SU892492A1 - Fixed capacitor - Google Patents

Description

(5) ELECTRIC CAPACITOR OF CONSTANT CAPACITY

Claims (2)

The invention relates to electrical electronics, in particular, to electric constant-capacitance path capacitors for use in the power supply circuits of microwave electronic devices. Known electrical capacitor containing the Central output and two metal electrodes deposited on the outer and inner surfaces of the ceramic tube ll. The disadvantages of the known capacitor are the unreliable contact of the central output with the internal electrode and its low mechanical strength. The closest in technical essence is an electric capacitor of a constant capacitance, containing a case made in the form of a canopy of a ceramic cylinder with internal and external electrodes placed on it, and a central terminal 2. However, the condenser design shown when used in microwave devices does not provide complete attenuation. Microwave signal. The purpose of the invention is to improve the electrical characteristics of a capacitor. The goal is achieved by the fact that an electric capacitor of a constant capacitance, comprising a housing made in the form of a hollow ceramic cylinder with internal and external electrodes placed on it, and a central terminal, is provided with a layer of electrically conductive polymer composition placed between the central terminal and the internal electrode wherein the electrically conducting polymer composition contains epoxy resin, polyethylene polyamine, fine silver and carbonyl iron in the following ratio of components, weight, h; Epoxy resin 12-21 Polyethylenepolyamine 6-9 Fine silver 60-70 Carbonyl iron 1P-12 The drawing shows the proposed constant capacitor. The capacitor contains a ceramic body 1 in the form of a hollow ceramic cylinder, on which inner 2 and outer 3 electrodes are applied, and a central terminal 4. Between the central terminal ij and the inner elecro 2 there is a layer 5, an electrically conductive polymer composition having microwave absorption. The ends of the capacitor are filled with the usual polymeric sealant 6. The capacitive effect is provided by the high dielectric constant of the ceramic body, on which the internal and external electrodes are applied, which serve as the plates. The electrical contact of the central outlet with the inner electrode is provided by a combination of epoxy resin and fine silver. The presence of carbon-iron in the composition causes the absorption of microwave currents. When selecting the composition of the conductive composition, it was found that when the content of fine silver is less than 60 hours.h. conductivity is lost, and in the presence of carbonyl iron less than 10 parts by weight the required absorption of the microwave signal is not provided. At the same time, an excess of fillers (silver more than 70 parts by weight and carbonyl iron more than 12 parts by weight) leads to a decrease in the adhesive properties of the composition and loss of strength. This determines the limits of the ratio of ingredients to the conductive composition. The proposed DC capacitor provides almost 100% transmission of DC voltage and attenuation of the microwave signal due to short circuit through the capacitor onto the case and absorption into the conductive composition. Improving the filtering properties of the capacitor is achieved by using a conductive microwave absorbing composition. If, in a known pass capacitor, the attenuation of the microwave signal is observed only due to the capacitive effect, then the proposed condenser absorbs the microwave signal of the polymer composition, which will result in a large effect with smaller sizes compared to the known capacitor. 1. Electric capacitor of a constant capacitance, comprising a housing made in the form of a hollow ceramic cylinder with internal and external electrodes placed on its side surfaces, and a central terminal, characterized in that it is provided with a layer of electrical wire to improve electrical characteristics a common polymer composition located between the central terminal and the internal electrode. 2. A capacitor according to claim 1, characterized in that the electrically conductive polymer composition contains epoxy resin, polyethylene polyamine, fine silver and carbonic iron in the following ratio of components, parts by weight: Epoxy resin 12-21 Polyethylene polyamine 6-E Fine silver 60 70 Carbonyl iron 10-12 Sources of information that are taken into account in the examination 1. The author's certificate of the USSR, cl. H 01 G, 1966. 2. Authors certificate of the USSR 358729, cl. H 01 G, 1971 (prototype). i 2.