KR960000049Y1 - General output circuit of transistor or relay - Google Patents

Abstract

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Description

General-purpose output circuit for both transistor or relay

1 is a conventional transistor output circuit diagram

2 is a conventional relay output circuit diagram

3 is a general-purpose output circuit diagram of a transistor or a relay according to the present invention

4 is an operation description circuit diagram according to the present invention

* Explanation of symbols for main parts of the drawings

PC: Photocoupler TR: Transistor

RLY: Relay JP: Jumper

D: Diode ZD: Zener Diode

The present invention relates to a general-purpose output circuit for a transistor or a relay output, and more particularly to a general-purpose output circuit for a transistor or relay output that is suitable for easily using a load of different characteristics.

The configuration of the output circuit of PLC (Programmable Logic Controller) which is widely used at present and the output circuit which is used in industrial controller are classified into two categories.

The first output circuit is an open collector method using transistors. The second is to use relays. Output structures with both of these methods are not so common due to the cost of relays being much higher than for transistors and the lack of space on the printed circuit board.

This design makes it easy to use both transistors and relay outputs properly, regardless of whether the output device is polar (DC) or nonpolar (AC).

FIG. 1 shows a conventional transistor output circuit structure in which the photocouplers PCl to PCn used for signal isolation and the multi-arlington transistors TR1 to used to increase the output current from the genital photocouplers PC1 to PCn. TRn) and Zener diodes ZD1 to ZDn connected between the collector and emitter of the transistors TR1 to REn to protect the output circuit.

FIG. 2 shows a conventional relay output circuit structure of photocouplers PC1 to PCn used for signal isolation, and prefill diodes D1 to Dn connected across coils of relays RLY1 to RLYn and relays RLY1 to RLYn. It is composed of

Referring to the operating state of the configuration circuit, firstly, the circuit of FIG. 1 performs primary and secondary insulation using photocouplers PC1 to PCn to insulate the output circuit, and transistors to increase the current capacity of the output device. It is a structure generally used as a multi-arlington output using (TR1-TRn).

The second circuit uses the photocouplers PC1 to PCn to insulate the output circuits, so that the first and second insulators are insulated, and the relays RLY1 to RLY3 are turned off so that they can be used regardless of the polarity of the output device. Diodes D1 to Dn are connected across the relays RLY1 to RLYn so as to cancel the current induced in the excitation coil.

However, in the conventional circuit as described above, the transistor output structure must be used so that the load must have a polarity, and the relay output structure has a disadvantage that a problem as a general-purpose output circuit arises due to a structure that is irrelevant to the polarity of the load or the price of the relay increases.

Therefore, the present invention aims to provide an output circuit that satisfies the characteristics and conditions of a load by appropriately distributing a transistor and a relay to configure an output circuit or by replacing a transistor or a relay. When described in detail as follows.

First, referring to the configuration of the circuit of the present invention in FIG. 3, the photocoupler PC can be used in the same manner regardless of the transistor TR or the relay RLY. Install the socket and relay socket to the proper position.

That is, the collector (PCC) of the photocoupler (PC) is connected to the collector (TC) of the transistor (TR) socket and the common terminal (C) of the cathode and the jumper (JP) of the zener diode (ZD) socket at the same time. The emitter (PCE) of the photocoupler (PC) is connected to the base (TB) of the transistor (TR) socket and the cathode of the C ⁺ terminal and the diode (D) socket of the excitation coil of the relay (RLY) socket. The emitter of the diode (D) socket is connected to the C terminal of the excitation coil of the relay (RLY) socket and connected to E and assigned to the connector pin.The emitter (TE) of the transistor (TR) socket is connected to the relay (RLY) socket. Is connected to the connector pin (I ') at the same time, the contact (01) of the relay (RLY) socket is connected to the connection pin (2) of the jumper (JP) and to the connector pin (I) at the same time. The connecting pin (I) of the jumper (JP) is connected to the connector pin (E ⁺ ). 4 is a circuit diagram of the circuit of FIG. 3 in detail.

Referring to the operation state of the configuration circuit, first, in the case of transistor output, the photocoupler PC, the transistor TR, and the zener diode ZD are inserted into the socket provided on the substrate, and the position of the jumper JP in FIG. When connected so as to be C-2, it becomes an example of continuous acceleration as shown in block (a) of FIG. 4 and performs the same operation as that of a general transistor output circuit.

In the case of the relay output circuit, if the photocoupler (PC), the relay (RLY), and the diode (D) are inserted into the socket provided on the board, and the jumper (JP) is connected to the position C-1, the block (b) of FIG. An example of the connection as shown in c) above is performed to perform the same operation as a general relay output circuit.

An operation state of the configuration circuit will be described below with reference to the accompanying drawings. First, in order to use the transistor output circuit diagram shown in FIG. 1, only the transistor TR and the zener diode ZD are inserted into the substrate in the block A of FIG. 3 and connected to the jumper JP switch C-1. 4, the operation principle of the transistor output circuit diagram is the same. In order to use the relay output circuit diagram shown in FIG. 2, in the block A of FIG. 3, only the relay RLY and the diode D are inserted into the substrate and the jumper JP switch C-2 is connected. The operation principle of the relay output circuit diagram is the same as that of the block (b) of FIG.

Figure 4 (c) can be used regardless of the polarity by supplying the load-stage power supply of the relay circuit diagram to the alternating current (AC).

In other words, the present invention requires that the diode (D, ZD), transistor (TR) and relay (RLY) sockets are placed on the same printed board so that they can be used as transistor output circuits. ) And insert relay (RLY) and diode (D) to use as relay output circuit.

Therefore, according to the present invention, if a transistor or a relay is inserted according to the characteristics of the load, the present invention has an output circuit suitable for the characteristics of the load, and the space of the substrate can be saved.

Claims (2)

In the output circuit comprising a (correction) photocoupler (PC), Transistor (TR) and Zener diode (ZD) are inserted into the transistor output circuit when the diode (D, ZD), transistor (TR) and relay (RLY) sockets are placed on the printed board so that they can be placed in the proper position. When used as a circuit, and relay output circuit, when the relay (RLY) and the diode (D) is inserted into a general purpose output circuit for transistor or relay, characterized in that configured to be used as a relay output circuit. (Correction) The method according to claim 1, The collector PCC of the photocoupler PC is simultaneously connected to the common terminal C of the collector TC of the transistor TR and the cathode of the zener diode ZD and the jumper JP, and the photocoupler PC The emitter PCE of the transistor TR to the base TB of the transistor TR, one end of the relay excitation coil C ⁺ and the cathode of the diode D, and the anode of the diode D to the relay excitation coil. other one end of (C ^-) and connector pin (E ^-) connected to the common connection of the emitter bit (TE) of the transistor (TR) to a contact (02) and the output konnek teupin (I ') of the relay (RLY) Connect the contact (01) of the relay (RLY) to the connection pin (2) and the output connector pin (I) of the jumper (JP) in common, and connect the connection pin (I) of the store (JP) to the connector (E ⁺ ). General-purpose output circuit for a transistor or a relay, characterized in that the connection is configured.