SU1171770A2 - Seconadry electric power supply system - Google Patents

Abstract

SECONDARY POWER SUPPLY SYSTEM according to auth.St. No. 1109724, characterized in that, in order to expand its functionality, each of the circuits of both normalizers is equipped with three additional resistors and a transistor connected by a collector to the output of the normalizer circuit and a base through a resistor to the terminals of the other two resistors, the free output of one of which is connected through the Zener circuit to the input of the normalizer, the free output of another resistor is connected to the output on the common bus and the emitter of the inserted transistor, while the collector-emitter junction of the transistor is on between the output and the output to the common bus is parallel to the output voltage of the normalizer circuit.

Description

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sl J 1 The invention relates to electrical engineering, to devices that provide power supply to non-repairable electronic equipment, but is advantageous when debugging it at the factory, and is intended to control the values supplying the electronic equipment of different polarity sources of a multichannel secondary power supply, and disconnecting it from mains power when any of the monitored voltages is at the specified limits with indication of an emergency voltage, and is an improvement of the known device described about in auth. No. 1109724. The purpose of the invention is to enhance the functionality of the system by ensuring that its protection responds by increasing any of the output voltages of the secondary power supply above an acceptable value. FIG. 1 is a block diagram of a secondary power system; in fig. 2 and 3 are schematic diagrams of the normalizer of positive and negative voltages, respectively. The secondary power supply system contains the electronic equipment 1, for power supply of which the secondary power supply, which is unprotected against short circuits, is used with the power input 2, P with positive output voltages inputted at the control terminals 3.1, ..., 3. P, tn by negative voltages applied to test terminals 4.1, ... , 4.gp, and output to a common bus; normalizer 5 positive voltages with output to common bus, fi inputs 6.1, ..., 6.h and P outputs 7.1, ..., 7.rt; normalizer 8 negative voltages with output to common bus, m inputs 9.1, ..., 9. that m outputs 10.1, ..., 10 m; p blockers 11.1 ,. .., 11. p for positive voltages, each of which is equipped with a common bus output, positive supply input 12, negative supply input 13, signal input 14, h outputs of positive blocking signals 15.1, ..., 15. p and outputs 17.1, negative blocking signals. 16.gp; UB blockers 17.1,.,., 17.And for negative voltages, each 02 of which is equipped with a common bus output, a positive supply input 18, a negative supply input 19, a signal input 20, c +1 outputs of the positive blocking signals 21.1 ,. .., 21.p + 1 it -1 by the outputs of negative blocking signals 22.1,. .., 22.G) -1; a tripping signal shaper 23 with a signal input 24, a power input 25 and an output 26; sensor 27 signal short circuit; key element 28 with control; it has input 29, power input 30 and output 31; source 32 of a positive supply voltage with a view to a common bus, input 33 and output 34; negative supply voltage source 35 with output to common bus, input 36 and output 37; two inertial links 38 and 39 and the network switch 40. The listed functional units of the system are interconnected as follows. The positive supply input 12 of the interlocks 11 and the positive supply input 18 of the interlocks 17 are connected via an inertial link 38 to the output 34 of the source 32 of the positive supply voltage, which is connected, also with the supply, to the input 25 of the driver 23 of the tripping signal. The negative power input 13 of the blockers 11 and the negative power input 19 of the blockers 17 are connected via an inertial link 39 to the output 37 of the negative supply voltage source 35. The control terminals 3.1, ..., 3.li of the apparatus 1 are connected respectively to the inputs 6.1, ..., 6. The normalizer 5, and the control terminals 4.1 ,. . ., 4. m Instrument 1 are connected respectively by h inputs 9.1,. .., 9.1 of the normalizer B. Each of the outputs 7 of the normalizer 5 is connected to the signal input 14 of the blocker 11 corresponding to the monitored voltage, with one of the positive blocking outputs, their signals 15 are each of the other 11 blockers and 21 each of the positive blocking signals from blockers 17. Each of the outputs 10 of the normalizer 8 is connected to the signal input 20 of the blocker 17 corresponding to the monitored voltage, with one of the outputs of the negative blocking signals 22 of each of the other blocks Ditch 17 and with one of the outputs of negative blocking signals 16 of each of the blockers 11. The free of the described connections is the output of positive blocking signals, for example 15.h of each of the blockers 11 and 21.fi + 1 of each of the blockers 17 are connected to the signal input 24 of the former 23 of the tripping signal, the output 26 of which through the sensor 27 of the short circuit signal is connected to the control input 29 of the key element 28, connected by its output 31 to the power input 2 of the electronic equipment 1, Power input 30 of the key element 28 nen source 33 to the input 32 of positive supply voltage source 36 to the input 35 of the negative supply voltage and through se tevoy switch 40 to the feed. system network. The normalizer 5 positive voltages (FIG. 2) consists of twelve series-connected resistors 41 and 42, the free of which one, for example, 41 is connected to a common bus, the free output of the other resistor 42 is connected via a stabilizer diode 43 connected in the stabilization mode. input 6.1, ..., 6.P to supply a positive controlled voltage to it, and the common connection point of resistors 41 and 42 of each circuit is connected through a resistor 44 to the corresponding output 7.1, ..., 7.P, To output 7 of each chain connected count the lecturer P-O-p transistor 45, the base of which through a resistor 46 is connected to one of the outputs of resistors 47 and 48, the free output of one of which, for example 47, is connected via Zener diode 43 to the input 6, and the free output of the resistor 48 is connected to the output on common busbar and with the emitter of the transistor 45., The normalizer 8 negative voltages (Fig. 3) consists of tn circuits of series-connected resistors 49 and 50, a free one of which, for example, 49, is connected to one of the other resistor 50 is connected via the included In the stabilization mode, the Zener diode 51 has a corresponding input 9.1, ..., 9.m for supplying negative monitored voltages to it, and the common connection point of the resistors 49 and 50 of each circuit is connected via a resistor 52 to the corresponding output 10.1. ,,, Yu. To the output 10 of each circuit is connected to the collector of the pn-transistor 53, the base of which through a resistor 54 is connected to one of the terminals of resistors 55 and 56, the free terminal of one of which, for example 55, is connected via Zener diode 51 to the input 9, and the free terminal of the resistor 56 is connected to the common bus terminal and to the emitter of the transistor 53. The remaining functional units of the system; interlockers 11 and 17, which emit a light signal in the absence of voltage at the signal inputs 14 and 20, a tripping signal shaper 23, a short circuit signal sensor 27, a key element 28, sources of positive 32 and negative 35 pitac voltage, inertial links 38 and 39 and switch 40 is made according to {lj. The system works as follows. In the steady-state operating mode, all p positive and gy negative output voltages of the secondary power source of electronic equipment 1, the magnitude of which is within the specified limits, are respectively at the control terminals 3.1, ..., 3. p and 4.1, ..., 4.gp relative to the common tire. Each of these voltages, arriving at the corresponding input 6.1, ..., 6.P of the normalizer 5 positive voltages and input 9.1, ..., 9. In the normalizer 8 negative voltages, leads to the corresponding outputs 7.1, ... , 7. h and 10.1, ...., 10.tn, brought each of the c and m chains of the corresponding normalizer to the minimum value necessary for the normal functioning of each of the n blockers 11 and m blockers 17. At the same time, the division ratio of the dividers formed in the normalizer 5 resistors 47 and 48, and in the normalizer 8 resistors 55 and 56 selected such that with the value of each of the controlled output voltages of the secondary power source, it does not go beyond the maximum value specified; limit signals coming from them

