SU683020A1 - Thyristor control system - Google Patents

Description

The invention relates to a pulse technique and can be used in automation devices. One of the known devices contains a device for determining a zero voltage on a controlled thyristor, a photoelectric signal processor, a thyristor, a load and an alternating current source 1. The closest technical solution to the invention is a device for controlling a thyristor containing a phase sync pulse generator. , the thyristor start-up driver, connected through a power amplifier with a thyristor connected in series with a transformer load in the source nick AC 2. However, both these devices are not sufficiently reliable. The purpose of the invention is to increase the reliability of the device. To do this, the thyristor control device containing a T1 aphasic sync pulse shaper, a thyristor starting pulse shaper connected through a power amplifier to a thyristor connected in series with a transformer load, an alternating current circuit with an electrical overwriting of its states, an additional trigger pulsed potential trigger circuit, element 2I, and the input of the counting trigger is combined with the first input of element 2I, the input of the power amplifier and p Connected to the output of the thyristor start pulse generator, each of the two whose inputs are connected to the output Q of the corresponding trigger with a potential impulse output target, for example: inputs 5 triggers with a impulse-potential starting circuit combined -I connected to the output of element 2I, pulse input each of these two triggers is connected respectively to the outputs Q and Q of the paraphase synchronization pulse shaper, the potential INPUTS of the first and second triggers with a pulse-potential trigger circuit are connected to the output Q m and Q countable trigger respectively 2I second element input coupled to a source 1gnala inclusion device and input of paraphase clocks is connected to the AC source. The drawing shows a structural electrical device. The device for operating the thyristor contains a driver / paraphase clock pulses, a driver for starting 2 pulses connected via a power amplifier 3 to a thyristor 4 connected subsequently to a transformer load 5 in the source, an alternating current (terminals 6, 7).

A counting trigger 8 with electric moderation of its states was introduced into the device, two 9n 10 triggers with an impulse-test trigger circuit, element 2I //. The input of the counting trigger 8 is combined with the first input of the element 2I // “input of the power amplifier 3 and connected to the output of the imaging unit 2, the inputs of which are connected to the outputs of the flip-flops 9 and 10. The inputs S of the flip-flops 9 and W are combined and connected to the output of the element 2I // . Pulse inputs of flip-flops 9 p 10 are connected to the corresponding outputs of the imaging device /, potential inputs are connected to the outputs of the counting trigger 8. The second input of element 2I is connected to terminal 12 of the signal source on the device and connected to the input 13 of the source of alternating current source .

The device for controlling the thyristor works as follows.

C, the nasoidal network of the network, which enters 1 on shaper 1, is transformed into paraphase voltage of a rectangular shape, which is fed to the pulse inputs of trigger 9 and 7 rigger 10, ensuring synchronization of their switching. Their potential inputs receive a signal from the corresponding output of the counting trigger 8. Triggers 9 and 10 switch to the zero state when there is, on their sweat, NC, and other inputs of the logical ori signal, and on pulse inputs. zero. Moreover, this is possible only if there is no logical zero signal at their S-inputs, which is formed by element cell 2I // from the device turn-on signal and the signal at the output of the driver 2, i.e. triggers 9 and 10 are switched to the zero state by sigal | on the inputs are potential and pulse, and the signal at the S input is IB unit state.

The signals at the direct outputs of the 9 and 10 flip-flops trigger the spinner 2 and the differential from logical unit to zero. With

the triggering of the throat 2 by the leading edge of its output signal switches the counting flip-flop 5 through element 2P 11, the flip-flops 9 and 10 are switched to one state, and through the power amplifier 3 the thyristor 4 is switched, switching the transf.M atary load 5.

Claims (2)

1. The UK patent LI 1269681, cl. H 03 K 17/72, 1972. 2. USSR author's certificate number 422100, cl. H 03 K 17/02, 1971 (prototype). W TO 6