unit. Thus, the body portion of the counter unit can be fixedly coupled to the support portion. Alternatively, the counter unit can be arranged to change its shape while emitting such counter waves, such a variable configuration forms the body part of the counter unit of elastic or deformable material By doing so, the body part of the counter unit is movably coupled to the support part. It should be understood that a counter unit that emits such counter waves conflicts with a basic unit that emits harmful waves of opposite magnetic poles. Therefore, such a counter unit tends to move while emitting a counter wave, and if it is preferable to fix the counter unit during operation of the counter unit, special equipment may need to be implemented.

  The counter unit can also be provided in a variety of configurations commonly referred to as shape, size, array, etc. In general, the configuration of the counter unit generally depends on the structural characteristics of the basic unit, the wave characteristics of harmful waves, etc., such as the countering mode (such as source matching and wave matching) and / or (front surface). Depending on the countering mechanism (such as rear, or side arrangement, local or global countering, etc.). Also, the configuration of the counter unit also depends on the shape, size, orientation, and / or arrangement of the target space formed on one side of the counter unit.

  The shape of the counter unit can also be arranged to be the same as or similar to the shape of the basic unit, in which case such counter unit is configured to emit a counter wave that automatically matches harmful waves. Instead, the shape of the counter unit can be arranged differently from the shape of the basic unit, such a counter unit can be provided in other shapes, and can be wound around the basic unit, At least a part of the basic unit can be surrounded, at least a part of the basic unit can be surrounded, and there are various other examples. Such counter units can also define the shape of wires, strips, sheets, tubes, coils, spirals, and / or meshes, and do not define any holes or openings through that shape, but 2 in such shapes. A combination of two or more shapes can be defined, two or more arrays in such a shape can be defined while defining a number of holes and / or openings through the shape, and many others There are examples, examples of combinations and / or arrays include bundles containing multiple identical or different shapes bundled together, multiple braids of the same or different shapes braided along each other, etc. This is not a limitation. The counter unit may also be composed of a mixture comprising at least two materials and provided in any of the aforementioned shapes, combinations and / or arrays. It should be understood that coils (including solenoids or toroids), spirals, meshes, and arrays thereof are particularly useful for wave matching, as described below. It should also be understood that all of the multiple counter units can define the same shape, or at least two counter units, not all of such counter units, can define the same shape. Alternatively, all such counter units can define different shapes.

  The counter unit can also be formed to match the basic unit so that the counter wave by the counter unit matches the harmful wave better, and such counter unit approximates the basic unit or its While providing additional details to a basic unit, it can also be matched to such a basic unit. Alternatively, the counter unit can be formed so as not to match the basic unit while manipulating the counter wave to match the harmful wave. Such an arrangement can also be implemented when a single counter unit resists multiple basic units or when multiple counter units resist a single basic unit. It should be understood that with such an arrangement, the counter unit may be supplied with appropriate electrical energy (eg, current or voltage) to emit counter waves that match and counter the harmful waves in the target space. It should also be understood that all of the multiple counter units may match the basic unit, or at least two counter units that are not all of the counter units may match the basic unit. Alternatively, all of the counter units may not match the basic unit.

  If one or many counter units are formed similar or identical to one or many basic units, the counter units are preferably arranged to approximate the basic units. If the basic unit forms a three-dimensional (or 3D) shape, the counter unit may be a three-dimensional analog having a more similar or simpler shape, a two-dimensional (or 2D) analog or a one-dimensional (or It can also be configured as an analog of 1D). If the basic unit defines a 2D shape, the counter unit can also be manufactured as a more similar or simpler shaped 2D or 1D analog. If the basic unit forms a 1D shape, the counter unit can also be provided as another 1D analog that defines a more similar or simpler shape. If a single counter unit has to count a number of basic units, that counter unit can only approximate the main basic unit as one of such analogs, of which It is also possible to approximate at least two of these basic units with one analog of If multiple counter units compete against a single basic unit, each counter unit can also approximate only a part of the basic unit. If multiple counter units compete with multiple basic units, the counter unit can also approximate that basic unit with similar analogs of the same dimension, or with various similarities provided in different dimensions. It should be understood that such analogs are consistent with the basic unit, and therefore the analogs may define more linear or curved shapes depending on the shape of the basic unit. It can also be appreciated that it is preferable that the analog maintain its similarity to the base unit, where such similarity includes the length of the counter unit and the base unit, their width, their height. Their thickness, their diameter or radius, their radius of curvature, their rotation or number of turns, such length ratio, such width ratio, such thickness or height ratio, such diameter or radius ratio It can also be maintained in terms of the ratio of such numbers. If a single basic unit is countered by a single counter unit, such configuration parameters are defined in each of the basic unit and the counter unit. Where a single counter unit resists multiple basic units, such configuration parameters are defined by the counter unit, all arrays of such basic units, arrays of at least two basic units that are not all such basic units, etc. . Where multiple counter units compete against a single basic unit, such configuration parameters are defined by that basic unit, all arrays of such counter units, arrays of at least two counter units that are not all such counter units, etc. The Where multiple counter units compete against the same or different number of basic units, such configuration parameters are also defined individually or in an array as described above.

  If a single or multiple counter units are formed similar or identical to a single or multiple basic units, the counter unit has a better purpose of trying to match the wavefronts of harmful waves and such counterwaves. For this reason, it is arranged to provide details to the basic unit in the context of streaming the wavefront of the counter wave, rather than in terms of adding structure that does not exist in the basic unit. For example, one or more small counter units can be operated around one or more primary counter units (or internal) to manipulate the external (or internal) edge of the sum wavefront of the counter waves emitted by the primary counter unit. ) Can also be arranged. In yet another example, one or many small counter units may be in close proximity to the main counter unit to manipulate the radius of curvature of the combined wavefronts of the counter waves emitted by the one or more main counter units. (Or spaced apart). As long as the inclusion of such a minor counter unit can also improve the matching between the counter wave and the harmful wave in the target space, such a minor or minor counter unit may also have one or more It can also be included in various relationships with respect to the main counter unit. Thus, if the system includes a large number of counter units, all counter units can be arranged to approximate the basic unit, or all counter units can be arranged to provide details to the basic unit. Also, some counter units but not all of the counter units can be approximated to basic units.

  The counter units may be arranged to define various cross-sections along a longitudinal axis or a major axis thereof, a minor axis perpendicular or transverse to the major axis, or the like. In one example, the counter unit is arranged to define a uniform cross-section along at least one axis of such an axis so that the emitted counter wave defines a wavefront that defines the same shape along such axis. Is done. In yet another example, the counter unit changes the cross section along at least one of the axes such that the emitted counter wave defines a wavefront that changes shape along at least one of the axes. Configured to do. If the system has a large number of counter units, all of such units may define the same shape, or at least two counter units of such counter units may define different shapes.

  The counter units can also be arranged to have a variety of sizes, where such counter units can also emit counter waves of appropriate amplitude that effectively resist harmful waves. For example, the counter units included in the front array may define a smaller size than the basic unit due to the arrangement closer to the target space, but the counter units included in the rear array relate to the target space. A larger distance can also define a larger size than the basic unit. However, the size of the counter unit can also be determined by other factors, such as, for example, the shape of the counter unit, the amplitude of the electrical energy (ie, current and / or voltage) supplied to it. Therefore, the counter units in the front array emit a smaller amount of counter waves per unit area and can define a larger size than the basic unit, but the counter units in the rear array have a larger amount per unit area. It is possible to define a smaller size than the basic unit, and there are other cases. That is, the size of the counter unit can be other, for example, the shape of the counter unit, the amplitude of the electrical energy supplied thereto, the distance to the basic unit and / or the target space, the arrangement of the counter units, the orientation of the counter unit, etc. It can also be regarded as a two-dimensional parameter determined by these factors.

  The counter units can be arranged to have various sizes along their longitudinal and / or minor axes. In one example, assuming that the counter unit is supplied with the same amount of electrical energy, at least the axis of the axis is such that the emitted counter wave defines a wavefront that defines the same shape along the axis. Arranged to define a uniform size along one axis. In yet another example, the counter unit changes the shape of the counter unit along at least one axis of the axis so that the emitted counter wave defines a wavefront that changes shape along the axis. Composed. The counter unit can also change its shape along at least one of these axes, while maintaining the same size along that axis. If the system includes multiple counter units, such counter units may have the same size, or at least two units of such units may define different sizes.

  It is also possible to include a number of counter units in various arrangements, where such counter units are arranged to emit counter waves that automatically match such harmful waves due to the arrangement. In one example, such counter units are included in an arrangement that matches the shape of the basic unit or matches other arrangements of multiple basic units so that the counter wave matches harmful waves in the target space. In yet another example, the counter units are included in an arrangement that does not match the shape of a single basic unit or that does not match the arrangement of multiple basic units.

  Such an arrangement can also be implemented when multiple counter units resist a single basic unit, or when multiple counter units resist a different number of multiple basic units. With such an arrangement, it is understood that the counter unit can also be provided with appropriate electrical energy (e.g. current or voltage) to match the harmful waves in the target space and emit counter waves that counteract the harmful waves. I want. The counter units can also be arranged in a symmetrical arrangement in the basic unit and / or the target space so that the counter waves emitted thereby match symmetric harmful waves. On the other hand, the counter units can be arranged in an asymmetric arrangement in the basic unit or the target space so that the asymmetric counter wave resists an asymmetric harmful wave in the target space. A single counter unit or multiple counter units can also be included in an arrangement surrounding at least a part of one or multiple basic units. In contrast, a single counter unit or multiple counter units can be included in other arrangements in which at least part of such counter units are surrounded by one or multiple basic units. In general, the arrangement implies a pattern of multiple counter units, but it should be understood that such an arrangement can also mean the orientation and / or alignment of a single counter unit.

  The counter units can also be provided in a variety of arrangements commonly referred to as orientation, alignment, distance, mobility, etc. In general, such an arrangement of counter units is generally such countering modes (such as source matching or wave matching), each of which generally depends on the basic unit configuration characteristics, harmful wave characteristics, etc. ( Depends on the countering mechanism (such as front, back or side arrangement, local or global countering, etc.), the configuration of the counter unit, etc. The arrangement of the counter unit also depends on the shape, size, orientation and / or the arrangement of the target space defined on one side of the counter unit. The rule of thumb is that such a counter unit can usually be placed closer to the basic unit with a local countering mechanism, and the counter unit can also be placed apart from the basic unit with a global countering mechanism ( rule of thumb).

  The counter unit can also be arranged in various orientations so that the counter waves emitted thereby are properly oriented with such harmful waves and counter the harmful waves. In one example, the counter unit is arranged in a defined orientation with respect to such propagation direction, for example by orienting its major axis perpendicular to the propagation direction of harmful waves. In yet another example, the counter unit may have other orientations defined with respect to the direction of current or voltage, for example by orienting its long axis at a parallel, vertical, or preset angle with respect to the direction of electrical energy. It is arranged with. In yet another example, the counter unit is instead arranged in another orientation as defined with respect to the longitudinal and / or minor axis of the basic unit. Especially when the basic unit is arranged to emit harmful waves in a direction different from the winding direction of the coil or other part different from at least one of its axes, such an orientation of the counter unit is usually It should be understood that it depends on other configurations of such basic units. If the system includes a large number of counter units, all such counter units can be arranged in the same orientation, each counter unit can also be arranged in a different orientation, and at least two counter units of the counter unit can be arranged. They can also be arranged in the same orientation.

  The counter units can also be arranged in various alignments so that the counter waves emitted thereby are properly aligned with such harmful waves and appropriately counter the harmful waves. In one example, the counter unit is aligned in one or more of the directions and / or axes. In another example, the counter unit is misaligned with at least one of the directions and / or axes and is wound in a direction different from the direction of the basic unit. If the system includes multiple counter units, all of such counter units can be aligned in the same direction and / or axis, and each counter unit can be aligned in a different direction or axis. It is also possible to align at least two, but not all, counter units in the same direction or axis. If the system includes multiple counter units, all of such counter units can be arranged in different alignments, and at least two but not all of the counter units can be aligned in the same orientation.

  Further, the counter units can be arranged in a side surface arrangement, an axis arrangement, a concentric arrangement or the like. In its lateral arrangement, one or a number of counter units are arranged side by side with respect to the basic unit or between the basic units along the major axis and / or minor axis of such basic unit. In an axial arrangement, one or many counter units are arranged along one or more axial directions of such an axis at a preset distance from such basic unit. In its concentric arrangement, one or multiple counter units can be arranged in a single basic unit, can be surrounded by multiple basic units, and can also surround single or multiple basic units. .

