JP4811487B2 - Operation terminal for remote monitoring and control system - Google Patents

Description

  The present invention relates to an operation terminal used in a remote monitoring control system.

  Conventionally, a remote monitoring control system that transmits a transmission signal including switch on / off information through a signal line and opens / closes a load by opening / closing a relay according to the transmission signal has been provided.

  As this type of remote monitoring and control system, an operation terminal having a switch and a control terminal having a relay for turning on / off a load are provided as a terminal device, and a transmission unit is provided as a center device. There is a centralized control type, and these transmission units, operation terminals and control terminals are connected to a two-wire signal line. The transmission unit can identify each terminal using a terminal address set individually for the operation terminal and the control terminal.

  In addition, the memory included in the transmission unit stores a data table in which operation terminals and control terminals are associated with each other by addresses, and switch on / off information of any operation terminal is transmitted by a transmission signal. Then, the transmission unit transmits an instruction to open / close the relay by a transmission signal to the control terminal associated with the operation terminal according to the data table. Then, in the control terminal that receives the operation instruction by the transmission signal, the relay is opened and closed according to the instruction content, and the power to the load is turned on / off.

  In addition, as an operation terminal used in the above-described remote monitoring and control system, a communication circuit that transmits a communication command with a plurality of loads as monitoring and control targets, a display panel that includes a liquid crystal display, and a display panel that is superimposed on the display panel And an operation input unit composed of a transparent touch switch that performs load control according to the operation input of the operation input unit associated with the display content of the display panel and screen display according to the load state are also proposed. (For example, refer to Patent Document 1).

  Since this operation terminal can be arbitrarily set with respect to the display content (screen display) of the display panel and the response (load control) corresponding to the operation of the operation input unit, various functions are provided to the operation input unit according to the set content. Can be given. In addition, since the display content of the display panel can be changed according to the function of the operation input unit, multi-function operation is possible in a limited space, and even when a large number of loads are operated, the operation terminal The space occupied by the vessel can be reduced.

JP-A-10-243478

  Since the operation terminal shown in the above-mentioned Patent Document 1 uses a display panel composed of a liquid crystal display, a larger internal power supply is required compared to the former operation terminal described above, which has a switch. In order to secure this internal power supply, it was necessary to use a remote control transformer. And since this remote control transformer will be incorporated in a housing such as a distribution board, the distribution board needs a space for arranging the remote control transformer, which causes the problem that the distribution board becomes large. there were. In addition, it is necessary to draw a power line for an input power source (AC 100 V) to the remote control transformer into the distribution board, which increases the number of construction steps.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide an operation terminal for a remote monitoring and control system that can reduce the size of the distribution board and reduce the number of construction steps. It is in.

The invention of claim 1 connects an operation terminal and a control terminal, each of which has an address, to a transmission unit via a two-wire signal line, and transmits and receives data using a time division multiplexed transmission signal, The transmission unit individually accesses the operation terminal and the control terminal by sending a transmission signal including address data to the signal line, and the operation terminal having a monitoring input during the signal return period set in synchronization with the transmission signal When the monitoring data is received from the device, the control data is generated based on the monitoring data, and the control data is transmitted to the control terminal in which the correspondence relationship between the operation terminal that generated the monitoring data and the address is set in advance. An operation terminal used in a remote monitoring and control system for displaying an operation button on a screen and receiving an operation input of the operation button And work input section, a transmission communication unit for transmitting a transmission signal including the monitoring data in accordance with an input, a first power supply circuit for generating an internal power supply from the transmission signal input via the signal line, the external power source Is connected to the connection terminal, the second power supply circuit unit that generates internal power from the power supplied through the connection terminal, and the first or second power supply circuit unit depending on the operation. Power supply switching means for switching the power supply.

