SU1543471A1 - Device for monitoring serviceability of three-phase relay protection - Google Patents

Abstract

The invention relates to electrical engineering and is intended to monitor the operability of relay protection performed on semiconductor elements of the same type. The aim of the invention is to improve the completeness of health checks by comparing the output signals of the same type of blocks of different phases in a transient mode. This goal is achieved by simultaneously providing the same test signals to the inputs of several identical blocks. An intermediate signal is selected that is proportional to the difference between the maximum and minimum instantaneous values of the output signals of the blocks being tested. An output signal is generated, depending on the mode of operation of the monitoring device, proportional to the maximum or integral value of the intermediate signal. The output signal is judged on the degree of mismatch of the weight functions of the monitored units and their serviceability. 1 il.

Description

The invention relates to electrical engineering and is intended to monitor the health of nodes, blocks, board modules and relay protection circuits made on semiconductor elements, i.e. using transistors, amplifiers, logic circuits in microcircuit design, etc.

The aim of the invention is to improve the completeness of health checks by comparing the output signals of the same type of blocks of different phases of protection in a transient mode.

The drawing shows a functional diagram of the device for monitoring the health of three-phase relay protection.

The three-phase protection control device 1, containing three identical blocks 2 according to the number of phases with outputs 3 and test inputs 4, contains a block 5 for processing input signals 1, made in the form of a multi-shoulder diode bridge, whose inputs serve as inputs to the device and are connected to the corresponding control outputs 3 controlled units 2 relay protection. The input signal processing unit 5 is designed to generate a signal proportional to the difference of the maximum and minimum input signals.

ate

Ј 00 4

The inputs of the deviation fixation unit 6, designed to generate the output signal of the device, are connected to the inputs of the input signal processing unit 5

The main measuring inputs 7 and 8 of the display unit 9, intended for indicating the values of the output signals of the device, are connected to the outputs of the deviation fixing unit 6.

The mode control input 10 of the control unit II intended to control the operation mode of the devices is connected to the first output of the input signal processing unit 5

The output 12 of the mode control of the control unit I1 is connected to the first main input 7 of the display unit 9 „

The output 13 of the change in sensitivity of the control unit 1I is connected to the input 14 of change, the sensitivity (the roll 9 of the display

 The outputs 15 of the test signals of the control unit 11 serve as outputs of the signal JIOB for protection testing and are connected to the test inputs of 4 controlled protection units

The input of the time delay element 16, intended for delaying the post-haccion signal to it for a time equal to, for example, 2-3 seconds, is connected to DB. - peering output 17 of the control unit 5

The output of the element 16 time exposure, nor serves as a signal output permitting the action of the controlled protection of the protected object "

The third (main, indicator) Input 18 of the display unit 9 is connected to the output of the time delay element 36

The input signal processing unit 5 is made according to the standard scheme of a multi-shoulder rectifying bridge from 19 diodes

The deviation fixing unit 6 may be made according to various principle circuits. For example, between its "turns, the HC circuit from resistor 20 and condenser Torah 21 are connected in series with the outputs of block 6 are the outputs of capacitor 21. Parallel to the capacitor 21 turns on a circuit containing an electrical button 22 and a discharge resistor 23.

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The display unit 9 can be performed according to various schematic diagrams. For example, between its main

The measuring inputs 7 and 8 include a circuit of series-connected ballast resistor 24 and a voltmeter 25 with a high-resistance input. The connection point of the resistor 24 and the volmeter 25 serves as an input 14 for changing the sensitivity of the display unit 9. Between the third (main, indicator) input of the display unit 9 and the common wire there is a circuit of a series-connected ballast resistor 26 and an LED 27 intended to indicate the signal input to the input 18 of the display unit 9