  The counter unit can also be arranged at various distances from the basic unit and / or the target space. In one example, such a counter unit is fixedly coupled to the system at a preset distance from the basic unit of the system to emit a counter wave having a wavefront that matches the wavefront of the harmful wave. Preferably, the counter unit receives variable electrical energy (i.e. current or voltage) that causes the amplitude of the counter wave to vary thereby, such as countering harmful waves of variable amplitude, defining different target spaces, etc. You can also. In yet another example, the counter unit emits a counter wave and is movably coupled to the system to place the wave front of the counter wave at a different position with respect to the harmful wave and is converted or rotated between two positions. The counter wave may or may not have a variable amplitude. Therefore, the counter wave counts harmful waves by the counter wave, and the wavefront characteristics of the counter wave vary depending on the position of the counter unit with respect to the basic unit and / or the target space. In yet another example, the system can include a number of counter units within it, and can operate the wave emission operation of each of the counter units. By manipulating the amplitude of the counter waves emitted from all or part of such counter units, or by appropriately recruiting such counter units without manipulation, the system can place the target space at various locations relative to the base unit. It can also regulate and resist harmful waves. If the system includes a number of counter units, all of such units can also be fixedly included in the system, all of such units are movably included in the system, or in all of such units At least two units that are not present can also be included movably in the system.

  The arrangement of the counter unit can also be calculated from the viewpoint of the distance measured along at least one periphery of the axis along the longitudinal axis and the minor axis of the basic unit. The counter unit may be arranged closer to the target space than the basic unit as in the front arrangement, separated from the target space from the basic unit as in the rear arrangement, and horizontally or the like as in the side arrangement. it can. If the system includes multiple counter units, all such units can be arranged in the same arrangement, or at least two units of such units can be arranged in different arrangements. Further, all of the counter units can be arranged at the same distance from the basic unit. Alternatively, at least two counter units of the counter unit can be arranged at different distances from the basic unit. It should be understood that the counter unit is preferably arranged on the same side of the basic unit with respect to the target space. However, if the counter unit is arranged on the opposite side of the basic unit with respect to the target space, such an arrangement is not a preferred embodiment, but the counter unit can still resist harmful waves.

  The counter unit can be included in various parts of the system and can be arranged with various exposures. If the system includes a case member, the counter unit can also be located on or above the outer surface of the case member, on or below the inner surface of the case member, and / or within the case member. It can also be embodied inside. Alternatively, such a counter unit can be placed on or above the external surface of the wave source, on or below the internal surface of such a wave source, and can be embodied within the wave source between such surfaces of the wave source. it can. In addition, the counter unit can be arranged on the outer surface or the upper surface of the basic unit, on the inner surface or the lower surface of the basic unit, and can be embodied in the basic unit between the surfaces of the basic unit. it can. Further, the counter unit can be arranged and surrounded by at least a part of the basic unit. Similarly, at least some or all of the counter unit may be exposed through the system, case member, wave source, basic unit, and the like. Alternatively, the counter unit can be fixedly or movably coupled to one or more existing parts of the system, the wave source, and / or the case member, alternatively coupled to them by a coupler. You can also. Similarly, the counter unit may be spaced apart from or form any article having such a system, wave source, and / or basic unit.

  The counter unit is constructed of and / or includes a variety of materials to emit counter waves that are responsive to electrical energy supplied to the counter unit, have an appropriate amplitude and match harmful waves. You can also. In one example, the counter unit and the basic unit may be composed of and / or include the same material such that such unit emits the same amount of counter waves and harmful waves per unit amount of such electrical energy. it can. In yet another example, the counter unit and the basic unit may have at least one common unit so that such units emit similar amounts but not the same amount of counter waves and harmful waves per unit amount of electrical energy. It can also include a material and at least one different material. In yet another example, the counter unit and the basic unit may be composed of and / or include different materials such that the counter unit and the basic unit emit different amounts of waves per unit amount of electrical energy. . In general, their various characteristics determined by the composition of the counter unit and the basic unit can be electrical resistance, conductivity, magneto-dielectric constant, resonance frequency, and the like. Thus, the counter units can be arranged to define the same, similar, or different conductivity, dielectric constant, and resonant frequency based on their composition. All parts of the counter unit are arranged to have the same composition, or alternatively, various parts of the counter unit are arranged to have different compositions that vary along the major or minor axis. You can also. If the system includes a large number of counter units, all such counter units can also have the same composition, and at least two counter units that are not all of the counter units have the same composition, or all of such counter units. Can have different compositions, thereby also maintaining or changing the properties according to their composition.

  As mentioned above, the exact matching of the counter wave and harmful wave (opposite or similar) phase angles is to counter the harmful wave emitted from the basic unit by the counter wave emitted by the counter unit. It is a precondition. Such phase matching is obtained by supplying appropriate electrical energy (i.e. current or voltage) to such basic unit and counter unit, and optionally and electrically coupling the counter unit and basic unit to each other. For illustrative purposes, the electrical energy supplied to the basic unit is hereinafter referred to as “source energy”, and the current and voltage of the “source energy” are hereinafter referred to as “source current” and “source voltage”. Each is named. In one example, the same source current or voltage is supplied to the base and counter units sequentially or simultaneously so that such phase angles of harmful and counter waves are properly synchronized. In another example, the counter unit is supplied with only part of the source current or voltage, where the phase angle of such harmful waves and counter waves is also synchronized. In yet another example, the basic unit is first supplied with a source current or voltage, after which the system deforms the amplitude or direction of the source current or voltage and supplies the modified current or voltage to the counter unit. As long as the phase angle of such source energy is maintained while being deformed, the counter and harmful waves are properly phase synchronized. In yet another example, the base unit is supplied with source energy, and the system provides an analog of such source energy and changes or does not change the amplitude and / or direction of the analog. To supply. Here, such a system may also utilize a variety of electronic components, circuits, and / or controllers to provide such analogs. As long as the phase angle of electrical energy is maintained at its analog energy, counter waves and harmful waves are also phase synchronized. In yet another example, the counter unit is electrically coupled to the base unit in a serial mode, a parallel mode, or a hybrid mode. Here, the counter unit is supplied with source energy, modified source energy or similar energy as described above. The counter unit can also receive such energy supply sequentially or simultaneously. If the system includes multiple counter units, all of such counter units can be supplied with the same energy, and at least two but not all of such units can be supplied with the same energy, The units can also receive different energy supplies. If the system includes a number of basic units that are supplied with different source energies, a single counter unit may be supplied with only a portion of such energy, or a combination of at least two energies. If the system includes a number of counter units, such units can be coupled to the basic unit in the same or different modes and can receive the same or different energy supply sequentially or simultaneously. In all the above examples, in order to achieve proper phase matching, the winding direction of the counter unit, the orientation and / or alignment of the counter unit must be taken into account, so that phase matching is another configuration of that counter unit. It should be understood that and / or depending on the arrangement.

  In the following, additional details of such source matching and wave matching are provided. As described above, with such source matching, it can be understood that there is no arbitrary one-to-one correlation between the configuration of the counter unit and the configuration of the counter wave emitted by the counter unit. That is, a constant configuration (or wave characteristic) of a counter wave defines a constant shape and size, a single counter unit provided in a constant array, a similar shape and size, but others Other counter units provided in an array of different, different shapes and sizes, but also provided in a similar arrangement, other counter units, pre-defined shapes and sizes, Provided at least two counter units, different shapes and / or sizes, and the same number of counter units in different arrangements, similar shapes and / or sizes, and counter units in similar arrangements Can also be obtained with different numbers. It should also be understood that with such wave matching, there is no one-to-one correlation between the arrangement of the counter unit and the wavefront of the counter wave emitted by the counter unit. That is, a wavefront having a certain shape defines a certain configuration, forms a single counter unit arranged at a certain position with respect to the basic unit and / or the target space, and other configurations, and other positions. Yet another single counter unit, which has a preset configuration and at least two counter units which are arranged at preset positions, counters which define different configurations and are arranged at different positions It is possible to obtain the same number of units, different configurations, and different numbers of counter units arranged at different positions. However, there are some rules of thumb that apply not only to source matching but also to wave matching. The first rule is that the other units are the same so that the counter units arranged in the front array increase the radius of curvature of the wave surface of the counter wave and obtain a better match between the counter wave and the harmful wave. In some cases, it is preferable to define a characteristic dimension that is larger than the basic unit. The second law is the opposite of the first law, and the counter unit arranged in the rear surface arrangement reduces the curvature radius of the wave front of the counter wave, and obtains a better matching between the counter wave and the harmful wave. This indicates that it is preferable to have a characteristic dimension smaller than that of the basic unit. However, in order to match the amplitudes of the counter and harmful waves, the longer or wider counter units in the front array are arranged to emit counter waves having an amplitude smaller than that of the harmful waves. Similarly, shorter or narrower counter units in the rear array are arranged to emit counter waves that define an amplitude greater than that of the harmful waves. The third law is that arranging multiple counter units that emit counter waves of the same or similar phase angle tends to flatten the sum of the counter waves and increase the radius of curvature of the wave front of the counter waves. That is. The fourth law is the opposite of the third law, and the arrangement of a smaller number of counter units tends to sharpen the wavefront that takes the sum of the counter waves and reduce the radius of curvature of the wavefront of the counter wave. Indicates that there is. The fifth law is that if at least two counter units, not all of the multiple counter units, are arranged to emit a counter wave having a phase angle opposite to the phase angle of the other counter unit, the sum of the counter waves This means that the wavefront becomes sharper and the radius of curvature of the wavefront is reduced. Such a law is not generally applied to a counter unit that emits a counter wave having a wavefront that defines a shape different from that of the counter unit. It should be understood that this counter unit is not generally applicable.

  The main purpose of source matching is to manipulate the configuration of the counter unit to match the configuration of the basic unit so that the counter wave emitted by the counter unit best matches the harmful waves emitted by the basic unit. That is. If it is preferable for the system to rely on source matching to counter the counter wave, for any advantage that may be gained by a similarly configured counter unit, but otherwise lost Furthermore, the counter unit of the system is preferably arranged in a preset or appropriate position from the basic unit. It can be seen that source matching is most useful if the basic unit has a simple or symmetric configuration or if it is reasonably possible to make a copy of a complex basic unit. If the system includes a single source including multiple basic units, or includes multiple sources each including at least one basic unit, a single counter unit may obtain source matching with multiple basic units Alternatively, multiple counter units can be arranged to perform source matching with multiple basic units. The source matching includes shape matching, size matching, sequence matching, placement matching, intensity matching, and other configuration matching.

  Some details of shape matching have been disclosed so far. For example, the counter unit may be formed as a 3D (or bulk) analog that is an approximation or duplicate of one or many 3D basic units, and may be an approximation of a single or multiple 3D or 2D basic units, Provided as a 2D (or planar) analog that is a replica of a single or multiple 2D basic units, or an approximation of one or multiple 3D, 2D or 1D basic units or single or multiple 1D basics It can also be formed as a 1D (or linear) analog that is a duplicate of a unit. Similarly, multiple counter units may be configured as 3D analogs that are replicas or approximations of one or multiple 3D basic units and may be approximations of one or multiple 3D or 2D basic units, It can also be formed as a 2D analog that is a duplicate of one or many 2D basic units, an approximation of a single or multiple 3D, 2D or 1D basic units or one or many 1D basic units It can also be provided as a 1D analog that is a replica. Such analogs can have a continuous shape or a shape with multiple holes or openings, can form a three-dimensional shape or a deformable shape, and can also define a symmetric or asymmetric shape. . Also, the shape of the analog may be determined by the countering mechanism described above, or in contrast, such a shape may select other configurations of the analog, the appropriate countering mechanism employed, etc. You can also give instructions.

  The size matching is done by defining the counter unit to be larger, similar or even smaller than the basic unit depending on whether or not the similarity between the configuration of the counter unit and the basic unit is maintained. It can also be embodied. Regardless of whether the counter unit emits a counter wave having a wavefront with a shape similar to that of the counter unit itself, the size of the counter unit depends on the degree of scattering or flatness of the counter wave, the edge of the wave front Determine characteristics, etc. As described above, the size of the counter unit is also indicated by the various counter ring mechanisms employed by the counter unit, the arrangement, the arrangement of the counter unit, the amplitude of the electrical energy supplied to the counter unit, etc. In contrast, the size of the counter unit can also indicate the choice of other configurations, appropriate countering mechanisms, etc.

  Placement matching can also be implemented by manipulating the orientation and alignment of the counter unit, the distance from the counter unit to the basic unit and / or target space, the mobility of the counter unit, and the like. As described herein, the counter units can be oriented in a predetermined relationship with respect to various axes and / or various directions, and can be arranged in a front, rear, or side arrangement, such as It can also be aligned or misaligned with the direction and / or axis, or it can be aligned or misaligned with the basic unit in the axial direction, illumination direction, angular direction, concentric direction, side surface, etc. The arrangement of the counter unit can also be instructed by various counter ring mechanisms employed by the counter unit, the shape and size of the counter unit, the amplitude of electric energy supplied to the counter unit, and the like. In contrast, the arrangement of the counter unit can also direct the selection of other configurations of the counter unit, an appropriate counter ring mechanism, and the like.

  Intensity matching can also be implemented by manipulating the amplitude of the counter wave emitted by the counter unit. For example, when measured at a certain distance from the basic unit, such as over a target space or a preset position in the target space, the counter wave is greater than or similar to the amplitude of the harmful wave, or A small amplitude can also be defined. Also, the amplitude of the counter wave is dictated by the various countering mechanisms employed thereby, its shape and size, its arrangement, the amplitude of such electrical energy supplied to it, etc. In contrast, the amplitude of the counter wave can also determine the choice of other configurations, appropriate countering mechanisms, and the like.

