CS252610B1 - Wiring to protect pulse control thyristors of the pulse converter with forced commutation against interference - Google Patents

Abstract

The connection solves the problem of protecting the control pulses of the thyristors of a pulse converter with forced commutation against interference. The pulse converter includes at least one antiparallel combination with at least one main thyristor and diode, at least one antiparallel combination with at least one quenching thyristor and diode, a commutation choke, a commutation capacitor, a zero diode connected in parallel to the load and a final amplifier of control pulses for the main thyristor. The essence of the solution lies in the fact that a current sensor is connected in the circuit of the commutation capacitor, the output of which is connected to the input of a blocking element, the output of which is connected to the input of the final amplifier of control pulses for the main thyristor.

Description

(54) Wiring to protect the control pulses of the forced commutation thyristors against interference

The circuit is designed to protect the control pulses of the pulse converter thyristors with forced commutation against interference. The pulse transducer comprises at least one antiparallel combination with at least one main thyristor and diode, at least one antiparallel combination with at least one arc quench and diode, a commutating choke, a commutating capacitor, a zero diode connected in parallel to the load, and a pilot thyristor control pulse end amplifier. The principle of the solution consists in that in the commutating capacitor circuit there is connected a current sensor, the output of which is connected to the input of the blocking member, the output of which is connected to the input of the final amplifier of the control pulses for the main thyristor.

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a circuit for protecting control pulses of a pulse transducer with forced commutation against interference comprising at least one antiparallel combination with at least one main thyristor and diode, at least one antiparallel combination with at least one arc thyristor and diode. a diode, connected in parallel to the load, and a control pulse end amplifier for the main thyristor.

Up to now, the control signal wiring from sensors and other elements between the controller and power circuits has been protected against disturbances by shielding and grounding the signal wiring and other subassemblies. In complicated applications in forced-commutation pulse converter circuits, especially when multiple in-series or parallel-coupled components cooperate in the inverter, interfering signals of such intensity may occur randomly in the prior art solutions that lead to uncoordinated switching of the thyristor. as a result of widespread failure of the entire equipment.

All of these disadvantages are overcome by the circuitry according to the invention in that a current sensor is connected in the commutating capacitor circuit, the output of which is connected to the input of the blocking member, the output of which is connected to the input of the main thyristor control amplifier.

The advantage of the solution according to the invention is that it enables a substantial simplification of the system of earthing and shielding of electronic circuits and wiring. Of particular importance is the possibility that random pulses can be generated and applied to the main thyristor control electrode at the time of commutation. In addition, the circuit according to the invention also eliminates any faults resulting from the failure of some of the controller blocks.

The invention will be explained in more detail below with reference to an exemplary embodiment, the circuit diagram of which is shown in the accompanying drawing.

The pulse transducer consists of a main thyristor 2, to which a diode 2 is connected antiparallelly. Such antiparallel combinations of the main thyristor 2 ^and diode 2 can contain several, in which several main thyristors 2 ^and diodes 2 can be connected ⁱⁿ series. The pulse transducer further comprises a quenching thyristor 5 with an anti-parallel connected diode 2. Also also of these antiparallel combinations of the quenching thyristor 5 and the diode 4 can the pulse transducer comprise several, possibly with several quenching thyristors 5 and diodes 6 in series.

The antiparallel combination of the main thyristor 2 and the diodes 2 ^{at the} point of the anode of diode 2 j ^e is connected with one terminal of the quenching reactor (> whose second outlet is connected to a first connection of the load 10 connected in parallel diode 2 · In the first connection of the load 10 is also connected a second quenching capacitor terminal T, the first of which is connected to an antiparallel combination of quenching thyristor 2 with diode 2 ^at the cathode of diode 4. ^In the quenching capacitor 7, a current sensor 2 is connected, the output of which is connected to the blocking member 11. 11 is connected to the input of the control pulse terminal amplifier 12. The output of the control pulse terminal amplifier 12 is connected to the control electrode of the main thyristor 2.

For example, the current sensor 2 can be a current transformer. The locking member 11 may be formed, for example, from discrete components ensuring a reliable closing step of the locking member 11.

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The second load connection 10 is connected to the negative pole of the DC power supply 2. The positive pole of the DC power supply 1 is connected to the node connecting the antiparallel combination of the main thyristor 2 with the diode 3 and the quenching thyristor 2 ^{with the} diode 4 at the cathode of the diode 3.

The wiring function is as follows.

When a control pulse is applied to the quench thyristor control electrode 21, a sinusoidal current, given by the LC-character of the quench circuit, causes the main thyristor 2 to go out ^and its blocking ability to recover. The current shape is sensed by the current sensor 2 and evaluated in the blocking member 11. The output of the blocking member 11 blocks the control pulse end amplifier 12 for the main thyristor 2 P ° for the entire dangerous period of commutation and restoring blocking capability.

The circuitry according to the invention can be used, for example, in pulse converters in electric locomotives by trams, trolleybuses and in static applications of pulse converters.

Claims (1)

SUBJECT OF THE INVENTION Wiring to protect the control pulses of a forced commutation commutator against interference, which pulse transducer comprises at least one antiparallel combination with at least one main thyristor and diode, at least one antiparallel combination with at least one arc thyristor and diode, commutating choke, commutating capacitor, zero diode connected in parallel to the load, and a pilot thyristor control pulse end amplifier, characterized in that in the commutating capacitor circuit (7) a current sensor (8) is connected, the output of which is connected to the input of the blocking member (11) to the input of the final amplifier (12) of the control pulses for the main thyristor (2).