SU547738A1 - Source of stabilized alternating voltage - Google Patents

Description

(54) SOURCE OF STABILIZED VARIABLE VOLTAGE

Lennaya current power diode bridge, another diagonal of which is connected between the output and input terminals.

The drawing shows a block diagram of a source of stabilized voltage.

It contains a rectifier 3 connected in parallel with the input terminals 1 and 2, a constant voltage regulator 4, a constant voltage converter AC, a converter 5, an output filter 6 of the converter, an auxiliary diode bridge 7, a current supply resistor 8, a power diode bridge 9, in the diagonal the rectified current of which the control transistor 10 is turned on in the base and collector outputs.

A regulator is included in one of the buses connecting the input 1, 2 and output 11.12 clamps. Between the output terminals of the source and the control input of the DC voltage stabilizer, a negative feedback circuit 13 is switched on.

The converter control circuit includes a driver of the synchronization signal 14, a phase shifter 15, a driver of control pulses of the converter 16.

The output phase self-tuning circuit. For example, the converter and filter contain a phase meter 17, an integrating link 18, a DC amplifier 19, the output of which controls the operation of the phase shifter 15.

The source of stabilized alternating voltage works as follows.

A variable voltage to be stabilized from input terminals 1 and 2 is fed to rectifier 3, and from its output to stabilizer 4 and then to constant voltage converter 5, from which output the voltage goes to output filter 6 of the converter.

The operation of the converter is synchronized by the frequency of the mains voltage. For this, the network voltage is supplied to the shaper 14 of the synchronizing signal, from which output the synchronization signal is fed through the phase shifter 15 to the shaper of the triggering pulses 16 of the converter.

The output voltage of the filter 6 is rectified by the auxiliary bridge terminal 7 and, via the current-setting resistor 8, is applied to the emitter-base junction of the control transistor 10, creating a pulsating current in the zmitter transistor circuit.

The emitter current of the control transistor determines the magnitude of the collector current and, therefore, the amount of current in the output circuit of the device.

To ensure that the device operates, the voltage must always be on the controller. A split control transistor is connected in a circuit with a common base, its collector current is almost independent of the magnitude of the voltage across the collector-base junction. Thus, a change in the supply voltage leads to a change in the voltage drop across the controller, not reflecting on the magnitude of the current, and hence on the magnitude of the output voltage.

To stabilize the output voltage when the load changes through the feedback circuit 13, the output voltage of the DC voltage regulator 4 is changed. This will change the output voltage of the filter 6, and therefore the control current of the control transistor 10, which causes a change current through the load and return the output voltage to its nominal value.

Because the transistor connected in a common base circuit is not an Iderl current-stabilizing element, the change in the supply voltage causes a slight change in the output voltage. However, due to the action of the feedback circuit 13, this deviation from the nominal value of i is eliminated.

Thus, the power supply surges cannot, in principle, pass to the source output — they entirely fall on the regulator; output voltage variations associated with load variation are compensated for by the effect of the negative feedback circuit.

For undistorted operation of the regulator, it is necessary that the control current of the regulating transistor is in phase with the input voltage. This is achieved due to the presence of an auto-tuning circuit for the output voltage of the filter 6 in the phase of the input voltage. To do this, the indicated voltages are applied to the phase meter 17, from the output of which the pulses, in duration proportional to the phase shift, are fed to the input of the integrator 18.

The output voltage of the integrator, proportional to the pulse duration, is fed through the DC amplifier 19 to the phase shifter 15, providing the necessary phase shift of the synchronizing signal to the driver 16.

The use of the invention makes it possible to significantly increase the output power of a known power source of alternating voltage, while retaining one of the important advantages of its suppression of power supply surges and curvature, slightly degrading the weight and size characteristics of the power source.

Claims (1)

Invention Formula A stabilized alternating voltage source containing a sequentially connected expander, a dc voltage regulator, a dc to ac converter, a filter, a negative feedback circuit connected between the output terminals of the source and the control input of the stabilizer