JPS599819A - Solid relay - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to solid state relays used in various types of equipment, and more particularly to a solid state relay for high power supply in which input and output are insulated by a photothyrist coupler.

[Technical background of the invention]

FIG. 1 shows a conventional solid state relay in which input and output are insulated by a photocoupler. That is, a resistor 13 and a photocoupler 14 are connected between the pair of input terminals 11 and 12.
Light emitting diodes 5 are connected in series. The wire is a DC power supply, and a resistor 19, 20 and a light receiving transistor 2 of the photocoupler 14 are connected in series between a pair of power supply terminals 17 and 18 connected to both ends of the wire. A PNP transistor 220 is connected to the connection point of the resistors 19 and 20, and the emitter of this transistor 22 is connected to the power supply terminal 17.
The collector is connected to the power supply terminal 18 via resistors 8.3 and 24 in series. The connection point of these resistors 23 and 24 is connected to the pace of the NPN type output transistor 25,
The emitter of this output transistor 25 is connected to the power supply terminal J.
8, and its collector is connected to the output terminal 26. A load 2 is connected between the output terminal 26 and the power supply terminal 17.
Furthermore, flywheel diodes 28 and 29 are connected to the output terminal 26 and the power supply terminal 17.
18. Note that a run risk switch circuit 30 (p) is formed by the resistor 19, transistor 22, and resistors 23 and 24.

Therefore, when a predetermined drive input is not applied between the input terminals 11 and 12, the light emitting diode 15 does not emit light.
The light receiving transistor 21 is off, so the transistor switch circuit 30 is off, and the output transistor 25 is off.
is off and load 27 is not driven. On the other hand, when a predetermined drive input is applied between the input terminals 11 and 12, the light emitting diode 15 emits light and the light receiving transistor 21 is turned on, so that the transistor switch circuit 3Q is turned on and the output transistor 25 is turned on. It turns on and the load 27 comes to be driven.

[Problems with background technology]

By the way, the light receiving transistor 2 of the photocoupler 14
In No. 1, the collector-emitter voltage Vc and D were approximately 30 V or less, and the withstand voltage was small, so it could not be applied to a solid state relay for high power supply.

[Object of the Invention] The present invention has been made in view of the above-mentioned circumstances, and it is an object of the present invention to provide a solid state relay that has a high withstand voltage of, for example, about 200V and is suitable for high power supplies.

[Summary of the invention]

That is, the solid state relay of the present invention uses a light-receiving element between the dirt and anode of the thyristor as follows: 1. It consists of a photothyristor circuit whose drive input is supplied to a light emitting element, and a drive circuit which switches and drives a load in accordance with the output of a light receiving element of this photothyristor circuit. r-t of the above thyristor
A high withstand voltage of, for example, about 200 μm can be easily obtained between the anodes, and by using a high withstand voltage photothyristor converter, a solid state relay for high power supply can be implemented.

[Embodiments of the invention]

Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings. The solid-state relay shown in Figure 2 differs from the solid-state relay described above with reference to Figure 1 in that it uses a high-voltage photosilk 23 mm instead of a photocoupler, and is otherwise the same. The same parts in FIG. 2 as in FIG. 1 are designated by the same reference numerals, and the explanation thereof will be omitted. The above-mentioned photothyristor converter 31 performs photoelectric conversion by using the opposite photosensitive characteristic of the thyristor 31 by using the date and anode of the thyristor 32 as a light receiving element. For example, 2
00V 8 degrees can be easily implemented. Therefore, by using the high-voltage photoresist cover 23, a solid-state relay for high power supply can be realized.

The operation shown in FIG. 2 is almost the same as the operation shown in FIG. When the diode 33 emits light, the dirt and anode of the thyristor 32 are turned on.

Note that the present invention is not limited to the above-mentioned embodiment, and for example, instead of the transistor switch circuit 3δ and the output transistor 25, a drive circuit that switches and drives the load 27 according to the output of the photothyristor cassilla 32 may be provided. Bye.

〔Effect of the invention〕

As described above, according to the present invention, the withstand voltage is, for example, 200
It is possible to provide a solid-state relay suitable for high-voltage applications with a high voltage of about V.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram showing a conventional solid state relay, and FIG. 2 is a circuit diagram showing an embodiment of the solid state relay according to the present invention. 11.12...Input terminal, 16...Power supply, 27...
- Load, 25... Output transistor, 3o... Transistor switch circuit, 3no... Photothyristor coupler, 32... Thyristor, 33... Light emitting diode.

Claims (1)

[Claims] Photothyristor in which the drive input is supplied to the light emitting element and the area between the dirt and anode of the thyristor is used as the light receiving element.
A solid-state relay comprising a star coupler and a drive circuit that switches and drives a load according to the output of the thyristor coupler.