JPH09261766A - Data transmission system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a data transmission system in which power is supplied to terminal equipments and data are sent between the terminal equipments. SOLUTION: A central processing unit 30 sends a dummy transmission signal in a voltage mode via a transmission line 4 at all times to terminal equipments 311 ,... and a diode bridge 10 and a constant voltage circuit 11 of the terminal equipment obtain an operating power supply for a signal processing section 12. When an input section of an input output device 2 of the terminal equipment 31 is operated, a transmission signal in the current mode is sent from the terminal equipment 31. In this case, the transmission signal in the current mode to be returned is made of a sender address, a destination address and transmission data. The central processing unit 30 detects the transmission signal in the current mode by a current sensing resistor R, the signal data are received by a CPU 51 via a control circuit 52 and the CPU 51 controls the control circuit 52 based on the received data to convert the data into a transmission signal in the voltage mode and it is sent to the transmission line 4.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transmission system capable of transmitting data between terminals.

[0002]

2. Description of the Related Art FIG. 6 shows a conventional remote supervisory control system for performing time division multiplex transmission using a voltage mode transmission signal and a current mode transmission signal. Basically, the input terminal 1 for monitoring the operating state of the operating switch S and the output terminal 3 for controlling the load are connected to the central processing unit 5 via a two-wire transmission line 4. This is a configuration, and a unique address is set to each of the terminals 1 and 3, and the central processing unit 5 individually recognizes the input terminal 1 and the output terminal 3 using this address.

The central processing unit 5 is connected to the transmission line 4 as shown in FIG.
A transmission signal V _S having a format as shown in (a) and (b) is transmitted. That is, the transmission signal Vs is a start pulse ST indicating the start of signal transmission, a mode data signal MD indicating the signal mode, an address data signal AD for transmitting an address for individually calling each of the terminals 1 and 3, and a load control. A control data signal CD for transmitting control data, a checksum data signal CS for detecting a transmission error, and a signal return period WT which is a time slot for receiving a return data signal from the input terminal 1 or the output terminal 3. Is a multi-pole (± 24 V) time division multiplex signal, and data is transmitted by pulse width modulation.

The operation of the central processing unit 5 will be described in detail with reference to FIG. 6. A voltage of 24 V DC from the power supply circuit 50 causes currents to flow in the series circuit of the complementary transistors Q ₁ and Q _{2 and} the series circuit of Q ₃ and Q _4. Each of the transmission lines 4 is connected to the center of each series circuit via the detection resistor R, and the CPU
The drive signal output from the control circuit 52 based on the data signal for transmission generated by the switch 51 causes the transistors Q ₁ and Q ₄ and the transistors Q ₂ and Q _{3 to} be alternately turned on and off. Accordingly, the data signal is converted into a bipolar voltage signal of ± 24 V and superposed on the transmission line 4 by this ON / OFF. EEPR
The OM 53 stores data such as interlocking relationships (patterns and groups) of the terminals.

In each of the input terminal 1 and the output terminal 3, when the address data transmitted by the transmission signal V _S received via the transmission line 4 matches the preset address, the transmission signal V _S The control data is fetched from the device and the return data is synchronized with the signal return period WT of the transmission signal Vs as a current mode signal (a signal sent by short-circuiting the transmission lines 4 via an appropriate low impedance). Send it back.

Here, the circuit operation of the terminal device, for example, the input terminal device 1 will be described in detail with reference to FIG. 6. The transmission signal Vs input through the transmission line 4 is rectified by the diode bridge 10, and the constant voltage circuit 11 is used. An operation power supply for the signal processing unit 12 including an LSI and a CPU is obtained, and the half-wave transmission signal Vs is received by the signal processing unit 12 as a reception signal. When the address data of the received transmission signal Vs and the address set by the address switch 13 match, the signal processing unit 12 takes in the control data of the transmission signal Vs and controls the light emitting diodes LEDa and LEDb for displaying the operation state based on the control data. Turn on, off, and signal return period WT
At, the state of the operation switch S is returned as monitoring data. The reply is the diode bridge 10 and the resistor R _0.
By turning on / off the transistor Q ₀ connected to the transmission line 4 via the
By sending it to.

The circuit structure of the output terminal device 3 is basically the same as that of the input terminal device 1, and a relay such as a latching relay is driven instead of the ON / OFF control of the light emitting diode. However, the load connected to the power supply via the relay contact is controlled. The current mode return signal is the current detection resistor R in the central processing unit 5.
The monitoring data included in the reply signal detected by the CPU is fetched by the CPU 51 through the control circuit 52.

By the way, the central processing unit 5 is provided with a dummy signal transmitting means and an interrupt signal processing means.
The dummy signal transmitting means always transmits a dummy transmission signal in which the mode data signal MD is set to the dummy mode. Further, the interrupt signal processing means, when receiving the interrupt signal Vi shown in FIG. 7 (c) generated in response to the operation of the operation switch S of any of the input terminals 1, generates the interrupt signal Vi for input. Search for the terminal 1 and input terminal 1
The address data set in is returned as reply data (operation data). That is, a dummy transmission signal is always sent to the transmission line 4 by the dummy signal transmission means, and the interrupt signal Vi generated from the input terminal 1 in accordance with the operation of the operation switch S is synchronized with the start pulse signal ST of the dummy transmission signal. Then, the central processing unit 5 sends the transmission signal Vs in which the mode data signal MD is in the address confirmation mode to the transmission line 4 by the interrupt processing means.
Each input terminal 1 sets an interrupt flag for requesting an interrupt when the interrupt signal Vi is generated. In the input terminal 1 in which the interrupt flag is set, the mode data signal MD is the transmission signal Vs in the address confirmation mode. When it receives, the address set in the input terminal 1 is returned as reply data [monitoring data (operation data of the operation switch S)] in synchronization with the signal reply period WT of the transmission signal Vs. In this way, the central processing unit 5 can acquire the address of the input terminal 1 that generated the interrupt signal Vi.