  The main purpose of wave matching is to place a counter unit along at least one wavefront of a harmful wave wavefront, and to emit a counterwave that matches the wavefront of the harmful wave and defines a wavefront that resists that wavefront. It is. If it is preferred that the system relies on its wave matching to counter the harmful waves, the counter unit of the system can be moved to any position around the base unit at any distance, as long as the counter wavefront matches the harmful wave It can also be arranged. It should be understood that the wave matching is most powerful if it defines a configuration where the basic unit is more complex or asymmetric or if it is impossible to construct a replica or approximation of a complex basic unit. If such a system includes a single wave source with multiple basic units, or includes multiple wave sources each including at least one basic unit, the single counter unit is adapted to obtain wave matching with multiple basic units. Alternatively, multiple counter units can be arranged instead to perform wave matching with multiple basic units. The only disadvantage or problem with that wave matching is that the detailed shape and distribution of the harmful wave front must be calculated a priori.

  In one type of wave matching, the counter wave is kept uniform so that the amplitude per unit configuration of the counter unit is uniform, such as the length, width, radius or diameter, area and / or weight of the counter unit. Are discharged by at least one counter unit that defines a specific discharge capacity. Accordingly, such a counter unit emits a counter wave having a wavefront having a shape similar to that of the counter unit itself, and, when arranged along the wavefront of harmful waves, counters the counter wave while defining the target space. To do. In another type of wave matching, such counter waves are emitted by other counter units with variable emission capacities that vary in amplitude per unit configuration of the counter unit. With such an arrangement, the counter unit emits a counter wave with a wavefront dissimilar to the shape of the counter unit. Therefore, such a non-uniform capacity counter unit is not arranged along a single wavefront of the harmful wave in order to match the harmful wave and emit a counter wave defining the target space, at least of such wavefront. Located over two wavefronts.

  It should also be understood that a counter unit with a uniform emission capacity can be arranged along at least two wavefronts of harmful waves as illustrated in FIG. 2e. If multiple counter units are placed at different wavefronts of harmful waves, arrange such units to emit counter waves of different amplitudes to compensate for the mismatch in distance from that unit to the base unit You can also. Such compensation can be a variety of means, for example, adjusting the shape and size of the counter unit, manipulating the amount of electrical energy supplied to the counter unit, controlling the orientation and / or alignment of such counter unit. Etc. As long as the sum of the counter waves defines a wavefront that matches the wavefront of the harmful wave in the target space, such counter units may be placed along adjacent or spaced wavefronts of the harmful wave in various configurations and / or configurations. You can also.

  In the case of source matching, similar to their counterparts, the counter unit for wave matching can also define the shape of wires, strips, sheets, tubes, coils, spirals and / or meshes similarly, It is also possible to define a combination of two or more of these shapes without defining any holes or openings through such shapes, and to define a number of holes and / or openings through such shapes. However, it is also possible to define an array of more than one of these shapes. Here, examples of such combinations and / or arrays include, but are not limited to, a number of bundles of the same or different shape that are bundled together, a number of braids of the same or different shape braided along each other, etc. It is not a thing. Such counter units can be arranged along single or multiple wavefronts of harmful waves.

  Specifically, the EMC system of the present invention is designed to resist a variety of harmful waves in the carrier frequency range, or in the very low frequency range that is from about 50 Hz to about 60 Hz, or in other frequency ranges below about 300 Hz. Intended. Thus, in a preferred embodiment of the present invention, the various counter units of the EMC system are in the carrier frequency range, or very low frequency range that is from about 50 Hz to about 60 Hz, or other frequency ranges below about 30 Hz. Arranged to emit counter waves, thereby effectively resisting harmful waves in a comparable frequency range. Considering various medical discoveries and / or the assumption that the main cause of EM waves is EM waves in such a frequency range, such counter units are irradiated from basic units of various electrical and electronic devices. It is considered that such harmful frequency components are effectively removed from harmful waves.

Although not preferred, the various counter units of the EMC system of the present invention can be used to counter harmful waves in the same or similar frequency range, counter waves in the ultra low frequency range below about 3 kHz, ultra low frequency below about 30 kHz. It can also be arranged to emit counter waves in the low frequency range and counter waves in the low frequency range below about 300 kHz. Also, the counter unit can resist radio waves in a similar frequency range, for example, a radio wave frequency ranging from about 5 × 10 ² Hz to about 10 ⁸ Hz, from about 10 ⁸ Hz to about 10 ^12. It can also be arranged to emit counter waves in other frequency ranges, such as microwave frequencies that range up to Hz. Preferably, the counter unit, to resist the harmful waves of similar frequency range, for example, ultraviolet frequency range from about 7.5 × ¹⁰ 14 Hz to about ¹⁰ 17 Hz, about 7 × ¹⁰ 16 Hz To counter waves defining higher frequencies such as x-rays with frequencies ranging from about 10 ¹⁹ Hz to gamma rays with frequencies ranging from 5 × 10 ¹⁸ Hz and higher.

  Such counter units may also counter (ie, eliminate and / or suppress) the rest of the harmful waves while selectively countering certain components of the harmful waves, or alternatively, such harmful waves. It is also possible to arrange for specific protection of specific components. For example, and if the harmful wave includes higher frequency components, the counter unit will counter the remainder of the harmful wave including harmful waves in the carrier frequency range and the very low frequency range, while in particular, for example, about Protects useful waves such as far infrared in the frequency range from 300 gHz to about 10 tHz, mid-infrared in the frequency range from about 10 tHz to about 100 tHz, near infrared in the frequency range from about 100 tHz to about 700 tHz, etc. Are arranged as follows. In contrast, the counter unit can also be arranged to emit infrared radiation, including such far infrared, mid-infrared and / or near infrared.

  In yet another aspect of the present invention, various counter units may be embodied in various device basic units, and the device may be converted into an EMC system. The device EM wave can also be countered (ie erased and / or suppressed) by the counter wave emitted from the counter unit of the system.

  In one exemplary embodiment of this aspect of the present invention, the counter unit eliminates at least some of the harmful waves in the target space, for example, by countering such harmful waves with the counter waves. And / or electrically conductive wires, strips, sheets, tubes, coils, spirals, and so on to minimize the exposure of the harmful waves by suppressing the propagation of the harmful waves to such target space And / or embodied in any basic unit formed as a mesh, or alternatively, any electrically semiconductive and / or insulating wire, strip, sheet, tube, coil, helix, and / or Or it can be embodied in a mesh. Such a counter unit can be composed of and / or comprise at least one material that can also be electrically conductive, insulating or semi-insulating. The counter unit can be configured to change the shape of one or many wires, strips, sheets, tubes, coils, spirals, and / or meshes to one or many wires, strips, sheets, tubes, coils, spirals, And / or can be embodied in any basic unit having a shape formed by a mesh, where some examples of the deformed shape are each formed by deforming the shape of the coil. Solenoids and toroids can also be used. In general, the counter units of such an embodiment can be arranged in any one of the above-described arrangements, and harmful waves can be prevented by any of the above-described mechanisms. Thus, similarly or identically configured and / or sized counter units can also be arranged side by side or side by side with respect to one or more basic units based on source matching. It can be aligned with the basic unit in the axial direction, in the irradiation direction or in the angular direction, one or more basic units can be enclosed within it, and it can also be surrounded by one or more basic units It can be wound around one or more basic units and can also be wound by one or more basic units. Alternatively, counter units that are similarly or differently sized and / or sized can be applied to one or more wavefronts of harmful waves irradiated by one or more basic units for wave matching. It can also be arranged along. Such counter units can also be utilized in an appropriate number and / or arrangement to combat harmful waves by local countering or global countering.

  In yet another exemplary embodiment of this aspect of the invention, the counter unit may also be a resistor, inductor, capacitor, diode, transistor, amplifier, and other signal processor and / or regulator, for example. It can be embodied in any conventional electrical and / or electronic element such as to counter harmful waves irradiated by that element, where such electrical and / or electronic element is supplied to the counter unit Operates at least one input signal and functions to generate at least one output signal that is at least partially different from the input signal. All of the electrical and / or electronic elements are eligible as basic units within the scope of the invention when an unstable current flows in them or when an unstable voltage is applied. The element is also a basic unit within the scope of the present invention when any element in the element generates an unstable output signal (ie, current or voltage) in response to a stable or unstable input signal. Is also eligible. Thus, the conventional elements and / or devices comprising such elements are converted to EMC elements by including within them various counter units having any configuration in the configuration in any of the above arrangements and / or arrangements. , Thereby to counter harmful waves by any mechanism in the mechanism. Such EMC elements can also be provided in the micron or nanometer range to provide such counter units in any dimension.

  In yet another exemplary embodiment of this aspect of the invention, a counter unit is included in the various speakers to combat harmful waves emitted by the basic units of the various speakers. Examples of the speaker include, but are not limited to, a cone drive speaker, an electrostatic speaker, and a piezoelectric speaker. Thus, any conventional device that includes such EMC speakers, such as earphones, headphones, wired telephones, mobile telephones, and audiovisual devices is EMC earphones, EMC headphones, EMC wired telephones, EMC mobile telephones, and EMC audiovisual systems. It can be converted into various EMC systems. 3a to 3i are schematic perspective views of an exemplary counter unit embodied in a speaker including various basic units according to the present invention, where FIGS. 3a to 3d are prior art cone drives. Examples of various counter units embodied in a speaker and resisting the basic unit of the speaker are illustrated, but FIGS. 3e to 3i illustrate various counter units embodied in a conventional piezoelectric speaker and resisting the basic unit of the speaker. . In FIGS. 3a to 3d, the permanent magnets arranged around or inside the speaker cone are omitted from the drawing for the sake of simplicity of the illustration, or alternatively, the cone drive speaker is the title of the invention. Is “Electromagnetically-Countered Speakers Systems and Methods” and is currently pending US application 60 /? ? ? ,? ? ? It can be understood that this is the magnetless speaker system disclosed in the above issue. Similarly, in FIGS. 3e to 3i, it can be seen that only the piezoelectric plate and electrodes are selected as the representative basic unit of the prior art piezoelectric speaker. Accordingly, other conductive, semiconductive and / or insulating parts of the speaker emitting harmful waves are omitted from all such drawings and, if necessary, such parts may be used in such a counter unit as described above. It should be understood that it is adequately countered by any counter unit in it. Also, in FIGS. 3a to 3i, it should be understood that various speakers and their counter units are arranged to define a target space above each drawing.

  In the example of FIG. 3a, the cone drive speaker 22 typically includes a cone 22C and at least one audio coil 22V wound around the cone 22C. As is well known in the art, when the voice coil 22V is supplied with a source current, it defines a dynamic magnetic field around it, and the voice coil 22V has a dynamic magnetic field and a permanent magnet (included in such drawings). The interaction between the static magnetic fields formed by (not) causes the cone 22C to vibrate while producing an audible sound in response to the source current. In order to resist harmful waves emitted from the voice coil 22V (ie, such a basic unit of the speaker 22), at least one counter unit 40 is arranged according to a preset relationship with respect to the voice coil 22V. In such an example, the counter unit 40 is formed as another coil that defines a larger radius of curvature than the voice coil 22V. In such a context, it is preferable that such a counter unit 40 operates in a source matching, more specifically, a shape matching mode. Further, the counter unit 40 has a rear surface arrangement so that the counter unit emits a counter wave having an amplitude larger than that of the harmful wave due to a larger distance to the target space than the voice coil 22V. Arranged below. The counter unit 40 is aligned with the vertical axis of the voice coil 22V so that the center of the wavefront of the counter wave coincides with the vertical axis of the wavefront of the harmful wave. In order to ensure that such a counter wave has a phase angle that is at least partially opposite to the phase angle of the harmful wave, the source current or the like is applied to the voice coil by the winding direction of the wire in the counter unit 40. The counter unit 40 can be supplied in the same direction as or opposite to the direction of the source current flowing through 22V. Thus, the counter unit 40 defines a phase angle that is aligned with the harmful waves and that is opposite to the phase angle of such harmful waves, and thus matches the harmful waves in the target space and counters the harmful waves. Can be released. As described above, the counter unit 40 defines a shape similar to the shape of the voice coil 22V, but is larger than the configuration of the voice coil 22V or larger than the configuration of the voice coil 22V. It can also be observed as an analog. Preferably, the counter unit 40 is disposed at a preset distance from the voice coil 22V in which the wavefront of the counter wave from the counter unit 40 matches the wavefront of the harmful wave from the voice coil 22V, as described above for wave matching. You can also In all such examples, such a speaker 22 is converted by the counter unit 40 into the EMC speaker system of the present invention.

  The counter unit 40 may be modified to other configurations, may be implemented in other arrangements, and / or other mechanisms may resist harmful waves. For example, such counter units can have different radii of curvature, which can be even smaller than the radius of curvature of the voice coil, can be constant or can vary along the longitudinal axis of the counter unit. . In yet another example, the counter units can be arranged in a rear array while defining a radius of curvature, which can be greater than, similar to, or smaller than the radius of curvature of the voice coil. In another example, two or more similar or different counter units may be arranged in various arrangements for such local or global countering.

