RU2023287C1 - Constant voltage regulator - Google Patents

Abstract

FIELD: radio electronics. SUBSTANCE: constant voltage regulator is built in compliance with classic design of compensating constant voltage regulator which includes series regulating transistor 2, operational amplifier 1 of error signal, voltage dividers, one based on resistors 9, 10, the other one- on resistor 8 and stabilizer diode, controlling transistor 4 and by-pass capacitor 11. Regulator is supplemented with displacement resistor 3 connected between emitter and base of regulating transistor 2 and parallel network made of stabilizer diode 6 and capacitor 5 placed between emitter of controlling transistor 4 and common wire. EFFECT: enhanced efficiency and raised stabilization factor. 1 dwg

Description

 The invention relates to electronic equipment and can be used in electronic devices for various purposes, in particular in amplifiers, generators, automation devices and other equipment, which have high demands on the stability of the supply voltage.

 Known DC voltage stabilizer containing a serial control transistor, covered by positive feedback from its emitter to the emitter of the auxiliary transistor, the base of which is connected to the base of the regulator and to the emitter of the control transistors [1].

 The closest technical solution is a DC voltage regulator containing a control transistor connected between the input and output terminals, an emitter to the input terminal, an operational amplifier of the error signal, the inverting and non-inverting inputs of which are connected respectively to the outputs of two voltage dividers, one consisting of two series-connected resistors, another of a series-connected resistor and a zener diode, a blocking capacitor, together with the indicated elitelyami voltage connected between the output terminal to the common bus, and a control transistor, the base of which is connected to the output of the operational amplifier error signal, and the regulating transistor collector connected to the base [2].

 Known voltage stabilizers have such values of stabilization factors and efficiency, which in some cases are insufficient for high-precision equipment with low power consumption. This is mainly due to the final value of the transmission coefficient in the feedback loop and the presence in the circuits of the known stabilizers of various additional elements.

 The purpose of the invention is to increase the stabilization coefficient and efficiency of the device.

 This is achieved by the fact that the DC voltage regulator contains a regulating transistor connected between the input and output terminals, the emitter - to the input terminal, an operational amplifier of the error signal, the inverting and non-inverting inputs of which are connected respectively to the outputs of two voltage dividers, one consisting of two series-connected resistors, the other - from a series-connected resistor and a zener diode, a blocking capacitor, together with the indicated voltage dividers connected between the output terminal and the common bus, and the control transistor, the base of which is connected to the output of the operational amplifier of the error signal, and the collector is connected to the base of the control transistor, a bias resistor is inserted, connected between the emitter and the base of the control transistor and a parallel chain of a zener diode and a capacitor, included between the emitter of the control transistor and the common bus.

 The drawing shows an electrical diagram of the proposed stabilizer.

 The stabilizer contains an operational amplifier (OA) 1 of the error signal, regulating a transistor 2 with a bias resistor 3, a control transistor 4 with a chain of parallel-connected capacitor 5 and a zener diode 6 included in the circuit of its emitter, two voltage dividers, one consisting of a resistor 7 and a zener diode 8 and another, consisting of resistors 9 and 10 connected to the output of the device, as well as a blocking capacitor 11 and a load 12 connected in parallel with voltage dividers.

 The DC voltage stabilizer operates as follows.

After applying the supply voltage U _I to the input of the stabilizer through the resistor 3 and the control transistor 4, current flows. Moreover, at the initial time after the device is turned on, the voltage at the output of the op-amp 1 is very small and is determined by the passport value of the op-amp unbalance, and if there was only one zener diode 6 in the emitter of the control transistor 4, it could be insufficient to open the transistor 4, which would interfere with normal operation devices.

To avoid this undesirable phenomenon, a starting capacitor 5 is connected in parallel with the zener diode 6, the resistance of which at the initial time is close to zero, and thus the entire output voltage of the op-amp 1 is applied to the base-emitter section of the control transistor 4 and it turns out to be open. In turn, the bias voltage that appeared on the resistor 3 opens the control transistor 2 and the collector current starts flowing through the last one, which leads to the appearance of the voltage at the output of the stabilizer U _o , which is applied to the two voltage dividers on elements 7-10. From the outputs of these unbalance voltage dividers, measured relative to the reference (reference) voltage U _{op of the} zener diode 8, is fed to the inputs of the op-amp 1, which leads to the appearance of the corresponding control voltage at the output of the op-amp 1. In this case, the output voltage of the op-amp 1 is redistributed between the reference voltage of the zener diode 6 and the base-emitter voltage of the control transistor 4, which ensures the open state of the latter in the steady-state mode of operation of the stabilizer. The accelerating capacitor 5 is charged to the value of the reference voltage of the zener diode 6 and in the future does not affect the operation of the device.

Suppose that during the operation of the device, the value of the input voltage U _in , for example, increases by a certain amount. In this case, the output current of the regulating transistor 2 (the Earley effect) also increases and, accordingly, the voltage drop across the divider on the resistors 9, 10, and therefore at the inverting input of the op-amp 1, while the voltage at the non-inverting input of the op-amp 1 remains unchanged and equal reference voltage U _op, taken with the zener diode 8. Emerged differential voltages on the inputs OS 1 is amplified and supplied with a negative sign with the OS 1 output to the base of the control transistor 4 (npn structure), resulting in some decrease in its output current, otorrhea flows through resistor 3 bias the regulating transistor 2. A decrease of the voltage drop across the resistor 3 closes regulating transistor 2 to decrease its output current, which leads to a decrease and the output voltage U _O of the stabilizer, thus seeking to still the initial value. With a decrease in the input voltage level U _in, the processes described above proceed similarly, but in the opposite direction, again stabilizing the output voltage of the device, since in this case the output current of the control transistor 4 increases, thereby increasing the output current of the control transistor 2 due to the increase in the voltage drop on resistor 3.

 The device is efficiently used in high-power measuring and amplifying equipment with low power consumption.

Claims (1)

 A DC voltage stabilizer containing a regulating transistor between the input and output terminals, an emitter to an input terminal, an operational amplifier of a mismatch signal, inverting and non-inverting inputs of which are connected respectively to the outputs of two voltage dividers, one consisting of two resistors connected in series, the other of connected resistor and zener diode, blocking capacitor, together with the indicated voltage dividers connected between the output the output and the common bus, and the control transistor, the base of which is connected to the output of the operational amplifier of the error signal, and the collector is connected to the base of the control transistor, characterized in that, in order to increase the stabilization coefficient and efficiency, a bias resistor is inserted into it, connected between the emitter and the base of the control transistor, and a parallel chain of a zener diode and a capacitor connected between the emitter of the control transistor and the common bus.