DE1094802B - Electroacoustic converter - Google Patents

Description

GERMAN

kl. 21a ² 2/01

INTERNAT. KL.H 04 Π1

PATENT OFFICE

G 26436 VIII a / 21a ²

REGISTRATION DATE: FEBRUARY 21, 1959

NOTICE
THE REGISTRATION
AND ISSUE OF THE
ADAPTATION: DECEMBER 15, 1960

The invention relates to electroacoustic transducers of the electrodynamic type for converting electrical ones Vibrations in sound frequencies or higher frequencies in the vicinity of the audible area in Sound or ultrasonic vibrations, or vice versa, from sound or ultrasonic vibrations into electrical ones Vibrations are loudspeakers, headphones or microphones.

Some of the known electrodynamic loudspeakers contain a cone diaphragm that passes through a coil, a so-called voice coil, is operated in a constant magnetic field. The sink conducts currents of sound or ultrasonic frequencies, and their vibrations in the magnetic field are transferred to the membrane. Their main disadvantage is the linear deformation that it causes is due to the fact that the conical membrane is not always uniform over its entire surface vibrates, and is bad at high frequencies. The electrodynamic ones show a similar disadvantage Microphones, which are basically an inversion of the electrodynamic loudspeaker.

Another known type of electrodynamic loudspeaker includes a diaphragm attached to its Edges is clamped and, fastened to it, carries a ladder that consists of a rigid rib or a flexible wire is formed, this conductor in the air gaps between the poles of a A plurality of magnets arranged in a flat or curved surface parallel to the magnet is, protrudes. The conductor is crossed by lines of magnetic force between the poles. By A stream of sound frequency is passed through it, which, in the case of loudspeakers, causes the vibrations generated by the membrane or, in the case of a microphone, by the vibrations of the membrane is produced.

Known converters of this type are very cumbersome because of the need to accommodate the Ribs or wires within the narrow air gap between the poles and must also have a proportionate have thick membrane because of the interaction between the magnetic field and the conductor only takes place within the air gap, .d. H. in proportion limited zones. Despite its relatively strong magnetic field, the acoustic The efficiency of such converters is not very satisfactory, especially in the areas of higher frequencies, mainly due to their high mechanical impedance, and the use of such loudspeakers was abandoned in practice in favor of cone speakers.

Furthermore, there are membrane-less ribbon microphones

Electroacoustic converter

Applicant:

Robert Gamzon, Herzliya,

and Dr. Ephraim Heinrich Frei,

Rehovoth (Israel)

Representative: Dipl.-Ing. W. Cohausz,

Dipl.-Ing. W. Florack and Dipl.-Ing. K.-H. Ice egg,

Patent attorneys, Düsseldorf, Schumannstr. 97

Claimed priority:
Israel March 7, 1958

Robert Gamzon, Herzliya,

and Dr. Ephraim Heinrich Frei, Rehovoth (Israel),
have been named as inventors

became known in which oscillating metal strips are arranged between the poles of a magnet are. Such microphones have only limited areas of application, and their dimensions can cannot be enlarged at will.

The invention relates to an electrodynamic diaphragm transducer which has the disadvantages of the known electrodynamic membrane and cone transducers on the one hand and the ribbon microphones on the other allowed to avoid.

The transducer according to the invention has one or two magnet units in which there are a number of Alternate magnetic poles along one or more straight lines and one or more ribbon-shaped, flat, flexible conductors run opposite the free fields between the poles and are characterized by that each magnetic unit is made of magnetic material oriented perpendicular to its front exists, e.g. B. a known ferrite mi't a coercive force of at least 750 örsted, and that the conductor or conductors outside the air gap between the poles on a vibratory, at a small distance from the magnet unit parallel to this provided membrane accordingly the distribution of the poles are arranged lying flat in such a way that the vector product of the Current with the magnetic field in all parts of the conductor or the conductor has the same sign.

The magnet unit can be a continuous plate

be magnetized with a plurality of poles

is, or it can be formed by individual separate magnetic elements on a soft iron plate are constructed. The magnets consist of a material with high coercive force, the structure of which is in the main thing is perpendicular to the front face of the magnet unit, in order to have a high field strength in the To create space in which the membrane vibrates. For the sake of simplicity, both should Versions are hereinafter referred to as "magnetic disk". The magnetic disk can be flat or also be curved, e.g. B. in cylindrical shape; in this latter case is the "straight" line along which the Poles alternate, a geodesic line.

