SU847512A1 - Multichannel switching device - Google Patents

Description

(54) MULTICHANNEL SWITCH

one

The invention relates to a pulse technique and can be used in data acquisition, automatic control and monitoring systems for alternate switching of circuits.

Switches are known that are built on electromagnetic relays with two contact groups, with an additional two control contact nodes and a zero-organ 1 included.

However, such switches are characterized by insufficiently high operational reliability due to the presence of contacts in the switch switching circuits.

Closest to the invention is a multichannel switch comprising a series-connected first photo thyristor and a relay between the poles of a constant voltage source, a second photo thyristor connected to the control electrode circuit of the first photo thyristor, connected in series with the first, second LEDs and normally open relay contacts between clock buses, the first and second LEDs being optically coupled to the first and second photo thyristors, respectively 2.

A disadvantage of the known device is the relative complexity of each channel and the presence of three links in each of them.

The purpose of the invention is to simplify a multi-channel switch.

This goal is achieved by the fact that in a multi-channel switch containing a power source, a pulse interrupter, and in each channel an LED and a series-connected winding of an electromechanical relay and a photo thyristor, which is optically connected to the LED of the previous channel, the LED is connected parallel to the winding of an electromechanical relay and the series-connected winding An electromechanical relay and a photothyristor are connected to a power source via a pulse interrupter.

The drawing shows the electrical circuit of the proposed multi-channel switch.

Claims (2)

Each channel (for example, in a three-channel switch) contains windings I, 2 and 3 of an electromechanical relay, photo thyristors 4, 5 and 6, LEDs 7, 8 and 9, with the winding of an electromechanical relay of each channel connected in series with photo thyristors, and this electrical circuit is connected to A power source 10 is connected via a pulse interrupter 11, and a corresponding LED is optically connected to the photo thyristor of the subsequent channel parallel to the winding of the electromechanical relay of each channel. Multichannel switch works as follows. Before the start of the first power interruption, the photothyristor 4 of the first channel conducts current, while the other photo thyristors are closed, while the output contacts (not shown) of the first channel electromechanical relay are in the closed state. The first power interruption (long enough to turn off the photo thyristor) results in locking the photo thyristor 4 of the first channel and de-energizing the winding 1 of the electromechanical relay. Here, due to the high inductance of the winding 1 of the electromechanical relay, the LED 7 in the forward direction continues to flow an electric current for a time several times longer than the duration of the interruption. In this connection, when a voltage appears on the photothyristor 5 of the second channel, after the termination of the interruption, the latter turns on and supplies power to the winding 2. In the same way, the second power interruption turns off the second channel and also turns on the third channel. Thus, each power interruption shifts the on state of the electromagnetic relay and one channel. The proposed multi-channel switch is characterized by maximum simplicity (the minimum number of connections between the channels and inside the channel), since it consists of two elements and requires only two connections for control and power supply with the power supply. A multi-channel switch comprising a power source, a pulse interrupter, and in each channel an LED and a series-connected winding of an electromechanical relay and a photothyristor, which is optically coupled to a previous channel LED, characterized in that, for the sake of simplicity, the LED is parallel to the winding of an electromechanical relay, and a series-connected winding of an electromechanical relay and a photothyristor are connected to a power source via a pulse interrupter. Sources of information taken into account in the examination 1. USSR author's certificate number 572924, cl. H 03 K 17/02, 1977. 2. USSR author's certificate number 518002, cl. H 03 K 17/78, 1976 (prototype).