SU1453520A1 - Redundancy permanent-voltage supply system - Google Patents

Abstract

The invention relates to electrical engineering, in particular to power systems for electrical and radio installations. The aim of the invention is to improve the S1D and reliability of the power supply system. Under normal conditions, the load is powered by rectifiers connected to the common bus; in case of their failure, the thyristor connects the battery to the battery. Then the contactor is turned on and its contact shunts the thyristor while the load is powered by the battery through this contact, and the thyristor is turned off. If the thyristor is switched on falsely (from interference), the contactor is also turned on, its contact shunts the thyristor and turns it off, however, the contactor is immediately disconnected, and its contact, once again, restores the normal power supply circuit of the rectifier, protecting the battery from bit The thyristor and the contactor are controlled by a logic circuit according to signals controlling the output voltage of the inverters. 1 il. (L

Description

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The invention relates to electrical engineering, in particular to electrical systems of electrical and radio installations.

The purpose of the invention is to increase the efficiency and reliability of the power supply system.

The drawing shows a functional diagram of the power supply system of the backup voltage from the backup

The system contains rectifiers 1 (in general, n rectifiers, two in the drawing), each of which has an output at a constant m

alternating current ke, and output, battery 2, sensors 3 and maximum permissible voltages (number of rectifiers 1), each of which contains an auxiliary voltage; drive 4 and threshold element 5, l; gic elements -6 (by the number of you: ROMs 1), the first logical element; ment I-NC 7, the logical element NOT 8; the first logical element AND 9; the second: the second logical element AND-NOT 10, the second, logical element AND 11 , thyristor: torus 12, transistor 13, resistor 14, i.d. auxiliary voltage source 15, the first 16 and second 17 make contacts contactors 1

The rectifiers 1 are connected to the common bus 19 by the first pins, through the thyristor 12 to the same bus, shunted by the pin 16, the battery is connected to the battery 2, the corresponding sensors 3 are connected to the I outputs of the rectifiers 1. The outputs of the sensors 3 are connected to the inputs of the corresponding logical elements NOT 6, the outputs of which are connected to the inputs of the logical element AND-NOT 7. The output of the logical element AND-NOT 7 is connected to the input of the logical element 8 and the first input of the logical element 11, the output of the logic element NOT 7 subkey n to a first input of an AND gate 9, whose output is connected to the control input of the thyristor 12. Single

the thyristor 12 is connected to the minus output of the auxiliary source 15, the positive output of which is connected to the emitter of the transistor 13 and through the resistor 14 to the anode of the thyristor 12 and the base of the transistor 13. The collector of the transistor 13 is connected to the first input of the AND – NE 10 logic element, the second input of which is connected to the second input of the logic element And 9 and Th

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cut the second one into the contact 17 of the contactor 18 to the body bus, Vspod of the logic element I-NK 10 is connected to the second input of the logic element I 11, the output of which is connected to the winding of the contactor 18.

During normal operation of the system, the load 20 is supplied from the rectifier 1, while the thyristor 12 and the contactor 18 are in the disconnected state. The output of the 3 maximum permissible voltages is signal 1, the output of the logical elements NOT 6 is the signal O, and the output of the logical element IS-NOT 7 is the signal 1. This signal goes to the input of the logical element HE 8, the output of which will be the signal O, which is supplied to the first input of the logic element AND 9, at the output of which the signal O is set, regardless of the signal at the second input. Therefore, the signal to turn on the thyristor 12 is missing (the thyristor turns on the -c signal 1). The signal 1 from the output of the logical element AND-NOT 7 is also fed to the first input of the logical element AND 11j to the second input of which from the output of the logical element AND-NOT 10 also receives the signal 1, since the first input of the logical element IS-NOT 10 contains a signal 1 Since the contact 17 is open, and the second input of the logical jKoro element AND-NOT 10 has an O signal, since the transistor 13 is closed Due to the absence of the current flow circuit of the auxiliary source 15. Therefore, the output of the AND 11 logic element has a signal 1 and a contactor 18 open Turned on (contactor 18 is activated by applying a signal O to the winding).

