CN100484382C - Energy pathway arrangements for energy conditioning - Google Patents

Abstract

A compact, integrated device as an energy-adjusting device is provided with various predetermined energy channels, which are partially used to adjust the energy of one or more circuits. Some improved energy-adjusting devices can be operated to provide a plurality of energy-adjusting operations.

Description

The energy Pathway Arrangement that is used for energy adjustment

Technical field

The application is that the sequence number of November 29 calendar year 2001 application is that the part of 09/996355 common pending application continues, this common pending application is that the sequence number of November 15 calendar year 2001 application is that the part of 10/003711 common pending application continues, and above-mentioned common pending application is that the sequence number of application on October 17 calendar year 2001 is that the part of 09/982553 common pending application continues.It number is that the U.S. Provisional Application of 60/255818 U.S. Provisional Application, application on April 2 calendar year 2001 number is that the U.S. Provisional Application of 60/280819 U.S. Provisional Application, application on July 2 calendar year 2001 number is that the U.S. Provisional Application of 60/302429 U.S. Provisional Application and application on August 8 calendar year 2001 number is the rights and interests of 60/310962 U.S. Provisional Application that the application also requires the U.S. Provisional Application of on December 15th, 2000 application.

The present invention relates to compact and integrated energy Pathway Arrangement, it comprises the energy conditioner with different elements, described element comprises complementary energy channel, it can be used as single group or organizes energy channel more and implement, and this list group or many groups are the paired parts of complementation of the electronic circuit of coupling and independence that shields combination and isolation.Energy adjustment when these energy Pathway Arrangement mixtures not only provide the each several part energy of multiple transmission of power, but also partly partly provide compact integrated isolation and regulatory function with respect to the energy of inside and/or external transmission to required energy, otherwise described energy part will produce adverse effect to the Circuits System of operating with new typical energy Pathway Arrangement.The remodeling of other energy conditioner can be operated simultaneously, thereby not only provide single common reference voltage function to single group Circuits System, and many groups Circuits System provided the common reference voltage function system that isolates, these systems operate simultaneously, but can be implemented in order to carry out a plurality of dynamic energy adjustment operations.

Background technology

At present, along with the electronic equipment density in the system applies in the world increases, can similarly limit the performance of crucial and non-key electronic circuit from harmful noise byproduct of this configuration.Thereby, for most of circuit arrangement and circuit design, be important with the influence of avoiding hazardous noise by making each circuit part isolate or avoid harmful energy or The noise.

Along and/or round energy channel, cable, circuit board line, high-speed transmission line and/or bus run, can produce and transmit differential mode noise energy or common-mode noise energy.In many cases, the energy conductor of these types plays the antenna effect of emittance field, these energy field make problem more serious, make at these high-frequency energy hops the increase that the parasitic energy of utilizing the passive device of prior art to cause being various parasitic capacitances and/or stray inductance form is disturbed.These increase and partly to result from the combination of these prior art solutions in limited required exercisable configuration constraint on the function and on the structure, they be brought into it in application and can produce or cause the intrinsic manufacturing imbalance and/or the performance deficiency combination that on operability, may produce very much harmful interference energy (it is coupled into the interlock circuit, and this circuit constitutes the required shielding to EMI) inherently.

Thereby, for present high-frequency operation environment, solution relates to or comprises the combination of following aspect: when carefully carrying out system layout design for the filtering of input and output line, various earthing device and/or technology, and isolate widely, shielding static and/or magnetic.

Thereby, be starved of a kind of self-contained energy conditioner, described device utilizes the simple predetermined layout of energy channel and other predetermined element, (that no matter disperse and/or non-discrete when described element and the mixing of exercisable element, or be in discrete and/or non-modification between discrete), described device can utilize in nearly all single circuit and/or multicircuit application, so that effective and/or lasting noise suppressing function to be provided on demand, the physical shielding function, electrostatic screen function with predetermined configuration excitation, compensate function, the transition inhibit feature, the cancellation function, noise energy stops or the function of preventing noise energy.

The accompanying drawing schematic illustration

Fig. 1 represents the plane graph of a part of the energy channel of the energy channel of a conductive shield and complementary conductively-closed, and its stacked order and/or location according to the example of one of them exemplary embodiments part of typical structure shown in can be used as shields;

Fig. 2 A is the decomposition view of embodiment 6005, and it is wherein a kind of energy conditioner of typical structure shown in the basis;

Fig. 2 B is the vertical view of the part of element 6005 among Fig. 2 A (it is wherein a kind of discrete form of typical structure shown in the basis);

The schematic diagram of the multicircuit device 0005 that Fig. 2 C shows in wherein a kind of circuit system structure of this multicircuit device in multiple possible circuit system structure, has utilized embodiment 6005;

Fig. 3 A represents the decomposition view of embodiment 8005, this embodiment is a kind of multicircuit common mode and differential mode energy regulator, comprise that at least 3 independently complementary energy channels are right, this complementation energy channel is to the pairing shown in including but not limited to, for example (1) intersects straight-through (feedthru) pairing, (1) directly straight-through pairing and (1) have for example coplane shielding (but its only for according to shown in wherein a kind of example of typical structure) the bypass pairing;

Fig. 3 B shows the vertical view of the part of the element 8005 among Fig. 3 A, and the typical structure of being showed in this element and the structure is consistent;

Fig. 4 A shows the decomposition view of embodiment 10005, it is a kind of multicircuit common mode and differential mode energy regulator, comprise that 3 independently complementary bypass energy channels are right, wherein (2) individual pairing for example is a coplane, yet this only is an example in the typical structure shown in the basis;

Fig. 4 B shows the vertical view of the part of an element, and these parts utilize 10005 among Fig. 4 A according to typical structure shown in one of them;

Fig. 4 C shows according to typical structure shown in one of them and the profile of the part of the shielding of lamination;

Fig. 5 A shows according to typical structure shown in one of them and the vertical view of the part of the element of lamination;

Fig. 5 B shows according to typical structure shown in one of them and the vertical view of the part of the element of lamination;

Fig. 5 C shows according to typical structure shown in one of them and the vertical view of the part of the element of lamination;

Fig. 5 D shows the vertical view according to the part of the lamination element of typical structure shown in one of them;

Fig. 5 E shows according to typical structure shown in one of them and the vertical view of the part of the element of lamination;

Fig. 5 F shows according to typical structure shown in one of them and the vertical view of the part of the element of lamination;

Fig. 6 A shows according to typical structure shown in one of them and the vertical view of the part of the element of lamination;

Fig. 6 B shows according to typical structure shown in one of them and the vertical view of the part of the element of lamination;

Fig. 6 C shows according to typical structure shown in one of them and the vertical view of the part of the element of lamination;

Fig. 6 D shows according to typical structure shown in one of them and the vertical view of the part of the element of lamination;

Fig. 7 A shows the decomposition view of an energy channel embodiment example 1005, this embodiment just according to typical structure shown in one of them many plant may structures wherein a kind of;

Fig. 7 B shows the plan view from above of multicircuit structure like and Fig. 7 category-A, and this multicircuit structure is for example utilized embodiment 1205 now, and embodiment 1205 only is a kind of structure wherein among the possible structures of many kind according to typical structure shown in one of them;

Fig. 8 A shows a decomposition view of energy channel embodiment example 1105, and this example only is a kind of structure wherein among may structures according to the many kinds of typical structure shown in one of them;

Fig. 8 B show with Fig. 8 category-A like the plan view from above of multicircuit structure, this multicircuit structure is for example utilized embodiment 1207 now, embodiment 1207 only is a kind of structure wherein among may structures according to many kinds of typical structure shown in one of them;

Fig. 9 shows the vertical view of the part of an element, and this element for example has 19200 similar structures with Figure 10 according to typical structure shown in one of them;

Figure 10 shows a profile of arranging embodiment 19200, and this embodiment only is a kind of structure wherein among the possible structures of many kind according to typical structure shown in one of them;

Figure 11 shows a profile of arranging embodiment 19210, and this embodiment only is a kind of structure wherein among the possible structures of many kind according to typical structure shown in one of them;

Figure 12 shows a profile of arranging embodiment 19210A, and this embodiment (for instance) has utilized the embodiment 19210 among Figure 11, and among the possible structures of many kind according to typical structure shown in one of them, it only is a kind of structure wherein;

Figure 13 A shows the decomposition view of the each several part of various element stack, and this element stack is consistent with typical structure shown in one of them;

Figure 13 B shows another plane graph of the each several part of various element stack, and this element stack is consistent with typical structure shown in one of them;

Figure 14 shows the decomposition diagram of a part of the example of embodiment 19900, this embodiment is that many one of them that become example of typical general shielding energy channel design and/or layout become example, and it has the energy channel grade series according to the shielding of typical structure shown in one of them;

Figure 15 shows the profile of embodiment 19905, and this embodiment is the energy conditioner according to typical structure shown in one of them; And

Figure 16 shows the profile of the part of another embodiment 7979, and it comprises 6969 exemplary arrangement of the energy channel and the shielding energy channel of each complementary conductively-closed, and these energy channels are arranged according to typical structure shown in one of them.

Describe in detail

The application is that the sequence number of November 29 calendar year 2001 application is that the part of 09/996355 common pending application continues, above-mentioned common pending application is that the sequence number of November 15 calendar year 2001 application is that the part of 10/003711 common pending application continues, above-mentioned common pending application is that the sequence number of October 17 calendar year 2001 application is that the part of 09/982553 common pending application continues, and the part of these patents is included in this explanation.It number is that the U.S. Provisional Application of 60/255818 U.S. Provisional Application, application on April 2 calendar year 2001 number is that the U.S. Provisional Application of 60/280819 U.S. Provisional Application, application on July 2 calendar year 2001 number is that the U.S. Provisional Application of 60/302429 U.S. Provisional Application and application on August 8 calendar year 2001 number is the rights and interests of 60/310962 U.S. Provisional Application that the application also requires the U.S. Provisional Application of on December 15th, 2000 application, and the part of these patent applications is also included within this explanation.

In disclosed scheme, wherein a kind of scheme provides a kind of energy conditioner and/or a kind of like this energy conditioner: it is integrated in function and physics realization, the physical structure compactnesses of feasible many group energy channels or electrode, can dynamically operate under the electric approaching situation mutually, and a shared public energy reference Point C RN of while.In an embodiment of device mixture or energy regulator, this function realizes by means of at least one electrode or the energy barrier structure that exist with other element with other function.

Describe a general structure or embodiment below in detail, this is an example among the embodiment of the possible version that is suitable for using of numerous a kind of like this layouts, and this layout is present in its possible application simultaneously.Explanation on this layout is intended to illustrate only some kinds of possible common versions of energy conditioner, and is intended to absolutely not it is limited, and this is because also have many other forms, but this paper way can be saved auditor's time.Still have many other remodeling, modification, interpolation, and improvement project can drop in the scope by the general service form of at least one or the multinomial energy conditioner of the present invention that limits in the middle of the appended omnibus claims.

For the purpose of brief, used " mixture " speech in the whole specification, the applicant has used the meaning of a word in the dictionary." mixture " speech can exchange with " energy regulator ", refer to " the general combination of element; it comprises and/or it is characterized in that many elements that (except other many elements) are provided with in the combination of a harmony mixes in other words; and/or in groups conduction single comprising (except other many elements); semiconductive; and the element of nonconducting various material composition formations; these elements constitute exercisable energy adjustment embodiment, it utilizes relevant with uncorrelated, single and/or spatial relationship in groups, size relationship, spatial separation, headroom, neighbouring relations, the layout of non-adjacent relation and location, has non-formation single or combination, formation, complementary pairing, overlapping, spatial deviation or spacial alignment, comprise 3 dimension relations, all these mix to form and are in the discrete of unenergized condition, non-discrete embodiment, it can implement to operate for dynamic use and/or state "." mixture (amalgam) " speech if be used in this paper, is not meant " alloy of mercury and other metal " that people's amalgam first lexical or textual analysis from the dictionary can be found.Thereby, use mixture also to comprise " various types of mixtures (energy regulator) and/or energy conditioner; it can comprise and is coupled to described energy channel and is coupled element, position and syndeton; except other many useful possible schemes, they help to make at least one Circuits System that is energized to utilize disclosed embodiment with specific or universal mode equally at this with explanation.”

Therefore, here set up at least or attempted to set up technical foundation, because it is restricted to or is restrained to these possible embodiment or possible form, only help the clear and definite direction that enters these disclosed embodiment inspirations apace of reader as depth guide, and in other many embodiment, its form have many possible available embodiment to need not explanation, because will be apparent to those skilled in the art.Therefore, because time restriction in particular for the work that alleviates auditor and applicant, has only illustrated several possible embodiment.

In addition, abbreviation used herein " AOC " is the abbreviation of " a kind of operation that is applicable to shielding, complementary energy partial interaction is used for the presumptive area part (apredetermined area portion operable for energy portion convergences thatis practicable for shielded, complementary energy portion interactions) that energy is partly assembled ".Also write as AOC 813, this is a kind of discrete or non-discrete form of the energy conditioner in other words of mixture.AOC 813 still is the retive boundary of screening effect of received energy adjustment for shielding, as the explanation to the each several part of propagation circuit system capacity.A kind of typical A OC also can comprise co-manufactured (or non-co-manufactured) mixture, the border of the actual or imagination alignment of the part of the element of (or non-co-manufactured) energy conditioner of co-manufactured in other words, these elements will make the conductively-closed of propagation circuit system capacity partly utilize the element of the embodiment of disclosure, with one or more predetermined mode or functions (the h field energy of for example repealing by implication) interact with each other.The space that is full of of a part that defines by means of the overlapping alignment at 805 peripheral electrode edge of the main body electrode part 81 of bucking electrode combination, that conductivity connects or element for example, be one in order to limit the good elements combination of AOC 813.

Note that and to use many speech to describe " energy channel " used herein this term.The applicant has used a plurality of terms to describe the part that generally can be called as " energy channel " at this.These different terms are more suitably when the specific function of mentioning energy channel or specific embodiment, comprising some such terms: electric conducting material part, electrode, conductor, shielding energy channel, conductively-closed energy channel, conductive channel, the passage of conductively-closed, shielding passage.It is also understood that these changes all comprise within the scope of the invention, the invention is not restricted to describedly and/or by accompanying drawing illustrated specific device and method that the present invention also is not limited to certain material and the mechanical organ indicating and describe at this by this explanation.Select and use these terms, and the selection of its mechanical equivalents should not be considered to break away from scope of the present invention just to the explanation that operability is provided.

Almost in any new exemplary embodiments, the main body electrode 81 with the bucking electrode that is connected jointly of combination has not only sealed and has shielded the main body electrode part 80 of the electrode of set and complementation, and this embodiment should be considered to limit at least in part an AOC (813).In addition, in order further to help clarification, this paper often but always be not to use term " outside " or " outside ", this term refer on the effective energy adjustable range of a typical A OC or influence, spacing or the zone and/or outside almost any position.This is not to mean that things necessarily is independent of independent exemplary embodiments, perhaps can not be to be adjacent to separate with other element for any being marked with " outside " or " outside ", and this other element is included in this explanation device and unaccounted AOC 813.Normally used these terms of this paper just, for example " outside " or " outside ", say the position of the extension all or most 79 ' X ' that can be applied to corresponding each AOC 813 and its " parent " complementation electrode on the whole, and no matter it is to its (79 " X's ") annexation bigger, main body electrode part 80, and this main body electrode part 80 is in the bounds of AOC 813 of an exemplary embodiments.

The mixture of this paper and/or energy conditioner also relate to a kind of discrete and non-discrete form of electrode assembly, it has the operability of carrying out the multicircuit operation simultaneously, and comprise the multi-electrode shielding cloth interposed structure that conductivity connects, it almost completely comprises the electrode that various paired and/or complementary paired operating are used for " electric complementation " operation (referring to state or the condition that can implement or operate to produce reciprocal electric operation).

Mixture or energy regulator can comprise and/or it is characterized in that the energy part circulation way of various even and/or inhomogeneous mixing, for example bypass and/or straight-through mode or operation, it shields simultaneously or smoothly the energy adjustment of one or more circuit is operated.A kind of new typical mixture or energy regulator have been found that can help to realize can be to the multiple energy adjustment function of each different-energy part operation, described energy part is propagated along a plurality of complementation electrodes and/or the single or multiple circuit part of new typical embodiment, and the common reference node function of utilizing a plurality of first electrodes or a plurality of conductively-closed electrode by conductivity ground connection to provide simultaneously.

Most of embodiment about typical mixture or energy regulator and/or energy conditioner, the applicant imagines a producer and can select the possible material of the wide region that combined optional selects and make up with a certain specific embodiment outside all other embodiment of final formation, still keep simultaneously typical mixture or energy regulator and/or energy conditioner be made into after and be placed in the set of circuits and obtain after the excitation wherein most of required energy adjustment function.

Material 801 with pre-determined characteristics be inserted into usually and basically non-conductive each electrode that is connected to device around all points, thereby the function that not only between each energy channel or electrode, provides interval or space to separate, (except the precalculated position of the electrode that each space of device separates, these positions are used to realize that the conductivity between the current-carrying part connects).

Have the material of pre-determined characteristics and/or material 801 provides the energy isolation features to each electrodes of device usually, and casemate and/or support structure are provided, required appropriate spacing distance (with above-mentioned similar) between the electrode each conductively-closed and shielding of device.

801 material elements that are used for most of element were relevant to the comprising with annexation and orientation of electrode, they with single and/or in groups predetermined to and stretch into and pass and/or comprise in the electrode channel element group of many various combinations.

Shall also be noted that the part of material 801, and/or the planar shaped part of material 801 that only has a predetermined electrical property of single-wide or single performance type not important with pre-determined characteristics.In other scheme of mixture or energy regulator or energy conditioner, various types of blank mediums, insulation, material 801 with pre-determined characteristics, capacitive character material and/or inductive material, ferromagnetic material, ferrite, the rheostat material that can comprise material 801, and the compound of various materials or composition are (comprising having separately or almost having insulation with any compound mode, material 801 with pre-determined characteristics, capacitive character material and/or inductive material, ferromagnetic material, the performance of Ferrite Material and/or above-mentioned material combination) all can be used for separating each energy channel of embodiment, except other chemical compound lot or composition, the applicant has expected above-mentioned these compounds or composition fully.

In term, for the user, term " 801 independently materials " or " dielectric independently " allow and the almost any possible material 801 or the media interchange of isolation performance to a certain degree of having that will use.In disclosed mixture or energy regulator, with respect to the simple material 801 with pre-determined characteristics (it has the function that for example similar X7R 801 materials produce for the user), be similar to the possible function (can betide to a certain extent on nearly all any other 801 material formation) that to find with non-X7R material 801, for helping to produce to a certain extent multiple exercisable energy adjustment function, 801 materials (be used as the material of interval energy channel equally or be used as in it is used and support energy channel) can be accepted fully.

For example, mixture or energy regulator and/or energy conditioner comprise material 801 and/or the ferritic nearly all combination with ferritic performance, and it will provide the inductance characteristic of the intrinsic resistance characteristic that is additional to electrode.

Remove usually outside certain isolation features at least that is provided by material 801 with pre-determined characteristics, the material of employed nonconducting and/or semiconductive medium, dielectric type, have the material 801 of predetermined electrical property and/or medium with pre-determined characteristics, can also be called as insulation simply, and/or even be called as non electrically conductive material part 801.The combination of material 801, material 801 and/or can not accept the plate and/or the part of other type that the lamination of material 801 of the deposition (for example self-supporting electrode) of electrode material makes, can make material 801 become processed and/or by the material of chemical doping, wherein instead use another kind of isolated material for example air and/or any other material.

In more detail, be used to constitute the material of embodiment in material, for example material 801, can comprise one deck and/or one deck above with material elements layer treatment technology compatibility, and be not limited to any material 801 usually with pre-determined characteristics.These materials can be semi-conducting materials, for example silicon, germanium, gallium arsenate, gallium arsenide and/or half barrier material and/or barrier material etc., such as but not limited to any K, high K and low-K dielectric etc., but embodiment generally is not limited to have any material of certain dielectric constant K.

Should be noted that even have a kind of " half dielectric " material 801 " SD " of conduction to have special resistance, comprise negative temperature coefficient (not shown).Because " half dielectric " material 801 " SD " of this conduction relates to the production and the using method of a kind of new, typical mixture or energy regulator element, it is conceived by the applicant, the application number that it is November 1 calendar year 2001 that the processing of this material and material fully is disclosed in open day of the world of application on April 25th, 2000 is in the international patent application of WO 01/82314, and this patent is included in this as a reference." half dielectric " layer 801 " SD " (not shown) of conduction can be made by unprocessed " half dielectric " film or material, and or and be suitable for user's various bucking electrodes and/or conductively-closed electrode sintering together, perhaps, make it possible to a kind of electrode is handled and other electrode do not handled with other material 801 combinations.Contact conductor part 79 ' X ' can conductivity be connected to connection electrode part or extension 789 ' X ', as generally.These contact conductor parts 79 ' X ', when they are completely cut off mutually and/or isolate by the bucking electrode 8 " XX " that electric isolated (in a pair) and quilt are bigger each other, locate with complementary paired relation relative for the different lateral parts of mixture or energy regulator main body.

A kind of and/or multiple material and/or its combination of similar material 801 have the electrical characteristics that differ from one another, also can be maintained at the bucking electrode of device and/or shielding electrode channel, and the electrode of the electrode of conductively-closed and conductively-closed between.The structure and the remodeling of several microns or a few millimeters thick or littler small-sized specific embodiment can use many staggered electrodes and the material with pre-determined characteristics, for example the material that is made of the multilayer with dielectric property (nearly 1000 layers and/or more multi-layered).Thereby, the mixture of reduced size, mixture, or energy adjustment branch circuit device can utilize the element that comprises interval insulant 801 equally well, said elements is used by the millimicro electrodes sized, for example is ferromagnetic material and/or ferromagnetic class dielectric part or lamination, inductive ferrite dielectric derivant material.Though these materials in exemplary embodiments various predetermined electrode passages support structure in most cases also is provided, these materials with pre-determined characteristics are also by keeping and/or helping while and constant continual energy partly to propagate the circuit that helps whole embodiment and be energized, described energy transmission moves along each predetermined electrode channel predetermined and that structurally be supported, because these conductors are actually the part of a circuit network and/or a plurality of circuit networks.

The electrode and/or the electric conducting material that are applicable to electrode and/or electrode channel can be selected from the group that is made of silver, silver/palladium, copper, nickel, platinum, gold (Au), palladium and/or other similar material.Be applicable to that the resistance material of this purpose and the composition of above-mentioned these metal materials can comprise suitable metal oxide (for example ru oxide), it can dilute with suitable metal according to the needs of application-specific.On the other hand, other electrode part can be made of the electric conducting material of non-resistance basically.Electrode itself also can use almost any material or material part, material compositions, film, printed circuit board material, and nearly all technology that can partly be produced electrode channel by non-conductive and/or semiconductive material in form; The applicant has imagined the nearly all material and/or the technology that can produce current-carrying part, such as but not limited to: doped polycrystalline silicon, many bodies of sintering crystalline substance, metal and/or polycrystalline silicon hydrochlorate etc.

Point out that once more as long as one or more energy adjustment functions are using any predetermined circuit connection can operate when encouraging, the exemplary embodiments among the embodiment generally is not limited in some material part of any kind.This also comprises the electrode structure element that utilization is additional, it comprises the straight part or the electric conducting material of mixing portion, conduction-resistance material, semiconduction and/or non-conductive element, and/or a plurality of electrode channels of different conductive material part compositions, conductivity influence of magnetic field material blends, and/or electric conductive polymer plate, various treated conductions and non-conductive lamination, pure (straight) conductive deposit, multi-screen covers, utilize the electrode of opposite passage of shielding of all kinds magnetic material and selectively masking, (wherein the making the one or more conductions or the non-conductive part of typical new energy regulator) of mixing by doping treatment, and/or by conductivity be deposited on the material and conductivity scolder and analog with the composition and the structural detail of various materials, when utilize discrete and/or when non-discrete mixture or energy regulator and/or energy conditioner and/or configuration (its generally making and/or be arranged on the electronic system that is used for encouraging before pre-determine), the main frame and the remodeling of energy adjustment part are provided to the user.

No longer need expensive, uncurrent, specific dielectric material is used for the bypass and/or the energy decoupling operation of many special uses, with attempt to keep energy adjustment and/or at least two balances and opposite autonomous system circuit conductivity energy passage between the balance of voltage, and the user of energize lane device and/or energy Pathway Arrangement circuit unit is with on single material and utilize the chance of these features on electric in the structure of balance, described structure generally is uniform, perhaps be uneven toward each other in some cases, constitute by the various materials in the typical remodeling of one of them embodiment.

The polymer film of various mixing (comprises polymer film, surface through plasma treatment, have acrylate polymer through the vacuum-deposited radiation-hardenable on plasma treatment surface---it is disclosed among the US6214422 and at this it is comprised as a reference) be some other different material, described material is expected to find the multiple use for this apparatus structure, in order to producing metalized film and the passive adjuster of film except other energy Pathway Arrangement and/or energy Pathway Arrangement circuit unit are used, it can be for wherein passive device utilization such as PP and the film of PET.In typical case's remodeling of energy Pathway Arrangement and/or energy Pathway Arrangement circuit unit, the orientation of other element is substantially parallel each other relation, and have some elements may with become the relation that other element in the example is perpendicular at a typical energy Pathway Arrangement and/or energy Pathway Arrangement circuit unit embodiment.

The remodeling of typical energy Pathway Arrangement and/or energy Pathway Arrangement circuit unit is done as a whole, need not must be with respect to the horizon with the parallel mode setting, otherwise, the applicant has not only conceived and has been horizontally disposed with the various conductively-closed energy channels that are contained at present in the shielding energy channel design, and conceived vertical setting and almost completely be included in various relative energy channel in the typical new shielding energy channel design and paired conductively-closed energy channel, described energy channel structure itself comprises and/or a plurality of part of electronic circuit and/or Circuits System part.

Can be embodied as energy Pathway Arrangement and any material 801 of many alternatives from several microns to several millimeters thick and/or littler small-sized energy Pathway Arrangement and/or energy Pathway Arrangement circuit unit arrangement with retrofiting with above-mentioned pre-determined characteristics.The result obtains a kind of energy regulator, and it is effectively up to 1000V the time, has the electric capacity of nano farad (nF) in 1 farad of (F) scope, certainly this and to be arranged on energy channel between the various shielding energy channels right overall size and quantity relevant.Storeroom with dielectric property separates and separates each energy channel part, and these parts are as mentioned above by stacked alternately, with respect to the location of complementation to and be the electric isolated relation that.

Disclosed specifically the manufacturing of the film passive device that carries out with predetermined material in United States Patent (USP) 5018048,5097800 and 6214422, what are relevant for the material that they utilized, but the final products difference.Though at United States Patent (USP) 5018048,5097800 and 6214422 are not showed or are described in detail, use the manufacturing of the film passive device of energy Pathway Arrangement structure disclosed or suggestion, be used to make the operable approach of multilayer passive component with any other, use unique energy Pathway Arrangement structure, interior or as disclosed and/or suggestion for example have 0.5J/cm.sup.3 at least and/or those of macro-energy density more, when mixing materialization, can realize, use almost any possible manufacture method, these methods are exercisable for this class result, and with respect to any result, utilize the static embodiment of energy Pathway Arrangement structure of the uniqueness that discloses to arrange should not to be considered to new or unique here.

For example, employed a kind of possible manufacture method can allow the staggered vacuum-deposited metal energy channel layer of at least 3 groups, wherein each energy channel layer is separated by polymer dielectric part deposition and/or vacuum-deposited, that solidify and/or radiation curing, and described dielectric part limits the effective coverage of energy channel.These staggered metal energy channel layer groups can be terminated in separately neighboring along part, utilize the individual layer and/or the multilayer of sputter, terminal energy channel and/or part that solder material part and/or electric conducting material apply.Form multilayer passive component and/or energy Pathway Arrangement, it comprises that metal level that at least 3 groups replace and polymer dielectric part and/or these layers can be formed on the base plate continuously, for example carry out a step in a vacuum and handle, and form each energy channel by evaporation of metal.

Polymer dielectric part and/or layer can form by at first depositing a monomer layer, one group energy channel wherein for example, and the monomer layer with radiation curing helps to form polymer dielectric part and/or layer.Forming metal level on polymeric layer can be repeated repeatedly, so that form not staggered vacuum-deposited metal energy passage on the same group, they are separated by the dielectric part of vacuum-deposited radiation curing and/or layer.

Then, next step is to become a plurality of multilayer passive components and/or energy Pathway Arrangement band along first direction cutting multilayer passive component and/or energy Pathway Arrangement, form single passive energy adjustment band, can be cut into single passive energy regulating element, energy Pathway Arrangement band/and/or (even) passive adjuster and/or inductor uniformly uniformly to single passive energy adjustment band along the second direction vertical then with first direction.

Then cut passive energy regulating element, energy Pathway Arrangement band/and/or uniformly (even) passive adjuster and/or uniformly inductor become a plurality of parts, metal energy passage and/or energy channel layer can be set at and/or be recessed in the polymeric layer, along in polymeric layer, not being provided with and/or fluting perpendicular to the edge of opposite end, thus between the metal energy channel layer along vertical edge and/or peripheral part form non-conductive part and/or help to stop arcing and the zone of leaking electricity.

All elements of a kind of typical devices (include but not limited to shield energy channel, the energy channel of conductively-closed complementation, material 801 with performance) has manufacturing franchise except the general industry, and the static capacitive balance that between the shared central electrode passage of the part of typical mixture or energy regulator or electrode assembly, exists, with the capacitive character that during the energy conditioner manufacturing, forms or the equilibrium level of magnetic in factory, even utilizing for example X7R of the dielectric layer of public non-special use and/or electrode conductivuty material part, it is used in the passive device of prior art widely.

Because mixture or energy regulator be designed to the mode of electric complementation simultaneously operate be used for the A line to the connection of A line and at least (2) A line to C line and B line to C line (the C line is a current-carrying part), the C line is the current-carrying part that (in many cases for ground) is made for the current-carrying part of circuit ground current potential or is made for the reference voltage current potential, and is therefore shared mutually by the each several part of circuit.Therefore, owing to be positioned at the element of each relative side of C line, from the A line of such energy circuit capacitive balance and/or franchise equilibrium response to every pair complementation of C line, size that their are isolated (the long-pending or part of anchor ring) and micron allow general electrode assembly inside of making for example greater than the capacitive franchise of 0-25% near relative position, and it will generally be delivered to an exciting circuit, make this capacitive franchise to keep, and be corrected to for example initial inside capacitive franchise greater than 0-25%, on the electric and/or electric charge in typical mixture or energy regulator or electrode assembly between the opposite and complementary in pairs energy channel, when it is placed into system with respect to the energy distribution shield electrode structure.(this be an example but not a principle).

When specific preset device is manufactured, its can be formed, be embedded in interior, seal and/or be inserted in the multiple energy system or in other subsystem, so that the propagation of carrying out polytype circuit adjusting, decoupling zero or revising energy according to connectivity scenario becomes the form of required form of energy or electricity.

A specific preset device, except that other many specific preset devices, make energy conditioner structures can utilize the dividing potential drop and the energy balance mechanism of the relative pressure that in the middle of the adjacent mixture of ground connection or energy regulator or energy conditioner element, exists, thereby allow to reduce the hysteresis and the piezoelectric effect of all elements, comprise specific preset device.The inside that the energy regulator of prior art does not have, unbalanced, the circuit part device is generally operated under such environment, big hysteresis effect, material memory effect, angle stress, the expansion of the general generation of described environment, this is because various materials are applied with thermal stress, the material that for example has different temperature coefficient of expansion, and be reduced according to its effective operating efficiency, make energy adjustment invalid (null).

In contrast, a kind of typical new embodiment can operate and make hysteresis effect reduce to minimum, promptly in an embodiment and/or AOC part under dynamic operation, be reduced to and approach 0, this be because, complementary energy force is added on the different materials by this way, the various piece of the energy of make propagating with complementation and symmetrical manner arrive simultaneously, thereby the part of the energy of these propagation propagates to the opposite end of given material area or part in the mode of symmetry and balance, and this can have big hysteresis effect under regular situation.

The energy channel of the shielding that is inserted into by insertion and other element be material 801 for example, and for example the componentry between complementary and symmetrical energy channel and/or pairing will be operated in complementary toward each other energy transmission mode.Thereby the energy stress disposal ability of described new embodiment is very effective, and the element that utilizes any single assembly that does not have to duplicate prior art is very difficult.

Wherein a kind of possible device carries out the transition to dynamic operation, it utilizes new dividing potential drop, energy Pathway Arrangement and the which couple scheme of the embodiment of new typical circuit arrangement, the influence of the hysteresis of the different materials element of exemplary embodiments and/or piezoelectric property is reduced to minimum or reduce greatly, perhaps attribute and/or hysteresis and/or piezoelectric property to the invalid influence of important circuit energy part, stop these invalid generations, thereby be implemented in the interior important circuit energy part of ACO813 of typical mixture or energy regulator or energy conditioner.Thereby, can make more energy offer the element of almost any active load or load, they utilize significant energy part or these energy of regulating, described energy otherwise be possible, this is because a kind of typical embodiment, it has complementary energy Pathway Arrangement and utilizes the predetermined which couple scheme of embodiment of typical new circuit arrangement and the energy Pathway Arrangement of complementary symmetry partly to combine, as mentioned above.

The another kind of device that is obtained interests by new embodiment is the different active element of dynamic operation, under different internal load conditions, carry out switching response, require constraint change-over time, it need to be designed instantaneous energy, thisly utilize the load (it should be connected in mixture and/or energy conditioner circuit arrangement) of energy to operate incessantly so that make, and/or harmonious energy is provided, so that carry out the operation of suitable efficient.

