SU1259234A2 - Pulsed d.c. voltage stabilizer - Google Patents

Abstract

The invention relates to a secondary power supply of electronic equipment. The purpose of the invention is to provide protection against overcurrent while maintaining high efficiency. During the open state of the regulating element 1, a load current flows through the choke 2. When element 1 is closed, the throttle current 2 is closed through diode 7, current sensor 8 and load. The choke 5 begins to reversal and after its saturation the current through the diode 7 and the sensor 8 is stopped. The throttle current 2 continues to flow into the load through diode 3 and choke 5. By varying the switching time of the throttle 5, the current passing time through sensor 8, which is proportional to the load current, can be changed. Reducing the time of current flow through the sensor 8 and ensures the preservation of the efficiency of the stabilizer. In the event of an overcurrent, the signal from the output of the integrator 14 is applied to the base of the transistor 10 of the socket. The transistor 10 opens the transistor 12 and the element 1 is securely closed, 3 or more. Additional to auth. No. 1081631. S (L from: to ate with you oo oo 4 ShN RP - M

Description

The invention relates to electrical engineering, namely to converter equipment, can be used in power supply devices of electronic equipment with protection against overloads in the load circuit and is an improvement of the device according to the author. St. No. 108163.

The goal is to provide protection against overcurrent while maintaining high efficiency of the device.

FIG. Figure 1 shows a DC voltage regulator circuit; in fig. 2 shows an example of switching on a current sensor in a dc voltage boosting regulator; in fig. 3 shows an example of switching on a current sensor in a polar-inverting stabilizer.

The DC switching voltage regulator contains a regulating element 1, a storage choke 2, a switching diode 3, a control block 4, a choke 5, we associate an additional resistor 6, an additional diode 7, a current sensor 8, a threshold element 9 including a transistor 10 protection, current limiting resistor 1I, auxiliary transistor 12 and a decoupling diode 13, integrator 14. Regulator 1 in series with choke 2 of the HC filter is connected between the first power strip and the output terminal. The input control unit 4 is connected to the output terminals and the output is connected to the control input of the regulating element 1 and the output of the threshold element 9. Series-connected choke 5 and switching diode 3, connected by a resistor 6, are connected between the common point of the regulating element 1 and the choke 2 LC filter and second power bus. Drossel outlet 2 through a series-connected additional diode 7 and current sensor 8 is connected to the second power bus. The output of the current sensor 8 through the integrator 14 is connected to the input of the threshold element 9.

The stabilizer works as follows.

During the open state of the regulating element 1, a load current flows through the choke 2 of the HC filter. At the same time, the magnetization of the throttles takes place 5

proceeded through extra4

by current

resistor 6. At the command of the control unit, the regulating element 1 is closed, and the throttle current 2 is closed through the additional diode 7 and the current sensor 8 and the load connected in series with it. To the saturation inductor 5, the voltage of the winding part of the choke 2 is applied, as a result of which the saturation inductor 5 begins to magnetize. After the throttle 5 is saturated, the current through the auxiliary diode 7 and the current sensor 8 is stopped. The current of the cumulative throttle 2 continues to flow into the load through the switching diode 3 and the nasal choke 5. By varying the magnetization reversal time of the dRssel 5 saturation, it is possible to change the time of current flow through the current sensor 8, and hence the average power dissipation on it. The current flowing through the current sensor 8 is proportional to the load current through the strain rate of the throttles 2. Thus, the time during which the load current flows through the current sensor is reduced, which ensures that the stabilizer maintains high efficiency.

In the absence of an overload, a current flows through the current sensor 8, which is insufficient for triggering the threshold element 9. The protection transistor 10 and the auxiliary transistor 12 are closed. In this case, the overload protection circuit does not affect the normal operation of the stabilizer. In the case of overload, the voltage applied to the base of the protection transistor 10 in the forward direction appears at the output of the integrator 14. After opening, the transistor 10 opens the auxiliary transistor 12 and the regulating element 1 is securely closed, since the signals from the control unit 4 are not fed to its control input. When relieving the overload, in order to start the stabilizer, it is necessary to remove the supply voltage and then re-apply it.

The proposed protection device can work not only to turn off, but also on the principle of limiting

ka overload. For this, the amplified signal from the output of the integrator 14 must be fed to the input of the control unit 4.

Claims (1)

Invention Formula DC impulse stabilizer, auth. St. P1081631, characterized in that, in order to provide protection against overcurrent while maintaining high efficiency, the connection of additional diodes Composer Yu. Opadchy Editor O. Yurkovetska Tehred L. Serdyukova Proofreader A, Obruchar, Order 5120/45 Circulation 836 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 Yes, with the second power bus, it is made through a current sensor, an output through an integrator connected to the input of the threshold element, the output of which is connected to the control input of the regulating element, the switching diode is shunted with a resistor, and the auxiliary choke is made saturable. .2.