SU917221A1 - Variable capacitor - Google Patents

Description

(54) CAPACITOR OF A VARIABLE CAPACITY

Claims (1)

I. /: -The invention relates to radio and can be used in devices for remote control of tuning and automatic frequency control, as well as a sensor in devices for determining the speed of air flow. The closest to the proposed technical entity is a variable capacitor capacitor, housing with two flat electrodes placed in it. With this capacitor, the movable electrode is made in the form of a bimorph piezoceramic element, which is bent under the action of an applied control voltage. The bimorph piezoceramic element is designed as glued together piezoke ramic plates made of lead zirconate titanate til. However, such variable capacitors have a small overlap, a large variation of parameters and low mechanical strength. The purpose of the invention is to increase the overlap ratio. This goal is achieved by the fact that a variable capacitor, comprising a case with two flat electrodes placed in it, is equipped with resistive heaters placed on flat electrodes, the flat electrodes being made in the form of bimetallic plates coated with dielectric layers. FIG. 1 shows a variable capacitor, an embodiment; on (r. 2 - the same, top view (without a cover). The capacitor contains a housing 1, which is made of rigid dglectric material and on which two flat electrodes 2 and 3 are attached. Each electrode is made in the form of a bimetallic plate. The bimetal is metallic material, made in the form of firmly mechanically interconnected plates and formed by two layers of metals (so called components), in which the temperature coefficients of linear expansion are different, In the proposed design, the electrodes are so that the bimetallic plates have layers with a large temperature coefficient of linear expansion (the active layers) face each other. The electrodes are connected to the housing with rivets t and 5 "The active layers of the bimetallic plates have working layers 6 and 7 dielectrics, such as mica. A dielectric layer can also be sprayed, for example, from neodymium monoaluminate, etc. In this case, separate strips are sprayed with a gap, the axes of which are at an angle relative to the axis of the plate. Upon contact of the plates, a cross-shaped intersection is formed, which prevents the electrodes from closing. On the passive layers of bimetallic plates resistive heaters 8 and 9 are located, insulated from bimetallic plates by layers 10 and 11 of the elec- tric. Heater leads through flexible conductors are connected to leads 12-15, to which a control current is applied. The electrodes of the capacitor through rivets are connected to the terminals 16 and 17, on top of the capacitor is closed by a cover 18, which is attached to the housing. When the current flowing through the heaters 8 and 9 is zero, the bimetallic plates touch each other (or have a minimum gap). The capacitor has a maximum capacity, when flowing through the heaters of the namesake, the bimetallic plates 2 and 3 are heated and bent, which leads to a decrease in capacity. The maximum capacitance value is determined by the area of the electrodes and the thickness of the dielectric layer. The proposed capacitor is easy to manufacture and has high mechanical strength. Claims of variable capacitor, comprising a case with two flat electrodes placed therein, characterized in that in order to increase the overlap ratio, it is equipped with resistive heaters placed on flat electrodes, the flat electrodes being made in the form of bimetallic plates coated on them dielectric layers Information sources taken into account in examination 1, USSR Author's Certificate No. 332507, class, AND 01 G 5/01, 1972 (prototype), 12 ABOUT % " f7 / ABOUT W FIG.