SU1749969A1 - Supply voltage current switch - Google Patents

Abstract

Use: in various areas of technology where a predetermined order of switching on and off of voltage is required. SUMMARY OF THE INVENTION: The switch contains at least two transistor key elements with control elements in the base circuits which are made on optocouplers. The circuit is made so that the control elements are connected to each other in a circular manner. This makes it possible to make the switch more versatile, because independent power sources may be used. 1 il.

Description

The invention is intended for use in various fields of technology, including telecommunications.

Power supply switches are known that provide a predetermined order of switching power supply voltage on and off (e.g., BPSB-1 power supply unit).

Also known is a power supply switch of integrated semiconductor chips with a combined power supply, containing, depending on the number of power sources, key elements consisting of switching transistors and control elements, the output of the first key element being fed to the control input of the second key element. This switch, chosen as a prototype, is part of the power supply unit of the Radio 86 PC. The operation of the known switch occurs so that when the voltage of one of the channels goes down, the Zener diode of the other channel de-energizes, as a result of which the output voltage also decreases to zero.

Such a switch cannot be used in the case of using independent universal power sources in equipment, and for pulsed stabilizers it is not applicable in principle. Moreover, in some cases it is desirable not to turn off the power source completely, but to disconnect from it only that part of the equipment supply voltage.

 The aim of the invention is to expand the field of use of the known supply voltage switch, in particular when using various independent power sources,

The goal is achieved by the fact that in the proposed switch, which contains, depending on the number of buses (or power sources), at least two key elements, each of which consists of a switching transistor and a control element connected to the circuit

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4 About About About About

the switching transistor base, the emitter-collector circuits of the switching transistors of the key elements are connected between the terminals for connecting the corresponding power sources and loads, optocouplers are used as control elements, the output of each previous T key element is connected to the control input of the next key element, This output of the latter, the key element is connected to the control input of the first key element. In addition, the light emitter of each optocoupler is connected to the output of the previous one, and the photodetector is connected to the control input of the subsequent key elements.

The drawing is a schematic diagram of the proposed supply voltage switch, for example, three power supply voltages.

The switch contains three key elements. Each key element contains the corresponding switching transistors 1, 2, and 3, the control elements — the optocouplers 4, 5, and 6, and the limiting resistors 7–12. A switching transistor 1 emitter-collector circuit is connected between the terminals for connecting the first source and the first load so that the first input of the switch is the input of the first key element — the emitter of transistor 1, and the output of the first key collector element of transistor 1 is the first output of the switch.

The switching transistor 2 emitter-collector circuit is connected between the terminals for connecting the second power source and the second load so that the second input of the switch is the input of the second key element emitter of transistor 2 and the output of the second key element collector of transistor 2 is the second output of the switch . The switching transistor 3 emitter-collector circuit is connected between the terminals for connecting the third power supply and the third load so that the third input of the switch is the input of the third key element - the emitter of transistor 3, and the output of the third key element - collector of transistor 3 - is the third switch output The output of the first key element — the collector of transistor 1 — is connected through a resistor 8 to the control input of the second key element — the optocoupler 5 emitter, and the photoreceiver of the optocoupler 5 is connected through a resistor 9 to the control input of the second switching transistor 2 — the base of transistor 2. The output of the second key element - the collector of the transistor 2 is connected through a resistor 10 to the control input of the third

the key element is the optocoupler b light emitter, and the photodetector of the optocoupler 6 is connected via a resistor 11 to the control input of the third switching transistor - the base of the transistor 3. The output of the latter,

the third, key element — the collector of the transistor — is connected through a resistor 12 to the control input of the first key element — the optocoupler 4 light emitter, and the photo-receivers of the optocoupler 4

connected through a resistor 7 to the control input of the first switching transistor 1 — the base of transistor 1; the second inputs of the photoreceivers and the second outputs of the optocoupler 4-6 optical emitters are connected to the common

wire.

The switch works as follows.

If the input switches all power supply with a start button (not shown) connected in parallel with the output contacts of the optocoupler 4, or other starting device, a starting current pulse is fed to the base of transistor 1. As a result,

the collector circuit of transistor 1, the resistor 8 and the input circuit of the optocoupler 5 current flows, which creates conditions for the passage of current through the output circuit of the optocoupler 5 and the base circuit of transistor 2. Basic current

transistor 2 provides the passage of current in the circuit: the collector of transistor 2, the resistor 10, the input circuit of the optocoupler 6, which creates the conditions for the passage of current through the output circuit of the optocoupler 6, the resistor 11

and the base of the transistor 3. The base current of the transistor 3 ensures the passage of current in the circuit: the collector of transistor 3, the recorder 12, the input circuit of the optocoupler 4, thus ensuring the preservation of the on state of the circuit after the termination of the starting current in the base of transistor 1.

When one of the supply voltages at the input of the device disappears, the base current in the circuit of the corresponding transistor disappears, the corresponding optocoupler turns off and then all the other optocouplers turn off, and the voltage on all outputs of the switch is turned off.

Claims (1)

Invention Formula A supply voltage switch containing at least two key elements, each of which consists of a switching transistor and a control element connected to the base circuit. a switching transistor, the emitter-collector circuits of the switching transistors of the key elements being connected between the terminals for connecting the corresponding power sources and loads, characterized in that, to expand the use area, optocouplers are used as control elements, the output of each previous key element is connected to the control next key element, the output of the last key element is connected to the control input of the first key element, IU of each light emitter optocoupler connected to the output of the previous and the photodetector - to the control input of the subsequent key elements Output