  In yet another example of FIG. 3b, the cone drive speaker 22 includes a cone 22C and one or more audio coils 22V wound around the cone 22C. In order to resist harmful waves irradiated by the voice coil 22V, at least one counter unit 40 is formed in a similar manner to the voice coil 22V, and is arranged according to a preset relationship with respect to the voice coil 22V. In such an example, such a counter unit 40 operates on the basis of source matching, more specifically shape matching. Further, the counter unit 40 has a side surface and a concentric arrangement so that the counter unit emits a counter wave having an amplitude similar to or slightly smaller than the amplitude of the harmful wave due to a similar or slightly larger distance to the target space than the voice coil 22V. The voice coil 22V is arranged around at least a part of the voice coil 22V. Further, the counter unit 40 is aligned with the vertical axis of the voice coil 22V so that the center of the wavefront of the counter wave is aligned with the center of the wavefront of harmful waves. Also, the direction in which the wire is wound in the counter unit 40 to ensure that the source current or analog of that current defines a phase angle at which the counter wave is at least partially opposite the phase angle of the harmful wave. The counter unit 40 can be supplied in the same direction as or opposite to the direction of the source current flowing through the voice coil 22V. Thus, the counter unit 40 defines such a phase angle that is aligned with the harmful wave and that is opposite to the phase angle of the harmful wave, thereby matching the harmful wave in the target space and countering the harmful wave. Release. Preferably, the counter unit 40 is disposed at a preset radial or axial distance from the voice coil 22V, and the wave front of the counter wave from the counter unit 40 is the voice coil, as described in the wave matching, It matches the wavefront of harmful waves from the voice coil 22V. In all such examples, the speaker 22 is converted by the counter unit 40 into such an EMC speaker system of the present invention. Other structural and / or operational characteristics of the counter unit 40 of FIG. 3b are similar or identical to such characteristics of the counter unit of FIG. 3a.

  The counter unit 40 may be modified to other configurations, may be implemented in other arrangements, and / or the counter unit 40 may resist harmful waves by other mechanisms. For example, such a counter unit can have a different radius of curvature, which can be even smaller than the radius of curvature of the voice coil, can be located inside the cone, is constant, or is It can also vary along the longitudinal axis of the counter unit. In yet another example, such a counter unit defines a radius of curvature that is greater than, similar to, or smaller than the radius of curvature of the voice coil, while surrounding different portions of the voice coil, or all of the voice coil. Arranged to surround the minute. In yet another example, a number of similar or different counter units are arranged in various arrangements for such local or global countering. In FIGS. 3a and 3b, it can be seen that the voice coil and the counter unit are replaced with each other. That is, each drawing can be interpreted as an external coil showing a larger audio coil and the internal coil being a counter unit surrounded by the external audio coil, where The properties of are also applied.

  In yet another example of FIG. 3c, the cone drive speaker 22 also includes a cone 22C and at least one audio coil 22V wound around the cone 22C. In order to resist harmful waves irradiated by the voice coil 22V, the counter unit 40 is composed of a mesh having a large number of openings therein, and is wrapped in an annular tube with an arrangement similar to that of the voice coil 22V. ) Thereafter, the counter unit 40 emits a counter wave having an amplitude that is similar to or slightly smaller than the amplitude of the harmful wave due to a distance that is similar to or slightly larger than the target space from the voice coil 22V. Thus, the sound coil 22V is arranged around at least a part of the side and concentric arrangement. Further, the counter unit 40 is aligned with the vertical axis of the voice coil 22V so that the center of the wave front of the counter wave is aligned with the center of the wave front of the harmful wave. A source current or analog of that current can also be supplied to the counter unit 40 in a direction that ensures that the counter wave has a phase angle that is at least partially opposite to the phase angle of the harmful wave. Thus, the counter unit 40 is aligned with the harmful waves and has a phase angle opposite to the phase angle of the harmful waves, thereby emitting a counter wave that resists such harmful waves in the target space. Preferably, the counter unit 40 is disposed at a predetermined radial or axial distance from the voice coil 22V, and the wave front of the counter wave by the counter unit 40 is the voice coil, as described in the wave matching. It is also possible to match the wavefront of harmful waves from the voice coil 22V. In all such examples, the speaker 22 is converted to the EMC speaker system of the present invention by including a counter unit 40 therein. Other structural and / or operational characteristics of such a counter unit 40 of FIG. 3c are similar or identical to such characteristics of the counter unit of FIGS. 3a and 3b.

  The counter unit 40 may be modified to other configurations, may be implemented in other arrangements, and / or the counter unit 40 may resist harmful waves by other mechanisms. For example, such a counter unit can be formed in another shape of a three-dimensional annular tube without any opening, another shape of an annular porous tube, or the like. In yet another example, the counter unit defines a different radius of curvature, which can be even smaller than the radius of curvature of the voice coil, can be placed in the cone, is constant, or It can also vary along the longitudinal axis of the counter unit. In yet another example, such a counter unit has a radius of curvature that is greater than, similar to, or even smaller than the radius of curvature of the voice coil, while surrounding a different portion of the voice coil or the entire portion of the voice coil. It is arranged so as to surround. In yet another example, a number of similar or different counter units are arranged in various arrangements for such local or global countering.

  In another example of FIG. 3d, the cone drive speaker 22 also includes a cone 22C and at least one audio coil 22V wound around the cone 22C. In order to resist harmful waves irradiated by the voice coil 22V, the counter unit 40 is provided as a mesh sheet having a number of openings therein. However, such a counter unit 40 is composed of a slightly different mesh from that of FIG. For example, the mesh of FIG. 3d defines a number of openings formed between the concentric and radial wires of the counter unit, whereas the mesh of FIG. 3c is formed between the horizontal and vertical wires of the counter unit. A number of openings are defined. The counter unit 40 is arranged on the voice coil 22V in a front arrangement so that the counter unit 40 emits a counter wave having an amplitude smaller than that of the harmful wave by a shorter distance to the target space than the voice coil 22V. The The center of the counter unit 40 is aligned with the vertical axis of the voice coil 22V so that the center of the wavefront of the counter wave is aligned with the center of the wavefront of the harmful wave. A source current or the like can also be supplied to the counter unit 40 in a direction that ensures that the counter wave has a phase angle that is at least partially opposite the phase angle of the harmful wave. Thus, the counter unit 40 is aligned with the harmful waves and has a phase angle that is opposite to the phase angle of the harmful waves, thereby emitting a counter wave that resists such harmful waves in the target space. Preferably, the counter unit 40 is disposed at a preset radial or axial distance from the voice coil 22V, and the wave front of the counter wave by the counter unit 40 is the voice coil, as described in the wave matching. It matches the wavefront of harmful waves from the voice coil 22V. In all such examples, the speaker 22 is converted into the EMC speaker system of the present invention by including such a counter unit 40 therein. Additional structural and / or operational characteristics of such counter unit 40 of FIG. 3d are similar or identical to such characteristics of the counter unit of FIGS. 3a-3c.

  The counter unit 40 may be modified to other configurations, may be implemented in other arrangements, and / or the counter unit 40 may resist harmful waves by other mechanisms. For example, such a counter unit can be formed on a three-dimensional sheet having another shape without any opening, a porous sheet having another shape, or the like. In more detail, the counter unit can also be contoured to be concave upward (or downward) in order to better match the wavefront of the harmful wave and the wavefront of such counterwave. In another example, the counter unit can be arranged at different distances from the basic unit, or can be arranged on different parts of the voice coil. In yet another example, a number of similarly or differently configured counter units can be arranged in various arrangements for such local or global countering.

  In another example of FIG. 3e, the piezoelectric speaker 22 includes a piezoelectric plate 22P, an electrode pair 22E, and a metal plate 22M, where each of the electrodes 22E (hereinafter referred to as a “piezo plate”). The metal plate is fixedly attached to one of the electrodes 22E. The metal plate is fixedly coupled to each of the opposite sides of the piezoelectric plate 22P. As is well known in the art, the piezo plate 22P is arranged to vibrate when an alternating source voltage is applied across the piezo plate by such an electrode 22E, where the metal plate 22M is piezo piezo. The plate 22P and the electrode 22E are mechanically supported but generally arranged so as not to vibrate with the piezo plate 22P, and the assembly of the piezo plate 22P and the electrode 22E is sometimes referred to as a “piezoelectric element”. Accordingly, the piezoelectric speaker 22 generates an audible sound in response to the source voltage while irradiating harmful waves with the basic units 22P and 22E of the speaker with the piezoelectric element. The metal plate 22M is included in the basic unit depending on whether the metal plate 22M affects the path of harmful waves through the metal plate. In order to resist harmful waves emitted from such a basic unit, at least one counter unit 40 is preferably arranged in a preset relationship with respect to the various basic units 22P, 22E of the piezoelectric speaker 22. In such an example, the counter unit 40 is provided as a 3D replica of the basic units 22P, 22E, which similarly includes a piezo plate, two electrodes attached to the sides of the piezo plate, and a metal plate. In such a context, the counter unit 40 preferably operates with respect to source matching, and more particularly with respect to shape matching. However, in order to prevent such counter unit 40 from generating any audible sound, the piezo plate of such counter unit 40 is fixedly coupled to the metal plate or supplied to the piezo plate. Arranged so as not to oscillate in response to the applied source voltage or analog of that voltage. In addition, the counter unit 40 has a piezoelectric speaker 22 in a rear arrangement so that the counter unit 40 emits a counter wave having an amplitude larger than the amplitude of the harmful wave at a larger distance from the target space than the basic units 22P and 22E. Placed below. The counter unit 40 is aligned with the longitudinal axis of the speaker 22 so that the center of the wave front of the counter wave coincides with the center of the wave front of the harmful wave. A direction in which the source current or the like is opposite to the direction of the source current flowing through the speaker 22 to ensure that such counter wave defines a phase angle that is at least partially opposite to the phase angle of the harmful wave. The counter unit 40 can also be supplied. Therefore, the counter unit 40 is aligned with the harmful waves and defines a phase angle that is opposite to the phase angle of such harmful waves, thereby emitting a counter wave that matches the harmful waves in the target space and counters the waves. You can also As described above, the counter unit 40 has a similar shape, but can also be observed as a 3D analog of the speaker 22 that defines a larger or thicker configuration than the piezoelectric speaker 22 configuration. Preferably, the counter unit 40 is arranged at a predetermined distance from the speaker 22, and the wavefront of the counter wave from the counter unit 40 is harmful from the speaker 22 as described in the wave matching. Match the wave front of the wave. In all such examples, the speaker 22 is converted to the EMC speaker system of the present invention by including a counter unit 40 therein.

  The counter unit 40 may be modified to other configurations, may be implemented in other arrangements, and / or the counter unit (40) may resist harmful waves by other mechanisms. For example, such counter units may have different radii and / or heights while maintaining the aspect ratio of the speakers or changing such proportions. In another example, such a counter unit can have a shape that defines a similar aspect ratio, but can also include plates and electrodes of a thickness different from the thickness of the speaker. In another example, the counter units can be arranged in a front arrangement where the upper article in the drawing can be observed as a counter unit or the lower article can be interpreted as a speaker. In another example, two or more similar or different counter units may be arranged in various arrangements for local or global countering. It should be understood that the counter unit can have a shape similar to that of a piezoelectric speaker, but can also be constructed and / or include different materials from different materials. For example, the counter unit may have a plate made of and / or comprising an insulating or semiconductive material that is not piezoelectric but defines an electrical resistivity similar to that of a piezo plate of a speaker. In yet another example, the electrode and / or metal plate may be composed of and / or include a less expensive material than the speaker material. As long as the counter unit emits a counter wave that counteracts harmful waves in the target space, the counter unit can define various configurations, and can be configured and / or include various materials.

  It should also be understood that the counter unit itself can operate as an additional piezoelectric speaker that generates the same audible sound as the audible sound generated by the speaker upon receipt of the source voltage. However, the counter unit and the counter unit are arranged to emit a counter wave having a phase angle that is at least partially opposite to the phase angle of the harmful wave, thereby generating the same audible sound as the speaker, Counter harmful waves with counter waves. Such counter units may be implemented in various arrangements. For example, the loudspeaker and the counter unit can be aligned axially or angularly with each other, but the source voltage is supplied to them in the opposite direction. In another example, the source voltage can be supplied to both the speaker and the counter unit in the same direction, but the counter unit defines a phase angle in which the counter wave is opposite to the phase angle of the harmful wave. And / or oriented. As long as the piezo plate of the counter unit vibrates in the same direction as the piezo plate of the speaker and the counter unit emits a counter wave that matches and counters harmful waves as a whole, The configuration can be defined, can be arranged in various orientations or alignments, and / or can be supplied with a source voltage along various directions.

