KR100549216B1 - PLC output module having everytime diagnostic ability of output channel - Google Patents

Abstract

The present invention is directed to a PLC output module with diagnostic capability to monitor the output state of the output channel in real time. The PLC output module of the present invention includes a buffer unit for transmitting output data generated by the computing device to the output unit, an output unit for generating an output voltage to the output channel in response to the output of the buffer unit, and a comparison device and a control unit. The display apparatus may further include an external display device that emits the first light emitting diode in response to the output data and a diagnostic display device that emits the second light emitting diode in response to the diagnostic data to visually check the output state of the PLC output module. The comparison device and the control unit generate an output control signal for controlling the operation of the buffer unit by comparing the output data and the diagnostic data in response to the comparison synchronization signal generated after a delay time according to the generation of the diagnostic signal, and calculating whether the output channel is abnormal. Notify Accordingly, the PLC output module can monitor the output state of the output channel in real time, and can visually check whether the light emitting diodes emit light, thereby directly confirming whether the PLC output module has failed.

PLC output module, output channel, diagnostic data, relay, light emitting diode

Description

PLC output module having everytime diagnostic ability of output channel}

1 is a view for explaining a first type of a conventional PLC output module.

2 is a view for explaining a second type of conventional PLC output module.

3 is a diagram illustrating a PLC output module according to a first embodiment of the present invention.

4 is a diagram illustrating a specific circuit diagram of the PLC output module of FIG. 3.

5 is a diagram illustrating a PLC output module according to a second embodiment of the present invention.

FIG. 6 is a diagram illustrating a specific circuit diagram of the PLC output module of FIG. 5.

The present invention relates to a PLC output module, and more particularly, to a PLC output module having a diagnostic capability for monitoring the output state of the output channel in real time.

Programmable Logic Controller (PLC) is essential for the automation of factory facilities in industrial sites. The PLC has a function to efficiently control the peripherals of the production line, for example, to connect the external loads such as overall control of the conveyor, proximity sensors, temperature sensors, solenoid valves and motors, and to move them in a constant sequence. Do this. In addition, PLC enables large scale factory automation or unmanned factory automation through communication such as robot, host computer and Ethernet.

In general, a PLC output module supplies an output voltage to an output channel when output data is provided from an internal circuit to power an external load. 1 is a diagram schematically illustrating a first type of a conventional PLC output module. Referring to this, the PLC output module 100 includes an internal circuit 111, a first photo coupler 112, a current limiter 113, and a diode 114 that are optically cut off, and output a plurality of output channels. Include. For example, the output voltage is supplied to an external load by a power signal output to one output channel 115 among the plurality of output channels. The first photo coupler 112 includes a photodiode PD that emits light by output data generated by the internal circuit 111 and a phototransistor PT that is turned on by the emitted photodiode PD. A predetermined output voltage is output to the output channel 115 connected to the external load 120 by the current flowing through the turned on photo transistor PT.

2 is a view for explaining a second type of conventional PLC output module. Referring to this, the PLC output module 200 includes a photodiode PD that emits light by output data generated in the internal circuit 211 and a phototransistor PT that is turned on by the emitted photodiode PD. Coupler 212 and relay 213. The current flowing to the turned on photo transistor PT flows through the coil 214 of the relay 213, thereby closing the switch 215. When the switch 215 is closed, an output voltage is generated to the output channel 216 connected to the external load 220 by the external power supply Vext.

In operation of the PLC output modules 100 and 200, an erroneous power signal is transmitted to the output channel 115 due to a short circuit or an open circuit caused by breakage of components inside the PLC output module. Problems such as malfunction of the PLC output module circuit may occur due to external noise. In order to solve these problems, there is a method of photo-coupler isolation of the analog signal operation block and the digital signal operation block of the PLC output module and additional filter circuit to block external noise.

In addition to these methods, it is possible to check whether the output module is in an output state by providing a diagnostic circuit unit that generates diagnostic data according to the output voltage to the output channel of the PLC output module. We need a way to do it.

An object of the present invention is to provide a PLC output module having a self-diagnostic ability to monitor the output state of the output channel in real time.

