SU503204A1 - Diagram of the magnetoelectric drive of a balance oscillator - Google Patents

Description

one

The invention can be used as a time course control device.

There are known schemes for a magnetoelectric drive of a balance oscillator, containing working and regulating transistors, a pulse coil and a release coil, with the release coil at one end connected to the emitters of the transistors, and the other through the first resistor to the base of the controlling transistor and through the second resistor to the base of the working transistor the pulse coil is connected at one end to the collector of the working transistor, and the other end through the third resistor to the regulating collector and the base of the working transistor.

The drawback of such circuits is the current consumption between the drive pulses.

The aim of the invention is to reduce the current consumption between the pulses of the drive and, as a consequence, the average current consumed by the drive circuit.

This is achieved by introducing a capacitor in the proposed circuit, connected between the regulating collector; its transistor and the common point of the release coil of the first and second resistors.

The drawing shows the principal

electrical circuit of the magnetoelectric drive of a balance oscillator.

The circuit contains a regulating cascade on a Tt transistor with a collector resistor Kz,

the capacitor Ci and the resistance in the RI base circuit. The working stage consists of a transistor T2, an IMFon coil Wn, a base resistor 2 and a capacitor Cz. The release signal is generated by the Wo coil. The power supply of the circuit is carried out from a source of direct current E. Note that the capacitor C2 serves to collect parasitic high-frequency generation in the circuit. In some cases (for example, there is no inductive coupling

between the coils of Wo and Wa) it may not be.

The operation of the circuit is as follows. In the initial state, the capacitor d is charged, and for p-n-p transistors the lining connected to the common point of the base resistance is positive. Thus, the circuit consumes a very small current (approximately the sum of the reverse currents

collector diodes obonh transistors / k). When hovering negative half-wave voltage In the Wo-release coil, a magnetic balance system induced in the bases of both transistors appears currents. The resistances of the resistors Ri and 2 are chosen so that the base current T is greater () and both transistors do not open until saturation. Amplified base current TZ creates a pulse current in the pulsed coil. The base current is regulated; its transistor Ti sets the discharge current of the capacitor Ci. This current provides a voltage drop across the resistance of the coil Wo of the opposite sign, in relation to the emf. release. Thus, in effect, its signal value in the base circuit is a function of the amplitude of balance oscillations. The nature of this dependence provides for the regulation of the base current of the working transistor Go, hence the current in the pulsed coil Wu and the pulse energy transmitted to the balance. This is how the self-oscillation amplitude stabilizes. After the expiration of the opening action, the half-wave of the release signal occurs to it, the charging of the capacitor Cc occurs and the closing half-wave of the release signal blocks both transistors.

Claims (1)

Invention Formula The magnetoelectric drive oscillator circuit of the oscillator containing a working and regulating transistors, a pulse coil and a release coil, the release coil at one end connected to the emitters of the transistors, and the other through the first resistor to the base of the control transistor and through the second resistor to the base of the working transistor, pulse the coil is connected at one end to the collector of the working transistor, and the other end through the third resistor to the regulating collector and the base of the working transistor, which With a tel1 that, in order to reduce the average consumed current, a capacitor is inserted into it connected between the collector of the regulating transistor and the common point of the release coil of the first and second resistors. WITH-, Wr -CZZJ