PL34293B1 - - Google Patents

Description

The invention relates to a method of testing microfoning capacitors, in particular rotary, single or multiple capacitors. Acoustic testing (microphonic testing) of rotary capacitors is aimed at improving the acoustic goodness of a rotary capacitor, i.e. its tendency to mechanical vibrations under the influence of acoustic waves. The tendency to mechanical vibrations of a capacitor plays an important role in frequency conversion radio receivers, causing a phenomenon of micronization which severely limits the undistorted power that can be obtained from a given receiver. The mechanism of this phenomenon is summarized below. . The stator plates or the rotor of the oscillator circuit capacitor, under the influence of the loudspeaker, are excited to vibrate with a frequency in the range of e.g. 600 - 1000 rounds; sec. These vibrations cause a change in the receiver's oscillator frequency within the limits of e.g. 600-1000 rounds, which causes a serious disturbance in reception. Determining the acoustic quality of the capacitor gives guidelines for design changes in the capacitor, removing tendencies to vibrations, or eliminates from the production of capacitors, the goodness of which is lower than the permissible for a given receiver. The method of testing the acoustic quality of capacitors, given by Riegger, is known. The device for testing the Riegger method consists of an oscillator and a high-frequency amplifier, a detector and a low-frequency amplifier with a high gain, at the output of which is a loudspeaker, acoustically coupled to the tested capacitor, located in the resonant circuit of the amplifier. * j the frequency. The disadvantage of this known method is the necessity to control a complicated high frequency measuring device, the impossibility of testing the capacitor at different capacities, since it is connected to the resonant circuit, the necessity to adjust to resonance every time, etc. Consequently, this method is not suitable for The method of testing the acoustic quality of the capacitors according to the invention is based on the fact that the test is carried out only with the aid of a low frequency amplifier. An example of the invention is shown in the figure, in which the letter W denotes low frequency amplifier, letter P gain regulator. The tested capacitor C is connected to the input terminals of the amplifier, to which plates the voltage is applied, taken from the voltage divider R \, R. This voltage is the voltage, with an appropriately selected component variable. The loudspeaker G, connected to the final stage of the amplifier W, is acoustically coupled to the tested capacitor C. By adjusting the gain in one of the stages of the amplifier, "acoustic vibrations are obtained in the loudspeaker with a frequency of, for example, 100 rounds, needed for stimulation. These vibrations cause the voltage on the grid of the input tube to change with the frequency of these vibrations, and thus the corresponding tone will be created in the loudspeaker. which made a tone in the speaker PL

Claims (3)

Claims 1. A method of testing the acoustic quality of, for example, rotary capacitors, according to which the tested capacitors are stimulated to mechanical vibrations by means of a loudspeaker connected to the output of a low-frequency amplifier, characterized by the fact that changes in voltage, formed on the vibrating test capacitor, is fed directly to the output of the low-frequency amplifier. 2. The test method according to claim The method of claim 1, characterized in that the tested capacitor bias with the DC voltage. 3. The test method according to claim The method of claim 2, characterized in that a voltage is applied to the polarization. Zbigniew Bartz ¦if.¦¦¦¦; a fe Bltk. No. 1 - PLN 150 1337—19.4 51. T-2-11260—26.X-5Lr. PL