In order to achieve the above object, the PLC output module according to an aspect of the present invention comprises at least one output channel; A buffer unit configured to transfer output data generated by the computing device and to transmit the output data to the output unit in response to the output control signal; An output unit having a first photodiode that emits light in response to an output of the buffer unit and a first phototransistor that is turned on by the emitted photodiode, and generating an output voltage to an output channel by a current flowing through the first phototransistor; An output state of the PLC output module, having a second photodiode connected between the first photodiode and the output data and turned on by a current flowing through the first photodiode and a second phototransistor turned on by the emitted second photodiode An external display device having a first light emitting diode that emits light by a current flowing through the first phototransistor so as to visually confirm? And a third photo transistor connected to the first light emitting diode and turned on by a current flowing through the turned on second photo transistor, and a third photo transistor turned on by the emitted second photo diode, and turned on by the turned on third photo transistor. A diagnostic display device having a second light emitting diode that generates diagnostic data and emits light by the diagnostic data; And a comparing device and a control unit for generating an output control signal by comparing the output data with the diagnostic data in response to the comparison synchronization signal generated after a delay time according to the generation of the diagnostic signal, and notifying the arithmetic unit of whether an output channel is abnormal. .

In order to achieve the above object, the PLC output module according to another aspect of the present invention comprises at least one output channel; A buffer unit configured to transfer output data generated by the computing device to the output unit in response to the output control signal; A first photodiode that emits light in response to an output of the buffer portion and a first phototransistor that is turned on by the emitted photodiode, and shorts the first and second contacts of the switch by a current flowing through the first phototransistor that is turned on An output having a relay for generating an output voltage to the output channel by a current flowing through the shorted switch first contact; A second photodiode and a light emitting diode having a light emitting diode that emits light by a current flowing through a shorted switch second contact of the relay so as to visually check the output state of the PLC output module; A diagnostic display device having a second photo transistor turned on by two photodiodes and generating diagnostic data by the turned on second photo transistor; And a comparing device and a control unit for generating an output control signal by comparing the output data with the diagnostic data in response to the comparison synchronization signal generated after a delay time according to the generation of the diagnostic signal, and notifying the arithmetic unit of whether an output channel is abnormal. .

Therefore, according to the PLC output module of the present invention, whenever the output voltage outputted to the output channel is generated in response to the output data generated by the computing device, the output state is emitted by the light emitting diode every time and the diagnostic data is generated in real time. The output status of the PLC output module can be monitored. In addition, the output status monitoring of the PLC output module can visually check whether the light emitting diode is emitted from the outside, so that the PLC output module can be directly checked for failure.

DETAILED DESCRIPTION In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings that describe exemplary embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

3 is a diagram illustrating a PLC output module according to a first embodiment of the present invention. Referring to this, the PLC output module 300 includes a plurality of output channels (not shown, for example, one output channel 328), the light-blocking programmable device 310, the output unit 320. ), An external display device 330, and a diagnostic display device 340.

The programmable device 310 includes a buffer unit 312 which transmits output data generated by the computing device 350 to the output unit 320, and a comparison device and a controller 314 which compare the output data and the diagnostic data. .

The output unit 320 emits light while current flows to the first photodiode PD1 of the first photo coupler 322 in response to output data transmitted through the buffer unit 312. The first photo transistor PT1 is turned on by the emitted first photodiode PD1. The first photo transistor PT1 is composed of a FET device. As the first photo transistor PT1 is turned on, it is output to the output channel 328 by a current path leading to the first photodiode PT1, the current limiting unit 324, the diode 326, and the external load 360. Voltage is generated.

The external display device 330 emits light while a current flowing through the first photodiode PD1 flows in response to output data transmitted through the buffer unit 312 to the second photodiode PD2 of the second photocoupler 332. do. The second photo transistor PT2 is turned on by the emitted second photodiode PD2. The second photo transistor PT2 is composed of a bipolar transistor. As the second phototransistor PT2 is turned on, the third photodiode of the external power supply Vext, the resistor R, the second phototransistor PT2, the light emitting diode 334, and the third photocoupler 342. A current path is formed that leads to PD3. Accordingly, the light emitting diode 334 emits light so that the output state of the PLC output module 300 may be directly checked from the outside.