Possibility of arranging the conductors through the membrane outside the space between the Magnetic poles can be worn wherever such gaps exist, the membrane are excited along continuous strips or bands, which means that the impulse is essentially takes place over its entire surface in a uniform manner, in contrast to those mentioned known electrodynamic membrane loudspeakers in which the membrane only runs along those zones is excited, which coincide with the air gaps between the magnetic poles created by the conductor or the ladder is occupied.

By these known diaphragms the pressure amplitude only along a relatively narrow strip are exposed, they have to be made relatively thick so that the deformations do not occur grow up. The thickness of the known membranes is on the order of millimeters, however the diaphragms of the transducers according to the invention can be made thinner.

Experimental transducers with membranes 7 microns = 0.007 mm thick have been made with success. This thinness of the membrane results in a significantly better acoustic reproduction. With In view of the acoustics, the magnetic plate is also perforated, e.g. B. with conical openings, being the magnitude of the alternating states of increased and decreased air pressure between occurring between the magnet and the vibrating diaphragm.

The thickness of the conductor strip is preferably very small compared to its width, and the width of the strip is preferably large in relation to the distance between the successive rows of magnetic poles. If P is the distance between the center lines of the successive rows of magnetic poles and E is the width of the conductor strip, the ratio E / P can be as large as 0.9. This means that the major part of the membrane is exposed to the vibrations which are converted into air pressure amplitudes and which are distributed approximately uniformly over the entire surface of the membrane.

With the intention of making the magnetic field particularly strong and homogeneous, the invention provides also an arrangement in which a single membrane between two identical magnetic plates is attached, which are arranged symmetrically so that the poles of the same name of the magnetic disk face each other. In this case at least one of the plates must be perforated.

_k different embodiments of the invention on one side of the membrane anget, however, also possible to have two conductors on each side of the membrane, suitably in series or par

allele can be switched. It is also possible, if desired, to use a ladder to to form a negative feedback "coil".

Feedback coils are known and are used in loudspeakers with particularly natural reproduction used. However, the feedback coils used in these speakers are not very effective, because in the cone speakers it is practical

ίο is impossible to phase differences between the speed of the cone and the coil.

In contrast, the negative RF coupling "coil" according to the above adapted Application of the invention completely in phase with all parts of the membrane surface that pass through the ladder are covered. This way is a very effective feedback, and consequently one too high lifelike reproduction ensured.

ao If a conductor is used for feedback, its thickness can be a fraction of a micron, so that its weight is almost entirely negligible.

Conductors of such a small thickness can be easily obtained by known vacuum evaporation methods will.

The reproduction quality of the loudspeakers according to the invention is in the higher frequency ranges especially good. Good reproduction quality can also be achieved in the areas of the lower frequencies can be expanded by enlarging the diaphragm and magnets, or by a combination individual plates with increased surface.

As a result of the fact that the membrane vibrates in phase over its entire surface, is for the There is practically no limit to the size of the membrane; it would even be possible to have an entire wall of a room to build as a diaphragm of a transducer according to the invention, which in large halls of

φο can be an advantage.

Particularly suitable magnetic materials for the purpose of the invention are ferrites, the barium oxide contained in combination with various parts of iron oxide.

The non-magnetic membrane can, for. B. consist of a synthetic plastic material, such as B. polyethylene, glycol terephthalate or another polyester.

The invention is explained in more detail below with reference to drawings in which

Fig. 1 shows a partial view of the diaphragm of a transducer according to the invention,

Fig. 2 shows a partial view of the magnetic disk of the same transducer,

Figure 3 illustrates a cross section through the transducer along lines III-IIII in Figures 1 and 2,

4 shows a partial cross section through a transducer according to a second embodiment of the invention shows

Fig. 5 is a partial perspective view of the magnetic disk of the transducer of Fig. 4;

Figures 6 and 7 show partial cross-sections of two further transducers according to the invention,

8 and 9 are plan views of the magnetic plate and the membrane of a further embodiment of a Illustrate converter according to the invention,

Fig. 10 shows a section along the line X-X of Figs. 8 and 9,

11 shows an axial section through a loudspeaker (tweeter) which has a converter according to FIG to 10 shows

Fig. 12 shows a partial plan view of a membrane in yet another embodiment,

13 is a partial view of a transducer according to another embodiment of the invention represents

FIG. 14 shows a cross section along the line XIV-XIV in FIG.