The control unit 11 can be performed according to various schematic diagrams. For example, unit 11 contains a switch 28 for changing the operating mode of the deviation fixation unit 6 and changing the sensitivity of the display unit 9 The switch contact of the switch 28 is connected to the output 12 of the unit 11, and the other two contacts are with outputs 10 and 3, respectively, the "Dual switch 29, 30, having two contact groups 29 and 30, which is part of the control unit 11, is designed to transfer the controlled protection together with the proposed device by operating the state of control and returning to them. The switching contact of the contact group 29 is connected to the positive terminal of the power source, the output 31 of the contact group 29 is connected to the blocking output 17 of the control unit 11 ,, Output 32 of the contact group 29 through the winding of a small sealed relay (or a group of relays with sealed contacts) 33 is connected to a negative terminal of a power source. The switching contact of the double switch terminal 30 is connected to the negative terminal of the power supply. The output 34 of the contact group 30 has no connections, and the output 35 of the contact group 30 and the output 32 of the contact group 29 are connected to the outputs 36 and 37 of the switch 38 respectively. The switching contact of the switch 38 is connected to the contacts 15 of the test signals of the control unit 11 via the contacts 33. A chain of series-connected resistor 39 and an LED 40 designed to indicate the Con mode.

Trol, connected between the output 32 .. contact group 29 and the common wire.

The time delay element 16 can be performed according to any standard time delay circuit with a time delay, for example, 2-3 seconds per signal delay and instantaneous reset to the initial state when the signal is removed from its input.

The device for monitoring the health of the relay protection works as follows.

The operation modes are selected by the control unit 11. In the initial state, its dual switch 29, 30 is in the Operation position (see drawing). The circuit from the positive terminal of the power source through contact 31 of the contact group 29, time delay element G6 is closed. chain of protection,. The output protection circuits are thus powered and the protection monitored operates in the usual way. The LED 27 in the display unit 9 lights up, indicating that

that the protection is idle; Test signals at the outputs 15 of the control unit 11 are absent,

From the analysis of the controlled protection scheme, it is necessary to determine which polarity test signals should be checked to the protection inputs 4 for protection. If the test signals must have a negative polarity, the switch 38 in the control unit 11 must be set to the position shown in the diagram, i.e. close its switching contact to contact 36. If test sig

The circuit must have a positive polarity, then the switching contact of the switch 38 should be closed to its contact 37. Thus, the polarity of the test signals depends on the position of the switch 38. If the polarity of the test signals is to be changed during the test, then switch 38.

The switch 28 in the control unit 11 is designed to change the algorithm for generating the output signal of the device

In order to control

serviceability of protection, double ne0

five

0

about voltmeter 25:

The switch 29, 30 is switched to the Test position, as a result of which the signal from the blocking output 17 of the control AND block disappears. The signal from the output of the time-delaying element 16 instantly disappears, and the monitored protection is blocked for the duration of the test. The LED 27 goes out. Relay 33 is triggered, and the LED 40 in the control unit 1 lights up, signaling the Test mode. The test signals through the switch 38 and the closed contacts of the relay 33 arrive simultaneously at the inputs 4 of all three blocks 2 belonging to different phases of the monitored protection.

At the output of each block 2, a signal appears, varying in its weight function.

The control device controls the degree of mutual proximity of the transition (weight) output functions of the signals W4 (t) of all three blocks 2. Depending on the position of the switch 28, there are two possible algorithms for generating the output signal M, the value of which is changed by

25 meter:

M. Shah

T

M,

CwMO, Kc (t) -WMHH (t); S CWMeHC (t) -W; v, MH (t) J dt,

five

0

five

0

where WMO, KC (t) is maximum and mini and W .., ft) is the smallest instant sign

The output signals W jj (t) of the monitored protection blocks.

The voltage drop across diodes 19 in (1) (2) is not taken into account

If switch 28 is in the position shown in the diagram, an algorithm is implemented (O, if it is moved to the lower position, an algorithm close to (2). Simultaneously when shifting switch 28 to the lower position, the sensitivity of the display unit 9 is increased by shunting the ballast resistor 24

According to the maximum deviation of the needle of the voltmeter 25, the weight characteristics of the blocks 2 are judged if the voltmeter in each operation mode does not exceed the established allowable values, then the blocks 2 are considered to be in good order; if the maximum reading of the voltmeter 25 exceeds the allowable value at least in one of the test modes (in one of the positions of switch 28), then you should remove the entire board I and replace it with a working and properly configured

Valid readings of volmeter 25 are determined as follows.

On a properly functioning, properly configured | protection circuit 1, a check is carried out at each of the two positions of the switch 28. The maximum readings of the voltmeter 25 are recorded at each check. The allowable values of the readings of the voltmeter are determined by increasing the obtained measurements from 1.2 to 1.5 times.