The third photodiode PD3 emits light by the current flowing through the third photodiode PD3 in the diagnostic display device 340, and the third phototransistor PT3 is turned on by the emitted third photodiode PD3. do. The third photo transistor PT3 is composed of a bipolar transistor. Diagnostic data generated by the current flowing in the turned on third photo transistor PT3 is transferred to the comparison device and the controller 314. The diagnostic display device 340 may include a light emitting diode (not shown) that emits light according to the generation of the diagnostic data so as to check whether the diagnostic data is generated from the outside.

The comparison device and the control unit 314 compare the output data with the diagnostic data, and if the data are different from each other, and outputs an output control signal to block transmission of the output data generated by the operation device 350 to the output unit 320. It outputs to the buffer part 312, and notifies the arithmetic unit 350 of the comparison result.

Meanwhile, the first photo-coupler 322, the second photo-coupler 332, and the third photo-coupler 342 may be light blocked.

4 is a diagram illustrating in detail a circuit diagram of the PLC output module 300 of FIG. 2. Referring to this, when the output data is generated at the logic low level, for example, in the operation device 350, the PLC output module 300 may output the R1 resistor, the first photodiode PD1, and the second photo from the internal power supply VCC. A current path is formed through the diode PD2 towards the output data. Assuming that the internal power supply VCC is 5V, for example, and the R1 resistance is 470Ω, the current flowing through the first photodiode PD1 and the second photodiode PD2 is as follows.

The first photodiode PD1 and the second photodiode PD2 emit light by a 10 mA current flowing through the first photodiode PD1 and the second photodiode PD2. The first photo transistor PT1 is turned on by the light-emitting first photodiode PD1 and connects the path from the first power supply Va to the RA1 resistor, the first phototransistor PT1, and the output channel 328. The output voltage appears at the external load 360 (FIG. 3) to which it is connected. The first power supply Va has a voltage level of about 24V.

The second photo transistor PT2 is turned on by the emitted second photodiode PD2. Accordingly, a current path is formed that leads to the first power source Va, the RA2 resistor, the second photo transistor PT2, the light emitting diode 334, the third photo diode PD3, and the ground voltage GND. The light emitting diode 334 emits light so that the output state of the output channel 328 of the PLC output module 300 can be directly seen from the outside. The third photodiode emits light to turn on the third phototransistor PT3. Diagnostic data is generated at a logic low level through the buffer 402 by the third photo transistor PT3 that is turned on.

The logic low level diagnostic data is compared with the logic low level output data in the comparison device and the controller 314 in the programmable device 310 (FIG. 3). Since the diagnostic data and the output data are the same, the output of the comparator is transmitted to the arithmetic unit 350 to notify the output channel that the output voltage has been generated without error.

On the other hand, diagnostic data is generated after a predetermined response delay time because of the noise filter circuit designed to remove high frequency noise. In other words, the diagnosis delay is caused by the Ta, Tb and Tc portions. Accordingly, it is preferable that the comparison device and the control unit 314 compare the output data and the diagnostic data in response to the comparison synchronization signal generated after Ta + Tb + Tc time.

5 is a diagram illustrating a PLC output module according to a second embodiment of the present invention. Referring to this, the PLC output module 500 includes a light-blocking programmable device 510, an output unit 520, and a diagnostic display device 530.

In the output unit 520, current flows to the first photodiode PD1 of the first photo coupler 522 by the output data transmitted through the buffer unit 512 to emit light. The first phototransistor PT1 is turned on by the emitted first photodiode PD1 so that the first power source Va, the diode D, the coil 525 of the relay 524, and the first phototransistor ( A current path leading to PT1) is formed. The current flowing through the relay 524 coil 525 closes one contact 526A of the switch. An output voltage is generated from the external power supply Vext to the output channel 526 connected to the external load 540 through one contact 526A of the closed switch.

The other contact 526B of the switch is closed by the current flowing from the diagnostic display device 530 to the coil 525 of the relay 524, which is controlled from the internal power supply VCC through the other contact 526B of the closed switch. A current flows through the second photodiode PD2 of the second photocoupler 532 to emit the second photodiode PD2. The second photo transistor PT2 is turned on by the emitted second photodiode PD2. Diagnostic data generated by the current flowing in the turned on second photo transistor PT2 is transferred to the comparison device and the controller 514 in the programmable device 510.

