SU896603A1 - Pulsed dc voltage stabilizer - Google Patents

Description

(54) PULSE STABILIZER OF CONSTANT VOLTAGE

one

The invention relates to electrical engineering and can be used in secondary power sources protected from short circuits and overloads.

Known DC voltage regulators with protection against short circuits and overloads, which contain a regulating transistor, an output filter and a resistive current sensor, are output connected via a control unit to the control input of the regulating element 1.

A disadvantage of the known impulse. The stabilizers consist in the absence of an automatic restoration of their operability after the control of a short circuit.

The closest to the present invention is a DC voltage regulator containing a regulator connected by a control input to the output of a pulse-width modulator, one input of which is connected to the output of the saw-tooth generator and the other through two decoupling diodes to the outputs of amplifiers direct current source and auxiliary voltage source with several outputs, with the inputs of the first DC amplifier connected to the terminal for connecting the voltage source and with The output of a resistive divider connected between the output terminal of a DC voltage regulator and a common bus, and the inputs of the second DC amplifier are connected to the output through matching circuits

10 current sensor, made in the form of a resistor, connected between the output of the smoothing filter and the output terminal of the switching voltage regulator 2.

15

A disadvantage of the known pulse stabilizer is the possibility of a false triggering of short-circuit protection in both the starting and

20 in steady state, which reduces the reliability of the device. This disadvantage is due to the large starting current of the smoothing filter of the pulsed constant-voltage regulator, as well as the presence of high-frequency pulsations on the sensor in steady state.

Claims (2)

