SU1552253A1 - Device for connection of redundant fuse - Google Patents

Abstract

The invention relates to automation and can be used to automatically change the main fuse to the backup fuse in electrically protected circuits. The purpose of the invention is to increase reliability and efficiency. The purpose of the invention is achieved in that the device contains a separation diode 4 connected to the main fuse 5 before the load 6, the collector of the transistor 2 is connected to the junction point of the coupling diode 4 and the load 6, the emitter of the transistor 2 is connected to the base of the next cell transistor the point of connection of the main fuse 5 and the separation diode 4 and through the common resistor 7 to the second power supply bus and load 6. When the main fuse 5 blows in series with the load 6 is switched oh automatically circuit of the transistor 2 and 3. The two backup fuse yl.

Description

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The invention relates to automation and can be used to automatically change the main fuse to the backup fuse in electrically protected circuits.

The aim of the invention is to increase reliability and efficiency.

Figure 1 presents the scheme of the device; Fig. 2 shows the dependences of the output voltage of the prototype (curve a) and the proposed device (curve b) on the number of the cell currently running.

The device for switching on the backup fuse (Fig. 1) consists of the actuator cells 1, each of which contains a series-connected transistor 2 and a backup fuse 3 connected to the first power supply bus. In addition, the device contains a separation diode 4 connected to the main fuse 5 before the load 6, the collector of transistor 2 is connected to the connection point of separation diode 4 and load b, the emitter of transistor 2 is connected to the base of the next cell transistor 2. connecting the main fuse 5 and the separation diode 4 and through the common resistor 7 to the second power supply bus and load 6.

The device starts operation when power is applied to the tires. At the same time, the load current flows through the load resistance 6, the separation diode 4 and the main fuse 5. The voltage drop caused by the load current on the fuse 5 is small enough and applied to the series circuit from the backup fuse 3 and to the emitter - base of the transistor 2 .., The magnitude of this voltage is such that transistor 2 is locked. The amount of additional current through the main fuse 5 is much less than the value of the load current and is determined by the resistance of the common resistor 7.

When the main fuse 5 blows in series with the load 6, the circuit from the transistor 2 and the backup

fuse 3. At the same time, the voltage level at the load 6 is practically unchanged (Fig. 2), since now

the load current flows through the load circuit 6 — the collector-emitter junction of transistor 2 is a backup fuse 3. The resistance of common resistor 7 must be such as to ensure the operation of transistor 2 in the entire range of load current variations. Maintaining the same level of output voltage and a high level of efficiency is achieved by

5 cells are connected in parallel, and

the voltage drop across the separation diode is approximately equal to the voltage drop across one cell.

Thus, the proposed device for switching on the backup fuse in comparison with the prototype allows the output voltage level to remain unchanged regardless of the number of fuses triggered and to increase the efficiency due to this.

Formula of invention

A device for switching on a backup Q fuse, consisting of n by the number of redundant fuses of the cells, each of which contains an npn-type transistor, the emitter of which has a terminal for connection to the first output of the corresponding backup fuse, in order to improve reliability and efficiency, the device is additionally introduced

A Q resistor and a separation diode; the first terminal of the common pezistor has a terminal for connection to the first power supply bus from the side of the first load terminal, the second

5 the common resistor is connected to the base of the transistor of the first cell, the cathode of the separation diode and has a terminal for connecting to the second terminal of the main fuse,

The Q collectors of the transistors of all the cells are interconnected, with the anode of the separation diode and have a terminal for connecting to the second output terminal, and the emitter of the transistor of each previous cell is connected to the base of the transistor of each subsequent cell.

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Compiled by S. Balashov Editor 0. Yurkovetska Tekhred L. Serdyukova Proofreader N. Korol

Order 334

Circulation 460

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

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Production and Publishing Combine Patent, Uzhgorod, st. Gagarin, 101

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Claims (1)

Claim Device for switching on the backup fuse, consisting of η in terms of the number of backup fuses of the cells, each of which contains an npn-type transistor, the emitter of which has a terminal for connecting to the first output of the corresponding backup fuse, excluding in order to increase reliability and efficiency, a common resistor and an isolation diode are additionally introduced into the device, while the first output of the common resistor has a terminal for connecting to the first bus of the power source from the side of the first load output, W The output pin of the common resistor is connected to the base of the transistor of the first cell, the cathode of the dividing diode and has a terminal for connecting to the second terminal of the main fuse, the collectors of the transistors of all cells are connected to each other, to the anode of the dividing diode and have a terminal for connecting to the second terminal of the load, and the emitter of the transistor of each previous cell is connected to the base of the transistor of each subsequent cell. ^U 8blX FIG. 2 0 12 3 '4 N-1 N