SU608206A1 - Variable capacitor - Google Patents

Description

(54) CAPACITOR OF A VARIABLE CAPACITY

An insulator fixed on the inside of the housing cover, a common movable electrode connected to a piezo actuator, is provided with an additional common stationary electrode fixed on an insulating plate placed between the piezo actuator and a common movable electrode, and the movable electrode is made in the form of an elastic plate.

FIG. 1 depicts the proposed variable capacitor; in fig. 2 shows section A-A in FIG. one.

The variable capacitor contains a housing 1, a piezodrive 2, stationary glider electrodes 3, 4 consistently adjustable sections, a fixed electrode 5 of the section-model and a movable electrode 6, made in the form of an elastic plate fixed on the tips 7 of the piezodrive 2 and electrically connected to the housing 1 the capacitor to the circuit is carried out through the terminals 8, 9, 10, 11, the control of the piezodrive through the terminals 12, 13 connected to the electrodes 14.

When the control voltage is applied to the terminals 12, 13, the piezodrive 2 changes its linear dimensions, causing bending deformation of the electrode 6, which leads to a change in the capacitances of the sections formed by the electrodes 3, 6 and 4, 6, and the capacitance of the section-model formed by the electrodes 5, 6 The coordinated regulation of the section capacities is provided by the stationary electrodes 3, 4 being made in the form of alternating strips, and the possibility of their regulation is ensured by a strong functional relationship between the capacities of the consistently adjustable sections and the capacity of the section model. If these sections are connected to inductors, it is easy to show that the resonant frequencies of the formed oscillatory circuits are related to each other by the dependence

g gl - C2

where b. s, s; 1blgts4 L- inductance of each of the connected coils; C - capacitance between the electrodes 3, 6; Cj is the capacitance between the electrodes 4, 6; fi - the frequency of setting each of the consistently adjustable

contours; h frequency setting circuit-model.

Since the electrode 6 is electrically connected to the housing 1, the signal from the model section does not penetrate into the matched adjustable sections. In addition, in the proposed device, the configuration of the movable electrode is changed, since its implementation in the form of a bimorph piezoceramic plate has a number of significant drawbacks.

The proposed capacitor can be used in smoothly tunable narrowband filters, which expands the scope of use.

The capacitor allows you to implement a cryogenic radio receiver with a dual-circuit cooled preselector with a bandwidth equal to the spectrum of the received signal, which significantly increases the noise immunity of the radio and allows you to use radio channels with a low energy level for reliable communication. This gives a significant

economic effect.

Claims (1)

1. Martynov I.A. and others. Comparative assessment of the main receiving path RPU KB range. Radio Issues 7, s. 96, 1972. roniki 2, US Patent No. 3466413, CL 317-246, 1972. FIG. 2