Help energy to utilize the continual and/or harmonious energy supply of load by the mixture equivalent size and paired complementation electrode passage that be oppositely arranged, in fact described electrode channel can be considered to the part of independent Circuits System, it is positioned at the part of the AOC 813 of total mixture or energy regulator, thereby on electric and/or be physically located at the opposite end of system, be positioned and shared shielding, electrode and/or public shielding, electrode.Therefore, public shielding at varying number, in the group that common electrode and/or conductivity connect, this of screened circuit part inserts effect and also strengthens the branch compression functions, in fact described function cuts apart half of every pair of circuit of different circuit voltage utilizations or the about Circuits System of energy, and at least one pair of two the relative paired complementary conductors of conductor (each multicircuit device) of each equidimension are provided, from the grouping of (2) half part of the voltage energy of circuit (each circuit).

When dynamic operation, because the electrode of the equidimension of complementary paired conductively-closed physically toward each other, and/or between the shielding of inserting, having opposite electric charge on electric, conductor or electrode channel (not being complementary passage) can be identified in the circuit of excitation and have the dividing potential drop relation.Being included in the circuit of excitation of conductor of the complementation in typical mixture or the electrode assembly general is balance in inside on electric and/or in the mode of opposite charge on the whole, and, be in mixture or the energy regulator for the public and shared channel electrode of each Circuits System part and/or part with respect to the shielding that is positioned at the center.

Comprise each common circuitry part of energy regulator and/or energy conditioner and/or part is general and the public domain or partly and/or public electrode be electrically connected, so that outside public no-voltage is provided, form " 0 " reference circuit point of typical energy regulator and/or energy conditioner, be used for and each circuit of a plurality of at least circuit in the various piece of the Propagation of Energy that exists be energy relationship, described circuit comprises the part of the AOC 813 of typical at least energy regulator and/or energy conditioner.

As previously mentioned, correct energy regulator and/or the energy conditioner that connects, no matter it is that disperse and/or non-discrete, all help to realize to carry out simultaneously the ability of a plurality of different energy adjustment functions, for example decoupling zero, filtering, the balance of voltage, it utilizes a pair of circuit part or many different positioned parallel principles to circuit part, described circuit part comprises and/or it is characterized in that independent and/or different circuit, it is with respect to separately the energy, the energy channel that each is paired, each energy utilizes load and each to return each energy, thereby finishes each energy channel of each circuit.

Thereby in inside, the circuit part of the balance of typical energy regulator is divided hysteresis effect by utilizing the shielding energy channel that inserts to operate, the material memory effect, angle stress, expansion etc., otherwise, these effects will be produced to a great extent, and it utilizes opposite or is invalid dynamic operation, and described ability shielding passage is divided into opposite and complementary separately from each other effect and/or stress to these power now symmetrically.Therefore, opposite but energy part balance and symmetrical complement and/or power mutually offset in AOC 813 basically in inside, thereby replenish the dividing potential drop ability of typical energy regulator, under mutually opposite energy part spread state or dynamic operation because it is operated.

Utilize opposite but on electric payment and complementally locate along the part of the energy of the propagation of complementary pair effect, with balance mode internal electrode is set from the opposite side of shielding energy channel, produce " 0 " reference voltage function simultaneously, by means of this function, intended orientation and shared bucking electrode, they connect on electric each other.

The piezoelectric effect of the material of the each several part of an embodiment of formation also is reduced to minimum.Therefore, the energy part can not be made a circulation or ineffectually is utilized in AOC 813 inside, thereby can be used for the load that utilizes energy, this has greatly improved the ability of the material 801 standard and/or common with pre-determined characteristics, thereby realize their design functions in AOC 813 and a large amount of circuit, reduce the constraint of using, reduce cost.

A kind of typical energy regulator and/or energy conditioner make it possible to improve the performance of material 801 (always being used), make its performance exceed common observed performance in the one type of prior art syringe under the energized condition.But, this augmented performance of material 801 only is theoretic observation, make energy partly propagate can be symmetrically complementally the result of interactional all energy Pathway Arrangements are a kind of effective and efficient manner, observedly in this way be, " the non-control " of performance or wide-open state under, more near the ideal performance of the design and/or the application of material.

Therefore, make as a whole typical adjusting device when when dynamically operating down, reduce or minimize viewed physics ineffectivity, described ineffectivity one type of prior art syringe has, and is the intrinsic attribute of any possible material 801 when being used in the typical Circuits System.

Except many other typical energy adjusting devices, in same circuits, use the correct typical energy adjusting device that connects, make and partly to propagate, the energy that can realize the ratio symmetry of the balance scheme that partly interacts by the energy of the complementation of generation in the AOC 813 in typical adjusting device or mixture.

Therefore, typical adjusting device as a whole or mixture make material 801 can draw or produce basically the energy adjustment function that is conceived to the perfect condition that had near it, and this is that to be used for the material 801 of given Circuits System in the prior art irrealizable.

A kind of possible result is (except other many possible outcomes), can observe in some cases, the control of the piezoelectric effect of the hysteresis of typical 801 materials and material 801 is reduced to minimum simultaneously, this is owing to do not have unbalanced energy or a parasitic energy, these energy otherwise will be observed or be found in the suitable circuit that uses prior art.

The control of the piezoelectric effect of the hysteresis of typical 810 materials and material 801 is reduced in the minimum AOC 813 that generally occurs in otherwise can be observed.Being reduced to minimum in the time of this hysteresis and piezoelectric effect is a kind of like this ability, it is converted to or equals to increase energy adjustment performance rate as this application of SSO state, the decoupling zero electric power system, utilize passive component quickly by active element, it has also directly been realized, this is minimizing and described balance mode owing to these stress, wherein can make the typical example structure of energy utilization of propagation.

This situation makes that a kind of typical devices can (the input and output passage utilizes the load and the energy with respect to energy along the input and output passage in the electric side of public energy reference (energy channel of first group of electrode or shielding) simultaneously as a kind of energy stream of opening of apparent, need not to be described embodiment, it is set up in many cases and is parallel to energy and utilizes the load and the energy, opposite with straight-through device in the bypass machine structure) occur, it is connected and/or is coupled to each energy from the energy and utilizes load, and utilizes load to be connected to the energy and return from energy.

Should be noted that when circuit path not only when the AOC 813, straight-through electrode also can be in bypass structure, but is allowed at least not only utilize straight-through embodiment but also also has the bypass segment of circuit otherwise will make all energy by AOC 813.

This is a kind of parallel Energy distribution method, it makes material can constitute the energy regulator and/or the energy conditioner element of most manufacturing, so that utilize energy to utilize load and can more effectively operate by source channels as the part setting of entire circuit system.Therefore, do as a wholely, described embodiment is also as complementary energy adjustment network operation.

The electrode assembly that has other predetermined element in the circuit arrangement combination that a kind of typical energy conditioner can be a predetermined connection, it utilizes the character of the electrode structure of typical energy regulator, and this is the structure of cutting apart with energy of the physics that produced.

As the conductivity coupling of the electrode of the integer group of the odd number of the shielding of external conductive zone or part (segregate or not from the complementary circuit part) and/or conductivity connects and be not almost any complementation electrode of shielding passage or industry connection/coupling material and/or the method for attachment that complementary energy channel can comprise multiple standards, they are used to make these materials to operate to be used for conductivity to connect for example welding, resistive cooperates, reflow soldering (reflux soldering), conduction bondings etc., these generally are the materials admitted of standard industry and/or are used to realize that standard industry connects and/or the processing of coupling.

The conductivity coupling of specific embodiment and/or the specific embodiment in conductivity interconnection technique and/or method and the circuit arrangement, except other many embodiment, can easily adopt and/or use simply outside energy channel as a rule, this be easy to and/or almost to the user without any additional constraint.In most of the cases, utilize manipulable typical energy regulator and/or energy conditioner, the common conductivity of each electrode connects or is connected the energy adjustment function that makes it possible to provide the best as one group of conductivity with outside public domain or part and/or passage.These energy adjustment functions include but not limited to, can provide the passive component characteristic simultaneously by the reducing mutually of the repealing by implication of the inductance of relative conductor operation, energy parasitism.

Should be noted that generally in typical energy regulator or electrode assembly to produce at least 3 kinds of function of shielding, this be because of a plurality of electrodes property each other in an electrically conductive connection of mixing materialization as due to the shielding, other function of some function ratio is big to the dependence of other variable.At first, for example the physical shielding function of RFI shielding generally belongs to " metal barrier ", shields most of electromagnetic field, and generally belongs to the shielding of the actual trust of most people institute, but, this metal barrier conduct occurs total component part of the overall performance of 3 kinds of used function of shielding.

The another kind of function of shielding that in exemplary embodiments, uses, except other many function of shielding, the mode that can be divided into intended orientation between each bucking electrode or relative position relation and/or relative size relation, they are relevant to accordingly that the right intended orientation of electrode channel involved and the opposite complementation that is provided with or relative position concern and/or the mode of relative size relationship.

These paired on the contrary complementation electrode passages are the conductive region of bucking electrode or the exercisable insert of part with respect to the current-carrying part of the current-carrying part of each paired complementation electrode passage, because they generally are clamped between two bucking electrodes at least, be opposite mirror image clamping relation for its paired complementation electrode counter pair, described paired complementation electrode counter pair generally has the identical shape and size that general manufacturing franchise is allowed in its structure separately.

By the size of public electrode passage and the size relationship of complementation electrode passage/electrode, and the static by excitation suppresses and/or reduces parasitic component from the complementary conductor of clamping, and to stop be not to attempt to be coupled on the contrary on the complementary passage of conductively-closed (being called as parasitic couplings sometimes) from the parasitic component of the outside of the complementary passage that is comprised, and realizes a kind of electrode channel part with paired electric opposite and adjacent complementation of secondary shielding function.

Parasitic couplings is commonly referred to as electric field (" E ") coupling, and the electrode of main each conductively-closed of electrostatic screen of this function of shielding is in case electric field parasitic component.Parasitic couplings relates to passing through of interferencing propagation energy, results from the mutual and/or spuious parasitic energy (it generally is suppressed in new typical electrode assembly) that is derived from complementary conductor channel.A kind of typical energy regulator or the coupling of electrode assembly blocking capacitor, wherein by in a general shielding construction, almost all sealing the conductor of opposite phase, utilize the level of conduction to propagate, it provides static and/or Faraday shield effect, and the position of position of (mixing) that utilize to be provided with and/or coplane layer and/or predetermined layer.

Be coupled to outside public current-carrying part and non-conductive property is connected to the complementation electrode passage and also can comprises the part that for example is generally described as intrinsic public current-carrying part (for example in the housing of motor of conduction), it need not to be connected with the base plate that conducts electricity and/or grounded energy passage and/or conductor conductivity, Circuits System energy returning part for example, base plate energy channel and/or conductor, and/or PCB energy channel and/or conductor, and/or ground connection.Utilization is positioned at one group of inner public electrode and will describes as the part along the energy of paired complementation electrode channels spread, these energy partly are subjected to the influence of the AOC 813 of typical energy regulator and/or energy conditioner, and can then continue outwards to move on the public current-carrying part of at least one outer setting of the electrode channel group that does not belong to complementary, therefore, can utilize this non-complementary energy channel as low-impedance energy channel, be used for damping and/or inhibition, and be used for the EMI noise of blocking harmful and/or the circuit that energy turns back to each excitation.

At last, shielding with the third type, it generally is a kind of energy conductor location " shield technology " more, this generally is combination physics and/or dynamic shielding, be used to prevent inductive energy and/or " H field " and/or simple " energy field coupling ", and generally also be called as minimizing of mutual inductance payment and/or " H field " part and/or simple " energy field " energy part (it is propagated along independent and opposite electrode channel).But, by shielding energy physically, and utilize the pairing of the complementation of electrode channel simultaneously with intended orientation mode, make it possible in general as far as possible little zone or part, insert complementation electrode passage that comprise and paired, thereby produce shielding and/or " shield technology " of another kind of type, it has effect static and/or the mouse cage shape of enhancing, prevent that with repealing by implication to combine " the H field " responded to is coupled, also mean to be controlled at the part that is arranged in inner circuit, comprise the size of " H field " circulation of various piece of the energy of propagation.

Utilize certain embodiments, can so that each circuit of in described embodiment, operating can be side by side but utilize the public impedance path that produces as himself reference voltage in shared mode, each utilizes circuit to be held and balance in the energy reference point of himself simultaneously, keep the parasitic effects of minimum and/or the energy parasitism of division to give back the almost any Circuits System that in specific embodiment, comprises simultaneously, because in bigger Circuits System to operation simultaneously but other the circuit that separates each other, it generally is a passive operation.

A kind of typical electrode screening device or structure will be in the identical times, part in moment to the complementation of opposite and energy conductively-closed, the high impedance energy block function of similar diode is provided for the part of propagation circuit energy, described energy is included in the part of AOC 813 with respect to identical common reference image propagates, simultaneously in identical moment, energy space or can be in instantaneous height-Low ESR transition status operation to the Low ESR function (in contrast to instantaneous high impedance) of energy part to the energy part, this instantaneous height-Low ESR transition status is instantaneous generation, and corresponding mode with symmetry, with dynamical fashion same instantaneous, straddle the wherein opposite side of the energy channel of the shielding at center, all are for the correlative of the energy part of complementation, described energy part toward each other, in the corresponding mode of the symmetry of identical balance, with the shared as a whole screening arrangement structure of the harmonious mode of electricity.

Be positioned at one group of inner public electrode and what be positioned at the outside is not that the identical public electrode of the current-carrying part of complementation electrode passage is conductivity and is connected, so that make most of Circuits System can utilize this non-complementary energy channel simultaneously with respect to each function circuit system as impedance path, be used for damping and/or inhibition, and stop that harmful EMI noise and/or the energy that returns returns each energy circuit system that enters.

Because the shield electrode structure of sealing, in conjunction with offseting opposite energy " H " field that produces by electric opposite conductively-closed electrode, and suppress the energy parasitism that causes the time, the part of the energy of propagating along each circuit path is gathered in the AOC 813 of specific embodiment, thereby be conditioned, this occurs on H field energy and/or E field energy (the E field energy also the is called the near-field energy flux) energy that function is propagated with the adverse effect of minimum in the AOC 813 of the specific embodiment of each and/or almost any exemplary embodiments or circuit structure by above-mentioned the time, low and the high impedance energy channel of constant zone that also comprises and/or keep determining relatively and/or dynamic while, described passage is changed respectively, also immediately be provided with, but the utilization with respect to energy part is positioned on the opposition side each other, and described energy is present on the propagation potential path of the electrode channel of the complementation of paired but divided and shielding.

It should be noted that, though do not illustrate, (Figure 10 and 11 exceptions, wherein for example show this point), energy channel layer that illustrate or each embodiment of not illustrating is susceptible to fully, so that have the energy channel structure of " division " of uniform or size/shape heterogeneous, in conjunction with the energy channel structure of various types of non-" divisions ".The function class of the function of desintegration energy passage and non-division energy channel seemingly just has improved mode of operation.This will utilize Figure 10 to further specify, but, should be noted that similarly, the electrode conductively-closed of all energy channels or shielding can comprise and/or it is characterized in that the corresponding stacked thin conduction that closely separates to and/or conduction-resistance material, they are separated simply by non-conductive material or hermetic section (up to reach stop comprehensive engagement and/or continuously every required degree), perhaps barrier material part, it is generally thinner than spacing 814 even 814A, perhaps be present in the less space and (be designated as 814B), it utilizes the part or isolated (the completely cutting off to required degree of non-conducting material, so that prevention contacts entirely and/or does not separate) element or barrier material part, by conduction and/or their (two parts of sealing division part, each main part 80 (or 81), electrically contacting always this situation), comprise total division energy channel element, (the total division energy channel comprises any extension, if any).

The desintegration energy passage has advantage in some structures, when utilizing the desintegration energy structure, makes it possible to be increased to the point of twice, total energy channel area.In some structures, comprise bigger general shielding, structure, device public, shielding channel design element also can increase or handle the energy transmission channel function preferably.

The energy channel structure of separation lanes is compared with single non-division energy channel can increase relative electric current conveying capacity greatly, this feature also makes the driven function of all typical embodiment further utilize the symmetry and the complementary balance of energy channel structure, so that increase the overall electric current disposal ability of all embodiment self, carry out simultaneously this driven function again, also consider the overall size (replacing non-splitted construction with splitted construction now) that reduces non-division energy channel simultaneously, this is unforeseeable for this embodiment, because it still can keep for example 799/499 loose relatively energy adjustment environment of various channel material elements, also can comprise various types of possible new embodiment.Because the interests of time, the energy channel structure of division branch and non-division only illustrates shown in Figure 10, and remaining has been omitted.

Referring now to Fig. 1,, wherein show the part of bucking electrode 800/800-IMC, the figure shows the part of interlayer element 800Q, comprise the predetermined shared bucking electrode 800/800-IMC that is positioned at the center, it is set on the structural material part 800-P, and described material partly comprises the part of the material 801 with pre-determined characteristics.

In Fig. 2, show conductively-closed electrode 845BA substantially, 845BB, 855BA, 855BB, 865BA, 865BB is as the two arrays of electrodes of second group of electrode with reduced size.In this structure, the main body electrode part 80 of reduced size is partly propagated 813B by energy and is utilized, and the main body electrode part 81 of the large-size of bucking electrode 800/800-IMC is similar to this part among Fig. 1 and/or be similar to but be different from the type (not shown) of single shielding construction, its will handle from the core of bucking electrode outwards the energy of motion partly propagate 813A, and AOC813 partly has influence and is similar to shown in Figure 1.

Refer again to Fig. 1, from the bucking electrode 800/800-IMC that is positioned at the center the both direction directed outwards be respectively electrode and/or electrode channel 855BB and 855BT (not shown), both clamp center bucking electrode 800/800-IMC in a predetermined manner simultaneously.Be important to note that the clamping main body electrode part 80 of the main part 81 of each bucking electrode in a plurality of bucking electrodes greater than the corresponding conductively-closed electrode that is held in a plurality of conductively-closed electrodes.A plurality of conductively-closed electrodes generally are configured as bypass electrode and are shielded, and as described here and/or not in described herein, but also can constitute the straight-through electrode of conductively-closed as required.

The producer to as the electric conducting material 799 of electrode 855BA the location produce an insertion portion 806 (and/or distance 806 and/or spacing part 806), it is with respect to the part with respect to conductively-closed electrode 855BA of bucking electrode 800.Relative insertion spacing as size difference between two main body electrode parts 80 and 81 (wherein main body electrode part 81 is for bigger among the two) causes can be clear that and/or limit this usually and insert relation.This relative sizing is also partly extended with the electrode of the arrangement of each main body electrode part 80 and 81 and their adjacency separately and is combined, the electrode of this adjacency partly extends in this and is labeled as 79G and/or 79 ' X ', be positioned during wherein most of sequenced stacked manufacturing at electric conducting material 799 and/or 799 ' X ' is handled and/or arrange, and it forms successively and/or cause the insertion relation and/or the seen outward appearance between 805 the electrode perimeter edge of being labeled as that is labeled as 803 electrode perimeter edge and corresponding larger electrode main part 81 of each electrode body part 80.

With regard to the typical energy regulator or electrode assembly of most of types, main body electrode 80/81 wherein can roughly be limited by two main surface portions, but this surface portion is shaped and is processed into required periphery, so that form electrode body part 80 and/or 81 (it has the material 799 of each used separately counter electrode element), and for electrode body part 80 and/or 81, roughly portion size that usually can customized material 799.These electrode body parts 80 and/or 81 do not comprise lead-in wire electrode (leadelectrode) part and/or the electrode extension that is considered to 79G and/or 79 " XZ " or 79 " XX ", and they connect in abutting connection with ground, limit the size of typical main body electrode 80/81.

It should be noted that, in nearly all energy regulator and/or energy conditioner (perhaps each single electronic circuit device can mix with respect to another electronic circuit device electrode group), the size of the size of most of electrode body parts 80 of the electrode of nearly all correspondence and/or the material 799 of most of electrode body part 81 can be of similar shape (allow and make franchise) for each grouping (80 or 81), and the insertion position relation can be selected.

Carry out the positional alignment that complementary passage and/or complementary passage match, so that the energy when obtaining various piece to parasitic energy by stacked (but separating) location or insert partly suppresses and/or the screened advantage of energy, described insert is the stacked and location of most of conductive area of complementation electrode/energy channel and/or pairing.

Complementary passage and/or complementary passage pairing are formed in the AOC usually, and the major part of the electrode zone of each energy channel of pairing (having and/or do not have electrode body part 80 respectively) helps to realize the energy adjustment function when carrying out energy adjustment.Above-mentioned these layouts comprise the stacked aligning of the bucking electrode/shielding energy channel of at least 3 large-sizes in each pairing (wherein each shielding energy channel of 3 passages has and/or do not have electrode body part 81 respectively) that is utilized.

This shielding or the confinement of the major part in the complementary energy channel zone in the typical AOC part of typical new embodiment arrange it is a kind of containment device mode, should note, its utilization or comprise bucking electrode pairing that conduction links to each other or " the non-direct contact clamping " of shielding energy channel pairing, the connection of described pairing property each other in an electrically conductive, make typical A OC comprise and/or can operate the static state shielding of the complementary energy channel pairing that not only is used for reduced size, and can operate dynamic shielding and/or the dynamic inhibit feature that is used for the energy part, it can be operated in the stacked aligning of shielding energy channel at least.

The confinement or the insertion portion of the complementation electrode that has and/or do not have main part 80 in the overlay area of bigger electrode body part 81, for the dynamic shielding (static shielding) of energy, the efficient of whole bigger screening conductive structure is strengthened, and this refers to than array structure down: it does not use the insertion 806 of uniform smaller electrode main part 80 in the electrode body part 81 of the large-size (with respect to the electrode body part 80 or the electrode of uniform reduced size) at least uniformly of two bigger bucking electrodes.

Inserting distance 806 can be objective or subjective apart from multiplier and/or subjective and/or relative determining apart from multiplier by using, described multiplier can be at least greater than 0, be to insert the selected multiplier that distance 806 is relevant to the spacing distance relation accordingly, described relation is present between the electrode body part 81 of electrode body part 80 and adjacent electrode or electrode, and described electrode can comprise typical new energy channel or electrode assembly.

Can use such multiplier, the spacing of thickness that its tolerance separates relatively or material 801 with pre-determined characteristics, also can be used as in the embodiment of insert, scope factor, described material is used for separately and/or keeps two typical adjacent electrode body parts 80 and the separation between the electrode body part 81.

For example, the electrode body part 80 of 855BB can be called as the distance of material 801 and/or thickness 1 to 20 times with pre-determined characteristics+(or more), described material be used between the electrode body part 81 of the electrode body part 80 of electrode 855BB and adjacent center coplanar electrodes 800-1M, isolating and/or keep isolating and Fig. 1 similar.This quantity or range distance or zone 814 " X " are produced, and as the zero limited boundary of the insertion portion of typical electrode body part 80, for different embodiment and different application, this can change.Under any circumstance, determine that as zero the border produces or do not produce distance or zone 814 " X ", should be a size and/or spacing or degree, for the electrostatic screen operation of the part of the Propagation of Energy of typical electrode of described degree utilization and/or typical electrode body part 80 electrostatic screen function at least some types, ground connection or earth-free, can operate.

In other cases, almost any one is adjacent (immediately following thereafter), and bucking electrode should be less than any one adjacent (it is closelyed follow) complementation electrode or the conductively-closed electrode that is shielded by its (this bucking electrode).Electrode or energy channel comprise main body electrode 80, it has at least the first lead-in wire or the extension, be labeled as 79 " XZ ", ' X '=" B "=-extension of bypass or " F "-straight-through (deciding), " Z "=electrode " A " or " B " according to the propagation that will use, at last, the unit of " # "=label if desired, wherein each electrode body partly has more than one extension.For example, Fig. 1 uses the extension of 79BA as electrode 855BA.The main body electrode 80 of the complementation of 855BA, but it is not shown, have at least the first lead-in wire or the extension, and label is 79BB, because first and second lead-in wires of electrode 855BA and 855BB (not shown) or extension are arranged to complementary opposite each other in this layout.

Should be noted that the applicant has also conceived the electrode pair of many different sizes, they also can be used for one group of co-planar arrangement between the various electrode body parts 80 of the electrode of all array structures.Though not shown, part and/or layer with material 801 of pre-determined characteristics can comprise the electrode layer of additional co-planar arrangement.Being used to of every group of electrode helps each each outer electrode part and/or electrode material part 890A of electrode piece on the same group mutually, 890B, and/or label is 890 ' X ', 798-1,798-2, and/or label be 798-' X ' (all not illustrating) also can help every group of electrode afterwards with all outer electrode part (not shown), the energy channel (not shown) realizes that conductivity connects.

Concentrate on outside the electrode extension (perhaps briefly " extension "), they and each electrode body part 80 and/or 81 adjacency, in general, electrode body part 80 is spaced, but insert a preset distance physically, so that produce an insertion portion 806 with respect to electrode body part 81.Electrode body part 80 has less size (comparing with adjacent main shield electrode 81), and be stacked at least two separately divide but in each the part coverage of the electrode body part 81 of two bigger bucking electrodes, described two bucking electrodes have unique extension, it is electrode extension (if any), as 79BA, similar with Fig. 1, for example, in this case, each can be operated the conductivity of point that is used for subsequently with outside the electrode body part 80 and is connected, from described part 80 its in abutting connection with ground and integrally separate.

Should be noted that and be applicable to that non-integrated and/or integrated identical manufacturing process with simultaneously continuous 79 " X " or 79 " X " lead-in wire current-carrying part and/or electrode extension can be suitable for well.For example, non-integrated and/or discrete 79 " X " (not shown) part connection and/or fusion can be afterwards by and/or additional during the manufacturing of the energy Pathway Arrangement of certain other remodeling.Like this, the extension type that applies afterwards can be utilized 79 " XZ " or 79 " XX " combination partly of the conduction of electrode body part 80 and discontinuous/integrated production, described part still needs to connect continuously with a kind of mode, and described mode should allow to use the essentially identical operating condition in abutting connection with pattern.

Remove and limit outside the extension, there are not a kind of be used for determining electrode body part 80 and/or 81 that stop and 79G and/or 79 " XZ " or 79 " XX " accurate methods beginning and/or accurate point that begin typical conductively-closed electrode and/or bucking electrode, the electrode body part 80 of typical conductively-closed electrode is considered to be set for the part that produces preset distance and/or average preset distance 806, described preset distance 806 is present between the following part and/or in the following part: public periphery, and/or the average public periphery at the bucking electrode edge 805 of the adjacent bucking electrode of the bucking electrode group of formation electrode group, from the public stacked device electrode periphery 805 of the electrode body part 81 of predetermined quantity, described quantity can be the odd number of public electrode quantity of electrode group that is used to shield conductively-closed that is positioned at electrode assembly embodiment greater than.

Therefore, this should comprise at least 3 bucking electrodes, is used to shield the complementation electrode of paired electrode body part 80 with respect at least two conductively-closed electrodes in typical energy regulator or electrode assembly.Identical electric conducting material 799 can comprise and/or it is characterized in that most of electrode of typical energy regulator or electrode assembly, has the uniform electrode material 799 that is provided with in a predefined manner, the composition of electrode material 299 perhaps heterogeneous, this is effective equally.

At least have two arrays of electrodes, each electrode has mutually the same basically size and dimension in first group of electrode.These electrodes property also each other in an electrically conductive connection in this first group of electrode, and aim at mutually and stacked abreast.These public electrodes also are spaced from each other, thereby in the stacked shielding construction that is produced by first group of electrode, help to be each other the arrangement of each element in second group of corresponding correlation (second group element in electrode).This means, no matter the stacked group of first group of electrode is with respect to horizontal rotation, the device that will be called as stacked body or constitute by first group of electrode.

In first group of electrode, device or stacked stacked body also comprise the part of the material 801 that has pre-determined characteristics at least.The configuration quantity of first group stacked electrode be greater than 1 be the integer of odd number.

These electrodes also can utilize at least a portion of electric conducting material to conduct electricity continuous mutually, described material provides adjacency along the edge of each electrode of the electrode of common set at least and is connected with public conductivity, this makes the electrode group be considered to or as earth-free single public conductive structure, an earth-free screening conductive cage or earth-free Faraday cage.In many configurations, two parts electric conducting material provides the public conductivity of adjacency to connect along the edge of each electrode of the common set of the electrode at least on the edge of coupling at least at least, and is separated from each other and/or isolated.When this part of this shielding construction is connected with bulk potential, state a kind of ground connection or reference will be produced.

The sum of second group of electrode is an even number.The electrode of second group of electrode also can constitute two groups of second group of electrode two cover electrodes in other words, can think for second group of electrode of even number in two, comprising the first cover electrode, it is considered to and is complementary relationship by the second half second cover electrodes that constitute, and have the electrode of corresponding pairing each other, as having only the situation bottom electrode pairing (noticing that these covers itself can also be characterized as being at least the first and second group electrodes of second group of electrode according to following explanation) of two electrodes altogether.

Electrode is separated.When electrode is on one deck, if they be considered to and install in second group of electrode first the cover electrode other electrode copline, each electrode of second of the second group of electrode cover electrode correspondingly matches and becomes the electrode of complementary opposed alignment simultaneously, but on the second copline layer of electrode.Shall also be noted that D～5C as Fig. 5, shown in 5C and the 8A, for example every group electrode of first group or second group can be coplanar and be distributed on each other in the middle of, each electrode of coplanar electrodes is still as the counter-electrodes on the rightabout different layers simultaneously.

Should also be noted that, though the electrode of each conductively-closed that the particular complementary of electrode is right has substantially the same size and dimension, second complementation electrode that also is separated from each other with substantially the same size and dimension is to having identical size and dimension with the right electrode of first complementation electrode, shown in Fig. 3 A and 4A.

Shall also be noted that the part as the entire electrode device in all energy regulators, the size and dimension relation of first pair of electrode (bucking electrode) and second pair of electrode (conductively-closed electrode) keeps independent each other.First pair of electrode and second pair of electrode of second group of electrode can comprise the essentially identical electrode of size and dimension simultaneously, and this is as requiring.Only as the electrode pair of " separately ", the electrode pair of any complementation need keep two electrodes to have identical size and dimension, makes to produce complementary relationship between the electrode of specific pairing.

As another example, though second pair of electrode can have and first pair of size that electrode is identical, second pair of electrode still can have and first pair of shape that electrode is different.In addition, vice versa.The two pairs electrodes of a part that additional other also and as a whole promptly has a new energy regulator of electrode assembly to electrode outside at least two pairs of electrodes keep the independence of this size and dimension.

Proceed specific description, following unshowned embodiment provides the little remodeling of possible combination of electrodes, and each is with respect to an embodiment who illustrates, but is general for the main purpose of this explanation.The main purpose of this explanation is to provide a kind of shielding and electrode assembly conductively-closed, it has other elements combination, so as to make at least two independently the Circuits System of conduction insulation can be reciprocally and dynamically utilize a typical discrete or non-discrete energy regulator that has electrode assembly in inside.

Thereby, can constitute that new typical passive structures for example utilizes by certain embodiments, so that all kinds of energy field (h field and e field) of regulating and/or reducing in energy system, to exist.Though do not need to set up the energy field that certain embodiments is used to regulate a class, can visualize dissimilar materials can be added with many covers combination of electrodes and/or be used, so that set up the embodiment that a kind of energy field is regulated.The different thickness of dielectric material and/or medium and the electrode structure of the insertion dynamic and in-plant relation in the circuit structure that makes can be utilized energy that current-carrying part propagates and relative non-conductive or even the semiconductive distance between (complementary energy channel) mutually.

Shown in Fig. 2 A and 2B, certain embodiments is 6005 groupings that can comprise the predetermined element of selectively arranging with relative predetermined element position and size relationship for example, together with separately subelement and combined location concern, so that also make at least two independently and the Circuits System of conduction insulation, shown in Fig. 2 C, a public circuit reference potential or a node of can be reciprocally and dynamically utilizing partly the bucking electrode by given energy regulator partly to provide simultaneously, masked segment shown in it and the common electric voltage current potential that is positioned at the current-carrying part outside the AOC 813 of typical energy regulator are the conduction combination.

When the conductivity of the outside public current-carrying part outside a plurality of bucking electrodes and the AOC 813 is connected the method for attachment that utilizes standard well known in the prior art for example scolder (not shown) or resistance is connected (not shown) or other method, then by " fusion " of conduction or the integration of conduction, shielding construction is strengthened, thereby form bigger masked segment.Electrode 830,820,810800/800-IMC, 815,825 and 835, and electrode extension 79G-1,79G-2,79G-3 and 79G-4 conductivity connect, be connected with 798G-1,798G-2,798G-3,798G-4 conductivity then, utilize known standard method to carry out last physical connection then, described method of attachment comprises (application of interim selection are arranged certainly) such as all types of methods of attachment, technology or electric conducting materials.Present current-carrying part 007, part as the energy adjustment apparatus, with CRN or common reference point, shown in Fig. 2 C, be established in operating period dynamic or excitation, and the shielding construction element is the extension of outer current-carrying part 007, is parallel to several microns of paired and opposite circuit path part that typical embodiment comprises and its distances now.

Typical energy regulator structure described here comprises Fig. 2 A, 3A, 4A, 5A, 5C, 7A, 8A, 10 and Figure 11, has embodiment 6005,8005,10005,1005,1105,1207,1200,19200 and 19210 respectively.In the middle of these embodiment, has the multicircuit energy adjustment apparatus that at least 3 classes limit in the present invention, the multicircuit device that promptly directly piles up, the multicircuit device that direct coplane piles up and direct/coplane multicircuit device of mixing, every class all has the overall structure of himself.In general, energy regulator comprises at least two circuit parts that are positioned at each Circuits System inside, and two circuit parts (each is positioned at inner circuit part pairing) are considered to the part of big Circuits System.

