SU1200263A1 - Device for protection of secondary electric power sources - Google Patents

Abstract

DEVICE ZMSCHTY a power supply comprising a sensor voltages of positive and negative polarity connected inputs to outputs controlled power sources, and outputs connected respectively to vscheleii unit inputs the maximum and minimum voltages of positive and negative polarity current sensors connected inputs to the outputs monitored power supplies, and the outputs are connected respectively to the inputs of the maximum current signal extraction units, the section Solid diodes connected to the first and second inputs of the main comparator, to which outputs are connected voltage-dependent nodes connected by one input to the common bus and the other to the output of the reference voltage source connected by the inputs to the negative comparator voltage sensors connected to the input of the first interference suppression unit, the output of which is connected to the input of the switching unit connected by its output to the input of the second input unit C U: og.; .-; G ka, the output of which is through the splitter The diode is connected to the output of a minimum polarity positive voltage isolation unit and to the input of an optocoupler unit whose outputs are connected to the inputs of monitored power sources, characterized in that, in order to increase the reliability of protection of monitored power sources, an additional comparator with dividing diodes at the input, four temperature compensation blocks, a comparator turn on delay block, while the first temperature compensation block is connected between (L and the maximum voltage of the positive polarity and the anode of the separation diode, the cathode of which is connected to the first input of the additional comparator, the second temperature compensation unit is connected between the allocation unit INDD and the minimum voltage of the positive polarity and the cathode of the separation diode, the anode of which is prepared to the second input of the main 05 the comparator, the third temperature compensation unit is connected between the negative voltage polarity isolation unit and the separation diode anode yes, the cathode of which is connected to the first input of the main comparator, the fourth temperature compensation unit is connected between the negative voltage polarity isolation unit and the cathode of the separation diode, the anode of which is connected to the second input of the additional comparator, the output of which is connected to the input of the first comparator

Description

strobe input, an additional comparator is connected to the output of a voltage source, a gate input

The main comparator is connected to the output of the voltage source via a turn-on delay unit.

I

The invention relates to electrical engineering and computer engineering, in particular, to devices for protecting stabilized sources of secondary power supply for computing equipment.

The purpose of the invention is to increase the reliability of protection of monitored power sources.

The drawing shows a circuit diagram of the proposed device.

The protection device of the power sources of positive and negative polarity contains sensors 1 and 2 of positive and negative polarity, respectively, connected by inputs to outputs of monitored sources 3, and outputs connected respectively to the inputs of blocks 4 and 5 of positive polarity and with the inputs of blocks 6 and 7 of selecting the maximum and minimum voltages of negative polarity. The device also contains a temperature compensation unit 8, an input connected to the output of the minimum voltage unit 5 of positive polarity, and a output through a separating diode 9 to the input 10 of the comparator 11, a temperature compensation unit 12 connected by an input to the output of the minimum voltage separation unit 7 negative polarity, and the output through the separation diode 13 to the input 14 of the main comparator 11, current sensors 15 connected by inputs to the outputs of monitored sources, 3, and the outputs from block 16 of the extraction, Mac imalnogo current signal potentsialozadayuschie nodes 17 and 18 connected at one end to the junction circuit and the other - the output of source 19 .k reference voltage connected to the sensors 2 pyhodami stress

the negative polarity, the comparator 11 and the switching unit 20, to the input of which is connected the extrusion of the suppression suppressor unit 21, and the output subunit 22 of the optocouplers connected to the inputs of the monitored sources 3 and disconnecting them in emergency mode, and the output of the second suppressor suppressor 23 , the output connected through a separating diode 24 with the output of the block 5 selection of the minimum voltage of positive polarity, the block 25 of the delay connected to the output of the gate input 26 of the comparator 11, inputs 10 and 14 of which are connected to the output and potentsialozadayuschih nodes 17 and 18. The delay unit 25 is intended for incorporation gating signal generating .s time delay affects the gate input 26 of comparator 11, excluding the false alarm of the time includant. .

