SU1246234A1 - Method of protection of thryristor rectifier - Google Patents

Abstract

This invention relates to electrical engineering and is intended to protect thyristor rectifiers with regenerative loads from accidental currents. The purpose of the invention is to increase reliability. A method for protecting a thyristor rectifier equipped with a circuit breaker in the load circuit consists in continuously monitoring the line voltages and phase currents, comparing the polarity of the phase currents with the polarity of the line voltages and turning off the circuit breaker at specified ratios of the indicated values. The increase in reliability is ensured by the fact that for each linear voltage relative to the zero-crossing time, the time ranges 5/67-l and 2; G are counted, in which the volt-second failure area of this linear voltage is additionally calculated. In this case, the circuit breaker is turned off when the specified volt-second area of the critical value is reached. In addition, the current value of the load current is continuously measured and inversely proportional to this value, the critical value of the line voltage failure area is measured. 1 hp f-ly, 1 ill. Ci cl | C 4 Od oo 4i

Description

The invention relates to electrical engineering and is intended to prohibit thyristor generators with a regenerative load from emergency currents arising due to distortions and wiring of voltages during ground supply of reversible rectifiers.

The aim of the invention is to improve. reliability

The drawing shows a diagram of the device for implementing a method for protecting a thyristor rectifier.

A circuit diagram for implementing a method for protecting a thyristor rectifier contains a rectifier assembled on thyristors 1-6, chokes 7-10, a direct current motor 11, circuit breaker 12, sensors 13-16, single-phase transformers 17-19, control unit 20 of the operation mode of the thyristor top receiver, active filters 21-23, single-pass null-indicators 24-26, single-oscillators 27-29, integrators 30-32 on operational amplifiers, controllable keys 33-35, two-input null-indicators 36-38, element OR 39, element AND 40 and the executive body 41.

The thyristor rectifier is connected to the supply phases through chokes 7-9 and current sensors 13-15. A throttle 10, a motor 11, a direct current, a circuit breaker 12 of protection and 16 current sensors are included in the load circuit of the thyristor rectifier. The primary windings of transformers 17, 18, 19 are connected respectively between phases A and B, B and C C and. A, Secondary blocks of transformers 17, .18, 19 are connected respectively to the inputs of block 20 of the control mode of the thyristor rectifier, l, to the inputs of active filters 21, 22, 23 and to the first inputs of the integrator on operational amplifiers 30, 31 , 32. The outputs of sensors 13-15 of fuses of currents are connected to the inputs of the unit 20 for controlling the operation mode of the thyristor rectifier. The outputs of the active filters 21, 22, 23 are connected respectively to the second inputs of the integrators at the operational amplifiers 30, 31, 32, and also to the inputs of the null indicators 24, 25, 26.

The integrators 30, 31, 32 on the operational amplifiers are shunted by control keys 33, 34, 35, the control inputs of which are connected respectively via single-oscillators 27,

28, 29 to the outputs of the zero-indicators 24 25, 26. The outputs of the integrators 30-32 on the operational amplifiers are connected to the first inlets, the zero-indicators 36, 37, 38 ,, the second inputs of KoTopbLx are connected, interconnected and connected to the pyg the sensor 16 rectified current. The outputs of the zero-indicators 36, 37, -38 are connected to the inputs of the element OR 39, the output of which is connected to the first input of the element 40. The output of the control unit 20 of the operating mode of the thyristor rectifier is connected to the second input of the element 40, the output of which through the actuator 41 connected to the control input of the circuit breaker 12 "

The scheme operates as follows.

The active filters 21-23 filter and shift the transformed linear stresses by an angle / T. Therefore, transformed linear voltages are fed to the first inputs of integrators 30-32 assembled on operational amplifiers, and filtered voltages are fed to the second inputs in antiphase. The zero-indicator 24,, 25, 26, at the moments of crossing the filter voltage, triggers one-shot 27, 28, 29, which are 5 /

impulses lasting

6

These

the pulses go to the control inputs of the keys 33, 34, 35, which are closed. and shunt integrator. AT

time intervals

5V

eleven

ll-2 yy

6 6, the control keys are opened, and the integrators begin to calculate the volt-second linear voltage dip area, the null indicators 36-38 compare the integrator code voltages with the critical setpoint value, which decreases with increasing load current level. When the null indicators are triggered, a signal 1 appears at the output of the 1SH 39 element. In the inverter mode, a 1 signal appears at the output of the thyristor rectifier operating mode control unit 20, Thus, in the inverter mode, if one of the line voltages in ranges

6

and 2i at the inputs of the element And 40

31

Two signals appear 1. The actuator 41 is activated and the circuit breaker 12 is turned off.

Claims (2)

1. A method of protecting a thyristor v r r of a motor equipped with an automatic circuit breaker B of the load circuit, which consists in continuously monitoring the linear voltage and phase currents, compare the polarity of the phase currents with the polarity of the linear voltages and given the ratios indicated the values are turned off by a circuit breaker, characterized in that, in order to increase reliability, for each linear voltage, moment of transition zero five counting the time ranges T  I. Vl. -h - L and g- 1 -I H, O in which the volt-second failure area of a given linear voltage is additionally calculated, and the circuit breaker is turned off when the specified voltage-second is reached, the area of the critical value. 2. A method according to claim 1, characterized in that the current value of the load current is continuously measured and inversely proportional to this value, the critical value of the area of the dip of the linear voltage is changed 73 Editor A.Vorovich Compiled by O. Mescher Kova Tehred M. Khodanich Proofreader M. Sharoshi 4014/49 Circulation 612 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., d. A / 5 Production and printing company, Uzhgorod, st. Project, 4