The transducer according to FIGS. 1 to 3 contains a magnetic plate 1 and a membrane 2. The magnetic plate is made of high-coercivity-oriented material, e.g. B. barium ferrite produced, which has a coercive force in the order of 2000 örsted. It is magnetized in such a way that alternately parallel north and south poles extend over the entire length of the plate. Between each of the adjacent poles, the flux flows through the depth of the plate. Fig. 3 shows schematically the shape of these flow lines and the specified orientation of the structure in the material. The river can be understood as a horseshoe magnet 3 a, 3 b, 3 c , etc., and the magnets are, as shown, adjacent and arranged in pairs with their poles with the same characters, z. B. magnets 3 α and 3 & together show a south pole and magnets 3 b and Zc together show a north pole, etc. These poles lie in the upper surface of the plate, while the bottom of the plate is made of a soft iron armature plate 4. The membrane 2 is a flexible plate made of non-magnetic material, e.g. B. made of a plastic polyester material of a thickness of about 0.01 mm. On it is a conductor 5, for. Made of aluminum, printed in the form of a very thin flat strip which is pliable and has a very low mechanical impedance. The membrane lies essentially parallel to the plate 1, stretched tightly above the plate at a distance of about 3 mm or less and is attached at its edges in a known manner. The conductor is continuous and leads in parallel strips from one end to the other end of the membrane, with it being diverted into tight arcs at the ends. The straight stripes are stretched out over the gaps (this term does not have the same meaning in this case as the usual air gaps, since the plate has a continuous flat surface). Between the successive unlike poles of the plate 1 is, for example, the strip 5 α in the gap between the poles of the magnet 3 α and the strip 5 b between the air gap between the poles of the magnet 3 b etc. At their ends, the conductors 5 have two or more connections 6, one of which is shown in the drawing 1 and which is used to connect an input or output circuit. The magnetic plate has a plurality of openings 7 in order to equalize the air pressure in the air gap between the magnetic plate and the membrane.

When an electric current flows through the conductor 5, its direction changes from strip to strip, and any change in this direction corresponds at the same time to a change in the direction of the magnetic field, or, in other words, the vector product of the current and the magnetic field have the same sign in all parts of the conductor 5. The membrane thus vibrates in phase over its entire surface with the frequency of the change in the current flowing through the conductor. In the converter according to FIGS. 4 and 5, the magnetic plate is assembled from separate magnetic rods 1 a, 1 b, which are arranged in parallel on a soft iron plate 4 a. The soft iron plate 4a is provided with the same openings between these magnetic bars. The upper surface of the magnetic bars forms alternating north and south poles. The arrangements of the membrane 2 and the conductor 5 are the same as in the embodiment of the invention according to FIGS. 1 to 3. The advantages of this arrangement in comparison with the continuous magnetic plate according to FIGS. 1 to 3 are the easier magnetizability and the more powerful magnetic field of the magnetic disk thus produced.

Fig. 6 shows a transducer which contains a simple membrane 2 a with a wide conductor strip 5 d , which is arranged between identically and symmetrically arranged magnetic plates according to FIG. The magnetic poles of the same name are opposite one another, and the membrane la is located between them. Magnetic bars la are directed with their north poles and the magnetic bars 1 b with their south poles against the membrane. The acoustic efficiency of a transducer of this type is significantly greater than that of a single magnetic plate transducer according to FIGS. 1 to 3 or FIGS. 4 and 5.

Fig. 7 shows a transducer in the same way as Fig. 6 with the exception that the magnet rods 1 c and 1 d are beveled on their sides facing away from the membrane for reasons of material savings and the transducer lighter and the mechanical-acoustic impedance to make the slots smaller.

In this embodiment, the membrane 2 a carries two conductors 5 d and Se, one on each side, one of which can serve as a feedback conductor.

In the transducer according to FIGS. 8 to 10, the magnetic plate and membrane 9 are circular. The plate is magnetized rather than in parallel lines in a shape corresponding to Figures 1 to 3 in a shape of two intertwined spirals obtained by moving the spiral from the outside to the Center winds towards and back to the outside. The conductor 10 is on the membrane in the same way arranged so that a correspondence with the magnetic poles is achieved throughout. At the edges of the Membrane connection ends 11 and 11 are provided α.