Each circuit part can comprise first and second energy channels, and each energy channel is in certain point of the part of thinking of typical energy regulator, in AOC 813.For example, first and second energy channels are respectively S-L-C2 and L-S-C2 and the S-L-C1 and the L-S-C1 of each isolated Circuits System.First and second electrodes of each energy channel 855BA and 855BB partly are used for C1,845BA, 845BB, 865BA and 865BB and are used for C2, and as energy 002=C2,001=C1 and energy utilize loading section L2=C2, the energy channel of L1=C1 and existing, there is the operation that is used for each complementation in they, as the part of entire circuit system configuration 0000.Each is positioned at, and inner circuit part 855BA, 855BB are used for C1,845BA, 845BB, 865BA, 865BB is used for C2, if need, then make first and second energy channels part link to each other with outer electrode C2-890BB, C2-890BA, C1-980AA, C1-890BB (outside that it is typical energy regulator) by extension 79BB, 79AA respectively.

Be connected precalculated position C2-890BB with the conductivity of the part of described energy regulator, C2-890BA, C1-890AA, C1-890BB carries out, for example can realize by predetermined conductivity method of attachment or mode, utilize material or predetermined physical connection technology and the predetermined material that in the electrical connection field, uses for example to weld, welding, machinery, the chemistry or material, or material connects and/or jockey, method, commercial run that connects comprising the conductivity of all standards or the conductivity of using at present connect, or (all not shown) such as welding (not shown) that uses in the future or resistance cooperations.These internal circuits part can be thought electrode channel, perhaps Hu Bu electrode channel, as mentioned above.In general, internal circuit partly comprises bucking electrode 835,825,815,800/800-IMC, 810,820,830 and 840, wherein these shielding energy channels are that separate and isolated, or and directly be electrically connected to completely cut off, comprise material 801 with pre-determined characteristics by at least a portion, perhaps can provide isolation features as required, isolated, or isolated.

Each (C2/C1-Circuits System) with first and second Circuits System (for example C2/C1 of Fig. 2 C) of at least two pairs of circuit parts also comprises at least one energy, 002=C2,001=C1, utilize loading section L2=C2 with energy, L1=C1 is respectively applied at least the first energy channel and at least the second energy channel of each circuit.Each Circuits System is general, and it can be considered to the supply side of the energy always from the energy channel lead-in wire beginning of first side of the energy, and then, first energy channel utilizes first side of load to link to each other with energy, and it is considered to the energy input side that energy utilizes load.

Also recognize, the energy is the point of first energy channel with the point that energy utilizes load to be connected, be considered to terminal point, so that make the device of the location of this position electrical isolation first energy channel and the two the first energy channels, described the two the first energy channels also are connected energy physically and utilize between the load and the energy, as the energy channel that returns to the energy.Therefore, at least leave second side of the energy and be considered to energy utilize load (part energy utilized by energy load transfer be used for the acting after) second energy channel that returns side, and utilize second side of load to link to each other with energy, the energy that described energy utilizes load to be considered to the energy returns side.

One between at least 3 kinds of multicircuit energy adjustment apparatuses that produce is not both significantly, and the multicircuit energy adjustment apparatus that piles up comprises stacked circuit part, but needs not to be opposite or complementary between the each several part.But at least two right mutual orientations of Circuits System part make that presenting engineering noise between two Circuits System independent and/or that isolate in same energy regulator and AOC 813 interacts, two groups of electric system parts are to being the public shared reference voltage of realizing by means of ground connection simultaneously, it is made of a plurality of bucking electrodes, and the connection of described bucking electrode property each other in an electrically conductive also is connected with other the external conductive partially conductive that needs not to be Circuits System or pairing.

Imagination is in some cases, being connected some users by a Circuits System to the conductivity with a part complementary energy channel that realize may be needs, make the biasing of a such structure or an embodiment express other system or have a preference for a Circuits System than other system with poem, the conductivity that the applicant has fully conceived isolated shielding shield electrode structure connects.

But, when the conduction that keeps shielding construction is isolated, being connected of the non-complementary energy channel of utilization and relevant Circuits System, when it can operate and be set up with respect to other operation, with the public Low ESR energy channel of energy that dynamically produces for the Circuits System of described at least two isolation, for example for directly stacked, as embodiment 6005, with respect to the stacked this stacked or adjacent structure that is presented between a plurality of bucking electrodes of each location at least.

Referring now to Fig. 2 A～2B the embodiment of energy regulator 6005.Fig. 2 A represents the schematic diagram of the decomposition of energy regulator 6005, and the layer that is illustrated in material 801 is gone up each electrode layer that forms or arrange, as mentioned above.The structure of the predetermined embodiment of figure A2 is a kind of predetermined shield electrode structure, be included as equal electrode 835,825,815, the 800/800-IMC, 810,820,830 and 840 of an integer shape same size of odd number, they are linked together by conductivity, are used for the circuit path of having numbered to reduced size to shielding is provided.This shielding construction that the electrode that is equated by odd number shape same size constitutes can also comprise any optional bucking electrode (not shown), be labeled as-IMI ' X ' and/or-the picture plane bucking electrode of IMO ' X ', as described below.

Can think that also energy regulator 6005 comprises first group of electrode 835 that the shape same size equates, 825,815,800/800-IMC, 810,820,830 and 840, and second group of equal electrode 845BA of shape same size, 845BB, 865BA, 865BB, as C2, with 855BB as C1, the various single or son group electrode configuration of they and original two groups of first and second groups of electrodes (845BA for example, 845BB, 865BA and 865BB electrode) combination, main frame as many possible combinations, it provides typical energy regulator, the electrode of paired homogeneous with grouping of any possible quantity, also can be regarded as and be concentrated into electrode sleeve, thereby comprise second group of electrode with first group of electrode.

Shown in Fig. 2 B, energy regulator 6005 is exercisable, and it has 8 possible being connected with outer electrode part 798-1,798-2,798-3 and 798-4 and 890AA, 890AB, 890BA and 890BB, as shown in the figure.Wherein, the possible coupling part of energy regulator 6005 can be connected with segregate passage 001A, the 001B of 5 conductions and 002B and conductive region 007, shown in Fig. 2 C.Therefore, 798-1,798-2,798-3 and 798-4 can be connected conductive region 007 and 001A001B to 890AA, 890AB, and 002A, 002B is to 890BA, 890BB, (perhaps for example opposite, be 001A, 001B is to 890BA, 890BB, and 002A, 002B is to 890AA, 890BB), because at least two independently with the passage of every pair of complementation of the Circuits System (C2/C1) of conduction insulation form two 1 and spend to the paired circuit in the orientation of 180 degree (thereby this means certainly can reach make go up any orientation that actual capabilities reach can dynamic operation), thereby the adjuster that is independent of other in zero mode reciprocally dynamically utilizes energy regulator 6005, as the back in conjunction with as described in Fig. 2 C.

It should be noted that, in other example, 798-1,798-2,798-3 and 798-4 can be connected conductive region 007 respectively, and 001A, 001B connect 890AA, 890AB respectively, and 890BA, 890BB only connect C1 respectively and for example as a kind of single circuit connection/coupling process.

Also has the identical embodiment of many method explanations.Thereby, utilize identical last embodiment, many methods can be described.For example, embodiment 6005 utilizes first combination or the possible combination explanation with the quantity of a plurality of configurations, energy regulator comprises first group of electrode and second group of electrode, it is divided at least two or 4 directions, how right direction, for configuration 6005, it comprises the electrode of 855BA, 855BB, 865BA, 865BB at least, has its extension 79 " X " or 79 " XX " separately, towards at least one in the orientation of 4 90 degree, as the hour hands of clock be at 9 o'clock, 12 o'clock, 3 o'clock and 6 o'clock.

Shall also be noted that as mentioned above, disclosed (but not shown) position relation now herein with respect to the conducting element of the position axis of 360 degree.Position for example outside public electrode part 798-1,798-2,798-3798-4 and 79G-1 separately, 79G-2,79G-2, the 79G-4 extension (when needing) of shown conducting element (and not show) can have rotation (for example 45 degree clockwise) 79G-1,79G-2,79G-2 and 79G-4 separately and extend, parallel sides outside from the position shown in Fig. 2 A and Fig. 2 B to the turning, as directed.

Otherwise outer electrode part 890AA, 890AB and 890BB are arranged separately around regulator body and/or are isolated.These outer electrode parts 890AA, 890AB, 890BA and 890BB, for instance, also can have its separately from Fig. 2 A and position shown in 2B rotation (for example clockwise 45 degree) to separately corner location rather than shown in the electrode extended position of a parallel side.Like this, outer electrode part 890AA, 890AB, 890BA and 890BB are similarly rotated, so that coupling.Thereby, each outer electrode that is connected of the extension and all of all each electrodes part (public or non-public), always feasible, so that all positions or desired location are symmetrical distribution.Disclose as this explanation, present embodiment can be got the element of Any shape, include but not limited to polygonal, polygonal, circular, spherically, or any other can be used to make any 3D shape of structure of the exercisable embodiment of combined energy passage of bypass channel straight-through bypass or that mix of the complementation of two kinds of electrodes being used for conductively-closed and circulation way.(or the description) that comprises also that all had just described, now current in other words or single circuit or multicircuit structure in the future.

For example, embodiment 6005 among the embodiment can make up with the quantity of a plurality of configurations or to the possible combination second of typical energy regulator and describe, comprise first group of electrode, with second group of electrode, it is divided into the group of complementary pairing, direction with excitation of Propagation of Energy, be oriented to is the position of at least one pair of hour hand of 180 degree from other, be considered in the pairing of " locking " or in bearing range, be positioned, its vertical direction of 90 degree that never is in line that is considered at least.In this example, but make the pairing location along being considered to the direction that does not line up mutually parallel to each other, with respect to (for other) laterally (from the stacked arrangement of same axis, for example till now with respect to the same axis of rotation laterally) or similar axis, or the position of rotation, up to accurate vertical direction or leave other 90 degree and be not the directed electrode groups of 180 degree.If think that pairing among Fig. 2 A as the hour hands of clock, then just was set to engineering noise (90 degree in this case), up to being set at 12 o'clock and 6 o'clock at 9 o'clock and 3 o'clock.

Then, for example the embodiment among the embodiment 6005 can be with the third combination of the quantity of various configurations or for the possible combination explanation of typical energy regulator, second group of electrode that this embodiment comprises first group of electrode and is divided at least two cover electrodes.The first cover electrode also comprises paired complementation electrode group, comprises complementary electrode 845BA, 845BB and complementary electrode 865BA, 865BB.Second cover in this at least two covers electrode comprises paired complementation electrode 845BA, 845BB.As from Fig. 2 A and Fig. 2 C, finding out in the back, the first cover electrode in second group of electrode comprises the each several part of first circuit in possible a plurality of circuit, it has the wherein part of the complementation of typical energy regulator of utilization, simultaneously the second cover electrode in second group of electrode comprises the each several part of the second circuit in possible a plurality of circuit, and it has and utilizes the wherein part of the complementation of the typical energy regulator of s.

First group of electrode and second group of electrode of comprising typical energy adjuster 6005 wherein also can be classified as a plurality of bucking electrodes and a plurality of conductively-closed electrode.The first set of shield electrode is labeled as 835,825,815,800/800-IMC, 810,820,830 and 840, but also give the GNDG mark, shielding construction (unnumbered) when connecting, their mutual conductivity is provided, be labeled as the orientation of the electrode extension of 79G-' X ' with respect to 6005 energy regulators, and second group of electrode 845BA, 845BB, 855BA, 855BB, 8865BA, 865BB and they separately 79 " XZ " or 79 " XX " electrode orientation of extending as mentioned above.

A plurality of GNDG electrodes can be used as a plurality of bucking electrode operations, their property each other in an electrically conductive connections, thus be used for the shielding at least the second group electrode as a device.This odd-integral number bucking electrode also provides the minimum impedance path as a group for multicircuit system (being C2 and C1 in this case), and work as a plurality of GNDG electrodes and be connected with each other jointly, when being connected with public current-carrying part that is positioned at the outside or passage 007 conductivity then as a group or a structure.

The another kind combination of the quantity of the first basic group electrode in configuration 6005 and the combination of the second basic group electrode makes this second basic group electrode be divided into second group and the 3rd group of electrode as described below equably, they connect first group of electrode as energy regulator now simply, comprise first, second and the 3rd group of electrode at least, they are inserted into and are labeled as 835,825,815,800/800-IMC, 810,820,830 and 840 plays in first group of electrode of bucking electrode effect, and wherein each electrode of first group of electrode all is labeled as GNDG.Why do like this, it is the ability that on function, is transferred for each electrode of representing in this first group of electrode, in order to play 8 " XX "/800-IMC central electrodes and/or the typically effect of energy regulator in first group of electrode, as shown in the figure, in the multicircuit structure of Fig. 2 C with common reference point CRN, general electrode 810GNDG becomes the center bucking electrode 810/800-IMC (845BA that has only embodiment 6005 for energy regulator, 845BB and 855BA, it is right that two pairs of electrodes of 855BB are arranged to, it is invalid to be oriented to mutually, in this case, invalid is 90 degree).Therefore, 8 " XX "/800-IMC central electrodes of first group of electrode and typical energy regulator can be discerned usually like this, get a series of section at least, therefrom typical energy regulator are divided into impartial two halves.

Continuation is referring to Fig. 2 A and Fig. 2 B, and in a series of electrode, each electrode in second and the 3rd group of electrode is arranged by two electrode GNDG in first group of electrode and shielding and being clamped between them at least.In addition, each paired electrode of second and the 3rd group of electrode is arranged like this, makes corresponding electrode at least one the electrode GNDG in first group of electrode of clamping.It should be noted that

Thereby, the electrode sequence of the minimum of one of them energy regulator of being showed is 6005, it is characterized in that (for example in this example), have the second first electrode 845BA that forms electrode that branch is arranged above the first electrode GNDG with below the second electrode GNDG.This second forms the be spaced top that is arranged on the second electrode GNDG and below third electrode GNDG of the second electrode 845BB to electrode.The 3rd forms the be spaced top that is arranged on third electrode GNDG and below the 4th electrode GNDG of the first electrode 855BA to electrode.The 3rd forms the be spaced top that is arranged on the 4th electrode GNDG and below the 5th electrode GNDG of the second electrode 855BB to electrode.In this minmal sequence, each electrode insulation each other in an electrically conductive in above-mentioned second and the 3rd group of electrode and and first group of electrode GNDG conduction insulation.

Similar with Fig. 1, in Fig. 2 A, electrode 855BA has its main body electrode part 80, by main body electrode part 81 clampings of electrode 800/800-IMC and 810 respectively and side by side.Therefore, because shielding main body electrode part 81 has substantially the same shape and size, (this also means to have the identical physics same sex jointly, basically each all utilizes the manufacture method and the technology of standard, its permission or mutually the same on size and dimension at least), big part side 1FS and 2FS that while electrode 855BA has its main part 80 (all do not illustrate, but should be noted that, 1FS and 2FS are at least two facing sides of any typical energy passage, it comprises and can be represented as first of all energy channels disclosure or that do not disclose faces side 1FS and second in the face of side 2FS), it receives the same section of function of shielding toward each other, the electrode rim 803 of its main body electrode part 80 is maintained in the border ' DMZ ' or part 806 that the peripheries by two of clampings shielding main parts 81 stacked and that aim at form, and has the bucking electrode 800/800-IMC of common two first group of electrodes that connect and 810 electrode rim 805 now.

Referring now to Fig. 2 B,, wherein shows the energy regulator 6005 under confined state.Outer electrode part 798-1,798-2,798-3 and 798-4, and 890AA, 890AB, 890BA and 890BB are separated and/or setting isolator around regulator body.Bucking electrode GNDG comprises a plurality of connection electrode parts or extension 79G-1 (shown in Fig. 2 A), and its discrete way with 6005 is connected to a plurality of outer electrode 798-1 by 798-4 conductivity.These outer electrodes also can use non-discrete way, but direct with adjacent circuit links to each other.

With the electrode sequence of above-mentioned similar minimum in, the second first electrode 845BA that forms electrode comprises electrode extension 79BA (shown in Fig. 2 A), it is connected with outer electrode 890BA conductivity, the 3rd second electrode 845BB that forms electrode comprises electrode extension 79BB (shown in Fig. 2 A), and it is connected with outer electrode 890BB conductivity.The second first electrode 855BA that forms electrode comprises electrode extension 79BA (shown in Fig. 2 A), and it is connected with outer electrode 890BA conductivity.The 3rd second electrode 855BB that forms electrode comprises electrode extension 79BB (shown in Fig. 2 A), and it is connected with outer electrode 890BB conductivity.The extension and the outer electrode that should be noted that corresponding paired electrode are set up 180 degree away from each other, make energy to offset.

In order to increase the electric capacity that can be used for one or two connecting circuit, right to energy regulator 6005 increase supplemantary electrodes wherein.Refer again to Fig. 2 A, supplemantary electrode is affixed on direction the sequence of piling up corresponding to first pair of electrode in second group of electrode to 865BA, 865BB.The second first supplemantary electrode 865BA that forms electrode is set at the top of the 5th electrode GNDG and the below of the 6th electrode GNDG.The 3rd group second supplemantary electrode of paired electrode is set at the top of the 4th electrode GNDG and the below of the 5th electrode GNDG.The first supplemantary electrode 865BA is connected by and the continuous public current-carrying part of outer electrode 890BA and the first electrode 845BA conductivity of second group of electrode.The second supplemantary electrode 865BB is connected by and the continuous public current-carrying part of outer electrode 890BB and the second electrode 845BA conductivity of the 3rd group of electrode.Should be noted that additional electrode pair should be set near first couple of electrode 845BA, the 845BB, but not be arranged near second couple of electrode 855BA, the 855BB.Though not shown, the electric capacity that can be used for one or two connecting circuit can further be increased by increasing more additional paired electrode and electrode GNDG.

Fig. 2 C is a multicircuit scheme, and this does not mean that the structure shown in the typical energy regulator of multicircuit structure is limited to, but is used for illustrating the polyfunctional utilization of typical energy regulator in the multicircuit operation.The energy regulator that has in the multicircuit structure of common reference point CRN (has only two couples of 845BA among the embodiment 6005,845BB and 855BA, 855BB is set to orientation invalid pairing mutually, in this case, invalid is 90 degree) can comprise first device of the energy of the conductively-closed that is used to revolt a circuit C2, it can comprise (the entire circuit system of complementary portion C 2, and also comprise electrode 845BA shown in Figure 2, the opposite mirror image of the electrode group of the complementation of 845BB) and second the device, be used to revolt the energy of the conductively-closed of another circuit C1, it can comprise (the part of the complementation of the entire circuit system of C1, and comprise the electrode 855BA of the electrode group of the complementation shown in Fig. 2 A, the paired structure of the opposite mirror image of the complementation electrode of 855BB), has the element that is shielded separately respectively, its as C2 and C1 circuit part the element of paired structure of opposite mirror image of electrode group of complementation of electrode, as just by means of screening arrangement explanation at least, described screening arrangement is used for shielding, and (it is a plurality of at least bucking electrodes with essentially identical shape and size, their property each other in an electrically conductive connections, comprise at least 830,820,810,800 and 815, wherein electrode 810 is 810/800-IMC of Fig. 2 A---for instance) and the device that is used to shield (a plurality of bucking electrodes, as mentioned above) also shielding is used to revolt the device (as described in just now) of the energy of conductively-closed, and second the device, be used to revolt energy (as described in just now) from the other side's conductively-closed.In other words, the circuit part separately of C2 and C1 (as described in just now) is respectively shielded by the other side, as at least two circuit parts, by means of the circuit part that is used to shield (as described in just now).

The multicircuit scheme of Fig. 2 C also comprises the integral body of multicircuit device 0000, and be not only as a described fraction just now, to have 3 complete paired embodiment 6005, shown in Fig. 2 A, Circuits System C2 with two isolation links to each other respectively with C1, each has at least, and energy 001=S1002=S2 and energy utilize load L2, L1, each C1 wherein and C1 contribute some complementary portions of self in energy regulator 6005, and being sandwiched between the element of a plurality of bucking electrodes, and mutual electrical isolation.Each inner circuit part pairing 845BA, 845BB that is provided with, 855BA, 855BB divide 890BA, 890BB to link to each other at corresponding first electrode or second electrode connecting portion respectively with 865BA, 865BB.

Isolated Circuits System C1 is connected the energy 001 by S-L-C1 (energy utilizes load-circuit 1 to energy) external channel part respectively with L-S-C1 (loading to the energy-circuit 1) external channel part and energy utilizes load L-1, described external channel is present in and utilizes load L1 from the energy 001 to energy, and be set up or be positioned at conductivity be connected (all not illustrating) with respect to the L1 of opposite side and S1 is used for toward each other and and C1) energy utilize on the opposite side of the energy of load-side and carry out complementary electricity operation.

Isolated Circuits System C2 is connected the energy 002 by S-L-C2 (energy utilizes load-circuit 2 to energy) external channel part respectively with L-S-C2 (loading to the energy-circuit 2) external channel part and energy utilizes load L-2, described external channel is present in and utilizes load L2 from the energy 002 to energy, and be set up or be positioned at conductivity be connected (all not illustrating) with respect to the L2 of opposite side and S2 is used for toward each other and and C2) energy utilize on the opposite side of the energy of load-side and carry out complementary electricity operation.

The isolated Circuits System of C1/C2 is at first side of circuit (each circuit side) and the outer electrode part 890AA on S-L-C ' X ', 890BA links to each other, shown in Fig. 2 C, and the outer electrode part 890AB on (each circuit side) and L-S-C ' X ' on second side of circuit respectively, 890BB links to each other, shown in Fig. 2 C, they utilize physical connection method and/or material known in the art to link to each other with each part in the conductivity coupling part of each circuit side, for example welding material connects (not shown).This physical connection is identical with the paired method of the reciprocal side of each circuit.

Therefore, C1-980AA is represented as the identifier that each is connected with C1-890AB and C2-890BA with C2-890BB.For example, when C1-890AA was used as 890AA, then the outer electrode part was connected with external energy passage S-L-C1.This circuit side is passage conduct " energy input " passage that utilizes first side of load L1 to form to energy from first side of energy S1.When C1-890AB was used for 890AB, the outer electrode part was connected with external energy passage L-S-C1.This circuit side is to utilize second side of load L1 to turn back to second side of the energy 001 and the passage that forms from energy, as the backward channel of energy.

In the accompanying drawings, Fig. 2 C is corresponding to circuit 2 or C2, or C ' X ' system, and suitable distribution has similar elements, but is changed for each identifier on the figure, and replaced to the C2 of C ' X ' or Fig. 2 C by C1.When C2-890BA was used for 890BA, the outer electrode part was connected with external energy passage S-L-C2.This circuit side is to utilize passage that first side of load L2 forms as the energy input channel from first side of energy S2 to energy.When C2-890BB was used for 890BB, the outer electrode part was connected with external energy passage L-S-C2.This circuit side is to utilize second side of load L2 to turn back to second side of the energy 002 and the passage that forms from energy, as the backward channel of energy.

It should be noted that, for all typical embodiment, each Circuits System of a plurality of Circuits System part comprises that partly (conduction insulation or non-conductive insulation) at least two circuits are to (perhaps identical two of the adjusting relations of reference point (perhaps), circuit is to the relation on reference point (or ground), be made of a plurality of: electric capacity, inductance or resistance, circuit is to the relation on reference point (or ground)).It is exercisable that described at least two circuits close between the electrode that ties up at least two complementations and the identical bucking electrode to the adjusting of reference point (or ground), wherein clip identical bucking electrode at least between the electrode of two complementations, (clipping the electrode of the large-size that is not the complementation electrode pairing usually).Thereby, it is exercisable that the pass of at least the first reference point (or ground) ties up between first complementation electrode of at least two complementation electrodes and first bucking electrode, and to tie up between second complementation electrode of at least two complementation electrodes and first bucking electrode be exercisable in the pass of at least the second reference point (or ground).

In addition, it should be noted that, the structure of the identical typical embodiment that has just illustrated, it has the adjusting relation of at least two circuits to reference point (or ground), the identical Circuits System of a plurality of Circuits System part comprises that partly (the conduction insulation or isolated) at least one circuit comprises electric capacity at least, inductance or resistance to the adjusting relation of circuit, circuit is to the relation of circuit, and it is exercisable between at least two identical at least complementation electrodes.

Should also be noted that, at least one circuit is to the scope of each relative energy adjustment relation value of circuit energy adjustment relation value (electric capacity of measurement that for example can be used for each circuit part of a plurality of circuit parts), for the energy adjustment relation value (for example electric capacity) of same type is any value of 1% to 99%, and two circuits can be measured for various relations the energy adjustment relation value of reference point the circuit of the energy adjustment relation value of reference point.

Therefore, if new typical embodiment for example 6005 comprises at least two Circuits System part (for example the complementation electrode of at least two cover conductively-closeds to), a kind of typical embodiment as 6005 comprises that then at least 4 circuits are to the adjusting relation of reference point (or ground) and at least), at least two circuits are to the adjusting relation of circuit.This also makes at least 4 circuits in the adjusting relation of circuit at least one can be isolated with two circuits in the adjusting relation of reference point (or ground), and belonging at least the first Circuits System, Sheng Xia at least 4 circuits are regulated at least one that be left in the relation to two in the adjusting relation of reference point (or ground) and two circuits to circuit and can be belonged to the second circuit system respectively simultaneously.

At last, show outside public electrode part 798-1,798-2,798-3,798-4, they are at inner and its extension 79G-1 separately, 79G-279G-2,79G-4 conductivity connects (when needs) (not shown), also show at Fig. 2 B, and be connected with the current-carrying part 007 common conductivity shown in Fig. 2 C, it helps energy is utilized passage 845BA now, 845BB, 855BA, 855BB and 865BA, 865BB provides reference voltage point or common reference point (CNR), same by all 798-1,798-2,798-3,798-4, respectively by extension 79G-1,79G-2,79G-2 and 79G-4 by first group of electrode, comprise being labeled as 835,825,815,800/800-IMC, 810,820, the electrode that plays the bucking electrode effect among 830 and 840 the embodiment 6005.

This 6005 embodiment shielding construction part is helped realize by the common point of the electrode screening structure (first group of electrode by the property each other in an electrically conductive connection that is used for all C ' X ' of system constitutes) that produces or the conductivity connection of " ground connection ", has bigger current-carrying part 007, as mentioned above.

Should also be noted that, in the Circuits System shown in Fig. 2 C, as mentioned above, utilize multicircuit structure 6005, with the public 798-1 of connection of the conduction with common reference point, 798-2,798-3,798-4, CRN comprises at least the first device, be used to revolt the energy and at least the second device of the conductively-closed of a circuit, be used to revolt the energy of the conductively-closed of another circuit, and have the devices that are used to shield first and second devices, be used to revolt the energy of the conductively-closed of the capacitance network that constitutes by C2 and C1.Therefore, each capacitance network also comprise at least one circuit to line capacitance and two circuits to reference line or " GNG " electric capacity, each Circuits System is integrated into unit X2Y-1, an X2Y-2, shown in Fig. 2 A, for example in same class energy regulator, all these is because mutual shared result.(reference line is public current-carrying part 007, GND or reference potential 007, and it is shared mutually by C2 and C1, the part of the result of the excitation of (2) buffer circuit structure and their mixing materialization separately, as mentioned above).

Though Fig. 2 A has illustrated the part that invalid (null) arranges electric, it is at the phase differences that have at least 90 degree between C2 and the C1 during at electric operation, invalid position is considered to active during at least one energized condition electric, with respect to a system, for state another the non-excitation between C2 and C1 or excitation.

In this specific structure, though Fig. 2 A is in the physical angle of 90 degree, the angle of C1 and C2 is equal to each other, the angle of these 90 degree is not a restriction physically, launch for H field flux, even allow any other orientation of local electric invalid layout all to be considered to feasible, otherwise have injurious effects mutually, this has all been considered by the applicant.

For example, orientation that do not need to differ each other 90 degree of piling up by placement or arrange, and make them have a distance of vertically separating realize identical even the local invalid function that influences is satisfied.For example increasing additional layer of material 801, have or do not have additional-IMI-' X ' bucking electrode, is a kind of feasible way (not shown).

Therefore, the inoperative position right with respect to the circuit part of at least two isolation can be to spend to any position of 90 degree from 1, on electric relatively at least two even 3 position axis from each relative central point to 8 " XX "/-IMC center bucking electrode, so that produce the primary importance and the second place, thus the degree that influences each other or disturb between each the field flux position of both direction at least of determining that no effect relationship on electric and each buffer circuit part in new typical energy regulator thereof are right.

Thereby, with respect at least two or even 3 orientation axis, from relative central point to 8 " XX "/-IMC center bucking electrode, when typical energy regulator of excitation, then make to interactional energy field along the Circuits System part of each isolation to part or whole " invalid influences " can take place, according to all complementary bypasses and/or straight-through electrode channel, can in specific embodiment, operate, in " paired is electric opposite " bypass and/or straight-through electrode pair as complementation, any position in the physical orientation of at least 1 to 180 degree is with respect to the position of the insertion bucking electrode of typical energy regulator.

Described first group of electrode be conductivity connection mutually also, and become because 5 elements of first group of electrode link to each other jointly or as a uniform shielding construction, its to the conductively-closed electrode that receives physical shielding or energy channel at least two relatively each big side of part the masked segment of electrode equal number of the conductively-closed of each clamping is provided.

Therefore, Circuits System (C1) energy channel 845BA, 865BA are now and 845BB, 865BB complementary pairing, Circuits System (C2) is utilized complementation electrode 855AB and 855BB operation simultaneously, and dynamically is invalid each other, and the while is as the circuit of one group of two isolation.

Play the effect of a single cage shape shielding construction or group mask by 7 shielding elements 830,820,810,800,815,825 and 835 that utilize first group of electrode that mutual conductivity connects, first group of electrode provide the energy that utilizes complementary conductor 845BA, 865BA, 845BB, 865BB, 855AB and 855BB part physics and dynamically shielding (electrostatic screen).

Generally speaking, the physical relation of embodiment 6005 by setting up or produce a static complementation can operation and C2, C1 system, coupled, is considered to the Rankine-Hugoniot relations of the corresponding opposite orientation of a symmetry between the energy channel of two complementations.For example, in these relations because among the C2 to being energy channel 845BA, 865BA, and 845BB, 865BB respectively and pairing complementally, C1 utilizes complementary and corresponding counter-electrodes 855AB simultaneously, the complementary and correspondingly operation of 855BB.As two groups of paired Circuits System that comprise these paired electrodes, the group of paired Circuits System is the group that constitutes electric no effect relationship each other.In this example, the shape and size of shown all electrodes are basic identical, and basic generally coupling or corresponding each other makes and partly mates with their facing surfaces " face-to-face ".Needn't be all like this.

This be respectively C2 energy channel 845BA, 865BA and for the corresponding physics of a kind of balance between the complementary pairing of 845BB, 865BB and complementary relationship, C1 utilizes the operating with complementary relationship of corresponding physics of complementary electrode 855AB and the balance between the 855BB simultaneously.

Electric each other going up shown in Figure 2 is invalid operation, it makes the part of the energy that exists on the opposite side of given circuit system can become independently and is dynamic with respect to circuit (C1 or C2 are for example), yet because the group of paired Circuits System C1 and C2 energy was propagated in the identical time, it will be feasible or exercisable that the energy part of two opposite phases offsets each other.Simultaneously, these identical parts are utilized right one of the two pairs of C2 energy channels, and simultaneously, with respect to another dynamic relationship with the mutual complementation of balance, energy utilizes a pair of of C2 energy channel centering in the C1 of this system when excitation.

In general, the operation of typical energy adjustment apparatus is dynamic operation, so that in the part of a system of a plurality of Circuits System that are energized, to these and the outside energy that utilizes this AOC 813 is subsequently set up and keep the electricity of balance basically and maintainable complementation that advance to regulate operation.In each Circuits System (C1/C2 etc.), partly setting up a mutual h field each other in right energy propagates, it is according to repealing by implication by begin and comprise the rule that science that people such as faraday, Mike Si Weier, tesla, Einstein, cloth Lang Ke work sets up from Ampere's law all one's life, these laws all concentrated area are discussed, the opposite power of symmetry can be repealed by implication when interacting, and also can keep all energy partial dynamic ground to propagate.

Utilize the described embodiment will be, provide the composition of the capacitor layers that equates basically of constitutional balance (noting what " electric capacity of Xiang Denging basically " always needed in new typical embodiment) basically in the mode of the electricity of balance basically between the opposite paired energy channel of a plurality of circuit each in described embodiment.

Transformer also is widely used for providing common way (CM) to isolate, and transmits (DM) according to the differential mode that is added on its input, so that get in touch its winding and secondary winding with the mode of magnetic, so that attempt to transmit energy.As a result, the CM voltage on winding is ostracised.Intrinsic shortcoming is to propagate the electric capacity of the energy between winding and secondary winding when making transformer.When the frequency of circuit increased, capacitive coupling also increased, and circuit is isolated is at this moment compromised.If there are enough parasitic capacitances, then the RF energy of high frequency (fast transient, ESD, lightning etc.) can pass through transformer, and causes fault in the circuit of the opposite side in the isolated gap that receives this transition.According to the type and the application of transformer, can between winding and secondary winding, provide shielding.And this shielding that public energy channel reference point links to each other is designed to stop the capacitive coupling of overlapping between the windings more.

About new typical example structure, each circuit part of the circuit part of the complementation of bigger Circuits System pairing is used for Propagation of Energy, wherein these energy produce power fields.Because different from very close on physical structure, the energy of propagation proportionality with himself in the symmetric circuit portion paired of the complementation of Circuits System passage interacts.Therefore, these energy of propagating in proportion are with the interactional power of mutually opposite mode, thereby, as described in just now and since mutually near but the direction of propagation makes it repeal by implication mutually on the contrary.The paired electrode of the symmetry of the complementation of paired group is also to big Circuits System or utilize each circuit part of circuit part pairing of complementation of the independent Circuits System of the typical new embodiment that is energized that the opposite ohmic load function of internal balance is provided.Thereby typical embodiment also is used to simulate the function of transformer of at least one electrostatic screen of each Circuits System part of each embodiment.Typical new embodiment improves and reduces in the circuit part that needs transformer needs to transformer.In some applications, can utilize the transformer of the alternative every pair of Circuits System of energy adjustment ability at least one electrostatic screen partly of typical new embodiment.A new typical embodiment not only effectively utilizes public electrode shielding physics and relative and suppresses spurious portion, it also utilizes the relative location of its public shielding, (electrode or the circuit part of differential pairing right/layer) combination be connected with the conductivity of public conductive region so that play the effect of similar transformer effectively.The ifs circuit components of system as directed is owing to transition is broken down, and then the transformer function of such electrostatic screen of typical new embodiment can be used for transition inhibition and protection effectively, goes back differential mode and common-mode filter as combination simultaneously.Shield electrode structure can be connected with at least one public energy channel conductivity.