The purpose of the invention is to increase the reliability of a DC voltage pulse stabilizer. This goal is achieved by having a DC voltage regulator containing a regulator connected by a control input to the output of a pulse-width modulator, one input of which is connected to the output of a sawtooth generator, and the other through two outputs of dc amplifiers, and an auxiliary voltage source with several outputs, the inputs of the first force of the dc current being connected to a terminal for connecting a voltage source and a resistive output a divider connected between the output terminal of the pulse voltage regulator and a common bus; and the inputs of the second dc amplifier through the matching circuits are connected to the output of the current sensor, made in the form of a resistor connected between the output of the smoothing filter and the constant voltage regulator voltage, equipped with an additional resistor and an additional diode connected in series between the inverting input of the second amplifiers of direct current and low-voltage output The positive polarity of the auxiliary voltage source, and the indicated matching circuits are equipped with two additional resistors, two capacitors and a potentiometer, the slider of which is connected to the common bus, and the extreme terminals to the outputs of the second DC amplifier, . The capacitor leads are connected to the current sensor output, the second leads of additional resistors are connected to the extreme leads of the potentiometer, and the second leads of the capacitors are connected to a common bus. The drawing shows a diagram of a pulse voltage regulator. The stabilizer contains a regulator 1, a pulse-width modulator 2, a generator 3 sawtooth voltage, isolating diodes 4 and 5, amplifiers 6 and 7 of direct current, a source 8 of auxiliary voltages, a resistive divider on resistors 9 and 10, a sensor 11, a smoothing filter 12, an additional resistor 13 and an additional diode 14, terminating resistors 15 and 16, capacitors 17 and 18, potentiometer 19, and terminal 20 for connecting a reference voltage source. The output of the sawtooth generator 3 is connected to the first input of the pulse-width modulator 2. The outputs of the DC amplifiers 6 and 7 are via the isolating diodes 4 and connected to the second input of the pulse-width modulator 2. The inverting input of the amplifier 6 is connected to terminal 20 for connecting the source of the reference voltage, for the creation of which one of the outputs 1 of the source 8 of auxiliary voltages is used. The non-inverting input of amplifier 6 is connected to a voltage divider across resistors 9 and 10, which is connected to the output terminals of the device. The output of the pulse-width modulator 2 is connected to the control input of the regulator 1. The regulator 1 and the source 8 of auxiliary voltages are connected to the input terminals of the stabilizer. The low-volt positive-voltage output of the auxiliary voltage source 8 is connected in series through an additional diode 14 and an additional resistor 13 connected to the inverting input of the DC amplifier 7. The output of the smoothing filter 12 is connected to the current sensor 11, the other output of which is connected to the output terminal of the pulse stabilizer. The inputs of the amplifier 7 are connected to the outputs of the potentiometer 19, and its slider is connected to the common bus. The inputs of the amplifier 7 through the terminating resistors 15 and 16 are connected to the terminals of the current sensor 11. The outputs of the current sensor 11 are connected to the first terminals of the capacitors 17 and 18, the second terminals of which are connected to the common bus. The stabilizer works as follows. When the pulse stabilizer is switched on, a voltage appears at the outputs of the source 8 of auxiliary voltages, providing power to the control circuit elements. At the input of the pulse-width modulator, the signal from the output of the generator 3 and the sum signal from the outputs of the operational amplifiers 6 and 7 are compared. The operational amplifier 6 together with the reference voltage source connected to terminal 20, the resistive divider 9,10 and modulator 2 forms a reverse circuit connection of a pulsed stabilizer, which ensures the stability of its output voltage. In case of short circuit or over-. In the case of a pulse stabilizer, an increase in the voltage drop across the current sensor 11 occurs, which, through resistors 15, 16 and potentiometer 19, is transmitted to the input of the operational amplifier 7 of the current signal, which the interrupting diode 4 acts on the pulse-width modulator 2 in such a way that causes a decrease in voltage at the output of a dc voltage regulator. Capacitors 17 and 18 provide a mode of low voltage ripple for 11 currents. After the elimination of the short circuit, the signal from the output of the current sensor 11 decreases and the stabilizer automatically returns to its initial state. The circuit from the additional resistor 13 and the additional diode 14 provides the initial negative bias of the operational amplifier 7 when the voltage at the output of the pulse stabilizer is close to zero. After the appearance of voltage at the output of the pulse stabilizer and the current through the sensor 11, the operational offset is compensated by the action of the matching circuits from the terminating resistors 15, 16 and the potentiometer 19. Thus, thanks to the proposed connection of the negative bias circuit and the matching currents connection of the pulse stabilizer it is possible to eliminate the false triggering of the protection against short-circuit both at the start and during the removal of the overload, which, in combination with the provision of small pulsations current sensor output increases reliability of the switching regulator DC voltage. Claims of an Inverter DC Voltage Regulator containing a regulator connected by a control input to the output of a pulse-width modulator, one input of which is connected to the output of a sawtooth voltage generator and the other through two decoupling diodes to the outputs of a DC amplifier and auxiliary voltage source with several outputs, the inputs of the first DC amplifier are connected to a terminal for connecting a voltage source and to the output of a resistive terminal A switch connected between the output terminal of the DC voltage regulator and the total width, and the inputs of the second DC amplifier through the matching circuits are connected to the output of a current sensor made in the form of a resistor connected between the output of the smoothing filter and the DC voltage regulator. in order to increase reliability, it is equipped with an additional resistor and an additional diode connected in series between the inverting input of the second a direct current amplifier and a low-voltage output of the positive polarity of the auxiliary voltage source, and the indicated matching circuits are equipped with two matching resistors, two capacitors and a potentiometer, the slider of which is connected to the common bus, and the extreme terminals to the outputs of the second DC amplifier, the first terminals of the matching resistors and the first terminals of the capacitors are connected to the output of the current sensor, the second terminals of the matching resistors are connected to the extreme terminals of the potentiometer, and the second you water capacitors - with a common bus. Sources of information taken into account during the examination 1. USSR author's certificate No. 713854, cl. G 05 F 1/56, 1978. 2.Up the production of switching power supplies using BIS. Electrical Engineering, 1977, Vol. 50, No. 7, p. 51-57, fig. 1.3. - A-b R 12 D " 15 -dZb G} Yu T / i -CZ}