, through the resistors 46 and 54 to the base of the transistors 45 and 53, respectively, do not reach the values necessary for unlocking these transistors. Therefore, all transistors 45 and 53 do not bypass the outputs 7 and 10 of the normalizers 5 and 8, and the blockers 11 and 17, respectively, do not give out any light or blocking signals at their outputs 15, 16 and 21, 22,

Decreasing the value of any of the monitored output voltages of the secondary power source, for example, arriving at the control terminal 3.1 of the apparatus 1 with respect to the common bus, below a predetermined limit, the voltage at the output 7.1 of the normalizer 5 decreases to the value at the signal input 14 of the blocker 11.1, at which the blocker 11.1 entails a light signal and at its outputs 16.1, ..., 16. A negative blocking signal arriving at the signal input 20 of each blocker 17 appears, duplicating the signals at outputs 10.1, ... j10.m of the negative voltage normalizer 8. At the same time, at the outputs 15.1, ..., 15. And the blocker 11.1, a positive blocking signal appears at the signal inputs of the blockers 11.2 ,. 11.P and signal input 24 of the driver 23 tripping signal. The disconnect signal from the output 26 of the driver 23 through the sensor 27 of the short circuit signal is fed to the control input 29 of the key element 28 and puts it in the open state, turning off the mains voltage from the power input 2 of the electronic equipment 1.

By increasing the value of any of the monitored output voltages of the secondary power source, for example, coming to the control terminal 3.1 of the apparatus 1 with respect to the common bus, above a predetermined limit.

the signal from the divider formed by resistors 47.1 and 48.1 of the normalizer 5, through its resistor 46.1 to the base of transistor 45.1, is sufficient to unlock transistor 45.1, which by its open junction collector-emitter shunts output 7.1, essentially

0 decreasing its voltage. Further operation of the system is similar to that described.

After automatic shutdown of electronic equipment 1 from the power supply

5, the system is switched off by the switch 40 and the fault of the emergency circuit of the electronic equipment 1 illuminated by the lock 11.1 is eliminated.

After the malfunction of the electronic equipment 1 is eliminated by the switch 40, the mains voltage is connected to the system, which due to the absence of a signal at the control input 29 of the key element 28 is supplied

5 through it to the power input 2 of the electronics 1 and to the inputs 33 and 36 of the power supplies 32 and 35, respectively. At the power input 25 of the former 23, a voltage appears

0 to establish it at the output 34 of the power supply 32, and at the power inputs 12, 13, 18 and 19 of all the blocks, tori 11 and 17, the appearance of voltages from the sources 32 and 35 is delayed

5 inertia links 38 and 39 on

the time not less than the maximum time of establishing the output voltages of the secondary power source of the electronic equipment 1 for all of it and in

0 control terminals 3 and 4 respectively.

The system allows connection to the network in the presence of an undetected fault. In this case, after the time determined by the inertial links 38 and 39, the system again disconnects the electronic equipment 1 from the mains supply and flashes the emergency circuit on the luminous indication.

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Claims (1)

SECONDARY POWER SUPPLY SYSTEM No. 1109724, characterized in that, in order to expand the functionality, each of the circuits of both normalizers is equipped with additional three resistors and a transistor connected by a collector to the output of the normalizer circuit and the base through a resistor to the terminals of two other resistors, the free output of one of which is connected through the zener diode of the circuit to the input of the normalizer, the free output of another resistor is connected to the output on the common bus and emitter of the input transistor, while the collector-emitter junction of the transistor is turned on forward output and output to the common bus according to the parallel-normalization circuit output voltage _e of the torus. S