  According to a second aspect of the present invention, the first power supply circuit unit includes a resistor drop circuit that steps down a DC power source generated from a transmission signal input via a signal line, and a DC power source stepped down by the resistor drop circuit at a predetermined voltage. The voltage level of the DC power source generated from the transmission circuit and the regulator circuit that converts the value into the DC power source is detected, and when the detected voltage level is smaller than a predetermined threshold, the impedance value of the drop resistor of the resistance drop circuit is Impedance switching means for switching to a lower impedance value than when the voltage level is equal to or higher than a predetermined threshold value.

  According to the first aspect of the present invention, when the current consumption in the other terminal connected to the same signal line is small, the internal power supply required for the operation terminal from the transmission signal input via the signal line In this case, there is no need for a remote control transformer for supplying power to the operation terminal unit. As a result, it is not necessary to secure a space for arranging the remote control transformer, and to the remote control transformer. Therefore, it is not necessary to draw in the power line, so that the distribution board can be miniaturized and the number of construction steps can be reduced. In addition, even if the current consumption in other terminals connected to the same signal line is large and the internal power source required for this operation terminal cannot be generated from the transmission signal input via the signal line, The power supply switching means can easily switch to power supply by a remote control transformer. In addition, when replacing an existing system with this operation terminal, for example, even if the power line for the remote control transformer is not drawn in, it can be easily replaced by switching the power supply from the transmission signal by the power switching means. There is an effect that can be performed.

  According to the invention of claim 2, in the first power supply circuit unit, the total heat loss can be reduced by balancing the heat loss in the drop resistor of the resistor drop circuit and the heat loss in the regulator circuit. When the resistance value of the drop resistor is set, for example, when the distance from the transmission unit to the operation terminal is long and the signal level of the transmission signal input to the operation terminal decreases due to the wiring resistance between them By switching the impedance value of the drop resistor to a relatively low impedance value, it is possible to suppress a decrease in the input current to the regulator circuit while similarly reducing the heat loss. There is an effect that a desired internal power supply can be secured.

It is a schematic block diagram of the principal part in the operating terminal of Embodiment 1. It is a schematic block diagram same as the above. It is an external appearance perspective view same as the above. It is a display example of the display panel used for the same as the above. (A) (b) is a connection example of the power supply to the same as the above. It is a circuit diagram of the principal part in the operation terminal of Embodiment 2. 1 is a system configuration diagram of a remote monitoring control system in which an operation terminal according to Embodiments 1 and 2 is used.

  Embodiments of an operation terminal according to the present invention will be described below with reference to the drawings. FIG. 7 is a system configuration diagram of a remote monitoring and control system using the operation terminal 1 according to the present invention. In this remote monitoring and control system, the two-wire signal line Ls connected to the transmission unit 100 is connected to the present invention. The operation terminal device 1, the other operation terminal device 110 including the changeover switch S <b> 1 for switching the operation state of the corresponding load L, and the control terminal device 120 are branched (multi-drop connection). The control terminal 120 controls the latching type remote control relay 130 for turning on / off the power supply from the commercial AC power supply AC to the load L. In addition, addresses are set in the operation terminals 1, 110 and the control terminal 120, respectively, and the transmission unit 100 identifies the operation terminals 1, 110 and the control terminal 120 using the addresses.

  In FIG. 7, reference numeral 140 denotes a remote control transformer that generates and supplies power for operation (AC 24V) of the remote control relay 130, the control terminal 120, and the operation terminal 1 from the commercial AC power supply AC. It is incorporated in a distribution board (not shown) together with the terminal 120 or the like. That is, the above distribution board requires a space for disposing the remote control transformer 140 and also needs to draw a power line for supplying the commercial AC power AC to the remote control transformer 140.

  In this remote monitoring and control system, for example, data is transmitted and received by a transmission signal composed of a time-division multiplexed signal of bipolar (± 24V), and address data changed cyclically from the transmission unit 100 is received. The included transmission signal is periodically sent to the signal line Ls. On the other hand, in the operation terminals 1, 110 and the control terminal 120, when the address data included in the transmission signal coincides with the address set to itself, the control terminal includes the control data included in the transmission signal and the signal of the transmission signal. In the return period, the monitoring data is returned as a current mode signal (a binary signal due to a current change represented by a state where the signal line Ls is opened and a state where a low impedance is inserted).