The exercisable energy regulator of a kind of multicircuit that directly piles up comprises the electrode structure that is made of two arrays of electrodes at least.First group of electrode channel of two arrays of electrodes passage comprises the electrode that is considered to be in the bucking electrode in the structure.First group of electrode channel can be consistent each other on physics, outward appearance, shape and size.In vertical or upright structure of piling up, the element of first group of electrode channel is provided with respect to another group superimposedly or locatees, and makes the edge 805 of periphery flush each other and aim at.Encouraging operating period, another public current-carrying part of the multicircuit structure of each energy regulator of at least 3 multicircuit energy conditioners is as circuit reference Point C RN, and as public connection can the position, be used for the ground connection of the shield electrode structure of all multicircuit energy conditioners.

In some cases, the multicircuit energy conditioner that piles up comprises the isolated multiple-pass unit part that does not need stacked mutually horizontal distribution toward each other or coplane.The operational capacity of specific embodiment is called as the adjusting of propagating along the complementation of each right energy part of paired measure-alike conductor and/or electrode and/or electrode channel in circuit structure, isolated two electrode pairs of most of situation, they separate physically, and/or are isolated by air or material with pre-determined characteristics at least.Then, carry out complementary energy for major part and partly propagate adjusting, they also are separated and/or isolate by inserting shared a plurality of energy conductor or electrode channel, as described in just now.It should be noted that, this structure is a kind of energy channel structure of ground connection, the shielding construction of a kind of public energy channel structure or a kind of Faraday cage as ground connection, be used to shield the energy part of utilizing complementary conductor and the complementary conductor of specific embodiment, perhaps the specific embodiment in circuit structure can be regulated and use DC, the adjusting energy of AC and AC/DC mixed type, they are propagated along the energy channel in energy system and/or the testing equipment.This comprises the specific embodiment that utilizes in certain embodiments or the circuit structure, so that regulate the energy in the system comprise many dissimilar energy part circulation ways, in the system that contains many kinds of circuit propagation characteristics, for example in same energy system platform.

The applicant's imagination is on public energy channel electrode 8 " XX "/8 " the X "-IM-C public electrode passage of aforesaid existing centralized positioning, the number that can increase sum is public energy channel electrode 8 " XX "/8 " the X "-IM-C that is positioned at the center of odd number, so that specific distinguishing characteristics is provided, its can increase or form comprising the multicircuit energy adjustment of different energy circuit.Shown in Fig. 3 A, Fig. 4 A and Fig. 4 C, exterior shield electrode-IMO ' X ' of She Zhiing in addition.Inner shield electrode-IMI ' X ' of She Zhiing (except 8 " XX "/8 " XX "-IM-C) is selectable in addition.Also conductivity connection mutually of the inside and outside bucking electrode of She Zhiing in addition, all other elements of center bucking electrode 8 " XX "/8 " XX "-IM-C and a plurality of bucking electrodes in last rest energy adjustment structure.Should be noted that the major part of described these relations just now was the position relation of bidimensional, and only describe, shown in Fig. 4 C by the situation of bidimensional.Be labeled as 806,814, the material that separates 801 of 814A, 814B, 814C, 814D or equivalence (the showing fully) spacing distance that separates be normally relevant with device.Referring to the section that Figure 10 provided of Fig. 4 C and back, the observer can notice other big vertical range and vertical separation relation (not completely shown), and this is described predetermined electrode and energy channel stack device (not completely shown).Shown in Fig. 4 C, if having only an additional shielding, then electrode 800-1 is inserted near the 800/800-IMC public electrode path, and the balance of shield electrode structure polarization will change, and the imbalance of polarity will take place to introduce.

Referring now to Fig. 4 C and Figure 11,, if two additional bucking electrode 800-1 and 800-2 are set, so that clamp the bucking electrode 800/800-IMC of Figure 11, then form stacked body shielding energy channel and/or the bucking electrode of 3 800 ' X ', with respect to additional shielding energy channel, and with respect to the reciprocal circuit of bucking electrode to keeping balance, for example in 19210 for the polarization of the shielding energy channel design of circuit operation function.When they are scheduled with respect to the bucking electrode stacked structure, by utilizing different distances and apart relation, it is labeled as 806,814 in the drawings, 814A, 814B, 814C, 814D (all not illustrating), also will utilize the influence of near spacing to aforesaid relation.

When using, remove outside 8 " XX "/800-IMC, have at least even number or a pair of IMI ' X ' and clip convenience center bucking electrode 800/800-IMC, shown in Fig. 4 A, 4B and Fig. 4 C, and in use, their common and a plurality of bucking electrode conductivity are connected, and comprise the convenience center bucking electrode 800/800-IMC in all static energy adjustment structures.Have or not additional internal shield electrode (#-IMI-X ') on the throne, all integers bucking electrode will be the odd number bucking electrode in whole energy barrier structure, be 1 at least.In contrast, first group of electrode or the total bucking electrode in whole energy adjustment structure will be odd numbers, be at least 3.The exterior shield electrode IMO-' X ' of She Zhiing makes the shield effectiveness of as a whole increase energy conditioner usually in addition.These electrodes help to provide additional shield effectiveness with respect to energy conditioner from outside and inner EMI, and can help not have-bucking electrode of IM ' X '-X ' mark, and it is the complementation electrode of an adjacent conductively-closed.In addition, except outside the bucking electrode 800/800IMC of center, the central electrode that it is designated as the central electrode of the whole electrodes that comprise energy conditioner and comprises the electrode of outside first electrode or bucking electrode, the remaining electrode of first group of electrode or the remaining electrode of a plurality of bucking electrodes equally and equably are divided into the opposite side of center bucking electrode 8 " XX "/800-IMC.Thereby, the group of the residue electrode of a plurality of bucking electrodes of present two symmetries (removing shared center bucking electrode 800/800IMC) has even number, but add with center bucking electrode 800/800IMC and to have odd number together, when property each other in an electrically conductive connection during, comprise a plurality of bucking electrodes of one work as a shared image 0 reference voltage current potential physical shielding structure.

For example, the typical coplane of utilization shown in Fig. 3 A, Fig. 4 A, Fig. 7 A or stacked/directly/situation of the embodiment that coplane mixes under, needing minimum odd-integral number to the major general is that 3 electrode is as bucking electrode.

For different embodiment, shown in Fig. 2 A and 8A typical, directly, isolated circuit part is set, needing minimum at least odd-integral number is that 5 electrode is as bucking electrode.

The minimum odd electrode of two covers is as electrostatic screen structure or device, be used for partly providing function of shielding static or dynamic to the energy of propagating, described energy part is propagated along two compositions right conduction energy channel part or electrode body part 80, and this conduction energy channel part or electrode body partly are sandwiched in also conductively-closed in the device that is used to shield.

For all piling up pattern, the static of an odd-integral number electrode or dynamic function of shielding take place when energy conditioner is energized, and an odd-integral number electrode that links together is connected with public current-carrying part conductivity, perhaps utilize the unwanted potential point conductivity of load circuit system to be connected with all energy to energy, described Circuits System comprises wherein corresponding Circuits System energy input and energy output channel.All pile up scheme the physical shielding function of an odd-integral number electrode when typical energy conditioner is energized or is not energized, all take place.

Referring to Fig. 3 A, wherein show another exemplary embodiments of multicircuit energy adjustment element 8005 with the form of the plane graph that decomposes.In this embodiment, a plurality of coplanar electrodes are arranged on the material layer 801.In a kind of structure of minimum, element 8005 comprises the first paired electric installation, be used to propagate the energy part of at least the first circuit, the second paired electric installation, be used to propagate the energy part of second circuit at least, the 3rd paired electric installation is used to propagate the energy part of tertiary circuit at least, and the device that is used to shield.The described device that is used to shield shields first, second, third paired electric installation, and these electric installations are individually in Propagation of Energy part each other.

The first paired electric installation that is used to propagate the energy part of at least the first circuit is provided by first cover complementary in pairs electrode 845FA, 845FB.Being used to propagate at least, the second paired electric installation of the energy part of second circuit is provided by second cover complementary in pairs electrode 845BA, 845BB.Being used to propagate at least, the 3rd paired electric installation of the energy part of tertiary circuit is provided by the 3rd cover complementary in pairs electrode 845CFA, 845CFB.

Be used for shielding respectively first, second and the 3rd paired electric installation (it is used for the Propagation of Energy part) and its device that shields is mutually provided by the electrode of a plurality of GNND of being referred to as.Specifically in a plurality of electrodes, each the right electrode in the paired complementary GNDD electrode (promptly 820,810,800) comprises the device that is used to shield, and is set at the precalculated position, and each is set at respectively on 801 layers of the materials.Half 845FA, the 845BA of the paired electrode of each corresponding pairing, 845CFA go up at material 801 layers (they are labeled as 845PA) and are provided with by copline, and are separated from each other.Corresponding second electrode of each corresponding pairing and corresponding paired electrode 845FB, 845BB, 845CFB goes up at another material 801 layers (they are labeled as 845PB) and is provided with by copline, and is separated from each other, and for example is set at the identical position on the second layer of material 801.

Complementation electrode 845FB, 845BB, the 845CFB of complementation electrode 845FA, the 845BA of first group of coplane, 845CFA and second group of coplane is distributed in a plurality of electrode GNDD.These a plurality of GNDD electrodes can be used as the bucking electrode operation, they are also (not completely shown by separately outer electrode part 798-1,798-2,798-3,798-4, but can be referring to Fig. 3 B) property each other in an electrically conductive connection, thereby a kind of structure or device as above-mentioned shielding is provided, makes a plurality of GNDD electrodes to operate to be used to provide at least the first and/or the public passage of the lowest impedance of the circuit energy part of second circuit system at least.

Therefore, the minimum electrode device that is used for the three-circuit system configuration can comprise the electrode of a plurality of electrode GNDD (conductivity connects mutually) and first group of coplane complementation, and they are separated from each other and conductivity connection mutually.Second group of coplane complementation electrode also is separated from each other and conductivity insulation mutually.This also makes paired electrode 845FA and 845FB and 845BA and 845BB and 845CFA and 845CFA, can be as the element in first and second groups of coplane complementation electrodes, they are corresponding separately each other from opposite orientation, and in device, still keep such position, make paired electrode 845FA and 845FB and 845BA and 845BB and 845CFA and 845CFA to be shielded mutually as paired electrode (non-coplanar).

Should be noted that 845FA and 845FB and 845CFA and 845CFA electrode are represented as straight-through electrode, and paired complementation electrode 845BA, 845BB are represented as bypass electrode.Coplanar electrodes can be almost any combinations of bypass and straight-through electrode, thereby are not limited to shown structure.

In another kind remodeling, electrode GND1 is arranged between the coplanar electrodes with coplanar relation, thereby when GND ' X ' electrode all is connected to public current-carrying part or above-mentioned passage, provide additional shielding and isolation, and strengthen public passage with minimum impedance to each Circuits System that connects.Electrode GNDD is connected with following outer electrode part 798-1-4 conductivity, and when utilizing the GND1 electrode of selecting, utilizes outer electrode part 798-1-6 like this, makes the mutual conductivity of all a plurality of electrodes that shielding is provided connect.In contrast, the every couple of electrode 845FA and 845FB and 845BA and 845BB and 845CFA and 845CFA be mutually in the conduction insulation, and and the electrodes conduct insulation of a plurality of GND ' X ' electrodes.

Though minimum three-circuit structure has been described above, can add additional electrode pair and coplanar electrodes layer, so that regulate the coupling of additional Circuits System.Referring to Fig. 3 A, notice that paired electrode 845CFA, 845CFB are the remodeling that is called as the straight-through electrode of the straight-through electrode of intersection.Though not shown, it is right to add additional coplanar electrodes.By respectively above the existing layer and/or below add additional GND ' X ' electrode and corresponding electrode coplane layer to 845FA and 845FB and 845BA and 845BB and 845CFA and 845CFB, can be to element 8005 interpolation additional capacitors.

Referring to Fig. 3 B, wherein show the energy conditioner 8005 that is in confined state.Outer electrode partly be set at regulator body around.Bucking electrode GNDD and GNDI comprise a plurality of extension 79G-1-6 (Fig. 3 A), and it is connected with a plurality of outer electrode part 798-1-6 conductivity.

Electrode 845FA, 835FA by the element that is again other paired electrode of mutual stacked while comprise two extensions 79 " XZ " or 79 " XX ", all on the opposite end, they are connected with outer electrode 891FA, 891FB conductivity respectively each (illustrated in Fig. 3 A but always be not label in addition).Electrode 845FB, 835FB by the element that is again other paired electrode of mutual stacked while comprise two extension 79f ' x ', all on the opposite end, they are connected with outer electrode 890FA, 890FB conductivity respectively each (illustrated in Fig. 3 A but always be not label in addition).

Electrode 845BA, 835BA by the element that is again other paired electrode of mutual stacked while comprise two extension 79B ' X ', all on the opposite end, they are connected with outer electrode 891BB conductivity respectively each (illustrated in Fig. 3 A but always be not label in addition).Electrode 845BB, 835BB by the element that is again other paired electrode of mutual stacked while comprise an extension 79B ' X ', all on the opposite end, they are connected with outer electrode 890BA conductivity respectively each (illustrated in Fig. 3 A but always be not label in addition).

By the electrode 845CFA of the element that is again other paired electrode of mutual stacked while, 835CFA comprises two extension 79CF ' X ', all on the opposite end, they are connected with outer electrode 891CFA, 891FB conductivity respectively each (illustrated in Fig. 3 A but always be not label in addition).By the electrode 845CFB of the element that is again other paired electrode of mutual stacked while, 835CFB comprises an extension 79CF ' X ', all on the opposite end, they are connected with outer electrode 890CFA, 890CFB conductivity respectively each (illustrated in Fig. 3 A but always be not label in addition).The extension and the outer electrode that should be noted that corresponding paired electrode differ 180 degree basically mutually, so that realize best energy payment.

The above embodiments have disclosed a kind of typical multilayer energy regulator or energy conditioner, the electrode that it is provided with by interpolation in stacked body 6005, and, provide the multicircuit coupling ability by adding coplanar electrodes in the coplane stacked body 8005.The remodeling of these embodiment is typical mixed tensor adjusting device 10005, and it provides the multicircuit coupling ability at least 3 circuit, shown in Fig. 4 A and Fig. 4 B.(wherein these multicircuit embodiment also can with predetermined way and more the Circuits System of minority be coupled.)

Referring now to Fig. 4 A,, wherein the form with the plane graph that decomposes shows a kind of typical energy conditioner 10005, and expression is that constitute or be set at each electrode layer above the material layer 801 by material layer 801, as mentioned above.Adjuster 10005 comprises first compensation device that is used to regulate first circuit, be used to regulate second compensation device of second circuit, be used to regulate the 3rd compensation device of tertiary circuit, and the device that is used to make first, second and the 3rd compensation device to shield mutually, make them to regulate independently.

First compensation device that is used to regulate a circuit is formed by first to be provided complementation electrode 845BA1,845BB1.Second compensation device that is used to regulate second circuit is formed by second to be provided complementation electrode 845BA2,845BB2.The 3rd compensation device that is used to regulate tertiary circuit is formed by the 3rd to be provided complementation electrode 855BA, 855BB.Be used for regulating first, second, third compensation device separately and its this device that shields is mutually provided by the 4th group of electrode that is referred to as GNDG, be similar to shown in Fig. 2 A.

In the first and second paired complementation electrodes, each right electrode is set on the precalculated position of ground floor material 801.Each right corresponding second electrode in the first and second paired complementation electrodes for example is set on the opposite same position of first electrode direction with respect to each centering of the first and second paired complementation electrodes of second layer material 801.First forms right complementation electrode 845BA1,845BB1, and second forms right complementation electrode 845BA2,845BB2, and the 3rd forms right complementation electrode 855BA, 855BB is distributed in the 4th group of electrode GNDG.The 4th group of electrode GNDG provides above-mentioned shielding construction, makes the 4th group of electrode GNDG can be used as bucking electrode operation, their each other conductivity connect, and provide as in conjunction with the described passage of the GNDD electrode of Fig. 3 A with minimum impedance.

First electrode 845BA1 of first group of electrode of coplane and the first electrode 845BA2 of second group of electrode are set at the top of the first electrode GNDG and the below of the second electrode GNDG mutually.Second electrode 845BB1 of first group of electrode of coplane and the second electrode 845BB2 of second group of electrode are set at the top of the second electrode GNDG and the below of third electrode GNDG mutually.The first electrode 845BA of the 3rd group of electrode is set at the top of third electrode GNDG and the below of the 4th electrode GNDG.The second electrode 855BB of the 3rd group of electrode is set at the top of the 4th electrode GNDG and the below of the 5th electrode GNDG, and direction is opposite with the first electrode 855BA.In this minmal sequence, each electrode insulation each other in an electrically conductive in first, second and the 3rd group of electrode, and and the 4th group of electrode GNDG conduction insulation.

Referring now to Fig. 4 B,, wherein shows under confined state mixed tensor adjusting device 10005 as discrete elements.Outer electrode partly be positioned at regulator body around.Bucking electrode GNDG comprises a plurality of extension 79G-1,79G-2,79G-3,79G-4 (being shown in Fig. 4 A), and they are connected with one group of outer electrode 798-1,798-2,798-3,798-4 conductivity.The first electrode 845BA1 of first group of electrode comprises extension 79BBA1 (being shown in Fig. 4 A), it is connected with outer electrode 890BB conductivity, the second electrode 845BB1 of first group of electrode comprises extension 79BBB1 (being shown in Fig. 4 A), and it is connected with outer electrode 890BA conductivity.The first electrode 845BA2 of second group of electrode comprises extension 79BBA2 (being shown in Fig. 4 A), it is connected with outer electrode 891BB conductivity, the second electrode 845BB2 of second group of electrode comprises extension 79BB2 (being shown in Fig. 4 A), and it is connected with outer electrode 891BA conductivity.The first electrode 855BA of the 3rd group of electrode comprises extension 79BA (being shown in Fig. 4 A), it is connected with outer electrode 893BB conductivity, the second electrode 855BB of the 3rd group of electrode comprises extension 79BB (being shown in Fig. 4 A), and it is connected with outer electrode 893BA conductivity.Notice that the outer electrode of the electrode part of connection or electrode part of extending and corresponding paired electrode differs 180 degree each other, thereby makes the energy payment.Notice that also differ 180 degree each other though corresponding paired electrode is represented as, every pair of circuit part of corresponding paired electrode group is different position relations.For example, first and second groups of electrodes that constitute first and second pairs of circuit parts respectively also are parallel to each other physically, when being energized with electric no effect relationship side by side.This is also referred to as electric parallel no effect relationship.In another example, the 3rd group of electrode also is the 3rd pair of circuit part, and it is 90 degree physically with respect to first and second pairs of circuit parts respectively.Thereby first and second pairs of circuit parts also are electric no effect relationship respectively with respect to second pair of circuit part when being energized.

Though shown paired electrode is a bypass setting, but be not limited to the embodiment of these and other, and can comprise bypass, straight-through, and/or any combination of the straight-through electrode pair of intersection, if desired, can easily carry out the position of outer electrode and the less adjustment of quantity.Notice that the electrode part of connection or the outer electrode of extension and corresponding paired electrode differ 180 degree each other, make energy to offset.

Though do not illustrate, shown in Fig. 2 A, Fig. 3 A, Fig. 4 A or other accompanying drawing, can can further be increased by adding more additional paired electrode and electrode GNDG by the electric capacity of the circuit part of 1,2 or all connections and each Circuits System (not shown) utilization, described in previous embodiment.Should be noted that distance between 845BA, 865BA, 845BB, 965BB increases will increase electric capacity, suppose that C2 and given less capacitor C 1 are opposite.

Referring now to Fig. 5 A～5D, Fig. 5 C～5D, Fig. 7 A～7B, Fig. 8 A～8B,, and referring to shown in each embodiment.These embodiment be represented as have definite shape embodiment, perhaps more particularly, be represented as the annular embodiment.Though energy channel or various electrode have definite shape, the dynamic power regulatory function embodiment with former respectively is identical, and is relevant with structure certainly.The something in common of the embodiment of they and front is, they all partly comprise various energy channels or electrode, they are as relative group, and constitute the part of paired Circuits System, can be by operation Propagation of Energy (not shown), described energy transmission utilizes the energy adjustment element, as the embodiment of front.

The embodiment that becomes definite shape for example wherein annular embodiment can be so that energy conditioner can be used in the different application, and for example motor and/or any energy regulator with given shape can increase the occasion of versatility of the possible connecting path of this discrete and/or non-discrete element.

Referring now to Fig. 5 A and Fig. 5 B,, the annular electrode layer 855BA on plane has been shown in Fig. 5 A, it has the circumferential body part 80 that is made of electric conducting material 799 that is set on the annular material part 801.Similarly, see Fig. 5 B, the annular electrode layer 855BB on plane has been shown in Fig. 5 B, it has the main part 80 of the one-tenth definite shape that is made of electric conducting material 799 on the material part 801 of the definite shape of being set at into.

In these parts of the embodiment of typical shape, for each electrode 855BA and 855BB, the main part 80 that ringwise material 801 also constitutes greater than ringwise electric conducting material 799.For each electrode 855BA and 855BB, edge, the neighboring 817-O of material 801 is greater than edge, the neighboring 803-O of electrode body part 799, and the outer hermetic section 814-O of formation, this is a part that does not have electrode material 799, along extending with at least one adjacent and parallel predetermined part of the edge, neighboring of electrode body part 799.The inner rim edge 803-1 of material 801 is less than the inner rim edge 803-1 of energy channel and/or electrode body part 799, and hermetic section 814-1 in forming, with shown in hole 000 adjacent mutually and extend abreast, and adjacent and parallel with the inner rim edge of energy channel and/or electrode body part 799.

The energy channel of the one-tenth definite shape of these embodiment and/or electrode comprise at least one energy channel extension (and/or abbreviating the extension as), it stretches out with respect to hole 000 corresponding to electrode 855BB, and extend internally with respect to hole 000 corresponding to electrode 855BA, and/or in other embodiments, can be respectively from electrode body part 80 simultaneously outwards and extend internally.

Shown in Fig. 5 A, 4 energy channels and/or extension 79-11,79-12,79-13,79-14 extend internally through the inner rim 803-1 of energy channel material part 799, by the inner rim 817-1 of interior hermetic section 814-1 to the material 801 that becomes definite shape with respect to hole 000.In contrast, shown in Fig. 5 B, extension 79-01,79-02,79-03,79-04 stretch out through the neighboring 803-0 of electrode body part 799, by the inner rim 817-0 of interior hermetic section 814-0 to the material 801 that becomes definite shape with respect to hole 000.

The another kind of a plurality of coplane energy channels of planar shaped remodeling is the energy channel that is arranged that is made of the coplane layer and/or by other the isolated coplane layer of corresponding layer constitutes with at least one, shown in Fig. 5 C and 5D.In Fig. 5 C and Fig. 5 D, the part 801 of having only 801 material layers and/or wherein having a through hole is annular.Specifically, in these embodiment layers, coplane energy channel and/or coplanar electrodes become the main part 80 of a plurality of shapings through being shaped.The same with disclosed all other energy channels and/or electrode, the part that becomes definite shape can be bypass and/or straight-through electrode part, have the part of bypass shape and the part of straight-through shape, mixed and/or be spaced, for example with same corresponding 801 material layer coplanes.

Referring to Fig. 5 C, the energy channel part 855AB1 of the shaping of a plurality of bypasses, 855AB2 is separated from each other and the orientation is provided with on the contrary, has equal size and dimension, and (as what disclosed) as shown in the figure is set on the material 801 of shaping.The shaped portion electrode 855AB1 of bypass has energy channel and/or extension 79-0B1, it stretches out along 803-0 with respect to the neighboring of hole 000 from the electrode body part 799 of 855AB1, and by outer hermetic section 814-0 to the neighboring of moulding material 801 along 817-0.

Once more referring to Fig. 5 C, the partial electrode 855AB2 that bypass is shaped has energy channel and/or extension 79-1B1, it extends internally along 803-1 with respect to the neighboring of hole 000 from the electrode body part 799 of 855AB2, and by outer hermetic section 814-1 to the neighboring of moulding material 801 along 817-1.

Once more referring to Fig. 5 C, energy channel part 855ACF1, the 855ACF2 of a plurality of straight-through shapings is separated from each other and the orientation is provided with on the contrary, has equal size and dimension, (as what disclosed) as shown in the figure, be set on the material 801 of shaping, be between the energy channel and/or electrode 855AB1 and 855AB2 of bypass.

Each straight-through electrode 855ACF1,855ACF2 have first energy channel and/or the first extension 79OCF1,79OCF2, respectively outwards and leave described hole and extend with respect to hole 000, and second energy channel, first energy channel and/or the first extension 791CFI, 791CF2, inwardly extend with respect to hole 000 respectively towards described hole.

Referring now to Fig. 5 D,, identical with coplanar electrodes layer 855AB1 basically shown in it, compare with Fig. 5 C, its difference is to differ 180 degree, and straight-through electrode 855ACF1,855ACF2 are reversed, be respectively 855BCF1,855BCF2 now, make when two-layer when stacked, direct shaped electrode passage at upper and lower is each other in to complementation.

Shown in Fig. 5 A, 4 energy channels and/or extension 79-11,79-12,79-13,79-14 extend internally with respect to hole 000, through the inner rim 803-1 of energy channel material part 799,, arrive the inner rim 817-1 of moulding material 801 by interior hermetic section 814-1.In contrast, shown in Fig. 5 B, extension 79-01,79-02,79-03,79-04 stretch out with respect to hole 000, through the neighboring 803-0 of electrode body part 799, by outer hermetic section 814-0, arrive the neighboring 817-0 of moulding material 801.

In Fig. 5 E and Fig. 5 F, show the another kind remodeling of the energy channel of planar shaped, the energy channel of each setting is formed on the part of 801 layers of materials, (note: energy channel wherein can be set on the part of other material to be made into the planar shaped material layer according to different orders, and/or for example as the part of an individual layer and/or in a sequence, and/or made regularly and be provided with, same for all typical embodiment shown here and/or that do not show, for nearly all new typical example structure, this situation is also arranged), they at least separately correspondingly interlayer isolate mutually, shown in Fig. 5 E and 5F.

In Fig. 5 E and Fig. 5 F, it is annular having only 810 material layers, and 801 parts have through hole.Specifically, in the layer of these embodiment, plane energy channel and/or plane electrode are made into the main part 80 of a plurality of shapings.As disclosed all energy channels and/or electrode, the electrode of shaping can be bypass electrode or straight-through electrode, has the structure of bypass shape or the structure of straight-through shape, mixing and/or isolate.

Referring to Fig. 5 E and 5F, wherein the energy channel 80 of 855AA and 855AB is very similar to the energy channel 80 of 855AB, the 855AB of Fig. 5 A and Fig. 5 B.The energy channel 80 of 855AA, 855AB is separated from each other setting, and direction is opposite, and size equates that shape is identical, is set on the moulding material 801.Extension 79-01 and the 79-02 of 855AA and 855AB are closely similar, and stretch out with respect to hole 000 with respect to the neighboring 803-0 of hole 000 from electrode body part 799, and by outer hermetic section 814-0, arrive the neighboring 817-0 of moulding material 801.

Once more referring to Fig. 5 E, extension 79-11 and the 79-12 of 855AA and 855AB are closely similar, and extend internally with respect to hole 000, and, arrive the inner rim 817-1 of moulding material 801 by interior hermetic section 814-1 with respect to the inner rim 803-1 of hole 000 from electrode body part 799.

Once more referring to Fig. 5 E, a plurality of straight-through shape portion of energy passage 855ACF1 and 855ACF2 be separated from each other be provided with and also direction opposite, size equates that shape is identical, is set on the moulding material 801 between bypass energy channel and/or electrode 855AB1 and the 855AB2.

Referring now to Fig. 5 F,, wherein show similar energy channel layer with Fig. 5 E, difference is to have rotated 90 degree, makes two-layer mutually when stacked, is in complementary over the ground at the energy channel and/or the electrode part branch of the shaping of upper and lower.Its difference is the orientation of each extension, and it allows the another kind remodeling of a kind of typical energy channel and/or electrode structure.

Referring to Fig. 6 A, Fig. 6 B, Fig. 6 C and Fig. 6 D, Fig. 6 A shows a kind of plane annular bucking electrode layer 800, has the circumferential body part of being made by electric conducting material 799 81 that is arranged on the annular material part 801.Similarly, referring to Fig. 6 B, Fig. 6 B shows a kind of plane annular bucking electrode layer 800, has the circumferential body part of being made by electric conducting material 799 81 that is arranged on the annular material part 801.

In these parts of typical shaping embodiment, for each electrode 800 and 800, the profiled body part 81 that the shown material with annular shape 801 is also made greater than electric conducting material 799.The neighboring 817-0 of each electrode 800 and 800 material 801 is greater than the neighboring 803-0 of electrode body part 799, and the outer hermetic section 814-0 of formation, this is a part that does not have electrode material 799, along extending with at least one adjacent and parallel predetermined portions of the neighboring 803-0 of electrode body part 799.The inner rim 817-1 of material 801 is less than the inner rim 803-1 of energy channel and/or electrode body part 799, and hermetic section 814-1 in forming, its with respect to shown in hole 000 adjacent and extend abreast, and adjacent and parallel with the inner rim of energy channel and/or electrode body part 799.

The shaping energy passage of these embodiment and/or electrode also comprise at least one energy channel extension (or abbreviating the extension as), for electrode 800, it extends internally with respect to hole 000, and/or in other structure, can be respectively simultaneously inwardly and stretch out from the part of electrode body 81.

As shown in Figure 6A, 4 energy channels and/or extension 79G-11,79G-12,79G-13,79G-14 extend internally with respect to hole 000, through the inner rim 803-1 of energy channel material part 799, by the inner rim 817-1 of interior hermetic section 814-1 to the material 801 that becomes definite shape.

In contrast, shown in Fig. 6 B, extension 79G-01,79G-02,79G-03,79G-04 stretch out with respect to hole 000, through the neighboring 803-0 of electrode body part 799, by the inner rim 817-0 of outer hermetic section 814-0 to the material 801 that becomes definite shape.

Shown in Fig. 6 C, 800 and/or 8 " XX " shielding passage is divided at least two shown public energy channels, it has paired extension 79G-I ' X ' (all not illustrating), it extends with respect to hole 000 is inwardly outer respectively, peripheral 803-' the X ' of each of process energy channel material part 799, by interior hermetic section 814-' X ', arrive the inside/outside periphery 817-' X ' of moulding material 801.In the time of in such shielding construction substitution Fig. 7 A, then obtain another embodiment.

Thereby, use the order formation of the energy conditioner of 800 and/or 8 " XX " shielding passage, for example it is characterized in that having first group of energy channel at least according to Fig. 8, it can be two 855AA among the essentially identical Fig. 5 E of size and shape, and they are conductivity mutually and connect.Second group of energy channel can be the 855AB ' among Fig. 5 F of connecting of two essentially identical mutual conductivity of size and dimension.In addition, in this example, the at least the first set of shield energy channel can be the COM1 ' shown in Fig. 6 C of connecting of the essentially identical mutual conductivity of 3 size and dimensions, and the second set of shield energy channel can be the coplane COM2 ' shown in Fig. 6 C of connecting of 3 essentially identical mutual conductivity of size and dimension.These energy channels are set up according to aforesaid mode and distribute (substitution Fig. 8 A obtains suitable energy channel layer respectively).Like this, can form a kind of structure, the first set of shield energy channel shields first group of energy channel and second group of energy channel at least, and the second set of shield energy channel shields second group of energy channel and first group of energy channel at least.In addition, the first and second set of shield energy channels (COM2 ' and COM1 ') are conduction insulation mutually in a typical embodiment, and/or even in different structures, they can be contemplated to be is that mutual conductivity connects.

Shown in Fig. 6 D, 800 and/or 8 " XX " shielding passage has extension 79G-O1, it does not interruptedly stretch out with respect to hole 000 singlely, through the neighboring 803-0 of electrode body part 799, arrives the neighboring 817-0 of moulding material 801 by outer hermetic section 814-0.

800 and/or 8 " XXs " the shielding passage opposite with 800 and/or 8 among Fig. 6 D " XX " shielding passage (all do not illustrate, just be labeled as C800 and/or C8 " XX " shielding passage---use " C " expression " opposite " 800 and/or 8 " XX " shielding passage herein) can have following order: the one 800 and/or 8 " XX " the shielding path of (energy channel generally has 801 material layers that are used for the spaced electrode part at least) Fig. 6 D, the back is the 855BA of Fig. 5 A, the next one is the 2 800 and/or 8 " XX " the shielding passage of Fig. 6 D, be the 855BB of Fig. 5 B then, be the 3 800 and/or 8 " XX " the shielding passage of Fig. 6 D then, be the part of the layer 008 or 801 of at least one (but also can be a plurality of if desired) material 801 part then, be a C800 and/or C8 " XX " the shielding passage of Fig. 6 D then, it is with described similar, it then is the energy channel of second 855BA class of Fig. 5 A, then be the 2nd C800 and/or C8 " XX " shielding passage with described similar Fig. 6 D, then being the energy channel of the 2nd 855BB class of Fig. 5 A, then is the 3rd C800 and/or C8 " XX " shielding passage with described similar Fig. 6 D.Certainly, the applicant has fully taken into account the various remodeling of this minimal structure, and but, in the example in many possible examples, the energy channel that spatially separates also can be according to this order.Should be noted that all conductivity connections each other of 800 and/or 8 " XX " shielding passage, all conductivity connections each other of C800 and/or C8 " XX " shielding passage.In the multicircuit device, 800 and/or 8 " XX " shielding passage and C800 and/or C8 " XX " shielding passage can conduct electricity insulation mutually, so that form a plurality of isolated public passages, as for example can be at the multichannel of under Low ESR, operating among the same typical embodiment.Should be noted that C800 and/or C8 " XX " shielding passage is in different structures even can be contemplated to conductivity each other and connect.