  In another example of FIG. 3f, the piezoelectric speaker 22 includes a piezoelectric plate 22P, an electrode pair 22E, and a metal plate 22M, similar to the piezoelectric speaker of FIG. 3e. In order to resist harmful waves emitted from such a basic unit, at least one counter unit 40 is preferably arranged in a preset relationship with respect to the basic units 22P, 22E of the speaker 22. In such an example, the counter unit 40 is formed as a coil of conductive wire similar to the wire of FIG. 3b. In such a context, such counter unit 40 operates with respect to wave matching. The counter unit 40 is arranged below the piezoelectric speaker 22 in a rear surface arrangement so that the counter unit 40 emits a counter wave having an amplitude larger than that of harmful waves by a greater distance to the target space than the basic units 22P and 22E. Is done. The counter unit 40 is aligned with the longitudinal axis of the speaker 22 so that the center of the wave front of the counter wave coincides with the center of the wave front of the harmful wave. In order to ensure that such a counter wave has a phase angle that is at least partially opposite to the phase angle of the harmful wave, the source current or the like is countered in a direction opposite to the direction of the source current flowing through the speaker 22. It can also be supplied to the unit 40. Accordingly, the counter unit 40 is aligned with the harmful wave and has a phase angle opposite to the phase angle of the harmful wave, thereby matching the harmful wave in the target space and countering the harmful wave. Can also be released. Preferably, the counter unit 40 is arranged at a preset distance from the speaker 22 where the wavefront of the counter wave by the counter unit matches the wavefront of the harmful wave by the speaker 22 as described in the wave matching. In all such examples, the piezoelectric speaker 22 is converted into the EMC speaker system of the present invention by including a counter unit 40 therein. Additional structural and / or operational characteristics of the counter unit 40 illustrated in FIG. 3f are similar or identical to those of the counter unit of FIG. 3e.

  The counter unit 40 may be modified to other configurations, may be implemented in other arrangements, and / or the counter unit (40) may resist harmful waves by other mechanisms. For example, such counter units can be arranged at different distances from the basic unit, or one or more of the basic units can be enclosed within it. In another example, the counter unit may define a radius of curvature that is less than the radius of curvature of the speaker. In yet another example, such a counter unit may have a radius that is constant or varies along the longitudinal axis of the counter unit. In another example, multiple similar or different counter units can be arranged in various arrangements for local or global countering.

  In another example of FIG. 3g, the speaker 22 includes a piezoelectric plate 22P, an electrode pair 22E, and a metal plate 22M, similar to the speaker described in FIG. 3e. In order to resist harmful waves emitted from such a basic unit, at least one counter unit 40 is preferably arranged in a preset relationship with respect to the basic units 22P, 22E of the speaker 22. In such an example, the counter unit 40 is formed in a conductive wire mesh similar to the wire of FIG. 3c. In such a context, the counter unit 40 operates with respect to wave matching. The counter unit 40 is arranged below the piezoelectric speaker 22 in a rear surface arrangement so that the counter unit 40 emits harmful waves having an amplitude larger than that of the harmful waves by a greater distance with respect to the target space than the basic units 22P and 22E. Is done. The counter unit 40 is aligned with the vertical axis of the speaker 22 so that the center of the wave front of the counter wave coincides with the center of the wave front of the harmful wave. In order to ensure that such a counter wave has a phase angle that is at least partially opposite to the phase angle of the harmful wave, the counter current is directed in a direction opposite to the direction of the source current flowing through the speaker 22. It can also be supplied to the unit 40. Accordingly, the counter unit 40 is aligned with harmful waves and has a phase angle opposite to the phase angle of the harmful waves, thereby emitting counter waves that match the harmful waves in the target space and counter the harmful waves. You can also Preferably, the counter unit 40 is disposed at a predetermined distance from the speaker 22, and the wavefront of the counter wave by the counter unit is the wavefront of harmful waves by the speaker 22 as described in the wave matching. To match. In all examples, such a piezoelectric speaker is converted by the counter unit 40 into an EMC speaker of the present invention. Other structural and / or operational characteristics of the counter unit 40 of FIG. 3g are similar or identical to those of the counter unit of FIGS. 3e and 3f.

  The counter unit 40 may be modified to other configurations, may be implemented in other arrangements, and / or the counter unit 40 may resist harmful waves by other mechanisms. For example, such a counter unit can be formed in another shape of a three-dimensional annular tube without any opening, another shape of an annular porous tube, or the like. In another example, the counter unit can also define a different radius of curvature, the radius of curvature can be even smaller than the radius of curvature of the basic unit, can be located within the basic unit, and is constant. Or it can vary along the vertical axis of the basic unit. In yet another example, such a counter unit has a radius of curvature that is greater than, similar to, or smaller than the radius of curvature of the base unit, while surrounding at least a portion or all of the base unit. It can also be arranged. In yet another example, a number of similar or different counter units may be arranged in various arrangements for such local or global countering.

  In another example of FIG. 3h, the speaker 22 includes a piezoelectric plate 22P, an electrode pair 22E, and a metal plate 22M, similar to the speaker described in FIG. 3e. In order to resist harmful waves emitted from such a basic unit, at least one counter unit 40 is preferably arranged in a preset relationship with respect to the basic units 22P, 22E of the speaker 22. In such an example, the counter unit 40 is formed as a 3D analogue of the basic units 22P, 22E, where such analogue corresponds to an approximation of the basic units 22P, 22E and has a preset number of arcuate shapes. Concentric rings of other preset numbers of wires interconnected by a number of wires. In such a context, such counter unit 40 preferably operates with respect to source matching. The counter unit 40 is arranged above the piezoelectric speaker 22 in a front arrangement so that the counter unit 40 emits a counter wave having an amplitude smaller than that of harmful waves by a shorter distance to the target space. The counter unit 40 is aligned with the longitudinal axis of the speaker 22 so that the center of the wave front of the counter wave coincides with the center of the wave front of the harmful wave. In order to ensure that such a counter wave has a phase angle that is at least partially opposite the phase angle of the harmful wave, the source current or the like is passed in a direction opposite to the direction of the source current flowing through the speaker 22. The counter unit 40 can also be supplied along. Accordingly, the counter unit 40 has a phase angle that is aligned with the harmful waves and has a phase angle that is opposite to the phase angle of the harmful waves, thereby matching the harmful waves in the target space and countering the harmful waves. It can also be released. From this point of view, such a counter unit 40 is similar to the counter unit of FIG. 3d, except that such counter unit 40 defines a concave contour line downward. Preferably, the counter unit 40 is disposed at a preset distance from the speaker 22, and the wavefront of the counter wave by the counter unit 40 is the same as that of the harmful wave by the speaker 22 as described in the wave matching. Match. In all such examples, the piezoelectric speaker 22 is converted by the counter unit 40 into the EMC speaker of the present invention. Other structural and / or operational characteristics of the counter unit 40 of FIG. 3h are similar or identical to those characteristics of the counter unit of FIGS. 3e-3g.

  The counter unit 40 may be modified to other configurations, may be implemented in other arrangements, and / or the counter unit (40) may resist harmful waves by other mechanisms. For example, such a counter unit can be formed in other shapes of three-dimensional concave sheets without any openings, other shapes of porous sheets, etc., where the counter unit has a different number of rings or It is also possible to define openings of different shapes, including arcs. In yet another example, the counter unit may be configured with multiple cross sections each supplied with a voltage of different amplitude and / or direction to better approximate the basic unit. Such a cross-section can be formed concentrically so that different voltages are applied in the radial direction, or alternatively it can be formed angularly so that different voltages are applied in the angular direction. In yet another example, a number of similar or different counter units may be arranged in various arrangements for such local or global countering.

  In another example of FIG. 3i, the speaker 22 includes a piezoelectric plate 22P, an electrode pair 22E, and a metal plate 22M, similar to the speaker described in FIG. 3e. In order to resist harmful waves emitted from such a basic unit, it is preferable that at least one counter unit 40 is arranged in a preset relationship with respect to the basic units 22P and 22E of the speaker 22. In such an example, the counter unit 40 is formed in an annular tube. In such a context, the counter unit 40 operates with respect to source matching. The counter unit 40 is horizontal or concentric so that the counter unit 40 emits a counter wave that defines an amplitude similar to that of harmful waves, depending on the distance to the target space similar to the distance from the basic units 22P, 22E. Arranged around the piezoelectric speaker 22 in an array. The counter unit 40 is aligned with the longitudinal axis of the speaker 22 so that the center of the wave front of the counter wave coincides with the center of the wave front of the harmful wave. In order to ensure that such a counter wave has a phase angle that is at least partially opposite to the phase angle of the harmful wave, the source current or the like is countered in a direction opposite to the direction of the source current flowing through the speaker 22. It can also be supplied to the unit 40. Thus, the counter unit 40 defines a phase angle that is aligned with the harmful waves and is opposite to the phase angle of such harmful waves, thereby matching the harmful waves in the target space and countering the harmful waves with the counter waves. It can also be released. Preferably, the counter unit 40 is disposed at a predetermined distance from the speaker 22, and the wave surface of the counter wave by the counter unit 40 is a harmful wave caused by the speaker 22 as described in the wave matching. Match the wavefront. In all examples, the piezoelectric speaker 22 is converted by the counter unit 40 into the EMC speaker of the present invention. Other structural and / or operational characteristics of the counter unit 40 of FIG. 3g are similar or identical to those characteristics of the counter unit of FIGS. 3e and 3f.

  The counter unit 40 may be modified to other configurations, may be implemented in other arrangements, and / or the counter unit 40 may resist harmful waves by other mechanisms. For example, such a counter unit can be formed in a porous annular tube having another shape, an annular three-dimensional tube having another shape, or the like. In another example, the counter unit may define a different radius of curvature, the radius of curvature may be less than the radius of curvature of the basic unit, may be located within the basic unit, and is constant. Or it can vary along the longitudinal axis of the basic unit. In another example, such a counter unit may be arranged to surround different parts of the basic unit while having a radius of curvature that is larger, similar or smaller than the radius of curvature of the basic unit. In yet another example, a number of similarly or differently configured counter units can be arranged in various arrangements for local or global countering. In all such examples, the speaker 22 is converted by the counter unit 40 into the EMC speaker of the present invention. Other structural and / or operational characteristics of the counter unit 40 of FIG. 3i are similar or identical to those characteristics of the counter unit of FIGS. 3e and 3g.

  The counter unit described above and the counter units exemplified in FIGS. 3a to 3i can be arranged in any arrangement in the arrangement, and the counter unit can prevent harmful waves by any mechanism in the mechanisms described above. You can also Accordingly, when the counter unit operates based on source matching, a counter unit that is similar or identical to one or more basic units of various speaker basic units may be configured with respect to one or more basic units. It can also be arranged side by side or side by side and can be aligned axially, radially and / or angularly with one or more basic units, in which the counter unit has one or more basic units The unit may be surrounded, may be surrounded by one or more basic units, may be wound around one or more basic units, and may be wound by one or more basic units. Alternatively, a counter unit that is formed to be the same as or different from one or more of the basic units may be replaced with one of the harmful waves emitted by the one or more basic units for wave matching. It can also be arranged along the above wavefront. Such counter units can also be utilized in an appropriate number and / or arrangement to combat such harmful waves based on local countering or global countering.

  As mentioned above, additional details of various EMC speakers and various counter units of such EMC speakers have already been provided in various currently pending applications, one of which is the title of the invention. U.S. application U.S., which is “Electromagnetically-Shielded Actuator Systems and Methods”. S. No. 11 / 440,135, and the other is the 60 /? Whose title is “Electromagnetically-Countered Speaker Systems and Methods”. ? ? ,? ? ? No. Therefore, various conventional devices having such an EMC speaker are converted into an EMC system capable of performing their intended functions while counting harmful waves irradiated by the motor of the device by the counter unit. can do.

  In yet another exemplary embodiment of this aspect of the invention, the counter unit is an example of the inverse of such a speaker, and in various microphones having various basic units similar to the basic unit of the speaker. include. Here, examples of the basic unit include, but are not limited to, an electromagnet, a permanent magnet, any part of such a microphone through which unstable current flows, and any part of such part to which unstable voltage is applied. Is not to be done. Thus, any conventional device including a free-standing microphone, a wired telephone, a mobile telephone, an audio device, such an EMC microphone, such as an audio-visual device, and an earphone and microphone assembly, such as an EMC free-standing microphone, EMC wired or It can also be converted to various EMC systems such as mobile phones, EMC audio systems, EMC audiovisual systems, and such EMC assemblies. Here, various counter units of any configuration in the configuration are included in the device in any one of the arrangement and / or arrangement, and resist harmful waves by any mechanism in the mechanism. You can also.