The comparison device and the control unit 514 compare the output data with the diagnostic data and transmit the result to the calculation device 550. The comparison device and the control unit 514 compare the output data with the diagnostic data, and if the data are different from each other, the comparison device and the control unit 514 may output an output control signal to block transmission of the output data generated by the operation device 550 to the output unit 520. It outputs to the buffer part 512, and notifies the arithmetic unit 550 of the comparison result.

Meanwhile, the first photo-coupler 522 and the second photo-coupler 532 may be light blocked.

FIG. 6 is a diagram for describing a circuit diagram of the PLC output module 500 of FIG. 5 in detail. Referring to this, when the output data is generated at a logic low level, for example, a current path is formed from the internal power supply VCC through the R1 resistor and the first photodiode PD1 toward the output data. The first phototransistor PT1 is turned on by the current flowing through the R1 resistor, for example, through the first photodiode PD1. As the first photo transistor PT1 is turned on, a current path from the first power source Va to the relay 524, the first photo transistor PT1, and the ground voltage GND is formed. The current-carrying relay 524 shorts the first and second contacts 526A, 526B of the switch. The output voltage is generated to the external load 540 (FIG. 5) through the first contact 526A of the switch closed from the second power supply Vb and the RA1 resistor. The second power supply Vb has a voltage level of about 5V.

Meanwhile, the second contact 526B of the switch closed from the first power supply Va, the RA2 resistor, the light emitting diode 602, the second photodiode PD2 of the second photo coupler 518, and the ground voltage GND. A current path is formed that leads to. The first power supply Va has a voltage level of about 24V. Accordingly, the light emitting diode 602 emits light so that the output state of the PLC output module 500 can be checked directly from the outside.

The light is emitted by a current flowing through the second photodiode PD2 to turn on the second phototransistor PT2. Diagnostic data is generated at a logic low level through the buffer 604 by the second photo transistor PT2 that is turned on.

The logic low level diagnostic data is compared with the logic low level output data in the comparison device and the controller 514 in the programmable device 510 (FIG. 5). Since the diagnostic data and the output data are the same, the output of the comparator is transmitted to the computing device 550 to inform the output channel that the output voltage has been generated without error.

On the other hand, diagnostic data is generated after a predetermined response delay time because of the noise filter circuit designed to remove high frequency noise. In other words, the diagnosis delay is caused by the Ta, Tb and Tc portions. Accordingly, it is preferable that the comparison device and the control unit 514 compare the diagnostic data with the output data in response to the comparison synchronization control signal generated in consideration of Ta + Tb + Tc time.

Therefore, according to the PLC output module of the present invention, whenever the output voltage output to the output channel is generated in response to the output data generated by the computing device, the output state is emitted by the light emitting diode every time and the diagnostic data is generated in real time. The output status of the PLC output module can be monitored. In addition, the output status monitoring of the PLC output module can visually check whether the light emitting diode is emitted from the outside, so that the PLC output module can be directly checked for failure.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Therefore, according to the PLC output module of the present invention described above, whenever the output voltage output to the output channel is generated in response to the output data generated by the computing device, the output state is emitted by the light emitting diode and the diagnostic data is generated each time. The output status of the PLC output module can be monitored in real time. In addition, the output status monitoring of the PLC output module can visually check whether the light emitting diode is emitted from the outside, so that the PLC output module can be directly checked for failure.

Claims (13)

