DE1018465B - Elastic filling compound for microphones u. like - Google Patents

Description

Elastic filling compound for microphones and the like. In the telephone microphones commonly used, the acoustic sound energy is converted into electrical power by the pressure fluctuations of the external sound field being mapped by means of an oscillating membrane as changes in resistance of a carbon grit filling through which direct current flows. As a result of the different behavior of a normal pulverized coal stretch when the membrane is elongated, this transformation is only linear in the direction of pressure. On the other hand, if the membrane is deflected in tension, a mechanical rectifying effect occurs, which gives rise to considerable distortions. The reason is essentially to be seen in the fact that the carbon grains are, so to speak, left to their own devices in the phase in which the membrane electrode retreats from the filling compound. Depending on the adhesion and mass, they slide arbitrarily, shift against each other and in turn generate new frequencies. This effect is indicated by the appearance of a difference tone (f, -f2) , which arises when the normal coal-grit microphone is exposed to two different , equal amplitudes at the same time. Tone frequencies f1 and f: In practical operation of such additional distortions also make for instance in the form of a sandy noise noticeable. It would therefore be advantageous to eliminate these non-linearities if all carbon grains, for example fixed by elastic forces, could vibrate in defined positions under the influence of sound in order to cancel out the arbitrary movement of the individual grains.

Attempts made in this direction have led to the familiar Rubber microphone led. - # Ian uses the effect that the admixture Rubber made conductive by carbon powder with regard to its electrical resistance is pressure dependent. The electrical impedance of such a structure depends on the Mixing ratio variable within wide limits, the purpose-related structure relative simple and robust. However, the power output is detrimental lower than with the carbon microphone. These are in progress of development further problems emerged, the unsatisfactory solution of which was a practical one Opposing use on a broader level. For example, temperatures up to 50 ° a small influence on the conductivity of the system, with stronger heating However, the resistance drops rapidly and makes the production of low-impedance microphone types more difficult. Furthermore, in the course of time, certain instabilities arise as a result of chemical Changes that occur particularly as a result of oxidation of the contact electrodes affect the quiescent current. The use of synthetic rubber is shown in Although this relationship produces more favorable results, the fact that the conductive rubber always in its function as a compact pressure resistance modulator, also with Use of this more resistant material, with a high, technologically based Self-attenuation explains the previously mentioned lack of sensitivity and the influence of certain hysteresis and inertia effects on the degree of modulation such microphones. This quirk is related to surface effects of the normally used charcoal on the transmission quality and the distortion factor so restrictive, i.e. the spread of the rubber milk microphone in practice in spite of recognized advantages in terms of construction and manufacturing technology so far had to step back behind the classic charcoal type.

The object of the invention is now to remedy the shortcomings mentioned and generally an elongation-dependent resistance of high sensitivity, linearity and stability, especially for use in telephone microphone systems, to create, with which the task in the lead rubber is undoubtedly extreme achieved, but precisely because of this, no longer sufficient elastic binding of the carbon particles can be realized with each other in a usable manner.

From the point of view that the grains of coal are by no means arbitrary may move against each other in new positions, but also not in their rest Membrane-influenced mobility should be prevented according to the invention every single grain of coal of the semolina filling with a wafer-thin Surface layer surrounded by elastic plastic. If the space between the membrane and fixed electrode of the microphone fully constantly with a charcoal meal prepared in this way -possibly even under a slight bias -filled, one leaves the Coal grit range in itself functional, although the required degree of freedom as Sound transducer, but at the same time deprives the individual grains of remaining mutually beyond this necessary range of motion into a new one Shift position. Correspondingly takes place through the membrane vibrations pressure variation caused only a temporary displacement of the carbon grains among each other out of defined rest positions that of each individual grain as a result of the elastic Forces of its envelope are automatically taken up again in the unexcited state. In this way there is a substantial reduction in non-linear distortion of the well-known coal semolina microphone achieved, while this compared to the mechanical Impedance can be kept almost unchanged. With the same principle of the lead rubber system compared, however, the deflections of the membrane call for a significantly larger one Change in resistance and thus also the effect of higher power output.