In the structure of utilizing one type the shielding passage that evenly is provided with, this is with different (for example Fig. 6 B).Certainly, typical obstacle is necessary to be configured as annular, and can be configured to the stepped construction of any three-dimensional, wherein can have or not have through hole.Thereby, for example the embodiment of Fig. 2 A can be set up have comprise 79G-1 ' and 79G-3 ' the shielding energy channel as one in the circuit structure low-impedance each passage, and other the shielding energy channel that comprises 79G-2 ' and 79G-4 ' can be used as another the low-impedance public passage in another circuit arrangement that links to each other.Structure that can have and circuit arrangement can be a large amount of.

Referring to Fig. 7 A and Fig. 7 B, wherein show a discrete embodiment 1005 of energy adjustment element, wherein the similar bypass electrode part of bypass segment shown in utilization and Fig. 5 C-5D as a kind of sequence of layer of typical minimum, is used for being coupled with a plurality of independent circuit.

Wherein show the coplane bypass main body electrode part 80 of the complementary pairing in the layer of arranging, it is set in the identical shaped bucking electrode 800,810,815 of a plurality of large-sizes.Each identical shaped main body electrode 81 of electrode 800,810,815 is formed on material 801 part 800P, 810P, the 815P as bigger electrode.Each coplanar electrodes layer comprises the main body electrode part 80 that 4 sizes equate, they have at least one extension 79-' X ' respectively.

Each coplanar electrodes layer is set between the main body electrode part 81 of two shapings that shield energy channel (from a plurality of shielding energy channels that comprise energy channel 800,801,815 at least) at least.Have a plurality of extension 79-' Xs ' adjacent with main body electrode part 81 from each bucking electrode of the shielding energy channel of a plurality of shielding energy channels, they from the hole 000 respectively inwardly and stretch out.The material layer 801 or 008 that is shaped is set at after the bucking electrode 810 of shaping, as last layer.

It should be noted that, according to the order of making, yet the energy channel of the shaping of the energy channel of the shaping of the first coplane layer and/or electrode 855BA1,855BA2,855BA3,855BA4 and the second coplane layer and/or electrode 855BB1,855BB2,855BB3,855BB4 are the corresponding opposite complementary pairs of direction.This takes place when additional area of considering respectively as people to be contributed by adjacent 79 ' X ' extension branch and shape.When not forming pairing when not considering adjacent 79 ' X ' extension in the mill, the energy channel of the corresponding shaping that divides each corresponding pairing from the energy channel or the electrode of each shaping and/or electrode are alignd edge 803 respectively by stacked.Therefore, have only 79 ' X ' extension of adjacency not receive the shielding that each ability shields passage, as mentioned above.

Referring now to Fig. 7 B and Fig. 5 A and Fig. 5 B,, a discrete embodiment 1205 of energy adjustment element can utilize the layer of Fig. 5 A～5B for example or Fig. 7 A, and minimum outer electrode sequence as shown in the figure is used to be coupled a plurality of independent circuit.

Show the energy adjustment element 1205 of the minimum stack sequence of a kind of Fig. 7 of utilization A.In the smallest tier sequence of Fig. 7 A, partial electrode 855BB1,855BB2,855BB3, the 855BB of each shaping of partial electrode 855BA1, the 855BA2 of each shaping of the first coplane layer, 855BA3,855BA4 and the second coplane layer have at least one extension, outer electrode 890A～the 894A of itself and himself links to each other, for inner extension, then link to each other with the interior electrode 890B～894B of himself.

Each extension, the outside is connected with the outer electrode partially conductive that is provided with along neighboring 817-0, and each inboard extension is connected with the interior electrode part conductivity that inner rim 817-1 along energy adjustment element 1205 is provided with.Shielding energy channel 800,810,815 with shaping of each shielding energy channel extension 79 ' X ' is connected with each outer electrode part 798-1,798-0 conductivity.

Referring now to the another kind of type of the energy adjustment element shown in Fig. 8 A, annular embodiment wherein shows energy adjustment element 1105, and this is a kind of minimum stack sequence, is used to connect one or several independent Circuits System at least.

In an example, the many typical embodiment that discloses as energy regulator comprises stacked energy channel (thereby all energy channels not only align, and they have equal size and identical shape to shield), their mutual conductivity connections.Identical and the electrode that comprise at least the first and second pairs of electrodes (all electrodes all receive the shielding from least two bucking electrodes that are held) of a plurality of size equal shape, they conduct electricity insulation mutually.The electrode of first pair of electrode is by conduction insulation mutually, and mutual direction opposite (being directly complementary opposite in many cases each other).The electrode of second pair of electrode also is like this.Any one electrode that is also noted that a plurality of stacked electrodes is all similarly greater than any one electrode of (another electrode of same group of electrode is also like this) second group of electrode.Pay special attention to, first and second pairs of electrodes are set up mutual shielding.They are paired opposite electrodes of direction.Require the lateral attitude of circuit part grouping to be increased in and separately and/or under the isolated condition becoming the dynamically effect of zero correlation during the dynamic operation mutually in the AOC 813 of typical embodiment with respect to another isolated circuit part grouping.The electrode assembly of above-mentioned energy regulator or energy pathway and/or energy regulator can also comprise the foregoing material with pre-determined characteristics, it makes a plurality of stacked electrodes and a plurality of electrode be divided into two groups of single electrodes at least through handling, and they have the material of pre-determined characteristics and/or the part of material is separated from each other by described.

Continuation is referring to Fig. 8 A, wherein show right annular electrode 855BA, the 855BB of first composition that is set in the 3rd group of annular electrode 800,810,815,820,825, and right annular electrode 865BA, the 865BB of second composition, their itself (under situation of this embodiment) is the shaped electrode of the 3rd group of annular electrode 800,810,815,820,825, is formed on the moulding material 801 that the size that is labeled as 800P, 810P, 815P, 820P equates.Each shaped electrode 800,810,815,820,825 has the part 79G-1 ' X ' and the 79G-0 ' X ' of a pair of extension, the inwardly outer extension from hole 000 respectively.

In straight-through/bypass structure, paired annular electrode 855BA, 855BB and 865BA, 865BB have at least one extension that label is 79 ' X '.Annular electrode 855BA, 865BA have at least two extension 79-11 and 79-12, and they extend internally with respect to hole 000, and annular electrode 855BB, 865BB have at least two extension 79-01 and 79-02, and they stretch out with respect to hole 000.

The electrode extension that is important to note that each electrode links to each other with outer electrode part 890A-894A, and the interior extension of each electrode links to each other with interior electrode part 890B-894B in the smallest tier sequence, shown in Fig. 7 A and Fig. 7 B.

Though do not illustrate, the connection electrode of paired electrode part and/or the extension predetermined angle that can stagger mutually, 90 degree for example, it is best to eliminate the effect of noise energy when 180 spend.

The different grouping of a plurality of electrodes is provided with in a predetermined manner and/or in proper order, makes it possible to connect one or several independent Circuits System at least.Each shaped electrode of first and second groups of annular electrodes is set between two annular electrodes of the 3rd group of electrode at least, thereby conductively-closed.Thereby, the shaped electrode 855BA of first group of annular electrode is arranged to be clamped between annular electrode 825 and 815, and conductively-closed, the shaped electrode 855BB of first group of annular electrode is arranged to be clamped between annular electrode 815 and 800, and conductively-closed, the shaped electrode 865BA of first group of annular electrode is arranged to be clamped between annular electrode 800 and 810, and conductively-closed, the shaped electrode 865BB of first group of annular electrode is arranged to be clamped between annular electrode 810 and 820, and conductively-closed.The layer of the shaping of material 008 is set at after the last shaped electrode 820, as shown in the figure.

The sequence of the minimum of piling up the device that 1105 of sequences are to become manufacturing shown in Fig. 8 A for example, it is used for the energy adjustment element, can link to each other with at least one or several independent Circuits System.In order to increase electric capacity, can increase the additional electrode pair of first and/or second group of electrode, as long as each supplemantary electrode is between two electrodes of the 3rd group of electrode, described the 3rd group of described electrode pair of electrode pair provides shielding, and as the minimum impedance passage of the energy of filtering, as mentioned above.

Referring now to Fig. 8 B,, wherein shows the energy adjustment element 1207 of the smallest tier sequence of utilizing Fig. 8 A.Each extension is connected with the outer electrode conductivity that is provided with along the neighboring of energy adjustment element 1207 and inner rim.The annular electrode of the 3rd group of electrode 800,810,815,820,825 all is connected with outer electrode part 798-1,798-0 conductivity, and also conductivity connection each other.In contrast, paired annular electrode 855BA, 855BB and 865BA, 865BB conduct electricity insulation mutually, and and the annular electrode conduction insulation of the 3rd group of electrode 800,810,815,820,825.

In another embodiment of the exemplary embodiments shown in Fig. 8 A and Fig. 8 B, (still use embodiment 1105 explanation designs, so that reduce the quantity of accompanying drawing), have annular energy channel and material part 801, can also comprise a plurality of holes as conduction, non-conductive through hole, perhaps as isolated conductive through hole, be labeled as 500-1,500-2,500-3 and 500-4---for instance.

Shown in the 3rd group of energy channel 800,810,815,820,825 each all utilize material 801-1 part and with the insulation of conductive through hole 500-1-4 conduction, material 801-1 part can also be shown in the figure or the part in the zone that is connected of the conductivity of unshowned prevention through hole and electrode simply.In typical embodiment, in a plurality of through holes one is connected with one annular electrode conductivity of first or second group of energy channel, and remaining a plurality of through holes of being scheduled to are connected with same electrode conductivuty as required or conduct electricity insulation.Thereby each through hole is connected with at least one complementary annular electrode conductivity in the minimal structure, and is connected with bucking electrode conductivity anything but.The structure that but also can have other.

In this embodiment, the electrode extension of first and second groups of energy channels is to select when circuit connects by the through hole realization.Be important to note that through hole can be made by solid conductive material, or can insert the hole of conductor therein.

Thereby above-mentioned new embodiment is applicable to electric system when comprising low pressure and high-tension circuit, wherein utilizes the shield electrode structure of balance, comprises (with respect to the shielding channel electrode) complementary channel electrode paired and reduced size.In addition, disclosed new straight-through embodiment also goes for comprising a plurality of electric systems of various low currents with regard to high electric current.It should be noted that, can also have many different types of combinations, the bypass and the straight-through energy channel of paired complementation that comprise the unidimensional paired equidimension of mixing, they are formed in electric going up on the contrary, and can be coplane, or that pile up and combination coplane, and the circuit of the complementation of coupling is logical, wherein utilizes described various energy part circulation way.

Referring to Fig. 9, should be noted that the various types of external conductive coupling part as energy channel and/or complementary energy channel can be utilized or and described just now embodiment combination together.The configuration of these external conductive coupling parts can comprise that the different passage in various outsides is connected with the conductivity of external connecting electrode part, for example the 498SF1 shown in the figure (T/B), 498SF2 (T/B), 490A, 490B.For example, each energy part 400,401,402,403 is propagated along the external channel (not shown), and enters typical embodiment shown in Figure 9.Note, 498SF1 (T/B) (it is a kind of straight-through energy transmission), a kind of possible connectivity scenario can make outside different energy pathway (not shown) terminate in top (with respect to the position among the figure) and bottom (with respect to the position among the figure) of the conductivity coupling part of 498SF1 (T/B).In such conductivity connects, the part of the energy of propagating continues to enter 797SF1A, and along 797SF1B output (not shown), this is the part by the complementary passage in inside of embodiment, so that carry out energy adjustment, continue from the bottom (with respect to the position the figure) 498SF1B output then, as shown in the bottom of Fig. 9, the beginning (not shown) along the described part of outside different-energy passage is connected then.This conductivity connects and the remodeling of energy part propagation scheme makes the part (not shown) of outside different-energy passage, it generally terminates in the inlet of embodiment, 498SF1T at Fig. 9, also be till now outside be connected, therefore below typical embodiment, propagate, as shown in Figure 9, therefore also pass through embodiment shown in Figure 9, between conductivity tie point 498SF1T and 498SF1B in inside.Therefore, make and in addition, can also keep utilizing the interior through-passageway of embodiment 19200 in the part of energy of propagation circuit or the outside by embodiment.Certainly, these propagation conditions are applicable to that also 498SF2 (T/B) connects side.

Figure 10 shows electric opposite complementation electrode to 497SF2 and 497SF1.Each complementation electrode comprises electrode 497SF2B and 497SF2A, 497SF1A and the 497SF1B of " division " respectively to 497SF2 and 497SF1, and it forms straight-through complementation electrode, comprises the part of the typical embodiment 19200 of Figure 10.The complementation electrode of original 497SF2 and each of 497SF1 " division " is set to so approaching in an embodiment, makes the complementation electrode 497SF2B of a pair of division and 497SF2A, 497SF1A and 497SF1B as a condenser armature 497SF2 and 497SF1 work---when they are determined on electric respectively.

497SF2B and 497SF2A, 497SF1A and 497SF1B comprise the unit that is made of two in-plant parallel thin energy channel primary electrode element 497SF2 and 497SF1.These pairs panel element or " desintegration energy passage " or " division electrode " 497SF2B+497SF2A and 497SF1A+487SF1B co-operation respectively, thus the opposite paired group of two complementary energy desintegration energy channel electrode " original " 497SF2 and 497SF1 limited on electric.These electrode members have increased greatly and can be used for total electrode crust surface portion of strengthening and reacting, and the circuit that has correspondingly increased typical excitation is the current handling capability of circuit 1A for example.By utilizing " energy pathway of division " or " electrode of division " to make to increase current handling capability, make multicircuit energy adjustment structure example increase minimum as total volume of 19200 with respect to having similarly total electrode surface area typically non-" desintegration energy passage " part or that have similar current handling capability.

Typically being similar to 19200 embodiment makes it possible to utilize these desintegration energy passages and/or division complementation electrode right, for example be set at 497SF2B+497SF2A and 497SF1A+497SF1B among the independent position 814B, have only several microns distance each other.Like this, the part of the feasible energy of propagating of this distance relation can be utilized these complementation electrode passages in such a way, so that utilize close division right, for example 497SF2B+497SF2A and 497SF1A+497SF1B, make in circuit 1A (not shown), to seem every component to split electrode be a single complementation electrode, thereby make that need not to dispose insertion additional bucking electrode therebetween just can realize.

When the division electrode structure increases the current handling capability of a pair of not energy channel group of division greatly, this feature also makes the low-voltage driving function of any embodiment further utilize the driven of energy channel structure and the current handling capability of equilibrium function and/or increase embodiment itself, realize this function simultaneously, reduce total volume, can keep the influence of various 499 electrodes and/or material elements, wherein also comprise various types of new embodiment environment.

The part of the feasible energy of propagating of electrode extension 49SF ' X ' is after external energy channel part (not completely shown) arrives, can utilize to be positioned at inner electrode and/or energy channel, described external energy channel part can connect with standard or industrial jockey in the future and/or standard or method of attachment in the future.

In order further to improve these embodiment, as shown in figure 10, make multicircuit in same multicircuit energy adjustment embodiment, have high low-voltage disposal ability, make and in same multilayer embodiment, can realize low pressure energy adjustment function and high-pressure energy regulatory function.

Therefore, some embodiment are applicable to be provided with simultaneously and comprise that the electric system part of high-low pressure is right, comprise that by utilization described right balanced shield electrode structure and minimum dimension are (with respect to shielding, channel electrode) electrode, excellent reliability can be provided, for example utilize measure-alike paired bypass structure shown in Figure 10 and paired bypass structure and electric opposite electrode.

Embodiment 19200 is made of the straight-through pattern of division electrode, it closely is provided with in this way mutually, making every component of electrode material split the complementation electrode plane generally comprises in complete 19200, have and the identical or smaller volume of the structure of non-division, but have higher efficient and bigger energy-handling capability.

Its difference is, wherein new embodiment uses less layer, occupy less position, and allow bigger energy carrying or energy part transmission capacity, allowing more conductivity connects, can handle simultaneously the multicircuit energy adjustment requirement of multipotency passage, but 19200 of new therein embodiment only is this little outstanding structure.

Therefore, in-plant division is to for example 497SF2B+497SF2A and 497SF1A+497SF1B, they can constitute " original " 497SF1 and 497SF2 jointly, be restricted to the energy channel of the reverse setting of the identical complementation of at least two size and dimensions, they by big at least shielding the energy channel part and/or electrode is separated from each other and/or isolated and shielding, described electrode is inserted into each other, can be in operation by in-plant division to for example 497SF2B+497SF2A and 497SF1A+497SF1B shared (big bucking electrode), they can constitute " original " 497SF1 and 497SF2 respectively, be used for energy adjustment and as the low pressure reference of circuit 2A, for example (not shown) in embodiment 19200 with for referencial use.

Referring to Figure 10, can see once more as the another kind of typical stacked energy channel of energy adjustment element 19200 and/or the combination of electrode and material 801.The outer connection electrode part that is labeled as 498SF2B, 498-1,498SF1A, 491A, 498SF1B, 498-2,498SF2A, 490A is represented by conductivity syndeton outside around the 19200 discrete institute main bodys each.A kind of similar 19200 typical multicircuit energy adjustment element can comprise two public connection electrode 498-1 in outside and 498-2, is used for being connected jointly with outside public energy channel or public energy part (all not illustrating).Straight straight-through outside symmetrical complement electrode 498SF1A+498SF1B and the symmetrical complement electrode 498SF2A+498SF2B (all not illustrating) of connecting is used for carrying out external differential passage conductivity with the first external differential energy channel (not shown) of first circuit pathways and the second external differential energy channel (not shown) and is connected.At last, bypass external connecting electrode 490A is used for carrying out differential conductivity with the third and fourth external differential energy channel of second circuit passage with 491A and is connected.

Each inner complementation electrode 497SF1,497SF2,455BT and 465BT (all not illustrating), they are comprised in each bucking electrode container 800 ' X ', and be set in the physical shielding structure 900 ' X ' of overlapping field energy and overlapping cage shape, now according to inner complementation electrode 497SF1,497SF2,455BT and 465BT describe, explanation can provide the ability of regulating along these electrode channels, and the direction in first or the second independent and/or isolated circuit, propagated of energy, as these symmetrical complement electrodes 497SF1,497SF2, when 455BT and 465BT are energized.

In the structure of excitation 19200, the part of energy that enters 19200 813AOC is in the instantaneous transmission that produces the zero impedance passage, described zero impedance passage is that the shield electrode structure 900B+900A+900C of interconnection and the shared combination that is arranged by branch constitutes, these electrode structures comprise 19200 part, has following whole improved electrode group: symmetrical complement electrode 455BT and 465BT (not shown), symmetrical complement electrode 498SF1A+498SF1B, symmetrical complement electrode 498SF2A+498SF2B, they are all at bucking electrode container 800C, 800D, in 800E and the 800F, constitute the shield electrode structure 900B+900A+900C of combination, they constitute an independent shielding construction (unmarked) shown in Figure 10 again.

Thereby, typical embodiment as 19200 can dynamically assemble rightabout energy (not shown) by operation in AOC813, these energy interact in the mode of harmonious complementation, simultaneously, help to produce and use the zero impedance state of active development, make that the part of energy can be along to outside public energy channel 6803 directions and to the external communication of 813AOC.Inner public electrode material 499G and along the part of the material 499G of the conductive surface setting that forms by 499G, they belong to each shielding public electrode 800/800-IMC, 810F and 820F, and the external conductive connection " 8 " X " bucking electrode; directly and indirectly help; when their simultaneously by C1; when the energy of C2 partly utilizes; by means of each opposite paired symmetrical complement electrode 465BT for example; 455BT, 497SF1 and 497SF2, they also utilize identical outside public energy channel 6803 with non-conductive ways of connecting, are used for the part and the circuit reference voltage of energy transmission.

Meanwhile, it should be noted that, 455BT and 465BT utilize 810F as bigger 810F bucking electrode simultaneously, in opposite specular mode between the bypass electrode of two opposite complementations electric, also make the energy part of propagating along this part of embodiment 19200 can move on the public energy channel 6803 or outside, it is shared for 455BT and 465BT complementation electrode.It should be noted that, two complementation electrodes of 455BT, 465BT on electric needn't with another function circuit serial operation, the electrode 497SF1 that the opposite paired size of described another function circuit utilization equates, 497SF2, they also utilize same public energy channel 6803, are used for carrying out simultaneously the propagation of the energy of other parts.

Certainly shared public energy channel/ internal electrode shield 820F, 810F, 800,810B and 820B propagates in the identical inside that constitutes 900B, 900C and 900A along the propagation of the 497SF1 of the exercisable second circuit system that size equates, energy part that 497SF2 moves.Extend 49 ' X ' (all not illustrating) and conductivity jockey 6805 by bucking electrode, utilize the some parts of the energy of public energy channel on public energy channel or outside public energy channel 6803, to flow out (below detailed description).

The propagation of each circuit that carries out from the part of the energy of external communication by described 19200 (not shown) just and regulate most of generation simultaneously after excitation, along the energy channel of each outer setting and the inner equal energy circuit passage/electrode pair (the electrode shape same size of every pair of electrode equates) of size, these parts of the energy of make propagating are moved along a plurality of directions of coplane setting in certain embodiments, and inner and between major part point (not shown) can carry out energy adjustment in described predetermined mode.

When described energy transmission takes place simultaneously, the other parts of energy are also propagated to the impedance path that is formed by the shared public energy channel/internal electrode shield in interactional inside, described electrode screening comprises inner shared coefficient public energy channel/ internal electrode shield 820F, 810F, 800/800-IMC, 810B, 820B, they constitute the cage shape shielding construction 900B of conduction, 900C and 900A, and additional and selectable 850F/850F-IM and 850B/850B-IM image/bucking electrode, wherein most of on electric with conductivity aspect different with two groups of electric opposite external energy circuit paths.Utilize the some parts (not shown) of the energy of public energy channel to extend the conductivity jockey 6805 of 49 ' X ' (not shown) and outside by means of bucking electrode from public energy channel or 6803 outflows of outside public energy channel.

Should also be noted that, can utilize the method that has isolated materials with function 801 isolate conductive jockeys and/or be used for public energy channel of public connection or outside public energy channel 6803, but but make to stop the part of the complementation electrode channels spread energy of function circuit 1A different and function circuit 2A on electric, join or short circuit with 19200 each that link to each other, wherein the physics of other external energy passage of utilization and different circuit or outside public energy channel 6803 contacts.

As shown in figure 10, the electric conducting material that is labeled as 6805 scolder or can be used for connecting, perhaps for example resistance cooperates the physical connection method or spring tension etc. also can provide with a part or with the conductivity of outside public energy channel 6803 and is connected, so that help public energy channel conductivity to connect also finally public reference voltage point or the image (not shown) of formation after excitation.

The coefficient public energy channel/internal shield electrode 800F that comprises the interconnection of internal shield, 810F, 800/800-IMC, 810B, the energy channel electrode screening structure (not completely shown) of 820B constitutes bigger conduction cage shape shielding construction 900B, 900C and 900A, and additional and 850F/850F-IM and the 850B/850B-IM image/bucking electrode selected, make in inside with respect to the energy channel of each group opposite complementation electric can form no-voltage or with voltage not offset (simultaneously for each circuit) with reference to or the plane of delineation, described energy channel is set on electric on the opposite side of energy channel electrode screening structure of (not completely shown) excitation that is not complementary energy channel.

Half utilization of each corresponding circuit 1A and 2A (not shown) and shared self-contained ability with the circuit reference voltage (not shown) that is provided with offer the electric required energy adjustment feature of right each of opposite complementary energy channel half that, make at electrode material element 455BT, evenly share each self-contained circuit voltage (not shown) between the electrode 497SF1 of 465BT and division and the electrode 497SF2 of division, they are positioned at 19200, on electric, be set to (to the element group of every pair of complementation) anti-each other mirror image mutually simultaneously, stride across inner shared coefficient public energy channel/internal electrode shield, it comprises the coefficient public energy channel/internal electrode shield 820F of inner shared interconnection, 810F, 800/800-IMC, 810B, 820B, they constitute the cage shape shielding construction 900B of the bigger grouping of conduction, 900C and 900A, and additional selectable 850F/850F-IM and 850B/850B-IM image/bucking electrode, it provides the internal shield electrode structure of interconnection physically, so that be included in the electric opposite right complementation electrode utilization of complementary energy channel of by each.

The position of the part of the passive regulating networks that Figure 10 and AOC 813 shown in Figure 9 and arrow mark form in 19200 embodiment of excitation is with shown in Figure 9 identical, for example, and the part of the potential-divider network of generation in the embodiment 1920 of excitation.Promptly; by utilizing for example embodiment 19200; it is connected (all not illustrating) with at least two independent energy circuit passage conductivity; the circuit of each connection depends on the independent energy of himself and the independent energy of himself utilizes load; being used for energy partly propagates; relative the be arrangeding in parallel of each circuit unit provides by each single complementary circuit passage; it is included in the electric passage of opposite paired complementation; to in an embodiment, operate; but under the protection and under the zero mutual convergence; its conductively-closed electrode structure shielding on electric basically; it makes interactive chance and advantage when the user can utilize the various circuit energy of two circuit elements; they effectively utilize the electrode material element and the various energy that dynamically takes place of static setting and partly propagate; it produces the RF1 containment of various types; make EMI energy minimum, parasitic energy suppresses and the repealing by implication of the mutual inductance in adjacent electric opposite energy channel.

It should be noted that, by Figure 10 and Fig. 9 as seen, be used for the energy from the outside is partly spread out of the complementary bypass channel that is positioned at the right side and comprises 491A, the position that the energy in the left side of 490A spreads out of a little differs 180 degree, the 498SF1A of while exemplary embodiments 19200, the position of 498SF1B and 498SF2A and 498SF2B electrode energy outlet/entrance differs 180 degree, 498SF1A+B and 498SF2A+B outer electrode keep the relation that is parallel to each other between the public energy exit portion of two 498-' X ' of the public energy channel 6803 of the public shielding construction in inside, this grouping 498-' X ' of energy exit point is relative with 180 degree, and the bypass connection electrode 490A that is arranged that divides is 90 degree or vertical position relation with 491A, the independent outside paired electric opposite complementary energy channel circuit 1A conductivity of the electric opposite complementation electrode channel circuit 2A that it is paired with not being the outside is connected described circuit 2A and 498SF1A+B, 498SF2A+B outer electrode conductivity connects.

The profile that Figure 10 provides illustrates other important distance and the relation of separating, and they are marked as 806,814,814A, 814B, 814C, 814D, when they are determined in advance with respect to vertical electrode, and the energy channel stack device.Should also be noted that, the pairing energy passage 498SF1 of opposite complementation, 498SF2,465BT, the direction of each energy channel of the grouping that the independent and/or isolated circuit of 455BT is paired is got 90 degree, perhaps and 498SF1A+B, 498SF2A+B, 465BT, 455BT is vertical mutually, utilize 498SF1A+B simultaneously in electric paired group on the contrary, the relation of 180 degree of 498SF2A+B, this is not only because convenience physically, but the null effect that network utilisation takes place on the H field energy, this is not conflict mutually generally, this be because, in this case, 90 degree are applicable to the propagation of energy part.

It should be noted that, the distance of separation of the most of element in device is with respect to each electrode channel structure that is included in the device, though for many multicircuit energy adjustment is not absolute necessary, so that remain on the Balance Control in the specific circuit system, the distance relation of these materials should evenly distribute in an embodiment.

To these paired spaces or the big change of distance or the experiment that conflict carried out checking abnormal conditions of material, described abnormal conditions are harmful to the circuit balancing of most of embodiment.

Distance of separation 814 is a relative predetermined three-dimensional distance or compartments, it is respectively at bucking electrode energy channel container 800C, 800D, 800E, measure between the 800F, described container comprises the complementation electrode 800F for example of the division of single or grouping, it comprises public shielding 810B, 820B, and comprise complementary energy channel 494SF2, comprise along the part of the surface adjacency of the electrode material of these structures, it also can be in an example or at for example 810F, find in the part that 820F for example limits under the energized condition among the 800F, comprise public shielding 810B, 820B, and comprise complementary energy channel 465BT, comprise that along the part of the electrode material surface adjacency of these structures, its energy that will influence in the part that is present in such qualification under energized condition is partly propagated, as shown in figure 10.

Distance of separation 814A is the part of three-dimensional distance of separation, perhaps, for example comprise the interval insulant or the pad of thin material 801 or other type in a plurality of adjacent public electrode material passage spacing between public electrode passage 820B and the public electrode channel image shielding 850B/850B-IM for example.

Distance of separation 814C is for example public electrode passage 820B and the complementation electrode passage distance between the complementation electrode passage 465BT for example of public electrode passage.Distance of separation 814B is the vertical range between complementary the energy channel complementary energy channel 497F1A, the 497SF1B that for example divide of division.

Take place simultaneously in the volume that is combined in shield electrode structure of these uniquenesses of dynamic and static power, and because it uses the pipeline of accomplishing the public energy channel different with complementary passage.Therefore, by utilizing and the distance and the energy channel material 801 of combination physical component, non electrically conductive material, between the energy field various rules of separating, and the interior dynamic power relation of the circuit path that occurs in excitation, new device and multicircuit energy adjustment ability is provided.

The opposite complementation electrode 497SF1 and the 497SF2 electric of division, it comprises that one forms right measure-alike electric conducting material part, as paired opposite complementation electrode.It is right that these two measure-alike electric conducting materials or electrode part constitute one group 4 different two unit that closely separate together, comprise thin electrode member 497SF1A, 497SF1B, 497SF2A, 497SF2B, separate by parallel relation by interlayer material 801 respectively.More particularly, electrode material 497SF1, the 497SF2 of each conduction or energy channel comprise closely the separately a pair of thin conductive plate element 497SF1A of branch, 497SF1B, 497SF2A, 497SF2B, and it doubles total conductive surface part of paired electric opposite 497SF1 and the complementary energy channel of 497SF2 effectively.It should be noted that, similarly each public bucking electrode does not comprise that the thin public bucking electrode element that closely separates accordingly is right, because these shield electrode structure elements of these bucking electrodes do not need to double total electrode surface part, because utilize this structure, the shield electrode structure element, it comprises bigger general shield electrode structure, and stacked hierarchical sequence is not handled energy, mainly inputs or outputs the identical of energy part propagation ducts and prior art.In addition, the shield electrode structure element for example is utilized in 19200 or 19210 at embodiment, in most of the cases, and as the public additional energy transmission passage that is not the external energy passage.

At electrode member the spacing 814B between 497SF1A, 497SF1B and 497SF2A, the 497SF2B is wished minimum, the for example big order of magnitude about 1.0 mils, to any spacing that makes it possible to operate, most of relevant current manufacturing franchise that has and electrode material energy process performance can access required effect, and can between public energy channel electrode 810B, the 497SF2A+497SF2B of the mutual equidimension that is provided with, find apart from 814C and 814, for example 820 in fact greater than spacing 814C.

The size of conductor part of electrode channel that should be noted that the division that each is paired is similar substantially, but preferably identical with the electrode of the pairing of its division, therefore, the two plates that are labeled as 497SF2B and 497SF2A, 497SF1A and 497SF1B are distinguished mirror image each other.But, electrode pair 497SF2 and 497SF1 that electric opposite size equates, it comprises 497SF2B and 497SF2A, 497SF1A and 497SF1B respectively, is considered to respect to it at the embodiment opposite each other on the whole mirror image in position in 19200 for example.

The manufacturing sequence of these specific energy channel structures of formation of one of them actual embodiment 19200 is described with the 19200A of a kind of discrete pattern of Figure 10 below.At first, carry out the deposition or the setting of material 801, be provided for forming the electrode material layer 499G of 850B/850B-IM then, then form thin layer or the spacing 814A of material 801 or 801 ' X ', deposition of electrode material layer 499G is used to constitute bucking electrode passage 820B then.Form layer of material 801 then, be used to constitute spacing 814C, form electrode material layer 499G then, be used to constitute energy channel 497SF2A, the spacing that then forms thin layer 814B or constitute by material 801 or 801 ' X ', then form the 499G electrode material layer, be used to form energy channel 497SF2B, then form the layer 814C that constitutes by material 801, electrode material layer 499G then is set, be used to constitute bucking electrode passage 810B, form the layer 814C that constitutes by material 801 then, then form one deck electrode material 499, be used to form energy channel 497SF1A, the spacing that then forms the 814B thin layer or constitute by material 801 or 801 ' X ', then form another electrode material layer 499, be used to form energy channel 497SF1B, form the 814C layer of material 801 then, form electrode material 499G layer then, be used to form bucking electrode passage 800/800IMC, it also is for example 19200 a shared center shield electrode structure balance point of exemplary embodiments, the 814C layer of material 801, form 499 electrode material layers then, be used to form bypass electrode passage 455BT, then form the 814C sedimentary deposit of material 801, form electrode material 499G layer then, be used to form public energy barrier electrode channel 810F, 814C material 801,499 electrode material layers, be used to form bypass electrode passage 465BT, form 814C material 801 then, form public energy barrier electrode channel 820F then, then form the thin layer of material 801, form electrode material 499G layer then, be used to form public energy barrier electrode channel 850B/850B-IMO, deposit at last or material 801 is set, thereby comprise that the physics of some main institute's base layer structures and 19200 piles up the support component of composition.

