SU892609A1 - Switch element control device - Google Patents

Description

(54) METHOD OF CONTROL OF KEY SJKMEHTOM

I

The invention relates to electrical engineering and can be used to control the modes of operation of active and reactive loads of various installations and devices automatically. ki using key elements based on thyristors and triacs.

A known method of controlling a thyristor key is that a signal, for example, from a temperature sensor, applies a control voltage tn to the control electrodes of the thyristors.

However, with this control method, a sufficient resource of operation of the thyristor keys is not provided.

The closest in technical essence to the present invention is a method of managing thyristor key 2. This method of controlling a thyristor in an electric circuit with an autonomous power source; c) cost 1 in that it reduces the strength of the power source

Before supplying the thyristors with a control signal, they supply a control signal, increase the voltage of the independent power source to the initial level after the end of the transient process in the thyristor key control circuit.

A disadvantage of the known method is the low reliability of controlling a key element, for example, a thyristor or a triac, when the voltage and load current vary.

The purpose of the invention is to increase the reliability of control of a key element during voltage changes at IS load.

The goal is achieved by measuring the signal in the control electrode circuit of the key element, changing the value of the control voltage depending on the value of the measured signal, using the average value of the voltage on the control transition of the key element as a measured signal The magnitude of the control voltage module is directly proportional to the measured signal.

The drawing shows a thyristor key block diagram implementing the proposed method.

It contains a triac 1, a constant control voltage source 2, a control current regulator 3, a meter 4, a load 5, and an independent power source 6.

Thyristor key works as follows.

Before applying the control voltage to triac 1, the signal of the technological parameter sensor reduces the voltage of the autonomous power source 6. After reducing this voltage, a signal is given to turn on the triac 1, and the voltage of the autonomous power source 6 increases to the initial level after the end of the transition process in the control circuit of the compressor by the action of internal feedback on the control transition of the snmistor 1, a variable component is selected 11 (and the voltage depends on the current HarjiysKH and the resistance audio control transition.

At the input of the triac 1, the variable voltage is summed with the constant control received from source 2. The total voltage is pulsating. Depending on the load current, the magnitude of the total voltage varies. Similarly, the magnitude of the current of the control electrode.

With a new sensor 4, a signal is measured in the circuit of the control electrode of the triac (current or voltage).

& sensor input: 4 is connected to the controller input, which, according to the required law, changes the value of the control signal, thereby ensuring the optimal operation mode of the thyristor key.

The effect of the anode circuit in a number of cases can be caused by the failure of the semiconductor structure of the device.

With this method, a triac control mode 1 is provided, in which the shape and minimum value of the control voltage remain constant when changing over a wide range of load current. This is achieved by a corresponding increase in negative relative to

a constant control voltage cathode with an increase in the average value of the control voltage.

Thus, the proposed control method increases the load

ability, reliability and resource

operation of thyristor automation devices and can be effectively used also in emergency modes, arising, for example, due to voltage surges and currents in power circuits.

Claims (2)

1. The control method of a key element in an electrical circuit with an autonomous power source, which consists in reducing the voltages of an autonomous power source before supplying a key element of the control signal, sends a control signal, increases the voltage of the autonomous power source to the initial level after the end of the transition process in the control circuit of a key element, which is indicated by the fact that, in order to increase the reliability of control of the key element, the signal in the control electrode circuit of the key elec- change the value of the control signal depending on the magnitude of the measured signal. 2. The control key element method of POP.1, characterized in that the average value of the voltage at the control transition of the key element is used as the measured signal, the control voltage of the control voltage is directly proportional to the measured signal. Sources of information taken into account in the examination 1. USSR author's certificate No. 396007, cl. And 05 В 1/02, H 03 K 17/72, 1973. 2. USSR author's certificate No. 636755, cl. H 02 M 1/08, 1978 (prototype). v