SU1339514A1 - A.c.voltage source - Google Patents

Abstract

The invention relates to secondary power sources of radio equipment. The aim of the invention is to expand the limits of regulation, reduce nonlinear distortion and improve the accuracy of stabilization. In comparison unit 4, a mismatch signal is generated which is amplified by operational amplifier II. The received signal through the optocoupler 8 is supplied to the operational amplifier 12. The voltage on the resistor 14 is maintained at the same magnitude as on the photoresistor 7, which ensures a balance of voltages on the divider 5, the transistor 3 and the resistors 14, 6 and 7, providing the transistor 3 resistance function. 1 il. (L Soto So 4)

Description

This invention relates to secondary power sources of radio devices.

The purpose of the invention is to expand the limits of regulation, reduce nonlinear distortion and improve the accuracy of stabilization.

The drawing shows the circuit of the proposed voltage source.

The source of alternating voltage contains rectifying bridge 1, diagonal

7 is inversely proportional to the current of the photodiode 13. The current signal of the latter, passing through the second operational amplifier 12, maintains the voltage on the emitter resistor 14 of the same magnitude as on the photoresistor 7 of the optocoupler 8, and the voltage divider 5 on the balance bar - control transistor 5 - emitter resistor 14 and resistors 6 and 7 and providing the control transistor 3 with a resistively alternating current function of which is turned on. When the mains voltage of the power bus decreases, the load 2 connected to or when the load current increases, the node 4 output pins, the control transistor 3, the collector of which is connected to one

output DC bridge 1, node 4

Comparison reduces the current of the photodiode 13, increasing the resistance of the photoresistor 7 and, accordingly, the voltage across it. In comparison, including the source of the reference voltage of the regulating transistor 3 and connected to the load, it increases, compensating the reduction of 2, the voltage divider 5 consisting of the second resistor 6 and the photoresistor 7 of the optocoupler 8. The first resistor 9 connected to the output 10 of the first operational amplifier 11, the second operational amplifier 12 is connected to the base of the transistor 3. Two

load stresses 2.

Claims (1)

Invention Formula An alternating voltage source containing a rectifying bridge, the diagonal of alternating current of which is included in the power panel, and one DC output terminal is connected to the collector of the control transistor, the comparison unit, the input The inputs of the first operational amplifier 11 are connected to the two outputs of the comparison node 4, and its output through the current limiting resistor 9 and the photodiode 13 of the optocoupler 8 - 25 An alternating voltage source containing a rectifying bridge, the diagonal of alternating current of which is included in the power panel, and one DC output terminal is connected to the collector of the control transistor, the comparison unit, the input to the input of the node 4 comparison. The first pin of which is connected to the output pins, a photoresistor 7 optocoupler 8 is associated with a non-inverter and optocoupler, characterized in that tiruyup them the input of the second operational expansion of the limits of regulation, a decrease of 12 and a resistor 6 of the divider non-linear distortion and increase voltage, and the second output through emit-precision stabilization, it introduced two a container resistor 14 is connected to an inverti -. ,,, operational amplifier and three resistors. the second input operational amplifier 12 and the emitter of the control transistor 3, the base of which is connected to the output of the second operational amplifier 12, and the collector to the resistor 6 of the voltage divider. The voltage source works as follows. In node 4 of the comparison, a difference signal is generated between the reference signal produced by the source of the reference voltage, the input of the first operational amplifier is connected to the output of the comparison node, and the output is connected to the input of the comparison node via the first resistor and the optocoupler photoresistor is connected to the second or resistor to the diagonal of the direct current of the rectifying bridge, the inverting input of the second operational amplifier is connected to the emitter of the regulating transistor directly and through the third resistor with a different output constant, and a signal arriving at the load 40 of the rectifying bridge, while 2, which is amplified by the operating amplifying inverter input of the second operating side 11, and through a current limiting amplifier connected to the connection point the resistor 9 is fed to the photodiode 13 of the optocoupler of the photoresistor of the optocoupler and the second red 8. The value of the resistance of the photoresistor. 7 is inversely proportional to the current of the photodiode 13. The current signal of the latter, passing through the second operational amplifier 12, maintains the voltage on the emitter resistor 14 of the same magnitude as on the photoresistor 7 of the optocoupler 8, and the voltage divider 5 on the balance bar - control transistor 5 - emitter resistor 14 and resistors 6 and 7 and providing the control transistor 3 with a resistance function. When the mains voltage decreases or the load current increases, node 4 Comparison reduces the photodiode current. The photoresistance of the photoresis is correspondingly increased. load stresses 2. Invention Formula Comparison reduces the current of the photodiode 13, increasing the resistance of the photoresistor 7 and, accordingly, the voltage across it. In this case, the current of the control transistor 3 increases, to compensate for the decrease in An alternating voltage source containing a rectifying bridge, the diagonal of alternating current of which is included in the power panel, and one DC output terminal is connected to the collector of the control transistor, the comparison unit, the input which is connected to the output pins, the input of the first operational amplifier is connected to the output of the comparison node, and the output through the first resistor and the LED of the optocoupler is connected to the input of the comparison node, the photoresistor of the optocoupler is connected via the second r resistor to the diagonal of the rectifier bridge, the inverting input of the second operational amplifier is connected with the emitter of the control transistor directly and through