  In yet another exemplary embodiment of this aspect of the invention, a counter unit is included in the various motors to counter such harmful waves emitted by the basic units of the various motors. Such motors function to convert electrical energy into mechanical energy or electromotive force, examples of which include DC motors, universal motors, AC synchronous motors, AC induction motors, linear or step motors, etc. However, it is not limited to this. Therefore, kitchen equipment (eg food processors, mixers, juicers, pulverizers, mixers, presses, dishwashers, refrigerators, freezers, ice makers, can openers, food dryers, coolers, food steamers, garbage compressors) , Kitchen garbage processing machine, etc.), cooking equipment (eg, electric grill, electric oven, electric stove, electric range, electric toast oven, electric toaster, electric fan, coffee maker, espresso maker, heating container, etc.), household appliances (E.g., washing machine, dryer, air conditioner, garage opener, dry or wet vacuum cleaner, etc.), tools (e.g., electric drill, electric saw, electric grinder, electric screwdriver, electric nail gun, electric staple gun, Electric sanders, electric grinders, etc.) and / or personal hygiene devices (eg electric toothbrushes, electric Any prior art devices (or actuators) including such EMC motors, such as swords, electric hair dryers, etc.), any of EMC kitchen equipment, EMC cooking equipment, EMC home appliances, EMC tools, EMC hygiene systems Can be converted into various EMC systems. Generally, a DC motor includes at least one stator having at least one permanent magnet and at least one rotor having at least one electromagnet, and a universal motor has at least one stator having at least one electromagnet and at least An inductive AC motor having at least one rotor having one electromagnet, the synchronous AC motor including therein at least one stator having at least one electromagnet and a rotor having at least one permanent magnet Includes at least one stator having at least one electromagnet and at least one rotor having at least one electric conductor, and the linear motor has at least one stator having at least one electromagnet and at least one permanent magnet At least one rotor To include within. Therefore, the basic unit of the motor includes a rotor, a stator, a permanent magnet, an arbitrary part of the motor through which an unstable current flows, an arbitrary part to which an unstable voltage is applied, and the like. FIGS. 4a to 4f are schematic perspective views of an exemplary counter unit embodied in a motor having various advantages according to the present invention, where FIGS. 4a to 4c are prior art rotations of such a motor. Although various counter units embodied in the child are illustrated, FIGS. 4d to 4f illustrate various counter units embodied in various conventional stators of the motor. For simplicity of illustration, the detailed configuration of the stator is omitted in FIGS. 4a to 4c, but it is understood that only the stator is included in FIGS. 4d to 4f and the matching rotor is omitted. I want. Accordingly, other conductive, semiconductive, and / or insulating parts of the motor that emit harmful waves are omitted from all such drawings, and if necessary, such parts may be replaced with such counter units as described above. It should be understood that it can be adequately countered by relying on any counter unit in it. Also, in FIGS. 4a-4f, various motors and their counter units may define a target space at the periphery thereof at the front (ie, the top of the drawing) or back (ie, the bottom of the drawing) of such motor. It should be understood that Also, the details of the various counter units of such an embodiment are described in US application U.S., currently pending, whose name is “Electromagnetically-Countered Actuator Systems and Methods”. S. 60th /? ? ? ,? ? ? Is disclosed.

  In one example of FIG. 4a, the motor 24 includes a rotor unit 25 and a stator unit 26, where such rotor unit 25 is rotatably disposed within the stator unit 26 or the stator thereof. Surrounded by unit 26. The rotor unit 25 includes a single inner basic rotor 25N of an electromagnet, while the stator unit 26 includes a single inner basic unit 26N of a permanent magnet. As is well known in the art, such a basic rotor 25N defines a dynamic magnetic field when a source current flows through it, and every 180 ° to maintain the rotation of the rotor unit 25, the basic rotor 25N. While changing the direction of the source current to, the interaction between the dynamic magnetic field of the basic rotor 25 and the fixed magnetic field of the basic stator 26N rotates the rotor unit 25 in the clockwise or counterclockwise direction. During the rotation of the rotor unit, the rotor unit 25 irradiates harmful waves when source current flows in it, while the stator unit 26 depends on the polarity of the harmful waves, The harmful wave is received and transmitted through the stator unit while affecting the propagation path. In such a context, both the rotor unit 25 and the stator unit 26, more specifically, the basic rotor 25N and the basic stator 26N function as a basic unit for the motor 24. In order to resist harmful waves irradiated by the basic units 25N, 26N, it is preferable that at least one counter unit 40 is arranged in a preset relationship with respect to such basic units 25N, 26N of the motor 25. In such an example, the counter unit 40 includes a pair of external counter rotors 25U and an optional external stator 26U, where each counter rotor 25U is similar to other electromagnets of the basic rotor 25U. The counter stator 26U is formed of an electromagnet, and is formed of another permanent magnet similar to the permanent magnet of the basic stator 26N. In such a context, the counter rotor 25U operates with respect to source matching. More specifically, the counter rotor 25U is disposed on the side surface with respect to the basic rotor 25N, and is oriented so as to be adjacent to the same magnetic pole of the basic rotor 25N. Further, the counter unit 25U is mechanically coupled to the basic rotor 25N so that the side surface arrangement and the adjacent orientation are maintained during the rotation of the rotor unit 25. Accordingly, the counter rotor 25U defines a phase angle that is aligned with the harmful wave and is at least partially opposite to the phase angle of the harmful wave, thereby matching the harmful wave in the target space and the harmful wave. Counter-counter waves can be emitted. Similar to the counter rotor 25U, the counter stator 26U is arranged side by side and concentrically with respect to the basic stator 26N, and is adjacent to the same magnetic pole of the basic stator 26N. Accordingly, the counter stator 25N defines a phase angle that is aligned with the harmful wave and that is at least partially opposite to the phase angle of the harmful wave, thereby matching the harmful wave and causing the harmful wave in the target space. Counter-counter waves can be emitted. Since both the counter rotor 25U and the counter stator 26U resist the harmful waves irradiated by the basic rotor 25N and the basic rotor 26N, such an EMC motor 24 is harmful from the basic units 25N and 26N of the motor. Effectively minimize wave irradiation.

  In yet another example of FIG. 4b, the motor 24 similarly includes a rotor unit 25 and a stator unit 26, where the rotor unit 25 is rotatably disposed within the stator unit 26. Or by its stator unit 26. The stator unit 26 is a permanent magnet or an electromagnet, and includes two external basic stators 26U arranged on the opposite side of the rotor unit 25 and arranged to define the same magnetic pole. Such a rotor unit 25 includes a pair of electromagnet internal rotors 25N that define the same shape and size, are arranged symmetrically with respect to the rotation axis of the rotor unit 25, and are adjacent to each other by the same magnetic pole. In such a context, the rotor unit 25 preferably operates with respect to source matching. Such an internal rotor 25N can be interpreted in various ways. For example, one of its internal rotors 25N can be considered to function as a basic rotor, but the other rotors of such rotors are arranged to function as counter rotors. . Thus, one of the rotors 25N irradiates harmful waves, while the other rotor of the rotor is aligned with the harmful waves, and at least partially in phase with the harmful waves. Which emits a counter wave that counteracts the harmful wave in the target space. In another example, both of the internal rotors 25N irradiate harmful waves, but eliminate such harmful waves and / or suppress outward propagation of harmful waves irradiated by other units. It can also be viewed as a basic (or counter) rotor, arranged to cooperate with each other. The stator unit 26 surrounding the internal rotor 25N receives and transmits harmful waves through the stator unit while affecting the propagation path of the harmful waves depending on the polarity of the harmful waves. Preferably, additional stator units may also be included between and / or around the inner rotor 25U to resist harmful waves transmitted through the outer stator 26U. Additional structural and / or operational characteristics of the motor 24 of FIG. 4b are similar or identical to those of the motor of FIG. 4a.

  In yet another example of FIG. 4 c, the motor 24 similarly includes a rotor unit 25 and a stator unit 26, where the rotor unit 25 is rotatably disposed within the stator unit 26. Or by its stator unit 26. Since each of the rotor unit 25 and the stator unit 26 is similar to the rotor and stator unit of FIG. 4a, the internal rotor 25N functions as a basic rotor and the external rotor 25U functions as a counter rotor. The pair of internal stators 26N functions as a basic stator, and the optional pair of external stators 26U functions as a counter stator. However, it should be understood that each inner stator 26N defines a pair of opposite poles while the opposite poles are adjacent to the adjacent poles of the inner rotor 25N. Thus, the outer rotor 25U is adjacent by another pole of the inner stator 26N that is opposite to the adjacent pole of the outer rotor 25U. Such an arrangement is more effective in combating harmful waves, but instead reduces efficiency when generating an electromotive force. Other structural and / or operational characteristics of the motor 24 of FIG. 4c may be similar or identical to the characteristics of the motor of FIGS. 4a and 4b.

  In another example of FIG. 4d, the motor 24 includes a rotor unit (not shown in this figure) and a stator unit 26, where the stator unit 26 includes two sets of stators 26N, 26U. And any rotor in the rotor unit and other rotor units disclosed in the current moored application may be used with the stator unit 26. More specifically, the first set of stator units 26 includes a pair of C-type inner stators 26N, while the second set of stator units 26 is still another of a larger C-type outer stator 26U. Includes pairs. Also, the respective pairs of the inner stator 26N and the outer stator 26U (that is, the right pair and the left pair) are arranged so as to be physically adjacent to each other and magnetically adjacent to each other by their opposite polarities. Is done. Therefore, one of the stators 26N and 26U can resist harmful waves transmitted through other stators. In such an embodiment, various rotor units may be disposed inside the internal stator 26N, between the internal stator 26N and the external stator 26U, outside the external stator 26U, and the like. Thus, whether a particular stator functions as a basic stator or a counter stator can also depend on the arrangement of the basic and / or counter rotor. Other structural and / or operational characteristics of the motor 24 of FIG. 4d are similar or identical to those of the motor of FIGS. 4a-4c.

  In yet another example of FIG. 4e, the other motor 24 also has a rotor unit (not shown) and a stator unit 26, where the stator unit 26 is the stator 26N, 26U. Any rotor unit in the rotor unit, including the two sets, and other rotor units disclosed in the current moored application can also be used with the stator unit 26. In more detail, the first set of stator units 26 includes four identical internal stators 26N disposed therein angularly around the rotation axis of the rotor unit, The second set includes a larger pair of C-shaped external stators 26U. Similar to the stator unit of FIG. 4d, the stator unit 26 of such an embodiment is provided with such an internal stator 26N, between the internal stator 26N and the external stator 26U, and / or outside the external stator 26U. Various rotor units can also be included. Thus, whether a particular stator functions as a basic stator or a counter stator can also depend on the arrangement of such basic and / or counter rotors. Additional structural and / or operational characteristics of the motor 24 of FIG. 4e are similar or identical to those of the motors of FIGS. 4a-4d.

  In yet another example of FIG. 4f, another motor 24 has a rotor unit (not included in this figure) and a stator unit 26, where the stator unit 26 is of the same or similar size. A pair of C-type stators 26L and 26R is included. More specifically, the left stator 26L and the right stator 26R extend about or at 270 ° or more. Further, the stators 26L and 26R are arranged in a concentric arrangement with their gaps misaligned so that the stators 26L and 26R overlap each other along the outermost side surface of the stator unit 26. Other structural and / or operational characteristics of the motor 24 of FIG. 4f may be similar or identical to the characteristics of the motor of FIGS. 4a-4e.

  As mentioned above, additional details of such rotor and stator units of various EMC motors and various counter units for the EMC motors are named “Electromagnetically-Countered Actuator Systems and Methods” under the name of the invention. One currently moored US application U.S.A. S. 60th /? ? ? ,? ? ? Is provided in the issue. Therefore, various prior art devices including such an EMC motor are converted into an EMC system that performs the intended function of the device while countering harmful waves emitted from the motor of the device by the counter unit. be able to.

  In yet another exemplary embodiment of this aspect of the invention, the counter unit is an example of the inverse of such a motor, and a variety of electric power generation including a variety of basic units similar to that of the motor. Examples of the basic unit include an electromagnet, a permanent magnet, an arbitrary part of a generator through which an unstable current flows, an arbitrary part of a generator to which an unstable voltage is applied, and the like. However, it is not limited to this. Thus, any conventional device including EMC generators such as AC generators, DC generators, and (automobile) alternators can be used as EMC AC generators, EMC DC generators, EMC alternators such as EMC alternators. A variety of counter units of any configuration in such a configuration can be included in the device in any such arrangement and / or arrangement, and any mechanism within the mechanism can cause harmful waves Can withstand.

  In yet another exemplary embodiment of this aspect of the invention, a counter unit is included in the various heating units to counter harmful waves irradiated by the basic units of the various heating units. Here, such a heating unit functions to transfer electrical energy by heat conduction, convection and / or radiation after converting electrical energy into heat (or thermal energy). Including, but not limited to, conductive wires, resistive strips, resistive coils, resistive solenoids, resistive toroids, resistive sheets and the like. Therefore, personal heating equipment (eg electric mattress, electric mat, electric blanket, electric heating pad etc.), cooking equipment (eg electric grill, electric oven, electric stove or range, electric toast oven, electric toaster, coffee maker, Espresso makers, heating containers, etc.), and any prior art heating devices including beauty equipment (eg, hair dryers, hair set machines, hair curlers, hair steamers, etc.) and such heating units, such EMC personal heating systems, It can be converted into an EMC cooking system, an EMC beauty system, or the like. In general, such a heating unit includes not only the resistive portion, but also other portions for supporting or maintaining the resistive portion in a fixed or variable position, insulating other articles, and the like. Thus, the basic unit of a heating unit irradiates from such a resistive part, any part of that heating unit through which an unstable current flows, any such part to which an unstable voltage is applied, and other parts of the heating unit. It may also include any such portions that affect the propagation path of the harmful waves generated. FIGS. 5a to 5h are schematic perspective views of an exemplary counter unit embodied in a heating unit having various basic units according to the present invention, where FIGS. 5a to 5c are respectively conventional. FIG. 5D to FIG. 5H illustrate various counter units embodied in various conventional coil-type heating units. Is illustrated. In such drawings, it is understood that various heating units include only various resistive articles and a counter unit for the heating unit, and other portions of the heating unit are omitted for simplicity of illustration. I want. Accordingly, other conductive, semiconductive, and / or insulating parts of the heating unit that emit harmful waves are omitted in the drawings, and if necessary, such parts may be replaced with any of the counter units as described above. It can also be countered appropriately by relying on the counter unit. 5a to 5h, a target space is formed around the heating unit, for example, the front surface (ie, above the sheet), the rear surface (ie, below the sheet), the upper end (ie, the upper end of the drawing), etc. In order to do so, it should be understood that various basic units and counter units of such a heating unit are arranged. Also, details of the various counter units of such an embodiment can be found in US application U.S., currently pending, whose title is “Electromagnetically-Shielded Heat Generation Systems and Methods”. S. No. 11 / 289,693.