A comparator 27, dividing diodes 28 and 29, temperature compensation blocks 30 and 31, designed to reduce the temperature drift of the trigger threshold of the entered comparator 27, due to the temperature departure of the parameters of the diodes of blocks 4 and 6, respectively, in the allocation of the maximum voltage of positive polarity and minimum voltage of negative polarity, as well as the separation diodes 28 and 29 when changing ambient temperatures. In this case, the first additional block 30 of temperature compensation is connected by an input to a block 4 for maximal voltage supply of positive polarity sources, and an output through a separating diode 28 to an input 32

Additional comparator 27, the second temperature compensation unit 31 is connected by input to block 6 for maximal voltage supply of negative polarity, and output via isolation diode 29 to input 33 of additional comparator 27, strobe input 34 of which is connected to reference voltage source 19, output Additional comparator 27 is connected to the output of the main comparator 11 and to the input of the suppression suppressor unit 21, Inputs 32 and 33 of the additional comparator 27 are connected to the outputs of the potential-giving nodes 17 and 18.

The device works as follows.

The voltage on the source 19 of the reference voltage is supplied simultaneously with the supply of the supply voltage to the controlled source 3, while the source 19 of the reference voltage outputs the supply voltage to the blocks 30, 27, 2, 11, 12, 8, 20 and 31, setting them to their original position, while at the output of the switching unit 20 a potential is established that permits the operation of monitored sources. The gate 34 of the comparator 27 is supplied from the source 19 of the reference voltage with a voltage that permits the operation of the comparator controlling the maximum voltages sources of positive and negative polarity. The device begins to control the sources by increasing the voltage from the moment they are turned on. With a delay determined by the release time of controlled sources

200263 4

NIKOV 3 on the nominal mode, the delay node 25 outputs, on gating, input 26 of the comparator 11 Voltage, allowing the comparator to operate, which controls the minimum voltages of the sources of positive and negative polarity. In the steady state (at the end of the moment of switching on), any error signal, (O, coming from one of the maximum signal allocation units, transfers the memory cell formed by the elements 8,9,11,21,23,24 and 20,. To in which, at the output) 5 of the switching unit 20, a switch-off signal of the monitored sources 3 appears, which is issued before the monitored sources 3 restart again by the operator. 20 Thus, the proposed protection device monitors the power sources by overvoltage from the moment of switching on the latter and by the minimum voltage at the completion of transient switching on of the power sources (at the end of switching time).

The effectiveness of the proposed device is to increase

Reliability of the protection device operation at the moment of switching on controlled sources of secondary power supply, reduction of failures from overvoltages of logic blocks powered by controlled sources, reduction of failures and malfunctions of expensive computing equipment, saving of expensive machine time and components of electrical radio components.

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Claims (1)

SECONDARY POWER SUPPLY PROTECTION DEVICE, containing voltage sensors of positive and negative polarity, connected by inputs to the outputs of controlled power sources, and outputs connected respectively to the inputs of the blocks of extraction of maximum and minimum voltage 'positive and negative polarity, current sensors connected by inputs to the outputs of controlled power sources , and outputs connected respectively. to the inputs of the blocks of the selection of the maximum current signal, dividing diodes connected to the first and second inputs of the main comparator, to which the outputs are voltage-gating nodes connected by one input to the common bus, and the other to the output of the reference voltage source, connected by inputs to the voltage sensors of negative polarity, the output of the main comparator is connected to the input of the first suppression unit, the output of which is connected to the input of the switching unit, connected by its output to the input of the second suppression unit, the output of which is connected to the output through a diode ohm of the unit for isolating the minimum voltage of positive polarity and to the input of the optocoupler isolation block, the outputs of which are connected to the inputs of controlled power supplies, characterized in that, in order to increase the reliability of protection of the controlled power supplies, an additional comparator with isolation diodes at the input is introduced into it, four blocks temperature compensation, the comparator delay delay unit, while the first temperature compensation unit is connected between the positive voltage maximum isolation unit polarity and the anode of the separation diode, · the cathode of which is connected to the first input of the additional comparator, the second temperature compensation unit is connected between the separation unit of the minimum voltage of positive polarity and the cathode of the separation diode, the anode of which is connected to the second input of the main comparator, the third temperature compensation unit is connected between the unit separation of the minimum voltage of negative polarity and the anode of the separation diode, the cathode of which is connected to the first input of the main a comparator, the fourth block is connected between the temperature compensation block allocation maximum voltage of negative polarity diode and the cathode separation, an anode of which is connected to the second input of the further comparator, whose output is connected to the input of lane SU, „, 1200263 interfering suppression unit, the gate input of the additional comparator is connected to the output of the reference voltage source, the gate input of the main comparator is connected to the output of the reference voltage source through the on-delay unit.