  Next, the operation of the remote monitoring control system will be briefly described. For example, when a monitoring input is generated by operating the changeover switch S1 in the operation terminal device 110, the operation terminal device 110 sends monitoring data corresponding to the monitoring input to the transmission unit 100. When the transmission unit 100 receives the monitoring data, the transmission unit 100 transmits a transmission signal including the address data and control data of the corresponding control terminal 120 to the signal line Ls. Then, when the address data included in the transmission signal matches the address set in the control terminal 120, the control terminal 120 takes in the control data included in the transmission signal and sends a load control signal to the corresponding remote control relay 130. Outputs and controls the load L. Since the above remote monitoring control system is a conventionally well-known technique, a detailed description is omitted here. Hereinafter, the operation terminal device 1 according to the present invention will be described.

(Embodiment 1)
As shown in FIG. 2, the operation terminal 1 of the present embodiment includes a display panel 2 in which a backlight is integrated with a liquid crystal display, and a transparent plate-like shape that is disposed on the screen (front surface) of the display panel 2. And an operation input unit 3 including a touch switch. The display panel 2 is of a matrix display type in which a large number of pixels are arranged in a matrix form vertically and horizontally, and graphics such as operation buttons are displayed on the screen depending on the combination of pixels. The operation input unit 3 is a resistive pressure-sensitive touch in which a large number of contact portions made of transparent electrodes are arranged on a transparent sheet-like member, and which part is touched when a finger touches the sheet-like member. It is a switch and constitutes a touch panel display together with the display panel 2.

  In addition, the operation terminal 1 includes a communication circuit (transmission communication unit) 11 that is connected to a signal line Ls connected to the transmission unit 100 and transmits and receives the above transmission signal. The communication circuit 11 is also connected to the main microcomputer 12, and when an operation signal from the operation input unit 3 is input to the main microcomputer 12, the main microcomputer 12 transmits a transmission signal including monitoring data corresponding to the operation signal. Is transmitted to the signal line Ls via the communication circuit 11. Here, the main microcomputer 12 operates according to the program and data written in the flash memory 13, and at least an address as the operation terminal device 1 is written in the flash memory 13.

  Further, the main microcomputer 12 outputs data indicating the display contents of the display panel 2 to the liquid crystal controller 15 through the latch circuit 14. The liquid crystal controller 15 displays predetermined contents at predetermined positions on the display panel 2 using data registered in advance in the DRAM 16. The main microcomputer 12 also has a function of causing the buzzer 19 to ring according to the operation of the operation input unit 3. The contrast of the display panel 2 and the brightness of the backlight are automatically adjusted by the main microcomputer 12 controlling the contrast adjusting unit 17 and the backlight inverter circuit 18.

  Here, the operation terminal 1 of the present embodiment includes a substantially rectangular parallelepiped-shaped vessel body 5 as shown in FIG. 3, and the rear side of the vessel body 5 is placed in the wall in the same manner as a well-known embedded wiring device. It is attached to the wall in the form of embedding in. The operation terminal 1 is detachably mounted on the front side of the main unit 6 with the main body unit 6 fixed to the wall so that the rear side is embedded in the wall and the front side protruding forward from the wall surface. The panel unit 7 can be separated. In addition, the internal circuit of the operation terminal 1 is divided and incorporated into a main unit 6 and a panel unit 7. In this embodiment, a power circuit 10 and a communication circuit 11 (which will be described later) that generate an internal power supply are connected to the main unit. The other circuit (including the above-described display panel 2, operation input unit 3, and main microcomputer 12) is incorporated on the panel unit 7 side.

  The main body unit 6 includes a main body case 60 including a main body 61 formed in a box shape having a rectangular opening on the front surface, and a main body cover 62 covered on the front surface of the main body body 61. The main body case 60 houses a circuit board (not shown) on which various electrical components are mounted. Further, the main unit 6 is provided with connection terminals T1, T1 to which a power supply line connected to the output end of the remote control transformer 140 is connected and connection terminals T2, T2 to which a signal line Ls is connected on the back side. (See FIGS. 5A and 5B).