  In one example of FIG. 5a, the heating unit 28 includes at least one resistive article and a counter unit 40, where the resistive article heats electrical energy while irradiating harmful waves when current flows therein. The resistive wire or rod 28 </ b> W is converted into a resistance wire or rod 28 </ b> W, and the resistive wire or rod 28 </ b> W functions as a basic unit of the heating unit 28. In order to resist harmful waves irradiated by the basic unit 28W, the counter unit 40 is provided as a coil wound in a spiral in a preset direction with respect to the basic unit 28W of the heating unit 28. In such a context, the counter unit 40 preferably operates with respect to wave matching. In more detail, such a counter unit 40 concentrically surrounds the basic unit 28W at its center and is oriented symmetrically with respect to the basic unit 28W. Further, current is supplied to the basic unit 28W and the counter unit 40 in the opposite directions. Accordingly, the counter unit 40 also defines a phase angle that is aligned with the harmful wave and that is at least partially opposite to the phase angle of the harmful wave, thereby matching the wavefront of the counter wave with the wavefront of the harmful wave. Thus, the counter wave is released against the harmful wave in the target space. Although similar in appearance to a conventional coaxial wire, the heating unit 28 in this example differs from the conventional coaxial wire in several main ways. First, in contrast to a coaxial wire in which a number of conductive elements are concentrically arranged, the heating unit 28 defines a finite electrical resistance and is a resistive element that generates heat when current flows through it. Includes a wire or rod 28W. Second, the heating unit 28 includes a counter unit 40 that surrounds the base unit 28W in a sparse arrangement, i.e., the counter unit 40 may form multiple openings or gaps therethrough. The characteristic dimension of the opening or gap can be several tens or several hundred times larger than the characteristic dimension of the basic unit 28W. Therefore, the counter unit 40 can be realized with a small amount of resistive material at a low cost. In such an example, such a counter unit 40 may be composed of and / or include a conductive material, or the counter unit 40 itself may be configured and / or include a resistive material as other resistive articles. It should be understood that it works. Also, it is understood that the counter unit 40 can be wound around the basic unit 28 in any direction as long as current is supplied in a direction opposite to the direction of the source current supplied to the resistive wire (or rod) 28W. I want to be. In such an example, it can be seen that the heating unit 40 of this example can also define the target space all around its length.

  In yet another example of FIG. 5b, the heating unit 28 also includes at least one resistive article and at least one counter unit 40, which irradiates such harmful waves when current flows therein. However, formed on a resistive strip 28t that converts electrical energy into heat, the counter unit 40 is provided as another coil of conductive or resistive material. Similar to the counter unit of FIG. 5a, such a counter unit 40 may be wound along any direction to form multiple gaps or openings. Preferably, the coil 40 can also be folded to define an elliptical cross-section to better approximate the shape of the basic unit 28t, and the width of the resistive strip 28t along the long axis of the coil. Or it can be oriented to accommodate height. Other structural and / or operational characteristics of the heating unit 28 of FIG. 5b are similar or identical to those of the heating unit of FIG. 5a.

  In yet another example of FIG. 5c, the heating unit 28 also includes at least one resistive article and at least one counter unit 40 that irradiates harmful waves when current flows therein. While being defined by a resistive sheet 28H that converts electrical energy into heat, the counter unit 40 is formed on another sheet of conductive or resistive material. In more detail, the counter unit 40 is oriented in parallel to the basic unit 28H and arranged at a preset distance from the counter unit so that the counter unit 40 operates with respect to shape matching. Accordingly, the counter unit 40 defines a phase angle that is aligned with the harmful wave and that is at least partially opposite to the phase angle of the harmful wave, thereby countering the harmful wave with the counter wave in the target space. Release. It should be understood that the amplitude of the current supplied to the counter unit 40 can also be determined by which side of the basic unit 28H the target space is defined. If the target space is formed in front of the heating unit 28 (or on the sheet), the counter unit 40 emits a counter wave having an amplitude that is greater than the amplitude of the harmful wave, so that the distance from the base unit 28H is greater. Try to resist such harmful waves at large distances. If the target space is defined on the rear surface of the heating unit 28 (or under the sheet), the counter unit 40 emits a counter wave that defines an amplitude that is even smaller than the amplitude of the harmful wave, thereby further increasing the base unit 28H. Try to resist such harmful waves at short distances. When the target space is defined at the upper end of the heating unit 28, the counter unit 40 emits a counter wave having an amplitude similar to that of harmful waves, thereby resisting such waves at a distance similar to such a basic unit 28H. To do. Other structural and / or operational characteristics of the heating unit 28 of FIG. 5c are similar or identical to those of the heating unit of FIGS. 5a and 5b.

  In another example of FIG. 5d, the heating unit 28 also includes at least one resistive article and at least one counter unit 40, which is irradiating harmful waves when current flows through it. It is formed in a resistive coil 28 </ b> C that converts electrical energy into heat, and the resistive coil 28 </ b> C functions as a basic unit of the heating unit 28. In order to counter the harmful waves emitted by the basic unit 28C, the counter unit 40 is provided with a rod or wire arranged inside the heating coil 28C and aligned with the center of the coil 28C. In such a context, the counter unit 40 preferably operates with respect to wave matching. In more detail, such a counter unit 40 is surrounded at its center by a basic unit 28W and is oriented symmetrically with respect to the basic unit 28W. The current is supplied to the basic unit 28W and the counter unit 40 in the opposite directions. Accordingly, the counter unit 40 defines a phase angle that is aligned with the harmful wave and that is at least partially opposite to the phase angle of the harmful wave, thereby matching the wavefront of the harmful wave with the wavefront of the counter wave. To release a counter wave that counteracts the harmful wave in the target space. Although similar in appearance to a conventional coaxial wire, the heating unit 28 in such an example differs from the heating unit in several major ways, as described in FIG. 5a. In such an example, the counter unit 40 can also be composed and / or include a material of a conductive material, the counter unit 40 itself can also be composed and / or include a material of a resistive material, It should also be understood that it can function as another resistive article. It is also understood that the counter unit 40 can be wound around the basic unit 28 in any direction as long as current is supplied to the counter unit in a direction opposite to the direction of the source current supplied to the resistive coil 28C. I want. In such an example, it should be understood that the heating unit 40 of such an example can also define the target space all around its length. Other structural and / or operational characteristics of the heating unit 28 in such an example are similar or identical to the characteristics of the heating unit of FIGS. 5a-5c.

  In yet another example of FIG. 5e, the heating unit 28 also includes at least one resistive article and at least one counter unit 40 that irradiates such harmful waves when current flows therein. However, defined by a resistive coil 28C that converts electrical energy into heat, the counter unit 40 is provided as another coil of conductive or resistive material so that the counter unit 40 operates with respect to wave matching. . In particular, the counter unit 40 is aligned in parallel with the basic unit 28C and is disposed at a preset distance from the basic unit 28C. Thus, the counter unit 40 is aligned with harmful waves and defines a phase angle that is at least partly opposite to the phase angle of the harmful waves, thereby countering the harmful waves in the target space. Release waves. It should be understood that the amplitude of the current supplied to the counter unit 40 can also depend on which side of the basic unit 28H the target space is defined. If the target space is formed on the front surface or sheet of the heating unit 28, the counter unit 40 emits a counter wave having an amplitude that is greater than the amplitude of the harmful wave, thereby being greater than the distance from the base unit 28H. Try to resist such harmful waves at a distance. When the target space is defined on the rear surface of the heating unit 28 (or under the sheet), the counter unit 40 emits a counter wave having an amplitude smaller than the amplitude of such harmful waves, so that the distance from the basic unit 28H is larger. In addition, try to resist the harmful waves at a short distance. When the target space is formed at the upper end of the heating unit 28, the counter unit 40 emits a counter wave with an amplitude similar to that of harmful waves, thereby resisting that wave at a distance similar to such a basic unit 28H. Like that. Other structural and / or operational characteristics of the heating unit 28 of FIG. 5e are similar or identical to those of the heating unit of FIGS. 5a-5d.

  In another example of FIGS. 5f and 5g, each such heating unit 28 has at least one resistive article and at least one counter unit 40, which resistive article takes when current flows through it. Defined by a resistive coil 28C that converts electrical energy into heat while irradiating harmful waves, the counter unit 40 is provided as another coil of conductive or resistive material disposed within the basic unit 28C. The Accordingly, the counter unit 40 preferably operates with respect to source matching. More specifically, the counter unit 40 is aligned in parallel to the center of the base unit 28C, is aligned with the harmful waves, and defines a phase angle that is at least partially opposite to the phase angle of the harmful waves, thereby providing a target space. A counter wave that counters harmful waves is emitted. The counter unit 40 can also be wound in any direction, for example along the same direction as the heating coil 28C as in FIG. 5f, or along the opposite direction of the heating coil 28C as in FIG. 5g. I want you to understand. In either example, the counter unit 40 defines a target space at least substantially around the heating unit 28. Other structural and / or operational characteristics of the heating unit 28 of FIGS. 5f and 5g are similar or identical to those of the heating unit of FIGS. 5a-5e.

  In yet another example of FIG. 5h, the heating unit 28 also includes at least one resistive article and at least one counter unit 40, which irradiates such harmful waves when current flows therein. The counter unit 40 is defined by a resistive coil 28C that converts electrical energy into heat, and the resistive coil 28C and the counter coil 40 alternate with each other at every pitch of the heating unit 28. Provided as another coil of conductive or resistive material intertwined with each other. In such a context, the counter unit 40 operates with respect to source matching. In more detail, such counter unit 40 is aligned in parallel to the center line of the basic unit 28C, arranged in an array that is symmetric with respect to the resistive coil 28C, aligned with the harmful waves, and at least partly of the phase angle of the harmful waves. In the opposite direction, thereby emitting counter waves that resist such harmful waves in the target space. It should be understood that the counter unit 40 may be wound in the same direction as the heating coil 28C while defining a target space at least substantially around the heating unit 28. Other structural and / or operational characteristics of the heating unit 28 of FIG. 5h are similar or identical to the characteristics of the heating unit of FIGS. 5a-5g.

  As mentioned above, additional details of such counter units of various EMC heating units are named “Electromagnetically-Shielded Heat Generating Systems and Methods” and are currently pending US application U.S. Pat. S. No. 11 / 289,693. Therefore, various prior art devices having such an EMC heating unit can perform the intended heating function while countering such harmful waves irradiated by the resistive heating article of the device by such a counter unit. It can be converted to an EMC system.

  In yet another exemplary embodiment of this aspect of the invention, the counter unit is also included in a variety of transformers including therein at least two coils that are magnetically coupled to each other. Here, examples of the basic unit of such a transformer are: an electromagnet, a ferromagnetic material, a ferrimagnetic material, and / or an insert containing the material, any insert of a transformer through which unstable current flows Including, but not limited to, any part of a transformer to which an unstable voltage is applied. Thus, any prior art devices including such EMC transformers, such as step-up transformers, step-down transformers, and AC / DC adapters of various electrical devices can be converted into EMC transformer systems and EMC adapter systems, where Thus, various counter units having any configuration in the configuration can be included therein in any such arrangement and / or arrangement, and can prevent harmful waves by any mechanism in the mechanism. Since the EMC transformer is essentially a coil, the basic unit of FIGS. 5d to 5h is essentially a coil, provided that the counter unit is not a resistive heater but is composed of and / or includes an electrical conductor. It should be understood that one or more counter units in such a counter unit disclosed with its basic unit may also be included. Similarly, the title of the invention is “Electromagnetically-Shielded Heat Generating Systems and Methods” and is currently pending US application U.S. Pat. S. The various counter units disclosed in 11 / 289,693 can also be included in such EMC systems, provided that such counter units are constructed and / or include a conductive article that is not a resistive material. .

  In yet another exemplary embodiment of this aspect of the invention, a counter unit is included in the various light emitting units to counter the harmful waves emitted by the basic units of the various light emitting units. Here, the light emitting unit functions to convert electric energy into visible light, ultraviolet light, and / or infrared light, and examples of the light emitting unit are not only incandescent bulbs and CCFLs (ie, cold cathode fluorescent lamps), Fluorescent bulbs including EEFL (ie external electrode fluorescent lamp), CRT (ie cathode ray tube), LED (ie light emitting device), OLED (ie organic light emitting device), IOLED and ILED (ie inorganic light emitting device), This includes, but is not limited to, PDPs (ie, plasma display panels) and any other device that can emit such light. Therefore, the basic unit of such a light emitting unit includes a light emitting element that converts electrical energy into such light rays, an arbitrary part of the light emitting unit through which unstable current flows, an arbitrary part of the light emitting unit to which unstable voltage is applied, and the like. It can also be included. Thus, any such prior art device can be converted into an EMC light emitting unit, each comprising at least one unit of the light emitting unit and at least one counter unit of the counter unit, wherein the configuration Various counter units of any configuration in the device can be included in the device in any of the above arrangements and / or arrangements, and can prevent harmful waves by any of the mechanisms.

