SU1702350A1 - Power supply protection device - Google Patents

Abstract

The invention relates to electrical engineering and can be used in power supply devices for electronic equipment. The purpose of the invention is to increase reliability by providing continuous power and efficiency. The device contains a control transistor 1, a control transistor 2, a control unit 3, a resistor 4, a capacitor 5, a load 6. A switching diode 7, a storage choke 8, a capacitor 9, a transformer 10, the first rectifier 11 and the second rectifier are inserted into the device. 12. In the absence of overvoltage in the network, transistors 1 and 2 are open until saturation with the voltage supplied from the rectifier 11. The voltage from the output of the second rectifier 12 compensates for the voltage drop across the elements of the device, When the network is overvoltage ican on a signal from the control unit 3 is supplied through a control transistor 2, the pulse mode becomes limiting output voltage and the voltage across the load 6 is maintained in the range defined by the control unit. 1 silt with C

Description

The invention relates to electrical engineering and can be used in power supply devices of electronic equipment.

The aim of the invention is to increase reliability by providing uninterrupted power and increasing efficiency.

The drawing shows a diagram of the proposed device.

The device comprises a control transistor 1, a control transistor 2, a control unit 3, a resistor 4, a encoder 5 and a load 6, while the control transistor 1 is connected in series to one of the power buses, the output control unit 3 is connected to the control input of the control transistor 2, which connected by the output to the control input of the control transistor 1. wherein the resistor 4 is connected in parallel to the control input of the control transistor 1, a switching diode 7, a storage choke 8. capacitor 9, transformer 10, the first rectifier the capacitor 11 and the second rectifier 12. The transformer 10 is connected by a primary winding to the terminals for connecting an AC source, the first secondary winding is connected to the input of the rectifier 11, which is connected by the first output to the second power terminal of the control transistor 2, and the second output terminal is connected to the first terminal for connecting a DC source and the first power terminal of the regulating transistor 1. The secondary second winding of the transformer 10 is connected to the input of a half-wave rectifier 12. the output with unity with the point load of 6 and a capacitor 9 which is connected to the second terminal of the storage choke output 8 having an input connected to the emitter of regulator transistor 1 and the cathode of the switching diode 7.

The device operates as follows.

At a rated voltage of load 6 (Fig. 2), the control 1 and control 2 transistors are open until saturated with the voltage coming from the rectifier 11. At the junction of the collector emitter of the control transistor 1 there is a very small voltage drop. But this voltage drop is sometimes not enough for the normal functioning of load 6, especially if pulse stabilizers are used as the load. This missing voltage is added using the second rectifier 12, made and smoothed by the capacitor 9 according to the circuit with the midpoint. When the voltage in the supply network is over, the transistors 1, 2 go out of saturation by the signal from the control unit 3 and the device goes into the pulse output voltage limiting mode, the level of which is set by the control unit 3.

When overvoltage, the voltage at the load 6 is maintained in a predetermined limit using the key mode of operation of the regulatory element. At the end of the overvoltage, the control transistor 1 again automatically enters the saturation mode and the voltage at the load 6 is maintained within the specified limits.

Thus, the proposed device improves reliability by providing continuous power to the load 6 and 'overvoltage in the mains.

Claims (1)

Claim A power supply protection device comprising a control transistor, a control transistor, a control unit, a resistor and an output capacitor, the control transistor being connected to a first power terminal by a first power output for connecting a direct current source, the output control unit being connected to a control input of a control transistor, the first power output of which connected to the control terminal of the control transistor, the resistor is connected in parallel with the control input of the control transistor, the output condensate The first terminal is connected to the first terminal for connecting the load, the second terminal is connected to a common bus formed by connecting the second terminals for connecting the power source and the load, characterized in that, in order to increase reliability by providing uninterrupted power and increasing efficiency, a switching a diode, a storage choke, a capacitor, a transformer and two rectifiers, while the primary winding of the transformer is connected to the terminals for connecting an AC source, the first secondary winding is connected is connected to the input of the first rectifier, which is connected to the second power terminal of the control transistor by the first output terminal, and connected to the first terminal to connect a DC source with the second output terminal, the second secondary winding of the transformer is connected to the input of the second rectifier, made according to the scheme with the middle point, the output connected to the first terminal for connecting the load, and the first terminal of the capacitor, which is connected by the second terminal to the first terminal of the storage choke, the second terminal is connected connected to the second power terminal of the regulating transistor and the first terminal of the switching diode, the first input terminal of the control unit is connected to the middle terminal of the second secondary winding, which is connected to a common point of the storage inductor and capacitor, and the second input terminal of the control unit is connected to a common bus, to which the second output of the switching diode is also connected. Compiled by S. Averin Editor M. Bandura Tehred M. Morgenthal Corrector N. Revskaya ’Ϋ. Order 4542 Circulation Subscription VNIIIPI of the State Committee for Inventions and Discoveries at the State Committee for Science and Technology 113035. Moscow, Zh-35, Raushskaya embankment. 4/5 Production and Publishing Combine Patent, Uzhgorod, 101 Gagarin St.