  The panel unit 7 includes a panel case 70 including a panel body 71 formed in a thin box shape having a rectangular opening on the front surface, and a panel cover 72 covered on the front surface of the panel body 71. The panel case 70 houses a circuit board (not shown) on which various electrical components such as the main microcomputer 12 are mounted. In addition, a rectangular display window 74 is formed at a substantially central portion on the front surface of the panel case 70, and the display panel 2 and the operation input unit 3 are arranged in a form corresponding to the display window 74. Further, an operation unit 75 for operating a mechanical switch (not shown) and an LED window 76 for extracting light from the LED 77 (see FIG. 2) are provided below the display window 74 on the front surface of the panel case 70. Is provided. The LED 77 is always lit when the panel unit 7 is energized, and is for displaying the position of the operation terminal 1 to the user when the room is dark. The mechanical switch is for switching between valid / invalid of the operation of the operation input unit 3 in accordance with the push operation.

  Here, the operation terminal 1 of this embodiment suppresses the protrusion amount of the body 5 from the wall surface, and gives a sense of unity in appearance with the generally used embedded wiring apparatus, and is also suitable for mounting. In order to reduce the cost of the member to be used, it is attached to the wall using an embedded box (not shown) for an embedded wiring device installed in the wall.

  That is, the main body unit 6 is attached to the embedding box from the front through a construction hole provided in the wall surface, and the rear side of the main body case 60 described above is formed in a shape and size that can be stored in the embedding box. . And in this embodiment, the thing of the magnitude | size which can attach up to two attachment frames (not shown) for 1 station is used as an embedding box. Here, the single-frame mounting frame is a mounting frame for an embedded wiring device standardized by JIS (a mounting frame for a large-angle continuous wiring device). The dimension in which two pieces are connected is referred to as “double use”. That is, the main body unit 6 of the present embodiment is set to a size that can be attached to the double embedded box.

  More specifically, in the main body case 60, a pair of attachment pieces 63 extending in a direction away from each end face in the vertical direction are integrally formed, and each attachment piece 63 is attached to an embedding box. A plurality of box holes 64 (two in FIG. 3) through which mounting screws are inserted are provided. Further, a decorative plate (not shown) is attached to each attachment piece 63 so as to cover the attachment piece 63 around the front end portion of the container body 5 at a portion outside the box hole 64 in the vertical direction. Plate mounting holes 65 are provided for fixing the screws.

  By the way, in the operation terminal 1 of this embodiment, the load state (the operation state of the load L) acquired by the communication circuit 11 is displayed on the display panel 2 and associated with the display content displayed on the display panel 2. A transmission signal including monitoring data corresponding to the operation of the operation input unit 3 is sent to the signal line Ls. That is, the display panel 2 displays the current operating state of each load L to be monitored and controlled, and the user can control the load L by operating the operation input unit 3 according to the display content. Become.

  FIG. 4 is an example of a display screen displayed on the screen of the display panel 2. On the screen of the display panel 2, a plurality of operation buttons d1 to d8 corresponding to the load L that is a monitoring control target are displayed. The user can perform an input operation for load control by touching a position corresponding to each of the operation buttons d1 to d8 displayed on the display panel 2 in the operation input unit 3. For example, by touching the operation button d1 labeled “load A1”, the load A1 can be switched on / off. Each of the operation buttons d1 to d8 can display the load state of the corresponding load L. Here, when the load L is in an off state, the off mark Moff provided at the left end is lit in green, When L is on, the on mark Mon provided at the right end is lit red.