With regard to the electrical behavior, the inventive Coating of the individual charcoal grains with an elastic plastic layer beneficial and remarkable in various directions. Due to its high insulating capacity the plastic layer, which is roughly in the order of a micron, can be assumed that the conductive carbon particles on the one hand just as little with each other as with the contact electrodes stand in direct contact. However, it would then even be proportionate low operating voltages, local field strengths of 105 to 10% Vlt / cm occur, which allow the electron flow to cross over. Its extent depends on both on the applied voltage as well as on the thickness of the insulating layer that is in turn changed with your pressure on the entire filling. Namely, if on one with rigid or also expediently provided with elastic boundary walls Charcoal chamber, which, as described, prepared charcoal grits completely and possibly fills even under a moderate bias, from the outside by means of the membrane static pressure is exerted, the insulating layer of the individual carbon grains deforms, mostly without breaking. In doing so, their mutual distance is constantly being changed, so that contact resistances of 200 to 400 ohms occur. Under this condition the carbon grains touch each other in terms of resistance exactly as in the conductive rubber and allow in the same way according to the existing number, but here in contrast a function of the variable quantity ratio of the carbon powder-rubber mixture the grain size of the coal grit is a suitable adjustment with a wide margin the electrical impedance to the respective operating conditions. Should be otherwise From the beginning or as a result of prolonged use, the plastic covers are pierced and thus set a direct contact of the conductive particles with one another, so changes this is essentially neither the electrical conditions of the arrangement nor the the invention according to advantageously achieved property of the carbon grains, in defined To swing positions. In general, the lower the conductivity of the microphone contact is, the greater is the energy used at the contact point, the resistance and converted into heat according to the square of the current intensity. The measure, to increase the effectiveness of the energy expenditure of a normal charcoal microphone to increase, finds a limit in the risk of impermissible warming and can last The end result is ashing the sensitive points of contact and thus numbness of the system. In this respect, too, the plastic coating causes the individual grains of coal very beneficial a significantly lower local impact Warming. When using a thermally sensitive plastic, for example on the basis of organo-silicon oxide polymers, it is quite possible by increasing the supply current, the alternating current power is electrically lower 1-1.To increase microphones without changing their chemical and elastic properties to have to fear the plastic coating. Furthermore there is the possibility mechanical damping by changing the elastic properties of the plastic to influence the entire charcoal filling and, accordingly, the reproductive character of the microphone as desired. Elastic plastics are an example Rubber and viscose, polyvinyl chloride or polyurethane, etc. are based on experience separates natural rubber because of its tendency to chemical aging and that already instabilities associated with moderate warming. Other types of plastic However, their heat resistance goes far beyond the norm, without Losing elasticity. Within the scope of the invention, one use is all Plastics which, due to their special properties, differ in chemical, thermal and elasticity for producing a very thin covering of the carbon grains let use, no limit set. It is both to the real, through polymerization and condensation, as well as modified natural materials. Plastics based on Polyisobutylene and ethylene glycol adipic acid polyester.

Faced with problems similar to those prescribed by the specification of a suitable plastic represents, one also sees each other in terms of type, composition and form of the Provided as a filler to be used charcoal. As is known, for that The creation of the microphone effect is not only due to the mechanical pressure dependence of the The filler resistance is important, but also the surface properties of the applied guide material. Mineral impurities are of considerable influence on its microphone properties and, depending on its origin, result in the anthracite existing natural charcoal caused quite a scatter in the electroacoustic data. Newer Process allow by a coking of plastics caused by condensation or polymerization of hydrocarbons are formed at certain temperatures to win an artificial coke and this under a protective gas in the presence of 'metal and / or Halbmetalldämpfeli to subject to an annealing treatment in which Foreign atoms on the carbon to be incorporated into the surface layer in an expedient manner attach. This method shapes the charcoal and also that of a corresponding one Post-treatment underwent c. NEN, commercially available starting materials with respect to their microphone properties are considerably cheaper. A further training of the Invention according to such processed coal with plastic is designated Kind of enveloped.

The production of the plastic coating is done in a simple manner in front of himself that the used for normal telephone microphones in processed form Coal meal - and possibly also the membrane and / or fixed electrode - with a volatile solution of the plastic is wetted on all sides in order to evaporate the To retain a wafer-thin surface layer of the solvent. The scored The thickness of the layer depends on both plastic and solvent as well as process engineering Measures dependent.

The spatial arrangement as well as the structural and production engineering Details can be designed according to purpose and preference, without the basic ones Features of the invention also in this respect to restrict and new, about the Essential beyond derived knowledge room to; just.

From these points of view, the invention is advantageous Possibility to favor the shortcomings of known conductive rubber arrangements to fix a practical use and create a charcoal microphone, the previous types in sensitivity, linearity and constancy of function is superior. Compared to the classic Kohlerie microphone, the elastic Touching the carbon grains is also less susceptible to noise and through the reduction in nonlinear distortion is a significant improvement in the Transmission quality as well as complete independence of position. So that is the invention but by no means to the exclusive use in electroacoustic systems limited, it relates rather beyond the presentation with the same advantage an application of the principle to electromechanical transducers for measurement and control purposes a.

Claims (7)

PATENT CLAIMS: 1. Charcoal filling for microphones and electromechanical Converter of measurement and control technology, characterized in that the individual grains of carbon are surrounded by a very thin surface layer made of elastic plastic and for them z. B completely fill in the space provided in the microphone. 2. Charcoal semolina filling for microphones according to claim 1, characterized in that the prepared charcoal grits in the filling space provided with rigid and / or elastic boundary walls is under a slight bias. 3. Charcoal semolina filling for microphones claims 1 and 2, characterized in that the membrane and / or fixed electrode of the microphone normally conductive or also with a very thin surface layer is or are coated from elastic plastic. 4. Charcoal filling for microphones according to claims 1 and 3, characterized in that the plastic is a genuine Polymerization or condensation product or a modified natural product of high elasticity, chemical and thermal resistance. 5. Charcoal semolina filling for microphones according to claims 1 to 3, characterized in that as electrical Resistance material is a specially prepared or post-treated coal semolina is used. 6. charcoal semolina filling for microphones according to claims 1 to 5, characterized in that the mechanical and electrical impedance of the microphone can be adjusted by the dimensions and type of the grains and their covering layer. 7th Charcoal semolina filling for microphones according to Claims 1, 3 and 4 to 6, characterized in that that the coating made of plastic on the carbon bodies by wetting on all sides is made with a volatile solution of the plastic.