When the output voltage of one of the rectifiers 1 disappears or decreases, the maximum allowable voltages of BKJDO are not detected by the sensors 3, the contactor 18 and the thyristor 12 do not occur, since the signal at the output of the logic element HE 7 does not change. When the output voltage of all exporters 1 disappears or decreases below the sensor setpoint level 3, the maximum allowable voltages at the inputs of all the HE 6 logic elements will be O, and therefore, at the inputs P of the NAND logic element 7 will be sig

The signals 1, at the output of the logical element AND-NOT 7, signal O, and at the output of the logical element HP 8, signal 1. Accordingly, at the first input and output of the logical element And 9, signal 1 appears, which turns on the thyristor 12. When turned on thyristor 12 voltage drop across resistor 14 caused by current flowing from auxiliary source 15 through the circuit: the positive terminal of the auxiliary source 15, resistor 14, thyristor 12, the negative terminal of the auxiliary source 15, opens the transistor 13, and at the first input of the AND NOT 10 appears With signal 1, respectively, the signal O appears at the output of the NAND 10 logic element, and at the output of the logic element 11, the signal O, which ensures that the contactor 18 is turned on.

Closing the contact 17 when turning on the contactor 18 causes the signal O on the second inputs of the logic elements 9, I-NE 10, the signal O is set at the output of the logic element 9 and the thyristor 12 is turned off. Thus, at the first moment of time, when the output voltage of the main power sources 1 decreases below the set level, in order to ensure fast response time

Switching the backup power source, to the inputs of the corresponding elec- ters (battery) to the load, is produced by the thyristor 12, which is then bridged by the contactor 16 to eliminate power loss in the power circuit. After the auxiliary contact of the contactor 17 is closed, the signal at the output of the logic element 11 does not change because the output of the logical element IS-NOT 10 in this case will be a signal 1, O - 1. The output of the logic element 11 will remain the signal O, and the contactor 18: after closing the contact, 17 will remain on.

cops are NOT, the outputs of which are connected to the corresponding inputs of the first NAND element, the output of which is connected to the first input of the second element AND and

40 through (n + 1) -th element is NOT to the first input of the first element I, the output of the first element I is connected to the control electrode of the thyristor, the anode of which is connected to the second terminal of the ac45 compactor battery, and the cathode to the common bus to which Also, the second conclusions of the rectifiers and the minus output of the auxiliary source of constant voltage, plus

5Q of waters of which is connected to the emitter of the transistor, and through a resistor to the thyristor anode and base of the transistor, the collector of which is connected to the first input of the second NAND element; Tue

If, when the load 19 is supplied from rectifier 1 due to interference, the thyristor 12 is switched on falsely and the load is transferred to power from the battery, then 55 R ° ° L of which is connected to the second contactor 18. At the same time, the short circuit to the input terminal element And through the clock 16 provides the disconnection of the thyristor 12, and the closure of the contact 17 provides the disconnection of the contactor 18,

the second contact of the contactor to the first terminals of the rectifiers, and the output is connected to the second input of the second elec-

Thus, the discharge of the battery 2 is prevented due to the false triggering of the thyristor 12. Therefore, in the event of a fault, the rectifiers 1 or their power supply network, the battery has a guaranteed capacity that improves the reliability of the power supply system.

Claims (1)

Invention Formula The DC power supply system with redundancy, containing n rectifiers and a battery, the first terminals of which are directly connected to each other, and the common busbar, so that, in order to increase Efficiency and reliability of the power supply system, additional sensors of maximum permissible voltages are added to it, each of which consists of an auxiliary rectifier and a threshold element connected in series, n + 1 NOT elements, two NAND elements, two AND elements, a contactor with two aam The terminals, the auxiliary DC voltage source, the resistor, the thyristor and the pn transistor, the inputs of the sensors of the maximum permissible voltages are connected to the AC outputs of the corresponding rectifiers, and the outputs which are NOT connected to the corresponding inputs of the first element I - NOT, the output of which is connected to the first input of the second element AND and through (n + 1) -th element is NOT to the first input of the first element I, the output of the first element I is connected to the control electrode of the thyristor, the anode of which is connected to the second terminal of the battery, and the cathode to the common bus to which the second are also connected conclusions of rectifiers and a minus conclusion of an auxiliary source of a constant voltage, plus vy- the waters of which are connected to the emitter of the transistor, and through a resistor to the anode of the thyristor and the base of the transistor, the collector of which is connected to the first input of the second NAND element; second Р ° ° L of which is connected to the second input of the first element AND and through Р ° ° L of which is connected to the second input of the first element AND and through the second contact of the contactor is to the first terminals of the rectifiers, and the output is connected to the second input of the second element, 1453520. 6 ment And, the output of which is connected to which is connected in parallel with the contactor tirismobotka, the first contact toru. toru. Editor N.Lazarenko Compiled by V.Sidorov Tehred M.DidykKorrektor VoGirn to Order 7294/51 Circulation 605 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, st. Project, 4 Subscription