  Here, the operation terminal device 1 has a large number of loads L as targets for monitoring control. When operation buttons corresponding to all loads L are displayed on one screen of the display panel 2, the size of each operation button is reduced and the load is reduced. The status display may be difficult to see or operate. Therefore, in the present embodiment, the operation buttons corresponding to a large number of loads L can be displayed by relatively reducing the display amount of the operation buttons per screen of the display panel 2 and switching the display content of the screen. Yes. That is, the loads L to be monitored and controlled are classified into a plurality of load groups, and the load state is displayed for each load group in one screen of the display panel 2, and the tabs Ta to Tc displayed on the right end of the screen are displayed. The load group to be displayed can be switched by operation.

  Regarding load group classification, it is desirable to classify related loads into the same load group based on, for example, the room in which the load L is installed or the type of the load L. In this embodiment, the load A is classified into different load groups for each of the areas A, B, and C where the load L is installed, and the load A1 installed in the area A when the tab “Ta” of “area A” is selected. To A8 are displayed. Similarly, when the tabs Tb and Tc of “area B” and “area C” are selected, the load status of the load L installed in each area is displayed. It will be.

  Here, in the operation terminal 1 of the present embodiment, as shown in FIG. 1, as a power supply circuit 10 that generates an internal power supply, a power supply circuit that generates the internal power supply from a transmission signal input via a signal line Ls. (First power supply circuit unit) 10A and a power supply circuit (second power supply circuit unit) 10B that generates the internal power supply from the AC power supply (AC24V) supplied via the remote control transformer 140 are provided. Then, as shown in FIGS. 5A and 5B, either one of the power supply circuit 10A or the power supply circuit 10B is switched by a changeover switch (power supply switching means) 8 formed of a slide switch provided on the back side of the main unit 6. The power can be switched.

  For example, when the changeover switch 8 is slid upward as shown in FIG. 5A, the contact 8A is turned on in conjunction with the operation of the changeover switch 8, the contact 8B is turned off, and the power supply circuit 10A is turned on. Selected. On the other hand, when the changeover switch 8 is slid downward as shown in FIG. 5B, the contact 8A is turned off and the contact 8B is turned on in the same manner as the operation of the changeover switch 8, and the power supply circuit 10B is selected. The internal power generated by the selected power circuit 10A (or power circuit 10B) is supplied from the power output unit 10C to the main microcomputer 12, the liquid crystal module 4, and the like. In the present embodiment, the display panel 2, the operation input unit 3, the liquid crystal controller 15, the contrast adjustment unit 17, and the backlight inverter circuit 18 constitute the liquid crystal module 4.

  Here, when the internal power supply is generated by the power supply circuit 10A, the signal line Ls may be connected to the connection terminals T2 and T2 as shown in FIG. 5A, and the internal power supply is generated by the power supply circuit 10B. In this case, as shown in FIG. 5B, it is necessary to connect the signal line Ls to the connection terminals T2 and T2 and connect the power supply line from the remote control transformer 140 to the connection terminals T1 and T1.

  Thus, according to the present embodiment, when the current consumption in other terminals connected to the same signal line Ls (in this embodiment, the operation terminal 110, the control terminal 120, etc.) is small, Since the internal power source required for the operation terminal 1 can be generated from the transmission signal input via the line Ls, the remote control transformer 140 for supplying power to the operation terminal 1 is not necessary in this case. As a result, it is not necessary to secure a space for disposing the remote control transformer 140, and it is also unnecessary to draw a power line to the remote control transformer 140. Therefore, the distribution board can be reduced in size and the number of construction steps can be reduced. Can do. In addition, the current consumption in other terminals connected to the same signal line Ls is large, and an internal power source required for the operation terminal 1 cannot be generated from a transmission signal input via the signal line Ls. In addition, the changeover switch 8 can be easily switched to the power supply by the remote control transformer 140. Furthermore, when replacing the existing system with the operation terminal 1, for example, even if the power line for the remote control transformer 140 is not drawn in, it can be replaced by switching to the power supply from the transmission signal by the changeover switch 8. It can be done easily.

  In the present embodiment, the power supply circuits 10A and 10B are switched by the changeover switch 8 formed of a slide switch. However, the power supply switching means is not limited to the present embodiment. For example, the operation input unit 3 The power supply circuits 10 </ b> A and 10 </ b> B may be switched in accordance with an input operation to.