 When the dual switch 29, 30 is moved to the position shown in the diagram, the LED 40, signaling the Control mode, goes out, and with a time delay of 2-3 seconds, necessary to return the blocks 2 to the initial state, the LED 27 lights up, signaling the position controlled protection.

After that, if necessary, you can repeat the control in a different mode (with a different position of the switches 289 38), after first discharging the capacitor 2D by pressing the button 1 22 22

Thus, the device monitors the health of semiconductor relay protection devices in transient modes. Such monitoring allows comparison of transfer functions of blocks, cells or protection modules with each other. The occurrence of a significant difference in these transfer functions indicates the occurrence of a malfunction or misalignment. Comparison of transfer functions of the same blocks allows in some cases to significantly increase the completeness of the health check compared to the prototype. For example, for some harmonic filters, the health check ratio increases by a factor of 4-5 from

About the p mule of the invention

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Device for monitoring the health of a three-phase relay protection consisting of separate blocks of the same type

a number of phases, containing an input signal processing unit, made in the form of a multi-arm diode bridge, whose inputs are device inputs and are intended to be connected to the corresponding protection outputs, and the outputs are connected to a display unit and a time delay element whose output is device output, characterized in that, in order to increase the completeness of health checks by comparing the output signals of the same type blocks of different phases

5 protection in a transient mode, a deviation latch block and a control block are added to the device, the deviation latch block is made as a series of connected first resistor and a capacitor, in parallel with which a chain of the second resistor and a button is connected, the inputs of the deviation latch are connected to the outputs processing unit

5 input signals, and the outputs of the deviation latching unit are connected to the display unit, made in the form of a high-resistance sensitive voltmeter, with a resistor, and a LED connected to the output of the time delay element, the control unit contains the first switch, the output of the switching contact of which is connected to the control input the control unit mode, - the control, the second output of the first switch is connected to the control output of the mode, and the third output - to the output of the change in the sensitivity of the control unit, doubled spruce, the changeover contact is connected to a plus power source, the second vpzod first terminal, the blocking group is an input control unit, and the third contact

5 through the relay coil, in parallel with which the second LED is connected, is connected to the power supply minus, the switching contact of the first contact group is also connected to the power supply minus, the third terminals of the first and second contact groups of the dual switch are connected to the terminals of the second switch, the output of the switching contact of which is connected make relay contacts with test signal outputs for connection to the test inputs of the tested protection,

4 | 4ts.

Compiled by L. Voropaeva. Editor L. Veselovska. Tekhred L. Serdyukova. Projector. To Man.

Order 404

Circulation 465

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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Claims (1)

F o r r mula invented neither h A device for monitoring the health of a three-phase relay protection, consisting of separate blocks of the same type by the number of phases, containing an input signal processing unit made in the form of a multi-arm diode bridge, the inputs of which are device inputs and are intended to be connected to the corresponding protection outputs, and the outputs are connected to the unit indication and time delay element, the output of which is the output of the device, characterized in that, in order to increase the completeness of the serviceability check by comparing the output signals of of the same type blocks of different phases of protection in transition mode, the deviation fixing unit and the control unit are additionally introduced into the device, while the deviation fixing unit is made in the form of a first resistor and capacitor connected in series, in parallel with which a chain of the second resistor and buttons are connected, the inputs of the Deviation Fixing unit are connected to the outputs of the input signal processing unit, and the outputs of the deviation fixation unit are connected to the display unit, made in the form of a high-resistance sensitive voltmeter, with a res by the speaker, and the LED connected to the output of the time delay element, the control unit contains a first switch, the output of the switching contact of which is connected to the control input of the control unit, the second output of the first switch is connected to the output of the control mode, and the third output is the output of the sensitivity change of the control unit , the double switch, the switching contact of which is connected to the plus of the power source, the second input of the first contact, of the group is the blocking input of the control unit, and the third contact through the relay winding, in parallel with which the second LED is connected, is connected to the negative of the power source, the switching contact of the first contact group is also connected to the negative of the power supply, the third conclusions of the first and second contact groups of the dual switch are connected to the terminals of the second switch, the output of the switching contact of which is connected through relay closing contacts with test signal outputs intended for connection to test inputs of the tested protection! ” 543471