Referring to Figure 11, wherein show the remodeling of channel design shown in Figure 10 19200, Figure 11 represents the remodeling 19210 of embodiment, be represented as first couple of bypass electrode 455BT, 465BT is divided straight-through electrode channel 497F4A and 497F4B, and 497F3A and 497F3B replacement, 19200 bottom (with respect to the position among the figure) comprises 497F1A simultaneously, 497F1B and 497F2A, the straight-through electrode channel of 497F2B division electrode forms the energy conditioning circuit element, as embodiment 1920, can be connected with the electric opposite complementary energy channel circuit conductivity of two independent outsides.The conductivity that comprises two independent energy channels connects as shown in figure 12, and this is the vertical view (with respect to the position of figure) of a complete energy conditioning circuit element 19210A.

Referring now to Figure 12,, device 19210 shown in Figure 11 is represented as a finished product energy adjustment element now, it has the element of device 19210A at least, be installed in now PCB the layer 6808 on (being expressed as the part of big outer circle), described PCB has the energy channel or the track (not shown) of outer opposite, be used to connect each energy utilize load and shown in the energy.External connecting electrode 498-1,498-F1A, 498-F-2A, 498-2,498-F4A, 498-F3B, 498-3,498-F1B, 498F-2B, 498-4,498-F4B and 498-F3A, each is according to its external connecting electrode structure label separately around the element body of Figure 12.Below layer 6806, PCB comprises public energy channel and circuit voltage image reference node CRN (not shown) by isolated second current-carrying part of barrier material 801 or layer or public energy channel 6803 (being expressed as the parts of big squares in the circle 6806), and it is by isolated 801 (not completely shown) and layer 6806 isolation.The energy adjustment element comprises 4 outside connecting bands or electrode 498-1,498-2,498-3,498-4 as 19210, and each and outside public energy channel or part 6803 be by the conductivity jockey, conductive hole or filling channel 6804 (not shown) that link to each other.Conductive hole or filling channel 6804 utilize hermetic section 6804B and layer 6806 to completely cut off.Propagation below by energy adjustment element such as 19210A explanation energy part.

Referring to first circuit that links to each other with energy adjustment element such as 19210A, energy part with energy Flow arrow (does not all illustrate) propagation from the energy 1 along energy channel, stride across straight-through external connecting electrode 498-F1A, external connecting electrode 498-F1B on along the straight-through electrode channel 497F1A-B of division to the opposite side of element 19210A utilizes load 1 along external energy passage (not completely shown) to energy.

Then, the part of energy from energy utilize load 1 along energy channel (not completely shown) to external connecting electrode 498-F2A, pass through AOC, external connecting electrode 498-F2B on along the straight-through electrode channel 497F2A of division and 497F2B to the opposite side of element 19210A gets back to the energy 1 along external energy passage (not completely shown) then.

Referring to first circuit that links to each other with energy adjustment element 19210, energy part with energy Flow arrow (does not all illustrate) to external connecting electrode 498F3A from the energy 2 along energy channel to be propagated, opposite side along the straight-through electrode channel 497F3A-B of cross division to element 19210A utilizes load 2 along external energy passage (not completely shown) to energy.

Then the part of energy from energy utilize load 2 along energy channel (not completely shown) to external connecting electrode 498-F4A, by the external connecting electrode 498-F-4B of AOC on, return the energy 2 along external energy passage (not completely shown) then along the straight-through electrode channel 497F4A of division and 497F4B to the opposite side of element 19210A.

When providing bright in general to the major part of the energy by energy adjustment element 19210A in the above, the regulatory function of mandatory declaration element also.Thereby, lead directly to the energy part (not shown) of electrode channel 497F1A, 497F1B, 497F1A, 497F1B propagation by electrostatic screen and physical shielding along division, avoid inside and outside influence, they are shielded by inside shared coefficient public energy channel/ internal electrode shield 820F, 810F, 800/800IMC, 810B, 820B, these shielding elements constitute conduction cage shape or cage type shielding construction 900B, 900C and the 900A of bigger grouping, and additional and selectable 850F/850F-IM and 850B/850B-IM image/bucking electrode.

While has along the magnetic field or the H field of the direction of propagation according to Ampere's right-handed screw rule along the energy part that divides straight-through electrode channel 497F1A, 497F1B and 497F1A, 497F1B propagation launches.This magnetic field is offseted by the opposite magnetic field part ground that the energy of 497F1A, 497F1B and 497F1A, 497F1B being propagated in opposite direction along the straight-through electrode channel of division correspondingly partly produces.

Division straight-through electrode channel 497F4A, 497F4B and 497F3A, 497F3B, they are so constructed, and make the part of Propagation of Energy with respect to becoming an angle of 90 degrees by the part that divides the Propagation of Energy that straight-through electrode channel 497F1A, 497F1B and 497F2A, 497F2B receive.497F4A+497F4B that the straight-through electrode channel of division is for example paired and 497F3A+497F3B and straight-through electrode channel 497F1A+497F1B of remaining division and 497F2A+497F2B, they divide electrode pair as each, become an angle of 90 degrees, each magnetic field energy part of propagation is had minimum influence each other, thereby make current potential influence to each corresponding capacitor C 1 and/or C2 exist hardly or be invalid.

The other parts of energy are propagated to coefficient public energy channel/ internal electrode shield 820F, 810F, 800/800-IMC, 810B, the 820B of the shared interconnection in inside, they constitute cage type shielding construction 900B, 900C and the 900A of the bigger grouping of conduction, and additional and selectable 850F/850F-IM and 850B/850B-IM image/bucking electrode, then by public conductive hole or filling channel 6804 by respectively and the concentrated area be connected with outside public energy channel or part 6803 conductivity.This multiple spot in the bucking electrode passage of grouping connects can strengthen the utilization of reference voltage node, and guarantees to produce when excitation the low-impedance passage with respect to the passage of higher resistance.The shared Low ESR energy channel of multicircuit components of system as directed is helped to provide the adjusting of other energy part of the overvoltage of utilizing circuit 1/1A and circuit 2/2A and surge protection.Should be noted that between every pair of electric opposite electrode part is divided energy adjustment not only in AOC between them balance, and also balance of the reference voltage node that utilizes with respect to each circuit 1/1A and circuit 2/2A.

Referring now to Figure 13 A and Figure 13 B,, wherein show the another kind remodeling of bucking electrode channel part and layer, be labeled as GND ' X "; this former not explanation; it comprises isolated and energy channel material elements conduction of the layer of one or several embodiment; as shown in FIG. 13A, they are set at together in many structures then, and Figure 13 B shows one of them example.The energy channel layer of shielding can be made into the insulation/shielding energy channel layer of planar shaped, be labeled as GNDA, GNDB, GNDC, GNDD, GNDE, GNDF, GNDG, GNDH, in Figure 13 A, illustrated, and comprise 799 and the part of material 801, be used for insulation/shielding energy channel layer, they form the combination (Figure 13 A and Figure 13 B show the example of some possible combinations) of different layers.

In Figure 13 A, each insulation/shielding energy channel layer GNDA-GNDH comprises by barrier material or medium 801 or isolated with the 814 shielding channel materials 799 of local envelopment at least, and (its be not conductively-closed energy channel material cover along the area at the energy channel edge 805 of the stacking material 801 that exposes or the part of distance).Should be noted that the shielding channel material is not special, various known and electric conducting material the unknown in the prior art all can use, and comprises electromagnetism and ferromagnetic combination mixture etc.It should be noted that, various materials, its be applied conductiving doping, utilize certain type catalyst and the electric conducting material chemically made, it makes the material (not shown) have conductive characteristic or performance, for use in energy transmission, and can identical with the electric conducting material of described complementation (not shown herein).

Remove outside insulation/shielding energy channel layer GNDF, each insulation/shielding energy channel layer GNDA, GNDB, GNDC, GNDD, GNDE, GNDG, GNDH have two or more energy channels elongated area and (are labeled as 79-GND ' X ', with attached part of the conduction of various outsides and/or current-carrying part, being called as 798-' X ') it helps and the public conductive region or the public energy channel realization conductivity of GND ' X ' current-carrying part outside of GND ' X ' layer are connected.Energy channel extension 79-GND ' X ' is the part of shielding channel material 799, it extends into and the energy channel edge 805 by shielding the channel material border or shielding channel material 799, and by the border around the material 801, and the outer edge 817 of insulation/shielding energy channel meets, then be connected with 798-GNDB conductivity/termination portion or conductivity jockey meet.

Referring to Figure 13 B, it shows the matrix with 5 row, 4 row, and this 5 rower is designated as A, B, C, D, E, and wherein each square frame of this matrix comprises at least one insulation/shielding energy channel layer.A kind of different structure of insulation/shielding energy channel layer is shown in each tabulation, in the structure of piling up that they are used in two pairs of dielectrics/complementary energy channel layer (not shown) makes up.In this structure, an insulation/shielding energy channel layer of first pair of insulation/shielding energy channel layer is stacked between insulation/shielding energy channel layer among capable A and the B, and the second insulation/shielding energy channel layer of first pair of insulation/shielding energy channel layer is set up between insulation/shielding energy channel layer among be expert at B and the C.Similarly, an insulation/shielding energy channel layer of second pair of insulation/shielding energy channel layer is stacked between insulation/shielding energy channel layer among capable C and the D, and the second insulation/shielding energy channel layer of second pair of insulation/shielding energy channel layer is set up between insulation/shielding energy channel layer among be expert at D and the E.

The minimum number of row 2 expression insulation/shielding energy channel layer GNDB (in this example), it can be used for two and forms right dielectric/electric opposite complementary energy channel layer (not shown), make the opposite complementary energy channel layer of each dielectric/electric have at least one insulation/shielding energy channel layer GNDB that is set at the opposite complementary energy channel layer top of each dielectric/electric and at least one and be set at insulation/shielding energy channel layer GNDB below the opposite complementary energy channel layer of dielectric/electric.It should be noted that, the inner public passage of 79-GNDB that the GNDB layer has 4 unit extends, they make it possible to realize that with the 798-GNDB external conductive of 4 unit part or conduction termination portion or public jockey conductivity is connected, and this makes it possible to what be positioned at inner and a part that comprise typical new embodiment is not that outside the 3rd energy channel realization conductivity of at least two electric opposite complementary energy channels is connected.

The another kind of structure of row 2 expression insulation/shielding energy channel layer GNDG, wherein first and second dielectrics of every pair of dielectric/electric complementary energy channel layer on the contrary/electric opposite complementary energy channel layer only by an insulation/shielding energy channel layer GNDG separately.But, every pair of dielectric/electric opposite complementary energy channel layer has at least two insulation/shielding energy channel layer CNDG that are arranged on the top of every pair of insulation/shielding energy channel layer, and every pair of dielectric/electric opposite complementary energy channel layer has at least two insulation/shielding energy channel layer CNDG that are arranged on the below of every pair of insulation/shielding energy channel layer.

Row 3 expression GNDA shielding energy channel layers, another embodiment of its expression insulation/shielding energy channel layer, removing at least two additional insulation/shielding energy channel layer GNDA clips outside the public conduction and public shielding energy channel at first center now, it generally is set between every pair of dielectric/electric opposite complementary energy channel layer, and all the other are identical with the quantity shown in the 2nd row.Now, two additional public shielding energy channel layer GNDA have been inserted, public and the mutual shared shielding energy channel layer in first center, have at least two circuit that 3 different public shielding energy channel layers are separately operated in the AOC of new embodiment, they are shared shielding energy channel design simultaneously.(seeing capable C) about the detailed description of this structure referring to Fig. 9.

The another kind of possible structure of row 4 expression insulation/shielding energy channel GNDA, it can be operated any shielding energy channel group or kind.About row 4, they are different with row 3, replace 3 shielding energy channel GNDA that are positioned at the center, it also can have the configuration of Fig. 4, has only an insulation/shielding energy channel layer GNDB (seeing capable C) who is set between every pair of dielectric/electric complementary energy channel layer on the contrary now.

Being expert at, GNDA is different for the insulation shown in the C row 4/shielding energy channel layer GNDB and other insulation/shielding energy channel layer.Insulation/shielding energy channel layer GNDB has 4 energy channel elongated areas that are used for external conductive coupling part 798-GNDB (not shown).Should be noted that this structure produces many circuit structures that are included among the typical new embodiment.For example, be positioned on the side of GNDB layer and the additional 79-GNDB electrode of two on the GNDA both sides or the energy channel extension needn't utilize two 798-GNDB (not shown) external energy passages to extend or public end on structure or public jockey are connected with public outside the 3rd energy channel or regional conductivity not.Two additional 79-GNDB (not completely shown) energy channel extension that is connected with external conductive coupling part 798-GNDB (not completely shown) conductivity can conductivity be connected to the independent function source that has, this makes circuit reference voltage or image to be conditioned with respect to shared circuit reference voltage, is not utilized by a pair of independent different embodiment circuit path when described reference voltage links to each other with the energy in described two external conductive coupling parts at first.Thereby, can constitute the active/passive energy adjustment embodiment of many mixing.By utilize the 99-GNDB extension or even directly conductivity connect any part of shielding energy channel and 996-GNDB current-carrying part or conduction termination portion or conductivity jockey (not completely shown) it be not that the energy channel (not shown) and/or the public energy channel (not shown) of two groups of opposed complementary is shared on electric to shielding energy channel 800/800-IMC-GNDB to additional isolated energy channel (not shown), optionally connect or do not connect GNDB shielding energy channel, the user can apply a voltage or energy-bias and/or charging to shielding energy channel 800/800-IMC-GNDB, and it will jointly and side by side be utilized the energy part of propagating by the one or more isolated circuit part in the AOC part that is included among the new embodiment.

In order further to make the predetermined excitation biasing activation of shielding energy channel (not shown); Optionally connect or unconnected GND ' X " shielding energy channel by utilizing; By means of 99-GND " X " extension or even any part of direct conduction connection shielding energy channel to 998-GND " X " current-carrying part or conduction termination portion or electric conductivity jockey (not completely shown) to shielding energy channel 8 " XX "/8 " XX "-IM " X "-GND " X " (not shown) to additional isolated energy channel (not shown); It is not that energy channel (not shown) and/or the public energy channel (not shown) of two groups of opposed complementary shares on electric; The user can apply a voltage or energy-bias and/or charging to shielding energy channel 8 " XX "/8 " XX "-IM " X "-GND " X " (not shown), and it will jointly and side by side be utilized the energy part of propagating by the one or more isolated circuit part in the AOC part that is included among the new embodiment.

Note, by means of 99-GND " X " extension or even any part that directly connects the shielding energy channel to 998-GND " X " current-carrying part or conduction termination portion or conductivity jockey (not completely shown), according to application-specific, conduction and shielding energy channel design can selectively periodically be converted to the biasing connection and setover and disconnect.Thereby, start and/or the non-startup of setovering can change its behavior and electrical characteristics for the biasing of the excitation of the excitation of the shielding energy channel design of typical embodiment, and the energy different regulating effect partly that utilizes the circuit path independent and that comprise in the AOC of new typical embodiment to obtain, select opposite for the biasing of similar shielding energy channel design (not shown) and possible non-excitation.Be important to note that, this shielding energy channel design of 99-GND heterogeneous " X " extension not only ranges the shielding energy channel that the center is provided with, the biasing of expecting any predetermined excitation of shielding energy channel starts, by utilizing for example 998-GND " X " of isolated outer electrode part of connection or external energy channel part, this is fully among applicant's expectation.

Referring to Figure 13 B and Figure 13 A, it should be noted that, the example of the GNDA-GNDH layer shown in the certain position of the mixing any different or components identical of GND ' X ' structure of two types and coupling and various insulation/shielding energy channel layer is not limited to, in contrast, can utilize its any remodeling, unique is limited in, shielding energy pass element/dielectric layer comprises a kind of shielding energy channel, it uses the dielectric layer of certain form, be used for physical support and electrical characteristics, as long as shielding energy channel conductive region keeps the area more than or equal to the conduction energy channel, then dielectric/electric opposite complementary energy channel layer used in same structure.For explanation tout court, conceived other non-discrete embodiment of a typical new embodiment, it can be used as integration section operation of operational amplifier, comparator or detector.

Operational amplifier is a kind of high differential voltage amplifier that gains, and it can compare the voltage of two inputs, and produces the output voltage of the manyfold of a difference that equals two input voltages.According to the type of operational amplifier, an operational amplifier generally carries out the processing of such subtraction and multiplication, but in most of the cases, and two input voltages are controlled at how electric current begins between two energy pathways of parallel circuits.Even also between two energy channels, produce big difference between current, especially, carry much bigger electric current than other passage by the energy channel of higher input voltage control in the small difference between the input voltage.The imbalance of the electric current between two energy channels will produce big voltage difference in its element, described voltage difference is compared in second level differential voltage is amplified once more.

At last, it is quite big that the difference in electric current and voltage becomes, and use the afterbody amplifier to produce big positive output voltage or negative output voltage, which input to have higher voltage according to and decide.In a kind of typical application, use feedback to keep two input voltages very approaching, make output voltage in fact drop on two extreme between.On this working point, operational amplifier is all very responsive to the most small change of its input voltage, thereby is a kind of desirable amplifier for the little signal of telecommunication.

As other certain non-discrete embodiment of a typical new embodiment, known a kind of be the neutral object of electric complementation, the electrically conductive shield structure that for example contains positive and negative charge is connected with outside public energy channel.But, these opposite electric charges quantitatively equate, are in nonexcited state.But, this does not mean that along the electric charge of the epidermis that shields energy channel and is not subjected near the influence of electric charge in addition.When excitation, utilize the approaching shielding energy channel design of inserting that makes of the various paired and opposite complementary energy channels of the electric neutrality shielding construction operation that comprises betwixt to become reference voltage and image simultaneously, the incoherent part of the energy of propagating with respect to the plural independent circuit that in the AOC of typical new embodiment, passes through, and comprise two or more at least independent and electric incoherent circuit, the energy and the energy that use separately according to them utilize load, comprise the grouping of the paired and opposite complementary energy channel with particular electrical circuit that the identical energy and identical energy utilize load.

About various electric opposite paired complementary energy channels, when the measurement of carrying out more toward each other, and be set up physically when being the concerning of electric parallel connection, it is similar on the conductive area of making, but it is right as the opposite mirror image between same sealing, but shared conductive shield energy channel structure, some balance portions that send the identical energy of energy form electric charge on the part of identical shielding energy channel or a side, this big surface area or side of a conduction that causes the shielding energy channel of insertion again becomes charged with respect to the first complementary energy channel, yet rearranging of the electric charge that the opposite mirror image that neutral the 3rd pass element (not shown) charge biased complementation is simultaneously still arranged mates, described electric charge is positioned at (not shown) on the opposition side of same shared center conductive and shared shielding passage physically, thereby half opposite electric charge with the shielding (not shown) of going up and inserting, and the part that is positioned at the energy electron on the passage (not shown) is moved towards shielding passage (not shown), and the electric charge identical with the electric charge of charged object will leave from described object simultaneously.Public energy channel will obtain to obtain " induced polarization " with respect to in-plant paired complementary energy channel, mean the shielding passage, and positive and negative charge moves relative to each other, and this moving is effective charge induction by near existence.

Induced polarization is a common effect, and will take place when lightning will hit ground.Along with moving of charged cloud, ceiling and quite in-plant sunshade or tree obtain this induced polarization.The epidermis quilt of the object electric charge opposite with cloud layer covers, be illustrated in cloud layer and have the trees of opposite charges or the top of building between may be struck by lightning.

In fact a pair of energy channel with AOC 813 for example 855AA shown in Fig. 5 E and Fig. 5 F and 855AB interacts jointly with respect to that concentrate and shared conductive region or the passage seesaw conversion series with balance.Though the external observer can detect and may measure the transformation to the observer by the energy channel group maintenance of excitation, for example the energy at typical new embodiment circuit utilizes the passage that loads in the load, and it will carefully be disposed for the influence of Propagation of Energy in a typical new embodiment in mode a kind of balance and flawless.

In order to realize above-mentioned advantage, first aspect according to exemplary embodiments, but a operation part as the integral part of detector, perhaps as the part of surface potential detector, a typical embodiment can comprise and the detecting electrode of live part in the face of being provided with, be used to detect the surface potential of live part, be used for changing periodically the device of the electrostatic capacitance that between live part and detecting electrode, forms, the initial condition input circuit that links to each other with the detecting electrode conduction, and subsequent state amplifier circuit, the downstream conductivity of itself and initial condition input circuit is connected, and comprise operational amplifier, be used to amplify poor between the alternating current component of initial condition input circuit and the reference node voltage, the source voltage that offers the initial condition input circuit obtains from reference node voltage, makes detector not be subjected to the influence of noise superimposed on reference node.

Therefore, even on reference node voltage, be superimposed with noise, there be not noise component(s) from the alternating current component of initial condition input circuit output and the difference between the reference node voltage yet.Therefore, the post-amplifier circuit can amplify alternating current component, and is not subjected to the influence of noise component(s).Thereby, can easily improve certainty of measurement.Remove nonspecific and and use relevantly, material 801 in exemplary embodiments and electric conducting material 799 will be of a sort materials on composition respectively for example.According to one of exemplary embodiments additional feature, can be used as elementary dual input circuit or element, wherein developed a kind of pair of surface potential voltage detector, conductive region and/or the common potential and/or the common ground of first source electrode of its utilization (field-effect transistor) FET, for example, and along the conducting element of paired electric opposite complementation or the intrinsic resistance of those electrode members existence, described electrode member is made by the resistance electric conducting material, it can be operated between the second additional source electrode of the drain electrode of FET and FET, and utilize along paired and the general electric intrinsic resistance of opposite complementary conducting element existence, it is retained as now with respect to center shield electrode structure Low ESR, is used for using between FET and power supply.Signal from the detection reference electrode is applied to for example each grid of FET, and conductive region and/or common potential and/or public ground, and by typical new embodiment the common electric voltage drain potential is applied on the post-amplifier circuit simultaneously.

Disclosed the third application of the remodeling of a typical new embodiment, position between the both sides that the two-wire of reference node voltage and shield electrode structure is set at detecting electrode is provided, and both sides near the gate terminal of FET, for example, perhaps guide the input circuit part of gate terminal into.Because reference node voltage is public for the independent energy source circuit with low input impedance, shared reference node pressure-wire also is effective as shield electrode structure.Therefore, utilize said structure, the detecting electrode of two configurations is always shielded by common reference node pressure-wire and grounding electrode with the dual input circuit part of guiding gate terminal into, thereby, detector is subjected to by the influence of the external noise of power distribution network generation less, and described power distribution network has a big loop zone that is used to return the RF electric current.Though it is not shown, some typical embodiment and energy adjustment structure can be used in the active silicon integrated circuit, be located at non-conductive base plate top, perhaps make conduction or mix, and the bucking electrode bottom of conduction, material conduction or that make with electrically conducting manner or that mix of configuration in interconnection energy transmission passage that is provided by the custom integrated circuit manufacturing technology or layer is provided in its combination.

The non-discrete energy adjustment structure of gained comprises first conductive layer or bucking electrode bottom or the 3rd conductive layer that separates with base plate, and separate by means of first dielectric layer 801 and these elements, make second conductive layer and first conductive layer separately by means of second dielectric layer 801 and the 3rd conductive layer simultaneously, the 3rd conductive layer is separated by means of the 3rd dielectric layer and second conductive layer (it is electric opposite with first conductive layer).By means of the 4th dielectric layer second conductive layer and the 3rd additional conductive layer are separated then.It should be noted that, first and second conductive layers are complementary in character and operation, and be divided into a plurality of paired in a neat complementary circuit array but the conductor of conduction insulation, and by the 3rd conductive channel of the interconnection of grouping separately, described the 3rd conductive channel inserts for first and second conductor dbus of complementation physics shown in Figure 11 excessively and the circuit function mode is shared.

In first conductor each when needed can with first end or for the first time main terminal conductivity is connected, simultaneously Sheng Xia second conductor can with second terminal or the second time main terminal conductivity be connected.At first, second conductive layer, no matter conductivity coupling part, always inserted mutually, perhaps utilize the 3rd conductor to insert, other the 3rd conductor of all of described the 3rd conductor and device utilizes conductivity ways of connecting conductivity to be connected, and and the 3rd public outer electrode or outer current-carrying part, it is not first, for the first time main, second or main outer electrode or external conductive be partly or conducting terminal for the second time.

Though in this explanation, do not represent by accompanying drawing, can form a comparator circuit, it has non-inverting input, its conductivity be connected to energy output that the switching threshold voltage that kept by the shield electrode structure that inserts is provided with and outside public energy channel element, make comparative voltage with respect to the centralization of the switching threshold voltage of determining qualification of the typical new embodiment of each I/O connectivity port (not completely shown), be other major part utilization of the circuit that utilizes new typical embodiment equally.

The remodeling of new typical embodiment is removed outside its energy adjustment function, can utilize its public electrode shielding construction, adopt or imitate the centre cap of resistance/voltage divider network, it is generally by the composition of proportions of different integrated circuit resistors, as what disclose in the prior art.But, these ratios of different integrated circuit resistors have been eliminated now, but utilize the proper property in new embodiment combination of elements to replace, and all these is abiogenous, for example the electrode resistance performance.

The value that is positioned at the reference voltage on the opposite and opposite side of public electrode shielding construction or resistance/voltage divider will produce when encouraging public common electrode shielding construction, and be used to determine to be positioned at common reference voltage on the both sides of public electrode shielding construction, the centre cap of its present artifical resistance/voltage divider, it is an equal reference voltage now, and is shared when making switching threshold element for the input buffer that designs each high low value.

Thereby, the voltage of getting from new typical embodiment forms resistance/voltage divider and centre cap simulator, perhaps shield electrode structure, both are interior sections of independent circuit, it utilizes present center reference voltage element shared and public generation, makes it limit one second comparative voltage, and it can be compared, so that it is utilize, determined as utilizing of the control circuit of typical new embodiment as the switching threshold voltage of a reality.

Thereby, by standard method manufacturing and all embodiment that constitute and the remodeling of embodiment, wherein utilize the many of standard to the circuit situation, and material 801 with pre-determined characteristics, as and the embodiment of identical configuration between different unique big changes, will produce in unforeseeable mode and insert the loss performance measurement.This has disclosed a kind of circuit, wherein utilize new electrically conductive shield structure and external conductive Connection Element, it is used for, and electrostatic screen suppresses and physical shielding, and is used for influencing the adjusting of the energy of propagating in a plurality of possible Circuits System that is blended in a typical new embodiment.

The user of different embodiment device can use the jockey and the conductivity syndeton of all types of industrial standards, all public energy channels are connected with each other, and link to each other with identical public energy channel, it generally is the paired complementary circuit passage that size separately equates.The conductivity of public electrode connects and needs, be used to realize carrying out simultaneously a plurality of different energy adjustment functions for example energy and signal decoupling zero, filtering, electric voltage equalization, wherein utilize with respect to 0 voltage referring to the electrical Location of opposite side, described " 0 " reference voltage is at the opposite side of the end on structure of single clamping location and use disclosed principle to produce.

Just as disclosed, the additional shielding energy channel that separates, it is labeled as (#-IM ' X '), and image 0 reference voltage plane shared with intrinsic center links to each other, and will produce the shield effectiveness of new typical embodiment in many ways.Shall also be noted that complementary energy channel is a symmetrical balance,, see Fig. 2 A, Fig. 3 A, Fig. 4 A, Fig. 7 A, Fig. 8 A, Figure 10 and Figure 15 and Figure 16 as disclosing in the various energy channel structures.

Above-mentioned these as shown in figure 14 have the passage 850F/850F-IMO of holding function, 840F, 830F, 820F, 810F, 800/800-IMC, 810B, 820B, 830B, 840B, 850B/850B-IMO, they constitute bucking electrode container 800A, 800B, 800C, 800D, 800E, 800F, 800G, 800H, it is right that it is sealing complementary energy channel, thereby constitute the paired conductive shield shape container 800 ' X ' of grouping, the propagation of energy part will be helped once more, public conductive area or public energy channel that described propagation connects with respect to the outside, and make it possible to produce voltage pattern simultaneously as reference Help, be used to be included in the circuit in the exemplary embodiments.

The holding function that comprises the energy channel that the typical paired size of shielding shape container 800 ' X ' of the paired conduction of grouping equates helps to realize the propagation of the energy part of the part of the conduction that connects with respect to the outside and/or shielding energy channel once more, and it also comprises public current-carrying part and/or produces voltage pattern simultaneously as reference Help-IM ' X '.

It should be noted that, if constituting the different screening conductive structure of an embodiment is balance, then because almost any additional or extra single conductive shield passage wrong or that add respectively according to anticipation will unnecessarily make the energy adjustment operation become the bad serious degree that reaches, and in fact allow to make in other words make in handling possible cost savings conversely, wherein layer processing automatically can increase or increase additional outer shielding layer, causes a unbalanced result.

Thereby, disclosed a kind of minute surface error or and configuration inconsistent, it comprises additional outer shielding layer, as mentioned above, has a mind to when it is employed or by mistake damages the overall performance of most of exemplary embodiments, these have all been expected by the applicant.

It should be noted that, the bucking electrode structure of container 800 ' X ' of equal amount constitutes the part of exemplary embodiments, according to predetermined stacked order in succession, they are balances in the structure of embodiment, and can not make the seriously bad or infringement of change of energy adjustment operation by mistake or by any additional extra single conductive shield channel layer that anticipation is added during making processing.In fact an additional extra conductive channel layer can disclose a kind of possible cost savings in manufacture process, wherein any automatic layer is handled and can be added additional outer or described layer, does not perhaps in fact comprise two and is labeled as one of conductive shield electrode of IM ' X '.Disclosed these foozles consciously or unconsciously and can not cause big infringement, comprised the correct stacked order of public conductive shield container 800 ' X ' the integral body of the balance of exemplary embodiments.Aforesaid and fully expect as the applicant.

In general, the bucking electrode structure of container 800 ' X ' that constitutes exemplary embodiments is balance in embodiment according in succession stacked order.In other words, before applying the electric opposite different conductive channel that paired size that additional outside separates equates, additional or extra single conductive shield channel layer should be set.Thereby, any additional or extra single conductive shield channel layer, it is during manufacture because mistake or anticipation were added before the equal electric opposite different conductive channel of size is set respectively, will damage or become bad energy adjustment operation.

In contrast, the sum of paired electrode and/or complementary energy channel, it comprises and/or it is characterized in that all paired electric opposite complementary energy channels are not bigger the sort of shielding energy channels that almost any remodeling of exemplary embodiments must be even number.

By further referring to Figure 14, as can be seen, when constituting discrete element, the shell body of bucking electrode passage 850F/850F-IMO, 840F, 830F, 820F, 810F, 800/800-IMC, 810B, 820B, 830B, the material with pre-determined characteristics 801 that 840B, 850B/850B-IM also are used to provide support and new embodiment surrounds.Public conductivity connection material or structure 798-GND ' X ' are applied in described public shielding channel electrode and extend the adjacent part of the extension of 79-GNDA, the electrode rim 805 of the public passage electrode material in being contained in structure 19900, on the both sides at least of structure shown in Figure 14, for as public electrode energy channel 800/800-IMC shown in Figure 1.Various barrier materials 801 also make predetermined electric regulatory function to operate the part of the energy propagated along the various combinations of the electric opposite paired different conduction energy channel in the AOC of embodiment.

Further referring to Figure 14, component type is the public conductivity jockey of 798-GND ' X ' as can be seen, electrode and/or external energy material part, and/or the partly feasible shielding energy channel of external conductive termination material 850F/850F-IMO, 840F, 830F, 820F, 810F, 800/800-IMC, 810B, 820B, 830B, 840B, 850B/850B-IMO can carry out electric and physical connection respectively mutually, and carry out electric and physical connection with the outside public conductive channel of identical conduction or outside public conduction energy channel or zone 6803, as shown in figure 15.This new public energy channel that forms is not differential passage (not shown), and by the outside public energy channel outside the AOC of exemplary embodiments, be connected or the coupling part utilization with the public conductivity of 7 " XX "-GND ' X ' types, for example component type is the public conductivity jockey of 798-GND ' X ', electrode and/or external energy channel material part, and/or external conductive termination material part.

A kind of general multi-functional public electrically conductive shield structure 19900 comprises a plurality of stacked public conduction cage structure such as 900A, 900B and the 900C of explanation as an example, and in turn, these cage structures 900A, 900B and 900C constitute (each all is collectively referred to as 800 " X ") by cage shape container 800A, 800B, 800C and the 800D of a plurality of stacked public conductions again, constitute, their mutual conductivity connects, and substantially parallel.Cage structure 800 ' the X ' of each shielding comprises the energy channel of at least two shieldings, similarly be shown in Figure 14 like that, wherein the energy channel stacked body has 850F/800F-IMO, 840F, 830F, 820F, 810F, 800/800-IMC, 810B, 820B, 830B, 840B, 850B/850B-IMO---for instance.Quantity shown in the quantity of the public conduction cage structure of piling up is not limited to can be any even number.Thereby the quantity shown in the quantity of the public conduction cage structure 900 ' X ' that piles up also is not limited to can be the integer of any even number or odd number.

Though do not illustrate, in other application, the every couple of public conduction cage structure 800 ' X ' clips at least one conductive channel electrode as described in front contrast Fig. 1.Cage structure 800 ' the X ' of public conduction is shown separately, so that emphasize such fact, that is, they all are paired, and the paired conductive channel of any kind all can insert in each public conduction cage structure 800X.Like this, when together in pairs so that when producing bigger public conduction cage structure 900X, public conduction cage structure 800 ' X ' becomes general, be represented as 900B, 900A and 900C, and can be used for and paired conductive channel combination that disperse, in the non-discrete structure, such as but not limited to, in silicone, implement, or as the part of PCB, discrete element networks or the like.

As shown in figure 14, material 801 with pre-determined characteristics, separately each bucking electrode 850F/850F-IMO, 840F, 830F, 820F, 810F, 800/800-IMC, 810B, 820B, 830B, 840B, 850B/850B-IMO and be clipped in electric opposite differential conductive channel or the conductive channel electrode (not shown) that paired size wherein equates on electric, and separate on electric and shield opposite differential conductive channel equal electric of outside at least one pair of size.