(Embodiment 2)
A second embodiment of the operation terminal 1 according to the present invention will be described with reference to FIG. The first embodiment is characterized in that the power supply circuit for generating the internal power supply can be switched to the power supply circuit 10A or the power supply circuit 10B. In contrast, the present embodiment has the above-described configuration and the power supply circuit. When 10A is selected, the feature is that the input current to the three-terminal regulator IC 2 described later can be adjusted according to the voltage level of the DC power source generated from the transmission signal input via the signal line Ls. is there. In addition, about another structure, it is the same as that of Embodiment 1, the same code | symbol is attached | subjected to the same component and description is abbreviate | omitted.

  The operation terminal 1 of the present embodiment includes a resistor drop circuit that steps down a DC power generated from a transmission signal input via a signal line Ls, and a DC power source that has been stepped down by the resistor drop circuit. A voltage level of a three-terminal regulator (regulator circuit) IC2 for converting to a power source and a DC power source generated from the transmission signal is detected, and when the detected voltage level is smaller than a predetermined threshold, a drop resistor of the resistance drop circuit The power supply circuit 10A mainly includes an impedance switching unit that switches the impedance value to a lower impedance value than when the voltage level is equal to or higher than a predetermined threshold value.

  The resistor drop circuit is connected in series to the first series circuit in which the resistors R3 to R5 are connected in series, the second series circuit in which the resistors R6 and R7 are connected in series, and the first series circuit. The zener diode ZD1 and the capacitor C1 connected in parallel to the zener diode ZD1 are configured, and the second series circuit is connected in parallel to the first series circuit via the transistor Q1. The Zener diode ZD1 has a function of overvoltage protection.

  The impedance switching means also detects the voltage level of the DC power generated by rectifying the transmission signal input via the signal line Ls by the rectifier DB1, and the detection result of the voltage detector IC1. The voltage detector IC1 of the present embodiment detects the divided voltage level at the connection point of the resistors R1 and R2 as the voltage level of the DC power supply. Yes. An ON signal for turning on the transistor Q2 is output when the divided voltage level is smaller than a predetermined threshold value, and no ON signal is output when the divided voltage level is equal to or higher than the predetermined threshold value.

  Thus, in this power supply circuit 10A, the transistors Q1 and Q2 remain off when the voltage detector IC1 determines that the voltage division level is equal to or higher than a predetermined threshold value. 1 series circuit (resistors R3 to R5), zener diode ZD1 and capacitor C1 constitute a resistor drop circuit, and the impedance value of the drop resistor is a combined impedance value of resistors R3 to R5. That is, in this case, the resistors R3 to R5 constitute a drop resistor.

  On the other hand, when the voltage detector IC1 determines that the voltage division level is lower than the predetermined threshold, the transistors Q1 and Q2 are turned on by the ON signal from the voltage detector IC1, and in this case, the first The parallel circuit of the series circuit and the second series circuit (parallel circuit of the resistors R3 to R5 and the resistors R6 and R7), the Zener diode ZD1 and the capacitor C1 constitute a resistor drop circuit, and the impedance value of the drop resistor described above Is the combined impedance value of the resistors R3 to R7. That is, in this case, the resistors R3 to R7 constitute a drop resistor. Here, since the first series circuit composed of the resistors R3 to R5 and the second series resistor composed of the resistors R6 and R7 are connected in parallel, the impedance value of the entire drop resistor is the value of only the first series circuit. It is relatively low compared to the case.

  Here, the input voltage to the three-terminal regulator IC2 that generates the internal power supply (the input voltage to the terminal IN in FIG. 6) is set lower than the input voltage to the power supply circuit 10A. In this embodiment, the voltage is reduced by the drop resistor described above. For example, the distance from the transmission unit 100 to the operation terminal 1 is long, and the signal level of the transmission signal input to the power supply circuit 10A is low. In this case, if the drop resistance is constant, the input current to the three-terminal regulator IC2 becomes small, so that a desired internal power supply may not be obtained.