At least one output channel; A buffer unit configured to transfer output data generated by a computing device, and to transmit the output data to an output unit in response to an output control signal; The output unit generating an output voltage to the output channel in response to an output of the buffer unit; An external display device connected to the output unit and having a first light emitting diode emitting light in response to an output of the buffer unit to visually check an output state of the PLC output module; And A diagnostic display device connected to the first light emitting diode and having a second light emitting diode which generates diagnostic data by a current flowing to the external display device and emits light by the diagnostic data; And And a comparing device and a control unit for generating the output control signal by comparing the output data with the diagnostic data. The method of claim 1, wherein the output unit A first photodiode that emits light in response to an output of the buffer unit and a first phototransistor that is turned on by the lighted photodiode, and generates an output voltage to the output channel by a current flowing through the turned on first phototransistor PLC output module, characterized in that. The display device of claim 1, wherein the external display device comprises: And a second photodiode that emits light by a current flowing through the output and a second phototransistor that is turned on by the lighted second photodiode, wherein the turned on the first light-emitting by the current flowing through the second phototransistor. PLC output module, characterized in that the diode is emitted. The apparatus of claim 1, wherein the diagnostic display device is A third photodiode connected to the first light emitting diode and having a third photodiode emitting light by a current flowing through the turned on second phototransistor, and a third phototransistor turned on by the emitted second photodiode; PLC output module, characterized in that for generating the diagnostic data by a transistor. The method of claim 1, wherein the comparison device and the control unit And the output data and the diagnostic data in response to a comparison synchronization signal generated after a delay time according to the generation of the diagnostic signal. The method of claim 1, wherein the comparison device and the control unit PLC output module for notifying the computing device whether the output channel is abnormal. At least one output channel; A buffer unit configured to transfer output data generated by a computing device, and to transmit the output data to an output unit in response to an output control signal; A first photodiode that emits light in response to an output of the buffer unit and a first phototransistor that is turned on by the lighted photodiode, and generates an output voltage to the output channel by a current flowing through the turned on first phototransistor The output unit to make; A second photodiode connected between the first photodiode and the output data, the second photodiode emitting light by a current flowing through the first photodiode, and a second phototransistor turned on by the emitted second photodiode; An external display device having a first light emitting diode that emits light by a current flowing through the first photo transistor to visually check an output state of a PLC output module; And A third photodiode connected to the first light emitting diode, the third photodiode emitting light by a current flowing through the turned on second phototransistor, and a third phototransistor turned on by the emitted second photodiode; A diagnostic display device having a second light emitting diode that generates diagnostic data by the photo transistor and emits light by the diagnostic data; And A comparison device comparing the output data with the diagnostic data to generate the output control signal in response to a comparison synchronization signal generated after a delay time according to the generation of the diagnostic signal, and notifying a computing device whether or not the output channel is abnormal; PLC output module comprising a control unit. At least one output channel; A buffer unit configured to transfer output data generated by the computing device to the output unit in response to the output control signal; An output unit including a relay, the output unit generating an output voltage to the output channel by a current flowing through a switch first contact of the relay shorted in response to an output of the buffer unit; An external display device having a first light emitting diode to emit light by a current flowing through a shorted switch second contact of the relay to visually confirm the output state of the PLC output module; A diagnostic display device connected to the first light emitting diode and having a second light emitting diode which generates diagnostic data by a current flowing through the first light emitting diode and emits light by the diagnostic data; And And a comparing device and a control unit for generating the output control signal by comparing the output data with the diagnostic data. The method of claim 8, wherein the output unit A first photodiode that emits light in response to an output of the buffer portion and a first phototransistor that is turned on by the lighted photodiode, and flows through the shorted switch first contact of the first phototransistor and the relay that is turned on PLC output module, characterized in that the output voltage is generated to the output channel by the current. The method of claim 8, wherein the diagnostic display device Having a second photodiode emitting light by a current flowing through the first light emitting diode and a second phototransistor turned on by the emitted second photodiode, and generating the diagnostic data by the turned on second phototransistor. PLC output module characterized by the above. The method of claim 8, wherein the comparison device and the control unit And the output data and the diagnostic data in response to a comparison synchronization signal generated after a delay time according to the generation of the diagnostic signal. The method of claim 8, wherein the comparison device and the control unit PLC output module for notifying the computing device whether the output channel is abnormal. At least one output channel; A buffer unit configured to transfer output data generated by the computing device and to the output unit in response to the output control signal; A first photodiode that emits light in response to an output of the buffer unit and a first phototransistor turned on by the lighted photodiode, and the first and second contacts of the switch by a current flowing through the first phototransistor turned on The output section having a relay for shorting the circuits and generating an output voltage to the output channel by a current flowing through the shorted switch first contact; An external display device having a first light emitting diode to emit light by a current flowing through a shorted switch second contact of the relay to visually confirm the output state of the PLC output module; A second photo transistor connected to the first light emitting diode and having a second photo diode that is turned on by a current flowing through the first light emitting diode and a second photo transistor that is turned on by the emitted second photo diode; A diagnostic display device for generating diagnostic data and having a second light emitting diode emitting light in response to the diagnostic data; And A comparison device in which the output control signal is generated by comparing the output data with the diagnostic data in response to a comparison synchronization signal generated after a delay time according to the generation of the diagnostic signal, and notifying the computing device whether the output channel is abnormal. And a controller.

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