KR200141201Y1 - Plc communication module - Google Patents

Abstract

The present invention relates to a PLC communication module for recognizing that an error occurs to the user when an error occurs in the terminal resistance, the conventional PLC communication module easily occurs when the user has an error in the terminal resistance There was a problem that the efficiency of maintenance and repair is reduced because it is not recognized. In consideration of the above problems, the present invention has an abnormality in terminating resistance to the user through a detecting unit which differs in the output signal when an abnormality occurs in the terminating resistor, and a buzzer generating means when the output signal of the detecting unit is different from the set value. It is equipped with a processor for recognizing that the user can easily recognize that an abnormality occurs in the termination resistance, thereby reducing the time required for maintenance and repair, such that the use efficiency is increased.

Description

PL communication module

The present invention relates to a PLC communication module, and more particularly to a PLC communication module for detecting whether the terminal resistor is connected to prevent signal distortion caused by signal reflection.

Generally, when high-speed communication is performed between PLC communication modules, signal distortion occurs due to reflection of signals. To prevent such signal distortion, an impedance matching resistor is connected to the end of the communication module. If used, and described in detail with reference to the accompanying PLC communication module as follows.

FIG. 1 is a block diagram of a conventional PLC communication module. As shown in FIG. 1, each PLC communication module 10 and 20 includes a transmitter 11 and 21 for transmitting data; Receiving units 12 and 22 for receiving data; It consists of the pulse transformer 13, 23 for converting the transmission data of the transmitters 11, 21 and the data received by the receivers 12, 22, the communication modules 10, 20 Termination resistors RL1 and RL2 are provided to prevent distortion of the signal due to signal reflection from outside.

Hereinafter, the operation of the conventional PLC communication module configured as described above is as follows.

First, when data is transmitted from the PLC communication module 10, a predetermined data is output from the transmitting unit 11 provided in the communication module 10, and the pulse transceiving the transmission data of the transmitting unit 11 is input. Reference numeral 13 converts the received data and outputs it through a communication line (not shown) connected to both ends of the terminal resistor RL1.

Subsequently, the PLC communication module 20 having received the transmission data of the PLC communication module 10 received through the communication line through the termination resistor RL2 transmits the received data through the pulse transformer 23. The reception unit 22 receives the signal.

In addition, when the PLC communication module 10 receives the transmission data of the PLC communication module 20 and the PLC communication module 20 receives the transmission data of the PLC communication module 10 described above. It works in reverse.

However, as described above, when the conventional PLC communication module does not have a terminating resistor attached to the outside, or an abnormality occurs due to a disconnection, etc., it is impossible to know exactly why the communication is not performed, and thus the communication module must be checked one by one. Therefore, there was a problem that the efficiency is reduced in terms of maintenance and repair.

The present invention devised in view of such a problem is to provide a PLC communication module that enables the processor to detect that an abnormality occurs when a terminal resistor is not attached or an abnormality such as a disconnection occurs at a contact thereof. There is a purpose.

1 is a block diagram of a conventional PD communication module.

2 is a circuit diagram of a PRC communication module according to the present invention.

* Explanation of symbols for main parts of the drawings

1: terminal 2: pulse transformer

3: transmission and reception data processing unit 4: input unit

R1, R2, R3: resistor RL: termination resistor

ZD: Zener Diode BUF1: Buffer

The above object is achieved by applying a constant signal through a communication line and inputting it to a processor through a constant voltage operational amplifier that varies its output depending on the state of its termination resistance. The explanation is as follows.

2 is a circuit diagram of a PLC communication module according to the present invention, as shown in the terminal resistor (RL) connected to both ends of the communication line to prevent distortion of the signal; A pulse transformer (2) for receiving the data received through the terminal resistor (RL) and the terminal (1) and converting the pulse to output the data; A transmission / reception data processor (3) which receives the data converted by the pulse transformer (2) and processes the data; An input unit 4 for outputting a terminal resistance connection confirmation signal through the buffer BUF1; It consists of a detection unit 5 for converting the output according to the termination resistance connection confirmation signal that changes depending on the state of the termination resistor RL and outputting it to the input port of the process (not shown). A zener diode (ZD) between a communication line and an output terminal of the buffer BUF1 and a ground; A resistor (R1) connected to the zener diode (ZD) and the other communication line; An operational amplifier (O) whose negative input terminal is connected to a contact of the resistor (R1) and the other communication line, and whose positive input terminal is grounded through a resistor (R3); The resistor R2 is connected to the negative input terminal and the output terminal of the operational amplifier OP.

Hereinafter, the operation of the PLC communication module according to the present invention configured as described above.

First, when the terminating resistor RL is connected to the communication line without error, when the terminating resistor connection confirmation signal applied through the buffer BUF1 is applied from the input section 4, the negative input terminal of the operational amplifier OP is applied. The input resistance is represented by the parallel resistance of the terminating resistor (RL) and the resistor (R1), and the output voltage (VO) is the value of [-VZD (voltage applied to the zener diode) × R2] / [RL // R1]. Is output. The processor (not shown) receiving the output voltage recognizes the output voltage VO as a value indicating that the terminating resistor is connected without error. Accordingly, the user transmits / receives data through the communication module.

If the data is to be transmitted, the transmitted data processed by the transmit / receive data processing unit 3 is converted into pulses through the pulse transformer 2, and the terminal 1 and the terminal resistor RL are connected to each other through a communication line. Sent to PLC communication module. At the time of reception, the pulse transformer 2 receiving the data received through the communication line, the terminating resistor RL and the terminal 1 converts the pulse of the received data and applies it to the transmission / reception data processor 3. Receive transmission data of another PLC communication module.

Then, when the terminal resistor RL is not connected, the input resistance value of the negative input terminal of the operational amplifier OP becomes the resistance value of the resistor R1, and the output voltage VO of the operational amplifier OP. ) Is output as (-VZD × R2) / R1). The processor receiving the above-described output voltage VO determines that the value of the output voltage VO is abnormal in the termination resistor RL, and terminates the resistor RL to the user through the buzzer generating means (not shown). Recognize that an error occurs at). The user who recognizes that an abnormality has occurred in the termination resistor RL checks and repairs whether the termination resistor RL is connected, and then transmits or receives data.

As described above, the PLC communication module according to the present invention recognizes that an abnormality occurs to the user when an abnormality occurs in the connection of the terminal resistor, thereby allowing the user to easily check the terminal resistance, thereby maintaining the maintenance and repair. It has the effect of improving the efficiency and reliability.

Claims (2)

A terminating resistor (RL) connected at both ends of the two communication lines to prevent signal distortion; A pulse transformer (2) for receiving the data received through the terminal resistor (RL) and the terminal (1) and converting the pulse to output the data; A transmission / reception data processor (3) which receives the data converted by the pulse transformer (2) and processes the data; An input unit 4 for outputting a terminal resistance connection confirmation signal through the buffer BUF1; PLC communication comprising: a detector (5) for converting the output according to the termination resistor connection confirmation signal that changes according to the state of the termination resistor (RL) and outputting the output to an input port of a process (not shown) module. 2. The detector according to claim 1, wherein the detector (5) comprises: a zener diode (ZD) between one side of the communication line and the output terminal of the buffer BUF1 and ground; A resistor (R1) connected to the zener diode (ZD) and the other communication line; An operational amplifier OP connected to a negative input terminal of the resistor R1 and the other communication line, and the positive input terminal of which is grounded through the resistor R3; And a resistor (R2) connected to the negative input terminal and the output terminal of the operational amplifier (OP).