  Therefore, in the present embodiment, as described above, the voltage detector IC1 detects the voltage division level, and when it is determined that the voltage division level is smaller than a predetermined threshold value, the impedance value of the drop resistor is determined. By switching to a relatively low impedance value, a decrease in the input current to the three-terminal regulator IC2 can be suppressed, and as a result, a desired internal power supply can be secured by the three-terminal regulator IC2.

  In this embodiment, the resistance values of the resistors R3 to R7 are set so that the total heat loss can be reduced by balancing the heat loss in the drop resistor and the heat loss in the three-terminal regulator IC2. Has been.

  Thus, according to the present embodiment, the power supply circuit 10A can reduce the total heat loss by balancing the heat loss in the drop resistor of the resistance drop circuit and the heat loss in the three-terminal regulator IC2. When the resistance value of the drop resistor is set, for example, when the distance from the transmission unit 100 to the operation terminal 1 is long, and the signal level of the transmission signal input to the operation terminal 1 is lowered due to the wiring resistance therebetween By switching the impedance value of the drop resistor to a relatively low impedance value, it is possible to suppress a decrease in input current to the three-terminal regulator IC2 while similarly reducing heat loss. 1 can secure a desired internal power source required for the power source.

  In the present embodiment, the first and second series circuits, the Zener diode ZD1, and the capacitor C1 form a resistance drop circuit. However, the configuration of the resistance drop circuit is not limited to this embodiment. Other configurations are possible as long as the impedance value can be lowered when the signal level of the transmission signal input to the power supply circuit 10A is low. In the present embodiment, the voltage detector IC1 and the transistors Q1 and Q2 constitute the impedance switching means, but the impedance switching means is not limited to the present embodiment. Further, the resistor drop circuit and the impedance switching means may be integrated.

DESCRIPTION OF SYMBOLS 1 Operation terminal 2 Display panel 3 Operation input part 8 Changeover switch (power supply switching means)
10A power supply circuit (first power supply circuit section)
10B power circuit (second power circuit section)
11 Communication circuit (Transmission communication unit)
100 Transmission unit 110 Operation terminal 120 Control terminal 140 Remote control transformer L Load Ls Signal line

Claims (2)

An operation terminal and a control terminal each set with an address are connected to a transmission unit via a two-wire signal line, and data is transmitted and received using a time division multiplexed transmission signal.
The transmission unit individually accesses the operation terminal and the control terminal by sending a transmission signal including address data to the signal line, and the operation terminal having a monitoring input during the signal return period set in synchronization with the transmission signal When the monitoring data is received from the device, the control data is generated based on the monitoring data, and the control data is transmitted to the control terminal in which the correspondence relationship between the operation terminal that generated the monitoring data and the address is set in advance. An operation terminal used in a remote monitoring control system,
A display panel for displaying operation buttons on the screen, an operation input unit for receiving an operation input of the operation buttons, a transmission communication unit for transmitting a transmission signal including monitoring data according to the operation input, and a signal line A first power supply circuit unit that generates an internal power supply from a transmission signal input in response, a connection terminal to which an external power supply is connected, and a second power supply that generates an internal power supply from the power supplied through the connection terminal An operation terminal for a remote monitoring control system, comprising: a circuit unit; and a power supply switching unit that switches power to either the first or second power supply circuit unit according to an operation.   The first power supply circuit unit includes a resistor drop circuit that steps down a DC power generated from a transmission signal input via the signal line, and a DC power source that has been stepped down by the resistor drop circuit becomes a DC power source having a predetermined voltage value. The voltage level of the DC power source generated from the regulator circuit to be converted and the transmission signal is detected, and when the detected voltage level is smaller than a predetermined threshold, the impedance value of the drop resistor of the resistance drop circuit is set to the voltage level. The operation terminal of the remote monitoring control system according to claim 1, further comprising: impedance switching means for switching to a lower impedance value than when the value is equal to or greater than a predetermined threshold value.

Images