In addition, as shown in figure 14, two cages of minimum needs are 800E and 800D for example, and it constitutes bigger cage 900A, is used to constitute multi-functional circuit adjustment structure, is used for the typical new embodiment of all stacked any kinds.Thereby the cage structure 800X that has two required public conductions at least is as each 900A among Figure 14, shown in 900B and the 900C.The manufacturing result of the shielding that (not the comprising material 801 with pre-determined characteristics etc.) of any order is very basic should occur as the bucking electrode example structure; it comprises the bucking electrode passage that piles up that minimum 3 conductivity connect; and comprise that at least two form right electric opposite differential electrode energy channel; one forms right and in the bucking electrode passage that minimum 3 conductivity connect; one forms right and outside the bucking electrode passage that minimum 3 conductivity connect; they can conductivity connect and are energized, and make it will comprise the part of the circuit of operation at least when being energized.

Put it briefly, when the cage structure 900 ' X ' of a bigger grouping is connected to a bigger external conductive zone (not shown), the circuit that described combination help encourages is simultaneously regulated and the energy of propagating along the electric opposite differential electrode passage (not shown) of each paired group is carried out filtering, described differential electrode passage is sandwiched in cage structure 900 ' X ', and separately at least one pair of is positioned at outside measure-alike (these particular outer electrode exceptions) electric opposite differential conductive channel on electric.

Various remodeling with nearly all general cage shape shielding construction of stacked level series are used as the shielding construction of interconnection, comprise various by stacked respectively bucking electrode, their shared mutually public conductivity connects, and is connected with the outside energy channel conductivity that is positioned at that is not differential conductive channel.

The inner bucking electrode that is provided with each other and be connected with the public conductivity of the conduction of external energy passage and be not differential conductive channel, this makes that described third channel can be by simultaneously as independent energy channel, and it can provide reference voltage to the circuit part that comprises in exemplary embodiments.The 3rd energy channel by the electrode screening passage utilization of dividing into groups also makes it possible to produce predetermined impedance path simultaneously, is partly utilized by each energy that utilizes differential passage to propagate.

Energy makes it possible to constitute a kind of device or embodiment by the differential propagation of typical embodiment, it is provided at the part of the energy in the AOC of exemplary embodiments, thereby utilize the part of exemplary embodiments in the mode of balance and complementation toward each other, and compare with the similar circuit of prior art, can improve the efficient of Circuits System.Because actual physical and electric position in the circuit of bigger excitation, this independent shared third channel are not only as the voltage divider of the energy that is used for predetermined exciting circuit.Encouraging operating period, described physics and electric position are expressed as preferably that bucking electrode inserts and at the paired coefficient on the contrary differential conduction energy channel of at least one group of inside, and at least one pair of is positioned at (except these two particular outer electrodes) electric opposite differential conductive channel that outside size equates.

Encouraging operating period, independent third channel also become simultaneously be utilized and by shared as the common reference voltage node, not only with respect to the circuit operation in exemplary embodiments and/or its 813AOC (not shown), and the right opposite coefficient differential conduction energy channel of at least one composition and at least one pair of are positioned at the differential conductive channel of (except these particular outer electrodes) that outside size equates electric opposite same circuits.

Almost any typical new embodiment wherein can also reduce or suppress harmful energy parasitism, it is from the paired opposite coefficient differential conduction energy channel that is connected with circuit conductivity, from mutual upset, the part of the circuit energy of propagating, or the balance of voltage in the AOC of exemplary embodiments.The energy parasitism that almost any typical new embodiment wherein can also reduce to be harmful to, the passage of a conducting subsequently is used for releasing energy with the form of common node energy, and the return circuit system, and the AOC circuit external is had adverse effect.

Referring now to Figure 15,, general structure 19905 is divided into littler paired cage structure part, and disclosed the overlapping electrically conductive shield structure of various less groups, little as 900A, it is also by bucking electrode energy channel 810F, 800/800-IMC, 810B constitutes, each shielding group is almost always combined conductively, and utilize the jockey of outside public electric conducting material 6805 or industrial standard to link together, thereby make that being positioned at outside public conductive region or passage 6803 can be utilized, it is not the opposite differential conduction energy channel of each external electrical, and its embodiment conductivity that can use with the typical case of any typically new embodiment is connected.

As shown in figure 15, in order to be adjusted to right electric opposite differential conduction bypass circulation way energy channel such as inner 855BB and inner 855BT and paired electric opposite differential conduction bypass circulation way energy channel such as outside 865BB and outside 865BT, the stacked body of bigger container a 800 ' X ' comprises and/or it is characterized in that the general shield electrode structure 19905 of public conduction or its equivalent by this way, make it possible to add various bucking electrodes in predetermined mode, thereby be formed into right 900 ' X ' structure, it forms a bigger overall shield electrode structure and shown in Figure 14 similar again.

798-GNDA can keep and certain type physics of public passage electrode rim 805 and electric contacting as long as public conductivity connects the material connection, directly and/or by reaching the electrode extension of appointment, 79-GND ' X ' for example, as shown in figure 15, then the exemplary embodiments of complete configuration just can correctly be worked.

In Figure 15, each and every pair of electric opposite differential conduction bypass circulation way energy channel, inside 855BB for example shown in Figure 15 and inner 855BT, be considered to clamping and the conductive channel of common interconnect, the for example various combinations of bucking electrode passage 810F, 800/800-IMC, 810B, 855BB and 855BT in their clampings, and they itself also hinder the 806 location (see figure 1)s that equate basically.In addition, when dynamic operation, yet electric opposite differential conduction bypass circulation way energy channel of each and every pair such as outside 855BB and outside 855BT also are separated from each other on electric by stacked.Under these conditions, should use typical embodiment function when conducting channel is energized, for example noise or energy field are offseted or are reduced, and filtering and surge suppress, bucking electrode that is provided with respect to inside and material area are with complementation and public mode, as described in just.As seen from Figure 15, each container 800D and 800E can keep the differential electrode of the equal same size of quantity, for example inner 855BB, inner 855BT, they are opposite mutually physically to a certain extent in bigger structure 900A, yet with electric last respectively in a parallel manner by orientation and operation, this makes it possible to keep various energy adjustment functions physically for they.

Each cage shape shielding construction 900A with grouping that shields the conduction of shape structure with coefficient 800D and 800E becomes one on electric, when in circuit, being energized and quilt extend 79-GNDA with identical outside public conductive path area 6803 by electrode and be connected to the public electric conducting material that the outside provides, be used for being electrically connected, it is connected to public conductive region 6803.This welding material 6805 by conduction or other be used for that conductivity connects or known commercial run for example resistance cooperates or the general method of attachment of various welding method (not shown) realizes, and utilize internal electrode to extend 79-GNDA and for example adverse current welding of any possible common acceptable industrial method of attachment (not shown), (but not shown) such as conducting epoxy resin and binders.

The result, manufacturing sequence is as follows: (removing outside material 801 grades with pre-determined characteristics) differential conductive channel 865BB, shield energy channel 810B then, the inner differential conductive channel 855BB that is provided with is center shared shielding energy channel electrode 800/800-IMC then, inner then differential conductive channel 855BT, shield energy channel 810F then, external electrical phase contrast moving conductive passage 865BT will obtain the reference voltage passage, as shown in figure 15 when the structure of making is energized then.

Refer again to Figure 15, wherein show the part that comprises 810F, 800/800-IMC, 810B, comprise the part of the embodiment 19905 of Figure 15.Certain public bucking electrode is configured and comprises that two 798-GNDA electrodes extend the bucking electrode of (Fig. 1 shows details), its again with other elements combination of 19905 embodiment, and always be under the assembled state, thereby form and have two pairs of paired electric opposite differential conduction bypass energy channels, the pairing energy passage that comprises two son groups, inner 855BT and outside 865BT and inner 855BB and outside 865BB, and also be considered to paired bypass conductive channel element, its shared bucking electrode energy channel or structure 900A.

The element of each connection of exemplary embodiments 19905 is represented in Figure 15 explanation in the mode of cutting open.The cage shape shielding construction 900A of general grouping, it has stacked conductive layer time series, comprise the independent circuit that is used for carrying out simultaneously energy transmission, described propagation along paired electric differential passage carry out, it utilizes the bypass energy transmission mode of operation separately, this formation is expressed as structure 19905, comprise stacked public conduction cage structure 900A, it comprises public conduction cage structure or the container 800D and the 800E (being expressed as 800 " X ") of a plurality of groupings again, and they are conductive shield electrode relation substantially parallel, still interconnection.Each public conductive container 800D, 800E comprise at least two shielding energy channel electrode 810F, 800/800-IMC, 810B.The quantity of the bucking electrode cage structure 800X of the public conductive interconnection that piles up is even number.Thereby the quantity shown in the quantity of the public conduction cage structure 900 ' X ' that piles up also is not limited thereto generally is even number or odd-integral number.

Equally as shown in figure 15, each paired public conduction cage structure 800 ' X ' clips at least one and conducts electricity differential bypass mode channel electrode, it comprises and/or it is characterized in that it is right that the differential bypass mode channel electrodes of conduction that equated by two electric opposite sizes of two independent operations constitute.The public conductive interconnection bucking electrode cage structure 800 ' X ' that piles up can use with independent still paired external differential structural energy combination of channels, can disperse, perhaps non-discrete configuration, such as but not limited to, discrete independent component, as shown in figure 15, perhaps other is unshowned; Such as but not limited to a kind of combination of elements, discrete with non-discrete, be contained in the silicone IC, insert body, module, base plate or as the part of PCB, energy adjustment network etc.

Shielding energy channel electrode 810F, all conductivity interconnection of 800/800-IMC and 810B are represented as 79-GNDA, and it provides the conductivity tie point to outside public conduction energy channel or zone 6803, wherein pass through welding material 6805, or any other method of attachment well known in the prior art.Each bucking electrode 810F, 800/800-IMC and 810B are formed on the material 801 with pre-determined characteristics, and disclose the side band that includes only the material with pre-determined characteristics 801 that replaces energy channel material 799G.

Shall also be noted that as shown in figure 15 one to form right electric opposite differential energy channel be in groups or the almost completely overlapping main electrode surf zone that equates of paired size, though separately by bigger bucking electrode and material 801 with pre-determined characteristics.They are complementary paired, are used to realize that conductivity connects, and carry out electric opposite operation (when excitation).Complementary paired electric differential (when operating) electrode or energy channel that these sizes equate are always separated physically, and are positioned at opposite side on electric, with respect to one electric charge of two main current-carrying parts of bucking electrode energy channel.Because all electrodes all are planar shaped, and each similar group aimed at respectively, forms symmetry with many levels in element, and it is used for the propagation of each energy part effectively.

The public conduction that connects and a plurality of public bucking electrode passage 810F, the 800/900-IMC that seal and 810B are connected with the conductivity of the public shielding energy channel 800/800-IMC that is provided with at the center respectively always becomes the extension that seems outside common conductive element, perhaps outside public conduction energy channel or zone 6803, as shown in figure 15.Between a plurality of public bucking electrode passage 810F, 800/800-IMC and 810B always are inserted in this a plurality of parallel modes and the clamping of inner 855BT of differential electrode conductor and inner 855BB is provided, himself also simultaneously by the 865BB of outer setting and 865BT clamping, still keeping simultaneously public bucking electrode passage 810F, 800/800-IMC and 810B to have the state of minimum spacing 814C, perhaps with respect to paired and electric opposite differential electrode 855BB, 865BB, 855BT and the 865BT of the complementation in material 801 with pre-determined characteristics.

Outside conducting element such as 798-GNDA will help the performance by the electrostatic screen function of public bucking electrode passage 810F, 800/800-IMC and 810B realization as shown in figure 15.This structure also helps the combination of described excitation just, it makes it possible to strengthen outside public conduction energy channel or zone 6803, so that help the bucking electrode of the interconnection in the embodiment 19905, help provides the adjusting of high efficiency while, the energy part that adjusting is propagated along the described part of device 19905, comprise differential electrode conductor 855BB in the device 19905,865BB, 855BT and 865BT energy channel are as the part of these conductive channels in 19905, its by conduction extend 812A and 812B structure externally conductivity be connected, link to each other with 891B with the conductivity jockey 890B of circuit grouping, comprise paired differential electrode 855BB, 865BB, 855BT and 865BT.The inside and outside parallel device grouping of bucking electrode 810F, the 800/800-IMC of the interconnection of combination and 810B also helps to eliminate or suppress harmful parasitism and electromagnetic radiation, it can enter or penetrate from the part of circuit grouping, described grouping comprises paired differential internal electrode 855BB and 855BT, and the part that comprises the circuit grouping of paired differential outer electrode 865BT and 865BT, wherein pass through AOC, when energy part along the conductive channel of these disclosures when active device load (not shown) is propagated, it is partly used by described energy respectively.

General shield electrode structure also helps to utilize the part of propagation circuit energy (not shown), the physical shielding electrode structure 19905 of the same type of Figure 15, it makes it possible to form public Low ESR energy channel (not shown) and reference picture (not shown), they are not the differential passages that is used for the part of electronic circuit energy channel, so that work harmoniously.

Instantaneous at one, and at one time side by side, the part of propagation circuit energy always has the energy barrier functionality of high impedance, instantaneous at one, parts of the independent energy transmission of other opposite conductively-closed for some, it is comprised in the part of AOC, with respect to identical the 3rd energy channel and reference picture, simultaneously same instantaneous, this great-great-grandfather-low-resistance conversion phenomena takes place in radially opposite mode, same instantaneous, take place with the mode of complementation energy transmission, but take place in electric harmonious mode along same shared bigger general shield electrode structure with respect to the energy part of mutually opposite position.

This comprises that for example a plurality of of embodiment 19905 are the layer on plane basically, as Figure 14 and shown in Figure 15.The layer that shown in Figure 15 these are essentially the plane comprises and/or it is characterized in that having the ceramic material 801 of pre-determined characteristics that it is provided with electric conducting material 799G during manufacture.The main electrode surface of bucking electrode layer (a large amount of) is parallel with the main surface (Figure 15 is not shown) of layer 19905 the material with pre-determined characteristics 801 of embodiment basically.

As shown in figure 15, for the coupling of the magnetic field between each the relative differential energy channel that makes in the cage type shielding construction of general grouping payment best, described structure has stacked conductive layer time series, in general, paired have only a minimum range each other, should in operation, separate relative differential conductor, as convention.Can have some exception.But, by operating in opposite or anti-phase mode basically, the energy channel that is oppositely arranged strengthens their the repealing by implication of opposite magnetic field with intercoupling of 855BT, 865BT to 855BB, 865BB, their actings in conjunction simultaneously simultaneously, utilize static or the Faraday shield effect, it also partly takes place for the energy of propagating along the right different circuit section of the same energy channel that is oppositely arranged in the AOC of exemplary embodiments.

Should also be noted that, by just described two the differential conductive channels of setting, make it have the spacing that equates basically, perhaps use material 801 with pre-determined characteristics, perhaps isolated dielectric material, utilize the predetermined element of general shield electrode structure, the structure of the exemplary embodiments of gained will have such advantage, make it possible to the circuit energy on the differential conductive channel in the described AOC is just partly carried out energy adjustment.Can also keep a kind of incentive relationship of electric complementation in some way, remain on simultaneously electric opposite each other, and no matter the general direction of the energy part of propagating along each paired differential energy channel 855BB and 865BB and 855BT and 865BT.

This structure example shown in Figure 15 is as comprising 855BB and 865BB and 855BT and 865BT, produce one of two differential energy channels respectively, each is 855BT and 865BT, on electric, be set up as energy channel, in this case, it utilizes between the load at the energy and energy on electric, they are by the public conductive shield element in 800-IMC center and other element separation, keep differential energy channel separately simultaneously, 855BB and 865BB also are considered to be in electric going up at energy and utilize energy channel between the load, described energy utilizes load to be connected with its power generator conductivity, get back to described power generator, the beginning part of described generator is with the circuit Propagation of Energy part of certain form with qualification, and described circuit is considered to the energy from energy transmission, and it begins when circuit encourages.In other words, but two adjacent conductively-closeds and separated differential energy channel or differential electrode 855B and 865BB exist with energized condition, be mutual coefficient relation each other, but between the structure of conductively-closed, yet the scope of separating with the electric actual physical that go up to keep is for from littler still greater than (〉 to some less than 50 millimeters physically) 0 millimeter or bigger numerical value, as long as can handle circuit energy respect to one another propagation partly.

The public conduction that connects and a plurality of public shielding passage of sealing are connected the extension that almost always becomes as outer conductive element 6803 with the conductivity of the public shielding energy channel 800 ' X '-IMC that is provided with at the center respectively, for example as shown in figure 15, and almost always be inserted in a kind of so a plurality of parallel modes: it makes described common conductive element always have several millimeters interval, or " annular region ", with respect to the different electrode of the phase place of complementation, they are being held itself, and still the extension with public conduction energy channel in outside or zone 6803 separates, as shown in figure 15, for example the distance by comprising material 801 with pre-determined characteristics or isolated medium is separately.

This makes outside public conduction energy channel shown in Figure 15 or zone 6803 can help the performance of electrostatic screen function, make as the combination of described excitation just always strengthens, and produce high efficiency for the adjusting in the energy of on the described part of the external differential conductor 865BB of bucking electrode device 900A ' and 865BT, propagating.The inside and outside parallel device group of the device 900A of the public conduction of combination is payment always or harmful parasitism and the static radiation of inhibition also, it may be emitted or enter from the described differential conductor 855BT that partly used by described energy and 855BB, when its when unshowned active device load is propagated in Figure 15 along the conductive channel (not shown).

Note, though do not illustrate fully, by means of 911 " X " extensions or even outside direct conductivity by any part of the energy channel 865BT of shadow shield and 865BB be connected, be connected to its 912 " X " current-carrying part separately, perhaps conduct electricity termination portion or conductivity jockey (not completely shown), the embodiment that can obtain retrofiting, though be that conduction insulate, each complementary energy channel 865BT and 865BB respectively can be by selectively timings, so that connect biasing or disconnect biasing according to application-specific.Thereby, the biasing of the excitation of typical new embodiment starts and/or the non-startup of setovering also changes the behavior and the electrical performance characteristics of the expection of embodiment non-configuration, non-configuration operation, and the different energy adjustment effect of utilizing energy part independent and that be included in the circuit path in the typical new embodiment.Be important to note that, utilize this class energy Pathway Arrangement of 911 " X " extension not classified in the energy channel 865BT and the 865BB that are shielded by external partial, and the biasing of any predetermined excitation of the energy channel of imagination conductively-closed starts, wherein by the isolated outer electrode part that utilize to connect or external energy channel part as 912 " X ", fully taken into account by the applicant.

Some energy channel, for example and indicate (#-IM ' X ') those energy channels, be the shielding energy channel that additionally is provided with, it is positioned at the liftoff balance that clips the energy channel of typical new embodiment of outside and low coverage, is used to increase other the purpose outside the electric capacity.Screening arrangement with the identical electrode of the size equal shape of odd-integral number also can comprise and as plane of delineation bucking electrode, is labeled as IMI " X " and/or IMO " X ", as previously mentioned by the bucking electrode (not completely shown) of any selection.In addition, disclose now, cage type effect or electrostatic screen effect function can suppress the charged of the energy parasitic parameter that produced by the inside of energy channel main part 80 shieldings of complementation.Electrostatic screen provides protection, stops the inner energy parasitism that produces to spill into complementary conduction energy channel.The electrostatic screen function also helps to reduce to result from the energy parasitism of the complementary energy channel of excitation, wherein by the confinement fully of the complementary circuit part inserted in zone, main body electrode part or the part footprint of shielding energy channel electrode in clamping or fully physical shielding seal.

Insert conduction with the non electrically conductive material part, it includes but not limited to as the shielding that is used for conductive material of electrodes, described electrode is the function of shielding of bucking electrode or material 801, they are utilized, although the very little spacing of electric anti-phase complementary operation, it is comprised in the public energy channel with controllable mode.When the connection to public current-carrying part realizes, make simultaneously, the electric parallel way operation of balance between the energy part of the relative thing of energy channel that utilizes each electric opposite size to equate can the opposite side at public electrically conductive shield structure and when interacting, optimal operations takes place.

The payment of the mutual flux of energy of the exception of each energy of propagating in one way along paired electric opposite conduction energy channel part, described passage is separated from each other very little distance, separated directly or indirectly (indirectly=annular region), the operation of anti-phase electric complementation, have simultaneously spuious parasitic the inhibition and the containment function, the mode that strengthens with tandem in typical new embodiment is operated.H field flux is partly propagated along transmission channel, track, circuit or conductor or conductive layer according to the right-hand rule (Ampere's law).Make energy admission passage and energy backward channel very close mutually, direct neighbor is with parallel, has minimum spacing, only by at least two material parts 801 and shielding energy channel, corresponding complementary energy produces part and will be combined, so that repeal by implication or reduce each independent effect.Complementary symmetric channel distance is near more, and the effect of repealing by implication is good more.

In most of embodiment that illustrate or unshowned, the quantity of passage, different charged bypass that public energy channel electrode is equal with size and/or straight-through conduction energy channel electrode, can double with predetermined mode, thereby produce a large amount of conduction energy channel elements combination, they are the relation of physics parallel connection, also being considered to relative these components identical is the relation of electric parallel connection physically, and with respect to utilizing the position of the excitation between the load to be the relation of electric parallel connection at the circuit energy and circuit energy.This configuration also can increase the capacitance of generation.

For the complementary circuit system of shared shielding energy channel or electrode, when their by or when not being connected to public current-carrying part outside shielding energy channel or the electrode, produce public " a 0 " voltage or be exactly common reference voltage.Additional shielding energy channel (almost be all but be not whole), it surrounds the combination of the shared shielding energy that is positioned at the center, can be used for surge inhibition zone that increases or part, the intrinsic ground connection of increase and the electrostatic screen function of the optimizing cage shape or the cage shape are provided.The applicant also fully takes into account, the circuit part of a plurality of isolation can utilize shared comparative electrode shielding grouping, it is connected to identical public energy channel by conductivity, so that shared and the power supply of at least two isolation and common electric voltage and/or the circuit reference voltage between at least two isolated loads be provided.Additional shielding common conductor can be used to any embodiment, so that provide the low-impedance public passage condition of increase to two and/or a plurality of circuit, these have all been considered by the applicant.

Shall also be noted that when typical embodiment is energized a period of time the electrostatic screen of keeping becomes unique function of shielding that is energized.Thereby, almost any new typical embodiment and/or new typical embodiment circuit arrangement, a plurality of or be not a plurality of, can be operated the electrostatic screen that is used to keep energy transmission.

Thereby, disperse or non-discrete typical new embodiment, it utilizes public electrically conductive shield structure and the external conductive Connection Element that discloses, and utilize material 801 with pre-determined characteristics, it is classified according to certain electric regulatory function or result, use comprising any possible multilayer, it uses non-discrete electric capacity or induction structure or electrode, it can comprise the remodeling of embodiment in the non-discrete integrated circuit die of making, perhaps super capacitor application, perhaps even the energy adjustment structure of millimicro size.In addition, the embodiment of Any shape, thickness and/or size can be configured, and can change according to electrical applications.A kind of typical embodiment, that illustrate or unshowned, can easily directly be made, and be included in integrated circuit microprocessor circuit or the chip wafer.Integrated circuit is made into, and and in die region the passive adjuster of etching integrated, this makes this new structure can easily utilize described technology to realize.

Before turning to Figure 16, a kind of energy Pathway Arrangement design of balance of complementary symmetry is discussed, it uses energy channel and a plurality of energy channel of relative symmetrical balance, as long as is that complementary symmetry is paired with the various paired relatively complementary energy channels (not needing to illustrate) of opposite mirror image mode for predetermined alignment, as stacked and/or complementary alignment, and as long as each passage is held with respect to the shielding energy channel is exercisable, and predetermined distance relation, the element skew, and/or retreat, typical new embodiment (that illustrate or unshowned) or as shown in figure 16, for example, typical new embodiment generally is exercisable and/or is feasible at least, become that to regulate for predetermined electrical be exercisable, with respect to each predetermined required energy adjustment function of user.

The all functions that take place are actual dynamic properties, and the device of being scheduled to that it partly is connected with final Circuits System certainly and/or the specific predetermined Circuits System energy adjustment that may need to finish requires is relevant.

Relative equilibrium and/or paired relatively and/or (in some cases) complementary relatively element paired and/or " specular " that (other example) is opposite does not match and/or the device of the complementary pair energy channel balance of relative rightabout conductively-closed, for example, energy channel as conductively-closed also is feasible, as long as general conductive shield energy Pathway Arrangement and/or structure, it has the conduction series of piling up, it also comprises the energy Pathway Arrangement of balance, be exercisable, make it possible to realize dynamically opposite and/or complementary energy transmission (respect to one another).This means that a kind of typical new mixture (needn't illustrate) can be owing to the relative physical location that lacks predetermined predetermined power passage is compromised, and this relative to each other, makes the predetermined relative physical positioning of predetermined energy channel can stop dynamic electrostatic screen to take place during dynamic operation.

The element of balance and/or paired relatively and/or (in some cases) complementary relatively pairing and/or (other example) opposite " specular " is not matched and/or the device of the complementary pair energy channel balance of relative and reverse conductively-closed, for example, for Figure 16 the general typical new embodiment that shows generally comprised.Although unsettled disclosure that own together with respect to other in appearance and common utilizes the screening conductive energy channel can access the remodeling of the energy regulator of many typical embodiment, the following describes wherein several.

As an example, a kind of configuration of device of remodeling (unnecessary illustrating) utilizes a plurality of energy channels of at least 3 isolation, comprises first group of energy channel, and it also can be a set of shield electrode and/or shielding energy channel; Second group of energy channel, it also can be the complementation electrode of first group of conductively-closed and/or (complementation) energy channel of conductively-closed; And the 3rd group of energy channel, it also can be the energy channel of the complementation of the electrode of complementation of second group of conductively-closed and/or conductively-closed.

A kind of energy Pathway Arrangement of remodeling (needn't illustrate) also can be used as the regulator operations of multi-functional energy Pathway Arrangement and/or single and/or a plurality of circuit energies, it utilizes the different combination of one or several group, it utilizes new discrete and/or non-discrete multi-functional energy Pathway Arrangement in the intended manner, and other element of another remodeling of circuit energy adjuster and/or multi-functional energy adjustment apparatus is set up.

See also Figure 16 especially, the figure shows an a kind of example that piles up energy Pathway Arrangement example 6969 of balance of symmetry.Shown structural table is shown in outside towards the size change of physical size and/or the form factor of whole discrete elements, shown in the edge 817 of discrete elements, and surface along material with pre-determined characteristics and/or material 801, it as previously mentioned, be disclosed in the some of them part of the U.S. Provisional Patent Application of submitting on December 15th, 2000 of owning together 60/255818 early, at this and comprise as a reference.

As shown in the figure, in element 7979, device 6969 utilizes a kind of remodeling of the design of owning together, comprise that two groups of energy channels (divided equally by one group of energy channel, thereby produce 3 groups of energy channels altogether) as a kind of typical devices, their electrical isolation (every group) each other in discrete or non-discrete electronic component, thereby a kind of remodeling of the electrode group design of expansion electrical isolation produces discrete or non-discrete multi-functional energy pathway device, circuit energy adjuster and the another kind remodeling of the multi-functional energy conditioner that disclosed.

As previously mentioned, a kind of typical new energy Pathway Arrangement comprises at least two group energy channels, and one group of energy channel is considered to a set of shield energy channel, and remaining one group of energy channel is considered to one group of conductively-closed energy channel.In all cases, can form the whole device that partly is made of predetermined energy channel, it has exterior material element and physical layout design, thereby constitutes a kind of new different energy Pathway Arrangement, in this case, add label 6969 for this energy Pathway Arrangement.

Should be noted that and to draw 3 groups of energy channels at least.Shown in first group of energy channel of energy channel of energy Pathway Arrangement example 6969 have public electrode element 6645,6635,6625,6615,6600/6600-IMC, 6610,6620,6630,6640, all these elements constitute a main body electrode part 81.These shielding energy pass elements of first group of energy channel are considered to a set of shield energy channel of energy Pathway Arrangement example 6969.

The energy channel of other group is considered to the energy channel of one group of conductively-closed as shown in figure 16, and comprises energy channel 6685BB, 6685BT, 6675BB, 6675BT, 6665BB, 6665BT, 6655BB, 6655BT.This group energy channel further is divided into the energy channel of two groups of conductively-closeds, comprises identical even number energy channel, makes the energy channel of relevant position of device be considered to paired.

The difference of noticing is, divide the energy channel of a plurality of conductively-closeds of energy Pathway Arrangement example 6969 to become second group of energy channel of energy Pathway Arrangement example 6969 again, it has energy channel 6685BB, 6665BB, 6655BB and 6675BB, and the 3rd group of energy channel of energy Pathway Arrangement example 6969, it has energy channel 6675BT, 6655BT, 6665BT and 6685BT.

Can make a kind of typical new energy Pathway Arrangement, and by the predetermined direction setting along two groups of energy channels, comprise first group of energy channel of identical even number energy channel and energy Pathway Arrangement example 6969, they are energy channels of shielding, for example.In energy Pathway Arrangement example 6969, two groups of energy channels that comprise identical even number energy channel also are set up relative to one another and arrange in groups, and between two single still corresponding energy channels, form small construction, (each of two groups of energy channels is divided into the energy channel of a plurality of shieldings) relative to one another.These two groups of energy channels also are considered to (complementation) energy channel of first and second groups of conductively-closeds of energy Pathway Arrangement example 6969.

Thereby, the energy channel of the conductively-closed of the first half identical even numbers that are provided with, it comprises the part in the energy channel of a plurality of conductively-closeds, be considered to complementaryly the energy channel with respect to the conductively-closed of remaining the second half identical even number that are provided with, it comprises the energy channel of a part of a plurality of conductively-closeds.In fact, the position of the selection of the energy channel of the conductively-closed of single group and direction form two not on the same group energy channels now, they are shielded mutually by a plurality of shielding energy channels of energy Pathway Arrangement example 6969, and can operate, be used for interactive dynamic differential or complementary electricity operation, toward each other as two groups of energy channels, they are used to regulate the energy part of propagating along many directions along the part of energy Pathway Arrangement example 6969 in predetermined structure or energy Pathway Arrangement.

The energy part of propagating along the each several part of energy Pathway Arrangement example 6969 can be divided into each energy part of moving of two different energy channel groups that separate on electric mutually, perhaps can find the energy part of being separated by a plurality of shielding energy channels of energy Pathway Arrangement example 6969, and they also are considered to adjacent one another are, and so approaching, make the energy of these parts be in many cases can interactional scope in.This be since a plurality of energy channels that each conductivity connects for due to the connection of the selection of circuit part or circuit path and inverter circuit current-carrying part.

The energy channel of the first half identical even numbers that are provided with, it comprises the energy channel of a part of a plurality of conductively-closeds, making it possible to propagate the other parts that a part is considered to respect to energy is complementary energy, the other parts of described energy along remaining the second half different be provided with but the energy channel of identical even number propagate, described energy channel also is made of the energy channel of a plurality of conductively-closeds.The device of this structure makes the dynamic operation part of discrete electronic component 7979 can regulate the energy of at least one circuit, wherein can utilize many modes, comprise that filtering, bypass, surge absorb and the energy part of decoupling zero from the energy to the load, and to make the user to feel seem by continual energy resource supply load, although in fact have only portion of time to carry out decoupling zero.The actual decoupling zero of this energy that carries out in portion of time can be considered to carrying out decoupling zero always because since the restriction of test apparatus may measure accurately hardly.

The typical embodiment that Figure 16 illustrates as an example comprises a plurality of shieldings and energy channel conductively-closed, they with the form of predetermined grade (and/or step-like ground) therefrom mind-set outer both direction reduce (perhaps increasing in other embodiments) total size, for example reduce symmetrically from the position that public leaving is positioned between the position of shielding energy channel 8 " XX "/8 " X "-IMC at center.Notice that the energy channel of shielding that is positioned at the center is generally as the center balance point of exemplary embodiments or install symmetric fulcrum and/or cut-point.Should also be noted that, bucking electrode container 800I, 800J, 800K, 800L, 800M and 800N are still as almost sealing each complementary energy channel fully, thereby produce the grouping of the container 800 ' X ' of paired conductive shield shape, this helps to carry out the electrostatic screen function once more, and make the energy transmission part propagate with respect to public conductive region or public energy channel that the outside connects, thereby make it possible to produce the voltage image reference, this also helps dynamically to operate the circuit part that constitutes exemplary embodiments.But, be also noted that, bucking electrode and/or screening conductive channel container 800I, 800J, 800K, 800L, 800M and 800N are expressed as the total relative proportional size of minimizing (perhaps increasing in other embodiments) respectively, become the paired container 800 " X " that size equates, it constitutes symmetry and predetermine level (and/or step-like) sequence balance along both direction, and is for example outside from the shielding energy channel 6600/6600-IMC that is positioned at the center shown in Figure 14.Thereby 800K and 800L are uniformly, but complementary and be provided with symmetrically with the center, and shielding energy channel 6600/6600-IMC is as the part of 800K and 800L, are used to begin the distribution of the balance of 800 " X " container.Thereby 800J and 800M are paired once more, and 800I and 800N are also complementally paired or the like.The size and dimension of 800 " X " conductive container no longer is uniformly, but is equally divided into symmetry, and clamping the positioner of the proportional pairing of size, as shown in figure 16.

All of energy Pathway Arrangement example 6969 a plurality of public energy channels, conductively-closed or not conductively-closed, on electric, all be isolated from each other.Each group energy channel in 3 groups of energy channels is grouped into and is public energy channel element, and their mutual conductivity connects, and has substantially the same shape (correspondence of at least 3 group energy channels is respectively organized each main body electrode part 80/81 of energy channel).The public electrode member of each the group energy channel in 3 groups of energy channels also respectively with any one of the energy channel of at least two remaining set of the energy channel of energy Pathway Arrangement example 6969 in the electrode member conduction insulation of each other row.