The north and south poles alternate along the radial lines drawn in the magnetic plate. The plate has a central opening 12 and a base mounting plate 13. A disk-shaped one This type of converter is particularly suitable for horn speakers or tweeters with high frequencies acoustic frequencies.

Fig. 11 shows such a loudspeaker. He has a funnel 14, in which a converter accordingly Fig. 8 to 10 is incorporated.

Fig. 12 shows a diaphragm of a further embodiment of a transducer. The conductors 16 are arranged in four square fields. In each of these, the conductor is in the form of two intertwined Labyrinths corresponding to the intertwined spirals in Fig. 9. The ladder in these four fields are connected in parallel to terminals 17 and 17 a. The magnetic disk is magnetized accordingly the same pattern so that the conductor is superimposed with an air gap between alternating ones magnetic poles as in the converter described above. The converter can also have more than four of these Have fields.

Figures 13 and 14 show a cylindrical type of transducer according to the invention. A hollow cylinder 18 made of ferrite material is surrounded by a cylindrical

Drischen membrane 19, in which the conductor 20 is printed. The conductor expands in parallel Stripes along the generatrices of the cylinder, while the poles are alternately arranged along it a circle around the plate 18. The advantage of this design is that the membrane radiates symmetrically radially in all directions. This arrangement shows a very simple construction of a transducer.

Claims (13)

Claims = 1. Electroacoustic transducer with one or two magnet units in which there are a number of magnetic poles alternate along one or more straight lines and one or more ribbon-shaped, flat, flexible conductors run opposite the free fields between the poles, characterized in that each magnet unit is made up of magnetic material oriented perpendicular to its front Material consists, e.g. B. a known ferrite with a coercive force of at least 750 örsted, and that the conductor or conductors existed outside between the poles Air gap on a vibratory, parallel to a small distance from the magnet unit this membrane provided in accordance with the distribution of the poles in such a manner lying flat are that the vector product of the current with the magnetic field in all parts of the Conductor or the conductor has the same sign. 2. Converter according to claim 1, characterized in that the magnet unit as a plate with a continuous flat surface is formed. 3. Converter according to claim 1, characterized in that the magnet unit is a continuous Cylinder and the diaphragm is a cylindrical sleeve which coaxially surrounds the magnet unit. 4. Converter according to claim 1, characterized in that the magnet unit consists of separate alternating magnetic bars of opposite polarity and on their surface of a simple, soft iron plate. 5. Converter according to one of claims 1 to 4, characterized in that the magnet unit is perforated between the poles. 6. Converter according to one of claims 1 to 5, characterized in that the poles are divided into parallel rows with alternating opposite pole symbols are arranged. 7. Converter according to one of claims 1 to 6, characterized in that two identical magnet units with symmetrical facing with poles of the same characters are provided and a membrane is arranged symmetrically between these two magnet units. 8. A transducer according to any one of claims 1 to 7, characterized in that the membrane carries two separate conductors, one on each side. 9. Converter according to claim 8, characterized in that one conductor is connected to an output circuit an amplifier can be connected and the second conductor to the feedback input of the amplifier mentioned can be connected. 10. Converter according to one of claims 1 to 9, characterized in that the membrane or each side of the membrane carries a conductor containing parallel sections that extend across the Membrane largely the same in circumference as the Rows of magnets extend and are connected in series at their ends, each of these sections is in correspondence with a zone of consecutive rows of poles. 11. Converter according to one of claims 1 to 9, characterized in that the membrane or each side of the membrane carries a plurality of conductors arranged and connected in parallel are largely the same circumference as the rows of magnetic poles, each of these conductors in correspondence with a zone of consecutive rows of poles. 12. Converter according to one of claims 1, 2, 4, 5 and 7 to 9, characterized in that the Magnet unit contains at least one set of magnetic poles wound in the pattern of two Spiral rows of poles of opposite characters are arranged and the diaphragm or each side of the membrane carries at least one conductor in a similar pattern arranged and in correspondence with a zone between the turns of the spiral rows with opposite signs is. 13. Converter according to claim 1, characterized in that the magnet unit has at least one Set of magnetic poles containing in the pattern of two interwound rows of maze Poles of opposite characters are arranged and the membrane has at least one conductor wears, in a same pattern in accordance with the zone between the turns of the Maze row is arranged from opposite poles. Considered publications:
German Patent No. 971,374;
Swiss patent specification No. 314 504;
British Patent No. 674,470. For this purpose 2 sheets of drawings 1 009 678/371 12.60