  In yet another aspect of the invention, any system in the EMC system may include at least one electrical shield and / or magnetic shield. In one example, electrical and / or magnetic shields (hereinafter referred to as “ES” and “MS”, respectively) may be implemented within, above, above, or below various parts of the EMC system. it can. In another example, such ES and / or MS can be implemented as described above and can be used with any counter unit in the counter unit. In general, the ES comprises and / or includes at least one electrically conductive material so that harmful radio waves are absorbed therein and rerouted. Preferably, the ES is grounded so that absorbed and rerouted waves are removed from the ES. The MS comprises and / or members of at least one magnetically permeable path member capable of absorbing harmful magnetic waves therein and thereafter rerouting such magnetic waves therethrough Can also be included. Preferably, the MS has a magnet member that is magnetically coupled to the path member and terminates the re-routed magnetic wave absorbed by at least one magnetic pole of the magnet member. The MS may also include at least one optional shunt member that is magnetically permeable and protects the magnet member of the MS, so that such close proximity to the optional shunt member Limit the magnetic field from the magnet member. Other details of such ES and / or MS are, for example, “Shunted Magnet Systems and Methods” No. 11 / 213,703, “Magnet-Shunted Systems and Methods” No. 11 / 213,686, And U.S., “Electromagnetic Shield Systems and Methods”. S. Already provided in currently pending applications such as 60 / 723,274. Such a currently moored application heating element can also be replaced by the various counter units of the present invention, since the ES and / or MS is included in the various currently moored application heating elements, the ES and It should be understood that the details of such a current pending application may be modified so that the MS is included in the counter unit of the present invention. It should also be understood that ES and / or MS can be included in various parts of the EMC system of the present invention, since the counter unit is included in such part of the EMC system of the present invention.

  The ES and / or MS may be provided to define the same or similar configuration as the various counter unit configurations of the present invention. The ES and / or MS can also be arranged in, above, above, around and / or through the basic unit and / or counter unit. The ES and / or MS has a configuration that at least partially matches the configuration of such a basic unit and / or counter unit, or alternatively defines a configuration that is at least partially different from the configuration of the ES and / or MS. You can also.

  The MS path member can also define a relative magnetic permeability greater than 1,000 or 10,000, 100,000 or 1,000,000. The shunt member is in direct or indirect contact with the magnet member and arranged to define a relative magnetic permeability greater than 1,000, 10,000, 100,000, or 1,000,000. You can also. The ES and / or MS described above, or the ES and / or MS disclosed in the currently pending application, is included in any prior art device with or without any counter unit in the counter unit. It is also possible to define such an EMC system of the present invention. The ES and / or MS can also define a configuration that can be maintained uniformly along the longitudinal or minor axis of the base and / or counter unit, or can vary along that axis. Such a configuration of the ES and / or MS may be the same, similar or different from the configuration of the basic and / or counter unit. An EMC system can also include a number of ESs and / or MSs, where at least two of the MSs and / or ESs can also protect magnetic and / or radio waves of the same or different frequencies to the same or different extents. . The ES and / or MS can also be arranged over at least part (or all part) of the basic and / or counter unit. The EMC system can also include not only ES and / or MS, but also any one or more of the counter units therein, where the basic and / or counter unit is AC or DC. You can also work through.

  As described above, the EMC system of the present invention can also be provided with a number of defense mechanisms against harmful waves emitted by various basic units of such a system. In one example, as described above, the counter unit is included in various parts of such an EMC system. Thus, single or multiple counter units can be provided in any configuration in the configuration, and can be included in any configuration in the configuration. In another example, such ES and / or MS may be included in various parts of the EMC system, and may protect such harmful radio waves and / or magnetic waves, respectively, where the ES and / or MS. The arrangement of is described in the currently pending application. In yet another example, not only the counter unit, but also at least one of ES and / or MS, the counter unit can resist at least some of the harmful waves and absorbs ES and / or MS the rest. And it can also be implemented in an EMC system for rerouting. Figures 6a to 6h illustrate schematic perspective views of exemplary speakers including MS and / or ES and the counter unit according to the present invention.

  In a first set of examples, the coil-drive speaker 22 of FIG. 6a and the piezoelectric speaker 22 of FIG. 6b are counter units that define a configuration similar to that of the basic unit of the speaker 22 by the source matching. 40 included. The counter unit 40 of FIG. 6a is arranged larger than the basic unit, whereas the counter unit 40 of FIG. 6b is arranged smaller than the basic unit. Further, the counter unit 40 is arranged below the basic unit in the rear surface arrangement so that the counter unit 40 emits a counter wave having an amplitude larger than that of the harmful wave from the basic unit of the speaker 22 in general. The The MS (or ES) will allow the speaker 22 to have any residual harmful waves not properly countered by the counter unit 40 absorbed therein, rerouted along and terminated at that point. It is provided in the form of a planar mesh placed on top of the basic unit. The MS (or ES) can also absorb, reroute, and then terminate any remaining counter waves left after counting harmful waves. In yet another set of examples, and also the coil drive speaker 22 of FIG. 6c and the piezoelectric speaker of FIG. 6d are included with a counter unit 40 disposed along one or more wavefronts of harmful waves by wave matching, The counter unit 40 is made larger or wider than the basic unit. Such a counter unit 40 is arranged on the basic unit of the speaker 22 in a front arrangement so that the counter unit 40 emits a counter wave having an amplitude which is generally smaller than the amplitude of harmful waves by the basic unit of such a speaker 22. Is done. The MS (or ES) is provided in the form of an annular cylinder to absorb, reroute, and terminate residual harmful waves and / or counter waves and surrounds at least a portion of the basic unit of the speaker 22. In contrast to the MS (or ES) of FIGS. 6a and 6b, the MS (or ES) of FIG. 6c or 6d is located away from the audible sound propagation path generated by the speaker 22, and thus is It can also be provided in a typical configuration. In yet another set of examples, the coil drive speaker 22 of FIG. 6e and the piezoelectric speaker 22 of FIG. 6f are included with a counter unit 40 that defines a configuration similar to that of the basic unit of the speaker 22 as in source matching. It is. Although the counter unit 40 of FIG. 6e is provided smaller than the basic unit, the counter unit of FIG. 6f is made larger or wider than the basic unit. Further, the counter unit 40 is arranged below the basic unit in a rear surface arrangement so that the counter unit 40 generally emits a counter wave having an amplitude larger than the amplitude of harmful waves from the basic unit of the speaker 22. . The MS (or ES) is provided in the form of a cylinder mesh placed around the basic unit of the speaker 22 so that any residual harmful or counter waves are absorbed therein.

  Any counter unit in the counter unit is provided that uses a minimal amount of electrically conductive, semiconductive, and / or insulating material while minimizing the bulk, size, and / or mass of such counter unit. I want you to understand. Therefore, such a counter unit can be manufactured with less material at a lower cost and can be easily implemented in various positions of the EMC system. It should also be understood that any counter unit in the counter unit is provided to emit a counter wave using a minimum amount of electrical energy, for example by drawing a minimum amount of current or voltage. Thus, such a counter unit is energy efficient and has minimal impact on the operation of other parts of the EMC system and the intended function of the system. Such paragraph requirements can also minimize the electrical resistance of the counter unit, thus minimizing the voltage drop across the counter unit.

  Unless otherwise specified, various features of one embodiment of one aspect of the invention may interact with each other in other embodiments of the same aspect of the invention and / or one or more embodiments of other aspects of the invention. Can be applied interchangeably. Accordingly, any counter unit in the counter units of FIGS. 1a to 1f and 2a to 2f can be replaced with the various EMC speaker systems of FIGS. 3a to 3i, the various EMC motor systems of FIGS. 4a to 4f, and FIG. It can also be implemented in the various heating units of FIGS. 5h and other EMC systems disclosed herein without any accompanying drawings. Such a counter unit for an EMC speaker system can also be included in other EMC systems of the present invention, a counter unit for an EMC motor system can also be included in other EMC systems of the present invention, The counter unit for the EMC heating unit can also be applied to other EMC systems of the present invention. Also, any counter unit in a counter unit that operates with respect to source matching can be converted to operate with respect to wave matching, or vice versa, where the source-matched counter unit is then the base unit Counter units that are arranged along one or more wavefronts of harmful waves from or are wave-matched are arranged in a preset relationship with respect to the basic unit, or are included in an arrangement similar to that of the basic unit You can also. Also, any ES and / or MS illustrated in FIGS. 6a to 6f and disclosed in the currently pending application may be included in any counter unit disclosed in FIGS. 1a to 5h.

  The various EMC systems of the present invention can also operate through AC power while countering harmful EM waves with the counter unit of the system. Preferably, such an EMC system can also operate through DC power while similarly countering harmful waves. It can also be appreciated that any conventional manner in which the system can protect against and / or eliminate such harmful waves can be used. Thus, any extra wires, strips, plates, sheets, and other parts of the EMC system can be braided, bundled, concentrically manufactured or processed to minimize harmful wave exposure. preferable.

  While various aspects and / or embodiments of the present invention have been described in conjunction with the detailed description of the invention, the foregoing description does not limit the scope of the invention as defined by the appended claims, It can be understood that it is intended to be exemplary. Other embodiments, aspects, advantages and modifications are also within the scope of the following claims.

Claims (5)

A system that can resist the harmful electromagnetic wave irradiated by suppressing propagation of at least a part of the harmful electromagnetic wave in the direction of the target space,
The target space is defined between the system and a user of the system;
The system
At least one wave source configured to include at least one basic unit, the basic unit irradiating the harmful electromagnetic wave by the basic unit and a propagation path of the harmful electromagnetic wave through the basic unit Corresponding to at least one part of the wave source that causes at least one of the influences on the base unit, the basic unit at least when a current flows in the basic unit and when a voltage is applied across the basic unit The at least one wave source configured to irradiate the harmful electromagnetic wave in one case;
A counter electromagnetic wave that defines a configuration different from the configuration of the basic unit, is included in a preset arrangement, and has a wave characteristic that matches the wave characteristic of the harmful electromagnetic wave, the configuration and the wave characteristic And at least one counter unit configured to receive at least one supply of current and voltage in a manner of emitting counter electromagnetic waves that suppress the propagation of the harmful electromagnetic waves to the target space And an electromagnetic countering system. At least one of erasing at least a part of harmful electromagnetic waves in the target space and suppressing the part of the harmful electromagnetic waves from propagating to the target space is effective in preventing the irradiated harmful electromagnetic waves. A system that makes it possible to
The target space is defined between the system and a user of the system;
The system
At least one wave source configured to include at least one basic unit, the basic unit irradiating the harmful electromagnetic wave by the basic unit, and a propagation path of the harmful electromagnetic wave through the basic unit Corresponding to only the portion of the wave source that causes at least one of the effects on the basic unit, the basic unit has a first voltage when the first current flows in the basic unit and across the basic unit. It is configured to irradiate the harmful electromagnetic wave in at least one case when applied, and the harmful electromagnetic wave is configured to propagate while defining a plurality of wave fronts around the basic unit, The at least one wave source;
At least one counter unit arranged in an array defined along at least one wavefront of the wavefront, wherein at least one of amplitude, frequency and phase angle is the first current and the first voltage; At least one supply of a different second current and voltage, respectively, to erase the part of the harmful electromagnetic wave in the target space and to propagate the part of the harmful electromagnetic wave to the target space. At least one counter unit configured to receive in a manner to emit a counter electromagnetic wave that enables at least one of suppressing by at least one of the amplitude, the frequency, and the phase angle; Electromagnetic countering system.   When arranged closer to the target space than the basic unit, the counter unit is configured to extend along a length larger than the length of the basic unit, and further from the target space than the basic unit. When spaced apart, the counter unit is configured to extend along another length that is less than the length of the basic unit, so that the counter unit is at least one of the basic unit and the target space. The electromagnetic countering system according to claim 2, wherein the electromagnetic countering system is included in a predetermined distance from one. The system is configured to have a plurality of the counter units,
The electromagnetic countering system of claim 2, wherein at least two counter units of the plurality of counter units are configured to be arranged in the array for at least one of the erasure and the suppression. The system is configured to have a plurality of the counter units,
Each of the wavefronts is configured to define a radius of curvature, and the at least two counter units of the counter unit have the same phase so that at least two counter units of the counter unit increase the radius of curvature of the counter electromagnetic wave. Emitting a counter electromagnetic wave having an angle, wherein at least two counter units of the counter unit emit a counter electromagnetic wave having a phase angle that is at least partially opposite to reduce a radius of curvature of the counter electromagnetic wave, The electromagnetic countering system of claim 2, configured to manipulate the phase angle of a counter electromagnetic wave.

Images