The electrode 6600/6600-IMC of first group of energy channel of energy Pathway Arrangement example 6969 can think the central electrode of first group of energy channel of the central electrode of energy Pathway Arrangement example 6969 and energy Pathway Arrangement example 6969 examples in this example.The electrode member of the common connection of first group of energy channel will shield the electrode member of the 3rd group of energy channel of the electrode member of second group of energy channel of energy Pathway Arrangement example 6969 and energy Pathway Arrangement example 6969.

First group of energy channel also can be considered to a plurality of shielding energy channels, because basically, each all structure that have of these shielding energy channels as main body electrode part 81, described main body electrode part 81 is generally greater than any one single main body electrode part 80 of any one electrode of second group of energy channel or the 3rd group of energy channel, described the 3rd group of energy channel and each relevant main body electrode part 81 direct neighbors are as two groups of energy channels in two groups of exemplary devices 6969.In this case this is had a kind of exception: a plurality of shielding energy channels are by grade or are the part of step-like increase size, the not shown outside structure of Figure 16, but the applicant has been contemplated to fully.

This does not also mean that and shields energy channel in all cases always greater than the energy channel of conductively-closed, " being held " situation that this state only is used to localize, for example, the energy channel 6655BB of the conductively-closed of second of energy Pathway Arrangement example 6969 group of energy channel by 6630,6640 clampings of two in energy Pathway Arrangement shielding energy channels.This state is not that a kind of localization " is held " situation, thereby, the energy channel 6633BB of conductively-closed can be greater than the energy channel 6640 of shielding, but, the energy channel 6655BB of conductively-closed still by bigger shielding energy channel and 6600/6600-IMC and 6610 electrode body part 81 shielding, as shown in the described structure.Because all 3 groups of energy channels of element 7979 expressions use the dimensional configurations of " step-like ", should be noted that this rule that is shielded to the conductively-closed size relationship.

Note, in other remodeling of 6969, the energy channel structure of shielding/conductively-closed can be made like this, make the shielding group not use the dimensional configurations of " step-like " for a plurality of shielding energy channels, (not shown) and will be as a plurality of shielding energy channels of a plurality of stacked homogeneous textures, each shielding energy channel of this remodeling of a plurality of shielding energy channels has uniformly (within these are a plurality of) main body electrode part 81, and it is similarly greater than any one single main body electrode part 80 of any one electrode of second group of energy channel or the 3rd group of energy channel.Thereby, have only complementary energy channel to using the dimensional structure of (less or bigger) " step-like " gradually, as a plurality of shieldings of the another kind remodeling of this embodiment that has just proposed and physically uniformly energy channel then do not use.

It should be noted that, clamping external energy passage or clamping exterior shield electrode 6650F/6650-IMO, as shown in figure 14, but it is not shown in Figure 16, be outside clamping bucking electrode and/or outside clamping shielding energy channel 6650F/6650F-IMO and 6650/6650-IMO, they always are conceived to and should use, but it is selectable, decide according to user and/or producer's needs.Because multi-functional energy Pathway Arrangement example 6969 comprises a plurality of energy channels of at least two paired conductively-closeds, it should be noted that, these two paired groups are complementary mutually, in corresponding with relative position, as a plurality of energy channels of conductively-closed, and in electronic component 7979, carry out electricity operating period (in all identical moment) complementation toward each other.

But, each energy channel is right, it comprises a plurality of energy channels of at least two paired conductively-closeds, and do not need (element by at least one shielding energy channel and/or first group of energy channel separates) adjacent one another are, for example, energy Pathway Arrangement example 6969 is described second group of energy channel 6685BB, 6665BB, 6655BB and 6675BB of energy Pathway Arrangement.(complementary) each complementation of second group of energy channel of typical new energy Pathway Arrangement and/or conductively-closed energy channel always has the energy channel element of the 3rd group of energy channel of corresponding typical new energy Pathway Arrangement, as the element of the pairing of its complementation.Can say this moment logically, element 6675BT, the 6655BT of the 3rd group of energy channel and 6685BT also are the energy channel elements of second group of (complementation) energy channel of energy Pathway Arrangement, and each energy channel of the 3rd group of energy channel of energy Pathway Arrangement always has the energy channel element of second group of energy channel of corresponding energy Pathway Arrangement as its complementary counter pair.

It should be noted that, (outwards it seems) in general from the shielding energy channel 6600/6600-IMC that is positioned at the center, each side at the shielding energy channel 6600/6600-IMC that is positioned at the center, have clamping and bigger that be positioned at the center and shielding energy channel 6600/6600-IMC, be (complementary) energy channel of the identical a pair of conductively-closed of complementary size equal shape at this moment, it comprises 6655BB and 6655BT.(complementation) the energy channel 66555BB and the 6655BT of conductively-closed are isolated from each other on electric, and are had the material 801 of pre-determined characteristics and the energy channel 6600/6600-IMC isolation that is positioned at the center of shielding at least.This generally is such situation: the energy channel of wherein paired corresponding conductively-closed constitutes a kind of situation, be (complementary) energy channel of the paired conductively-closed of direct neighbor complementary pair of forming at least one each energy channel (perhaps just conductor), comprise two groups of identical even number energy channels, it has the energy channel of one group of conductively-closed.

(complementary) energy channel centering of each outside conductively-closed, evenly configuration but complementally the energy channel of the conductively-closed of location is right, for example 6665BB and 6665BT, direct neighbor not in device 66969.In this case, (complementation) energy channel of this conductively-closed still keeps the relation of conduction insulation mutually to 6665BB and 6665BT, and they still keep having the material 801 of pre-determined characteristics and/or the energy channel 6600/6600-IMC that is positioned at the center of material and shielding (part that also has in other cases, other) at least between them.

(complementation) energy channel of this conductively-closed is to also being complementary relative position relation each other, still corresponding each other and relative on its orientation separately and position, but continue two equal spacings, each be positioned at typical new energy Pathway Arrangement bigger shielding the energy channel 6600/6600-IMC that is positioned at the center a side (1FS and/or 2FS, this be at least two any typical energy channels in the face of side).Thereby but these different paired energy channels are also operated in opposite mode on electric electronic component 7979 in and/or are complimentary to one another electric at (at synchronization) during the electric operation, still also separate certain distance each other.

A kind of news that produces is that the paired corresponding energy channel that the paired size equal shape with corresponding energy channel and the 3rd group of energy channel that the size equal shape of second group of energy channel is identical is identical is no longer adjacent one another are now.In almost any configuration, for any for example as first (complementary) energy channel such as 66555BB and 6655BT for conductively-closed, this is an exception, when they clip shielding be positioned at the energy channel at center the time, as directed 6600/6600IMC, as shown in the example 6969, they can be found to be consistent with each other.

Any corresponding energy channel element of second and the 3rd group of paired energy channel of conductively-closed can have essentially identical shape, but generally they do not have identical size with respect to any adjacent energy channel.This rule still makes can produce different also predetermined symmetry and the devices that piles up balance at least in the middle of the mixing of two group energy channels.

In Figure 16, illustrate embodiment 7979 with smallest cross sectional, as the form factor of the discrete elements of the energy channel of the relative symmetrical balance of new design and energy channel group.Basically, comprise the predetermined different energy channel that piles up formation with embodiment 6969 similar typical new embodiment, energy channel main part 80 and/or from the energy figure 80 of each complementation and/or different energy channels, have the insertion position of energy channel main part 81 and/or the electrode pattern 81 of first group of energy channel, and/or the first set of shield energy channel 6645,6635,6625 and 6615, the 6600/6600-IMC, 6610,6620,6630 and 6640 of energy Pathway Arrangement.Should be noted that main body electrode part 80 and/or 81 is described respectively, its energy channel extension that does not comprise main body energy channel part 81 and/or main body energy channel part 80 respectively is as 79 " X " and/or 6611 " X ".

The energy Pathway Arrangement of this relative symmetry of all main body energy channel parts 80 and all main body energy channel parts 81 deducts a main body energy channel part 81, is the result of an energy Pathway Arrangement with respect to shielding energy channel 6600/6600-IMC balance of the centralized positioning with its main body energy channel part 81 (the main body energy channel part 81 that deducts in the above-mentioned simple formula).

Thereby, also the remodeling of the energy channel of at least 3 groups that can be described or embodiment can be increased and/or be subdivided into the group of similar formation and single energy channel, and it still can be used as the complementary energy channel of minimum symmetry basically and shields energy combination of channels device as 6969.Should also be noted that, shown in Figure 16 is at least 3 group energy channels, they are arranged to little by little with being separated (with respect to the shielding energy channel 6600/6600IMC that is positioned at the center and the first differential energy channel to) device of (or step-like) reduced in size, from the shielding energy channel 6600/6600IMC and the first differential energy channel that are positioned at the center 6655BB and 6655BT are moved, in the variation of the not shown this size in inside, externally represent with the size and/or the form factor of whole element 7979.

The energy channel main part 80 of its different energy channel of partly illustrating of middle part and the 81 main and/or main energy channel areas that occupied respectively by main body energy channel part 80 and 81 constitute, the part of (top not shown) of a plurality of internal energy passages is extended with symmetrical manner from the shielding energy channel 6600/6600-IMC that is positioned at the center along both direction in the mode that reduces (or step-like) gradually, as by the shielding energy channel at bigger center and/or shown in being positioned between the position that the shielding energy channel 6600/6600-IMC at center is separated from each other.

The energy channel 6600/6600-IMC that is positioned at the shielding at center generally is used as the balance point of the energy Pathway Arrangement of symmetry.In this case, (complementation) energy channel pairing of conductively-closed can separate in whole element, and energy Pathway Arrangement is from the 1FS of 6600/6600-INMC and the either side of 2FS main body energy channel part 81.In other element, for example, " surface " of two main body energy channel part 80/81 energy channels or the 1FS and the 2FS of many energy channels can be stacked, and they are surrounded (not completely shown) by the material 801 with pre-determined characteristics basically.

The new shape factor of the inside of whole element 7979 does not comprise each energy channel prolongation 79G ' X " and/or 6611 " X "; they be for the operation of each energy channel needed; for example be used for being connected, when it is set at when being used in the sort circuit with the conductivity of the circuit part at the edge 817 of element 7979.This design, promptly, paired energy channel is varying sized with respect to the energy channel of adjacent complementation, simultaneously still keep shielding by the shielding energy channel of first group of energy channel of energy Pathway Arrangement, when from the shielding energy channel 6600/6600-IMC that is positioned at the center with symmetrical manner when both direction is seen at least just as can be seen.The change of size also can be different.In one embodiment, first group of energy channel of energy Pathway Arrangement can keep identical and/or uniform this physical property of size and dimension, be very similar to the energy channel structure of multi-functional conductive shield, its aspect uniformity and embodiment part 19900 shown in Figure 14 similar, for example.

The energy (not shown) of propagating simultaneously along 6675BT, 6655BT, 6665BT and the 6685BT of (complementary) energy channel 6685BB, 6665BB, the 6655BB of the paired conductively-closed of second group of energy channel and 6675BB and the 3rd group of energy channel can utilize bypass and/or straight-through (not shown) energy transmission mode.Thereby, the paired energy channel 6685BB of the complementation of the uniform symmetry of the paired differential energy channel of uniform and symmetrical complementation (perhaps being conductor) and/or second group of energy channel, 6665BB, 6655BB and 6675BB, and the energy channel of the 3rd group of energy channel and/or conductively-closed, the electrode of conductively-closed (perhaps being conductor) 6675BT, 6655BT, 6665BT and 6685BT, the predetermined figure that they are parallel to each other respectively physically is set in place relative to one another on the opposite side 1FS and 2FS of the shielding energy channel 6600/6600IMC at center.

For example be labeled as 40,41,42,43,44,45,46, the alignment scheme of takeing in after 47 the aligning fully has been susceptible to by the applicant, therefore 6645 of first group of energy channel of energy Pathway Arrangement, 6635,6625 and 6615,6600/6600-IMC, 6610,6620,6630 and 6640 and all other shielding energy channel, bucking electrode (perhaps being shielded conductor), and second group of energy channel 6685BB, 6665BB, the conductively-closed of 6655BB and 6675BB (complementary) energy channel, and the 3rd group of energy channel 6675BB, 6655BB, 6665BT and 668BBT do not need to make the size of main body energy channel part 80 and the energy channel of these conductively-closeds, main body energy channel part 80 couplings each adjacent complementation of the electrode of conductively-closed (perhaps just conductor) and/or differential.

In Figure 16, first (complementary) energy channel is to (complementary) energy channel of (with respect to basic point 0) conductively-closed of 6655BB, 6655BT, the electrode of conductively-closed (perhaps just conductor)

Theta alignment 001 can be determined.This also be Fig. 1, Fig. 2 or Figure 14 the first set of shield energy channel the shielding energy channel public aligning edge 805 ' (with respect to basic point 0)

The situation of theta alignment 002.

Under the situation of Figure 16, with respect to first group of (complementary) energy channel to 6655BB, (complementary) energy channel of the conductively-closed of 6655BT, (with respect to basic point 0) at the edge 803 of the electrode of conductively-closed (perhaps just conductor)

Relative (with respect to basic point 0) at the edge 805 of the 6600/6600-IMC of theta alignment 001

Theta alignment 002.(set up with respect to basic point 0)

Theta alignment 001 and 002 can be determined or in most of the cases sees non-for present one

(with respect to basic point 0) of angle, nonparallel aligned relationship, it is present between 3 groups of energy channels, and the relative angle of 500T/500B illustrates the angular relationship of all the other elements of energy channel now, and all 3 groups still keep the relation of opposing parallel basically.

When with

Angle (with respect to basic point 0) is when aligned relationship is compared, and is non-

The nonparallel aligned relationship of angle (with respect to basic point 0) also is established, comprising (complementary) energy channel of first conductively-closed first 3 energy channels to the energy Pathway Arrangement of the center shielding energy channel 6600/6600-IMC of 6655BB, 6655BT and (complementary) energy channel.This complementary relatively difference on every side of center shielding energy channel 6600/6600-IMC has disclosed any non-

Angle (with respect to basic point 0) aligning energy channel edge relation can be from non-

Angle (with respect to basic point 0) aligned relationship changes, always make with respect to first 3 energy channels of energy Pathway Arrangement, it (complementary) energy channel that comprises first conductively-closed is to first 3 energy channels of the energy Pathway Arrangement of the center shielding energy channel 6600/6600-IMC of 6655BB, 6655BT and (complementary) energy channel.Thereby to 6655BB, 6655BT helps to set up (with respect to basic point 0) with the energy channel of center shielding or (complementary) energy channel of even first conductively-closed of energy channel 6600/6600-IMC energy Pathway Arrangement of shielding of being positioned at the center

Theta alignment is with reference to 001,002, and it helps to determine non-again

Change after the manufacturing of the nonparallel aligned relationship of angle (with respect to basic point 0), in Figure 16, be labeled as 500T/500B and 550T/550B now, thereby determine for example by the degree that departs from 0 aligned relationship of aiming at the energy channel scheme shown in 40,41,42,43,44,45,46,47.Should be noted that what the repeated shapes of the different energy channel in every group and size always allowed, as long as in corresponding complementary a plurality of energy channels, have the energy channel of corresponding complementation.

Thereby, the paired relatively design of all a plurality of energy channels with take in or relative common edge along aiming at conception plans even extending further, so that comprise 6645,6635,6625 and 6615,6600/6600-IMC, 6610,6620,6630 and 6640, as shown in figure 16, for example it uses common edge to aim at 44 along 805,45,46,47, therefore, as long as each energy Pathway Arrangement for example 6969 or the element of embodiment for example 7979 change can comprise certain zone of takeing in relatively (814,814F etc.---when needs), still naturally arrive the shared bucking electrode passage 6600/6600-IMC at center, when energy channel is manufactured as the part of device 7979.(stacked 6600/6600IMC can be with respect to any subsequently conductive layer or the effect starting point of conductive deposit, but may not be the at first starting point that embodiment makes).

In bigger energy Pathway Arrangement, the stacked body (not shown) of 7979 of Figure 16 device 6969 or embodiment for example, by profile and observation shielding energy channel 6645 referring to energy Pathway Arrangement example 6969 or embodiment, 6635,6625 and 6615,6600/6600-IMC, 6610,6620,6630 and 6640, they can be operated and be used to shield 4 energy channels to 6685BB and 6685BT, 6675BB and 6675BT, 6675BT and 6675BB, 6665BB and 6665BT, they are set up 6655BB and 6655BT (they can be division electrode) and from the shared bucking electrode passage 6600/6600-IMC at center, can see difference (for the purpose of concisely illustrating notion, having omitted other material elements of 6969 in the explanation in this section), complementary energy channel 6655BB and the 6655BT of the energy channel 6665BB of the conductively-closed of the complementation of second pair of same size and 6665BT and first pair are opposite, as shown in figure 16.

Thereby the typical in other words new embodiment of typical devices is balanced pro rata symmetrically, proportionally reduces or enlarge the paired complementary energy channel 6655BB and the 6655BT of same size.Can see complementary angle 500B and 500T, as with respect to center shielding energy channel by two clampings of energy Pathway Arrangement or being positioned at the combination of first 3 energy channels of device that the different energy channel of the shielding energy channel 6600/6600-IMC at center represents

Angle (with respect to basic point 0) parallel alignment concerns the just complementary angle of 001 and 002 inclination.

Because angle 500B and 500T, and 550B and 550T, enjoy identical relative but complementary spacing, when leaving the shielding energy channel 6600/6600-IMC motion that is positioned at the center for one, the part of the conduct device of two or more paired settings, retreat and be provided with or the (not shown) that is provided with that advances produces common edge along aiming at 40,41,42,43,44,45,46,47, not need by the clamping of energy Pathway Arrangement center shielding energy channel or be positioned at the device that two different energy channels of the shielding energy channel 6600/6600-IMC at center represent first 3 energy channels hang down with respect to

Angle (with respect to basic point 0) aligned relationship is directly aimed at, but they can aim at,

An additional energy Pathway Arrangement example 6969 or its remodeling 7979 are provided, they defer to the General Principle of general multi-functional conductive shield energy channel structure, the shielding energy channel design that it still uses faraday's formula has the conductive layer time series of piling up.This paired relatively design is included in all similar 6969 and 7979 the predetermined energy Pathway Arrangement or embodiment.This comprises predetermined energy Pathway Arrangement or embodiment, it does not use the outside paired electric energy channel of opposite complementation, as described in other own together and the unsettled disclosure, perhaps exterior shield or image energy passage 6655T/6655Y-IMO and 6650B/6650B-IMO, as shown in figure 14, but its be not shown among Figure 16.Should be noted that all similar 6969 or 7979 predetermined energy Pathway Arrangements or enforcement or other embodiment can make aims at 40,41,42,43,44,45,46,47 oppositely or make its remodeling oppositely.Also have many other possible schemes, these have all been expected by the applicant.

As long as each is relative to coupling, and complementary opposite aligning symmetrically in pairs and keep other distance relation and take in symmetric relation paired relatively or relative equilibrium, energy Pathway Arrangement example 6969 is just perhaps the remodeling of the embodiment of element is operated with predetermined electric regulative mode as the 7979 various energy adjustment functions required with respect to the user.Relative " the twin pairing " of this relative equilibrium and/or relative " specular " pairing, and/or relative reverse " specular " element pairing or unmatched and/or relative to balance, all be to the new improvement of former embodiment with structurally to the improvement of energy channel, it will produce many results beyond expectation, and be feasible, as long as comprise that the electrostatic screen function (not shown) with stacked conductive layer time Faraday shield energy channel structure that series is general of (complementation) paired electric opposite complementation or conductively-closed energy channel is not compromised.

The summation of (complementary) energy channel of the conductively-closed of first and second groups of energy channels also is separated in average mode on electric, is divided into the passage that the quantity that is used simultaneously equates, but have half energy channel on electric and the opposite group that is provided with anti-phase.Micron-sized or littler material with pre-determined characteristics or material 801 be dielectric material for example, be used for isolated and/or isolation and/or insertion function, under nearly all situation, be used to stop that energy Pathway Arrangement for example is similar to physics between the energy channel of not element of a plurality of energy channels in the device 6969 and being connected of conduction.

For example also provide a kind of method that is used to reduce the impedance of entire circuit in the part of for example installing 6969 circuit arrangements that occupy by typical new embodiment with device 6969 similar energy Pathway Arrangements, this realizes by the interaction that the energy of propagating along the opposite and paired conduction energy channel of conductively-closed is provided, described energy channel in shielding energy channel design, be held confinement basically with the relation of aiming at.Reduce the method for the impedance of entire circuit in the part of for example installing 6969 circuit arrangements that occupy by typical new embodiment and always utilize load with respect to the energy of each circuit and the energy of each circuit, when being connected by conductivity with respect to the reference voltage node of circuit or relative shielding energy channel or being energized, the energy channel conduction insulation of described energy channel and paired at least a plurality of conductively-closeds, and is connected as first group of energy channel conductivity of 6969 with typical new embodiment, its energy of being propagated in any remodeling partly is used as the part of low circuit impedance.

Meanwhile, whole not on the same group opposite paired conduction energy channel element can keep the relation of aiming at mutually basically mutually, and it is simultaneously parallel physically and/or perpendicular to first group of opposite paired conduction energy channel element that is parallel to each other, the opposite paired conduction energy channel element associated working that is parallel to each other of each circuit bank, but has minimum differential influence each other, as mentioned above.

The conductivity that the user has the external energy passage that first group of energy channel with by energy Pathway Arrangement of many selections utilize is connected.According to the public conductive reference node of the circuit of the 3rd energy channel or excitation, described external energy passage can be used as another energy return path.

In some applications, the user may need the outside paired external conductive energy channel that connects the additives amount of the differential conduction energy channel that does not belong to original, so that utilize the circuit impedance of the reduction in energy Pathway Arrangement.This low impedance path phenomenon can produce by utilizing another or auxiliary circuit backward channel.In many cases, when excitation, various inside and function simultaneously take place, thereby energy channel material production Low ESR energy channel along the partial interior of AOC at least of typical new embodiment distortion, it is partly used by the energy of propagating along each (complementation) differential or conductively-closed energy channel, anti-and parallel mode so that look younger, in the energy channel structure and/or device of shielding, when its during in such position operation, described position is physically at least between each conduction energy channel, described energy channel utilizes load from the energy or source and energy, and returns, thereby its circuit conductivity with excitation is connected.

Each different conduction energy channel is to also utilizing relative circuit 0 reference voltage image node or the public conduction energy channel of the 0 voltage node that produces along the energy channel of internal shield, described energy channel comprises the energy channel of shielding, the different conduction energy channel of each reduced size around its shielding, it almost is complete sealing.

General, but in nearly all remodeling of energy Pathway Arrangement, the energy adjustment function of at least 3 whiles can be operated generation, as long as long as the shielding of the circuit of the active energy channel in the regional footprint of the shielding energy channel of clamping is held and comprises or be included in the AOC:

1) physical shielding cage shape effect or electrostatic screen correlation function, utilization is by the inner energy parasitism that produces of electric charge containment of active conduction energy channel shielding, and provide physical protection, prevent the energy parasitism that produces with the outside that is connected of same active conduction energy channel, and reduce the energy parasitism, generally owing to the development of the physical shielding of whole excitation, it utilizes the active energy channel that inserts in the regional footprint of the energy channel of the shielding of clamping;

2) insert the physics electric conducting material, the part of material has pre-determined characteristics 801, makes to be included in or to be included in basically and can have very little spacing with the active conduction energy channel of the oppositely charged in the shielding energy channel of the interactional clamping of controlled mode.

3) payment of the mutual flux of energy field of the various piece of the energy part of propagating along paired and electrode electric opposed complementary or conduction energy channel, with the parasitic complementary charged inhibition of spuious energy simultaneously, and physical shielding and electric shield containment, because the magnetic flux energy is transmission by this way in transmission line or in the line conductor or in the layer, if wherein the RF return path is parallel and adjacent with its corresponding power supply track, then with can the source path relevant observed magnetic flux energy of return path usually along opposite direction.When mutually opposite field is combined, the effect of just observing payment or reducing.The distance of (complementary) energy pathway of mutually opposite or conductively-closed is near more, and the effect of payment is good more.

Reaffirm, typical embodiment comprise relative equilibrium complementation with symmetrically arranged predetermined energy channel and material part 801, its with respect to the complementation with balance of these elements with the symmetric part setting, can operate the shielding energy channel that clamping is positioned at the center, for example 800/800-IMC.

On the opposite side of the formation of each energy channel, the energy channel main part, for example the energy channel main graphic 80, as (complementary) energy channel and 81 of the electrode of the complementation of conductively-closed and/or conductively-closed as shielding or bucking electrodes, make main body energy channel part 80 and 81, (not comprising the energy channel extension 79 " X " of main body energy channel part 80 and/or the energy channel extension 79G " X " of main body energy channel part 81) is the symmetrically arranged with complementation of relative equilibrium, with respect to center shielding energy channel, it is shielding or shielding energy channel 6600/6600-IMC in one case.

The device with complementary symmetry with respect to central energy passage 8 " XX " or 6600/8 " X "-IMC or 6600-IMC relative equilibrium comprises grouping with single and paired a plurality of energy channels, they are set to make to reduce (perhaps increases in some remodeling, not shown) total size and/or conductive area or part, wherein by little by little and/or in the mode (and/or step-like mode) of step, (this explanation is the explanation of the embodiment that finished from the predetermined core of exemplary embodiments according to predefined procedure, rather than explanation manufacturing sequence (because described embodiment can with any manufacturing sequence manufacturing), but only as the explanation of outward appearance, its size changes gradually, change gradually towards outer boundary from predetermined center, materials used 799 forms stacked combination, has the material 801 and/or the material part 801 of pre-determined characteristics.

Be to be understood that from the review of a large amount of embodiment, according to electrical applications from bucking electrode and syndeton derivation, can change shape, size and thickness, thereby form at least 2 conductive containers, then produce shielding construction at least one bigger independent conduction and cage shape homogeneous, it comprises the part of uniform and/or different types of mixing again in the circuit of at least one or a plurality of excitations with discrete and non-discrete mode of operation, but electrode that paired size equates or paired energy channel.

As can be seen, the possible energy conditioner and the remodeling of a small amount of selection only has been described, obviously, has not broken away from the scope and the design of typical energy conditioner, the change and the remodeling of other that also has that many those skilled in the art can make.It is also understood that top explanation is an example, the invention is not restricted to these embodiment, element wherein can reconfigure and replace on the whole with on the part.

Claims (25)

1. energy regulator is characterized in that:

The a plurality of stacked electrode that mutual conductivity connects;

A plurality of electrodes with uniform shapes comprise at least the first pair and second pair of stacked electrode, their insulation each other in an electrically conductive;

Wherein said first pair of stacked electrode is greater than described second pair of stacked electrode;

It is to conduct electricity to insulate that each electrode in wherein described at least first pair of stacked electrode is configured to another electrode;

Any one electrode in wherein said a plurality of stacked electrode is greater than any one electrode in described a plurality of electrodes; And

In wherein said first and second pairs of stacked electrodes each is to being configured to respect to another right lateral attitude conductively-closed and orientation.

2. energy regulator is characterized in that:

A plurality of bucking electrodes comprise first, second and the 3rd bucking electrode of property each other in an electrically conductive connection;

At least one pair of conductively-closed electrode comprises the first and second conductively-closed electrodes, and they are configured to have the overlapping region, described overlapping region also with the region overlapping of described a plurality of bucking electrodes, and Non-overlapping Domain is along the opposed edges of described energy regulator;

Wherein said a plurality of bucking electrode is made of an odd-integral number bucking electrode;

The wherein said first conductively-closed electrode is set at the top of described first bucking electrode, and the wherein said second conductively-closed electrode is set at the below of this first bucking electrode, and wherein said secondary shielding electrode is set at the top of the described first conductively-closed electrode, and described the 3rd bucking electrode is set at the below of this second conductively-closed electrode;

Each conductively-closed electrode in wherein said at least one pair of conductively-closed electrode is less than any one bucking electrode; And

At least one bucking electrode in wherein said a plurality of bucking electrode is used to accept bias voltage.

3. energy regulator is characterized in that:

A plurality of bucking electrodes comprise first, second and the 3rd bucking electrode, their property each other in an electrically conductive connections;

At least one pair of electrode, it comprises first and second electrodes that are provided with by opposite mirror image orientation mode each other;

Wherein said a plurality of bucking electrode is made of an odd-integral number bucking electrode;

Wherein said first electrode is set at the top of described first bucking electrode, and wherein said second electrode is set at the below of this first bucking electrode, and wherein said secondary shielding electrode is set at the top of described first electrode, and described the 3rd bucking electrode is set at the below of described second electrode;

Each electrode in wherein said at least one pair of electrode is less than any one bucking electrode in the described energy regulator;

Wherein said a plurality of bucking electrode makes described at least one pair of electrode shield each other at least; And

Wherein said a plurality of bucking electrode and described at least one pair of electrode are annular.

4. energy regulator as claimed in claim 1, its feature also are to have dielectric material between described a plurality of stacked electrode.

5. energy regulator as claimed in claim 2, wherein said at least one pair of conductively-closed electrode is isolated from each other on electric; And

Wherein said at least one pair of conductively-closed electrode and described a plurality of bucking electrode are separated from each other by dielectric material.

6. energy regulator according to claim 3, wherein said at least one pair of electrode is isolated from each other on electric; And

Wherein said at least one pair of electrode and described a plurality of bucking electrode are separated from each other by dielectric material.

7. energy regulator according to claim 1, its feature also are to comprise at least two electrodes that the outside is stacked.

8. energy regulator according to claim 2, its feature also are to comprise at least two exterior shield electrodes.

9. energy regulator according to claim 3, its feature also are to comprise at least two exterior shield electrodes.

10. according to each described energy regulator in the claim 1～9, any one electrode of wherein said energy regulator is the division electrode.

11. according to each described energy regulator in the claim 4～6, wherein said dielectric material is replaceable to be: have material that becomes resistive energy or material with ferrite performance.

12. an energy regulator that comprises at least 4 terminals is characterized in that comprising:

First group of battery lead plate, it comprises first pair of stacked battery lead plate and second pair of stacked battery lead plate at least, described first pair of stacked battery lead plate and described second pair of stacked battery lead plate insulation each other in an electrically conductive;

Second battery lead plate insulation each other in an electrically conductive of first battery lead plate of wherein said first pair of stacked battery lead plate and described first pair of stacked battery lead plate;

Second battery lead plate insulation each other in an electrically conductive of first battery lead plate of wherein said second pair of stacked battery lead plate and described second pair of stacked battery lead plate; And

In wherein said first pair of stacked battery lead plate and the described second pair of stacked battery lead plate, any one battery lead plate in these two kinds of battery lead plates all shields with another battery lead plate, and the different terminal in described 4 terminals is coupled on electric each other.

13. energy regulator according to claim 12 is characterized in that further comprising second group of stacked battery lead plate, described second group of stacked battery lead plate is coupled on electric each other.

14. energy regulator according to claim 13, the surface area of a battery lead plate that it is characterized in that described second group of battery lead plate is greater than the surface area of a battery lead plate of described first group of battery lead plate.

15. energy regulator according to claim 12 is characterized in that all battery lead plates of described first group of battery lead plate have mutually the same basically shape.

16. a manufacture method that comprises the energy regulator of at least 4 terminals is characterized in that may further comprise the steps:

First group of battery lead plate is set, and it comprises first pair of stacked battery lead plate and second pair of stacked battery lead plate at least, described first pair of stacked battery lead plate and described second pair of stacked battery lead plate insulation each other in an electrically conductive;

Second battery lead plate insulation each other in an electrically conductive of first battery lead plate of wherein said first pair of stacked battery lead plate and described first pair of stacked battery lead plate;

Second battery lead plate insulation each other in an electrically conductive of first battery lead plate of wherein said second pair of stacked battery lead plate and described second pair of stacked battery lead plate; And

Each battery lead plate in two battery lead plates of wherein said first pair of stacked battery lead plate and two battery lead plates of described second pair of stacked battery lead plate all with the shielding of another battery lead plate, and on the different terminals of each battery lead plate electrical couplings in described at least 4 terminals.

17. method according to claim 16 is characterized in that further may further comprise the steps: second group of stacked battery lead plate is set, and described second group of stacked battery lead plate is coupled on electric each other.

18. method according to claim 17, the surface area of a battery lead plate that it is characterized in that described second group of battery lead plate is greater than the surface area of a battery lead plate of described first group of battery lead plate.

19. method according to claim 16 is characterized in that all battery lead plates of described first group of battery lead plate have mutually the same basically shape.

20. a using method that comprises the energy regulator of at least 4 terminals is characterized in that described energy regulator comprises:

First group of battery lead plate, it comprises first pair of stacked battery lead plate and second pair of stacked battery lead plate at least, described first pair of stacked battery lead plate and described second pair of stacked battery lead plate insulation each other in an electrically conductive;

Second battery lead plate insulation each other in an electrically conductive of first battery lead plate of wherein said first pair of stacked battery lead plate and described first pair of stacked battery lead plate;

Second battery lead plate insulation each other in an electrically conductive of first battery lead plate of wherein said second pair of stacked battery lead plate and described second pair of stacked battery lead plate; And

Each battery lead plate in two battery lead plates of wherein said first pair of stacked battery lead plate and two battery lead plates of described second pair of stacked battery lead plate all shields with another battery lead plate, and the different terminal in described 4 terminals is coupled on electric each other; And

At least two terminals in described at least 4 terminals are connected to a circuit.

21. method according to claim 20 is characterized in that described energy regulator further comprises second group of stacked battery lead plate, described second group of stacked battery lead plate is coupled on electric each other.

22. method according to claim 21, the surface area of a battery lead plate that it is characterized in that described second group of battery lead plate is greater than the surface area of a battery lead plate of described first group of battery lead plate.

23. method according to claim 20 is characterized in that all battery lead plates of described first group of battery lead plate have mutually the same basically shape.

24. energy regulator according to claim 1 is characterized in that a electrode in described a plurality of electrode with uniform shapes is arranged on all other the electrode of described energy regulator.

25. energy regulator according to claim 1 is characterized in that in described a plurality of stacked electrode one of the centre greater than any other electrode in described a plurality of stacked electrodes.

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