In the central processing unit 5, when the address of the input terminal device 1 which has generated the interrupt signal Vi is acquired, the output terminal device 3 connected to the load whose correspondence with the operation switch S is preset is connected. The control signal to be transmitted is generated and the transmission signal Vs including the control data is generated.
To the transmission line 4 to transmit the control data to the corresponding output terminal 3, and the output terminal 3 generates a load control output based on the control data to control the controlled load.
Further, the monitoring data indicating the load state is returned to the central processing unit 5 during the signal return period WT.

The central processing unit 5 creates control data for operation display based on the returned monitoring data and sends it to the corresponding input terminal 1 by the transmission signal Vs. In the input terminal device 1, the light emitting diode L attached to the corresponding operation switch S based on the control data of the transmission signal Vs.
The operating state of the corresponding load is displayed by turning on or off EDa or LEDb.

[0011]

The above-mentioned remote monitoring and control system has the advantage that it is not necessary to have an operating power source in the terminal, but it is 1: between the central processing unit 5 and each terminal 1, 3.
Since N data is transmitted, the CPU 51 of the central processing unit 5 needs to have most of the functions of the system, and there is a problem that add-ons such as addition of functions cannot be performed only by the terminal device. Further, there is a problem that it is difficult to perform arbitrary data transfer from one terminal device to another terminal device, and as a result, it is difficult to realize advanced functions by coordinating the terminal devices.

Further, since there is a limit to the addresses to be allocated in this type of system, a method of connecting a plurality of systems side by side and linking the two systems is taken, but conventionally, a unit that functions as a terminal unit from the viewpoint of the system. The transmission side of this unit handles it as an output terminal device and the transmission side handles it as an input terminal device for conversion and relay to a contact level signal. With such a method, it was possible to transmit a binary signal such as ON and OFF, but it is difficult to transfer analog value information and other data, and it is also possible to transfer data between a plurality of systems. It was almost impossible to treat the whole operation with the same feeling as one seamless system.

The present invention has been made in view of the above problems, and the invention of claim 1 provides a data transmission system capable of supplying power to a terminal and capable of transmitting data between the terminals. To provide. According to the invention of claim 2, in addition to the object of the invention of claim 1, there is provided a data transmission system capable of performing data transmission between terminals among a plurality of systems and being treated as a seamless system as a whole. It is in.

A third aspect of the present invention is, in addition to the object of the first and second aspects of the invention or the object of the third aspect of the invention, a data transmission system capable of discriminating which terminal device the transmission signal is from on the receiving side. To provide. In addition to the object of the inventions of claims 1 to 3, the invention of claim 4 provides a data transmission system capable of efficient data transfer.

[0015]

In order to achieve the above object, in the invention of claim 1, a plurality of terminals and a central processing unit are connected to a two-wire transmission line, and the central processing unit is a destination. And a transmission means for transmitting a transmission signal including an address specifying data and a data to be transmitted through a transmission line in a voltage mode, and a current mode transmission signal input through the transmission line is converted into a voltage mode transmission signal by the transmission means. Means for obtaining an operating power supply from a voltage mode transmission signal input via a transmission line, and a current mode transmission signal including a destination address and transmission data in a time division manner. Since it is possible to obtain the power supply of the terminal device by the voltage mode transmission signal, it is not necessary to individually provide an operating power supply to the terminal device, and data can be exchanged between the terminal devices. Next, the burden of the functions of the central processing unit is reduced, can be realized only by adding a terminal device having a new function without changing the central processing unit even when up the functions of the system.

According to a second aspect of the present invention, a plurality of terminals and a central processing unit are connected to a two-wire type transmission line, and the central processing unit receives a transmission signal including an address for specifying a destination and data to be transmitted. The terminal device is provided with a transmission means for sending out through the transmission line in the voltage mode, and a transfer means for converting the current mode transmission signal input through the transmission line into the voltage mode transmission signal by the sending means and sending out the voltage mode transmission signal. Means for obtaining an operating power supply from a voltage mode transmission signal inputted through a transmission line,
A plurality of data transmission systems having a means for sending out a current mode transmission signal including a destination address and transmission data in a time division manner are provided side by side, and a relay device is interposed between the transmission lines of these data transmission systems. Is provided with a signal relay means for sending out the transmission signal to the other transmission line when its own address is included in the voltage mode transmission signal input via the transmission line. The same operation as that of the first aspect of the invention is performed, and in addition, data transmission between terminals can be performed between system systems, and a plurality of systems can be treated as one seamless system.

In the invention of claim 3, claim 1 and claim 2
In the invention, since the transmission signal includes the addresses of the transmission source and the transmission destination, the receiving side knows the transmitting terminal device,
It becomes possible to make the cooperation between the terminals more effective.
According to the invention of claim 4, in the inventions of claims 1 to 3, since the transmission data included in the transmission signal is variable length data, the data transfer can be efficiently performed.

[0018]

Embodiments of the present invention will be described below with reference to the drawings. (Embodiment 1) FIG. 2 shows the entire configuration of an embodiment of the present invention, which is basically the same as the conventional remote monitoring and control system, and the central processing unit 30 is provided in the two-wire transmission line 4.
, And the terminals 31 ₁ ... Are connected.

As shown in FIG. 1A, the central processing unit 30 basically has the same structure as the central processing unit 5 shown in FIG. 6, and the terminal unit 31 is as shown in FIG. 1B. Basically, it has the same configuration as the terminal 1 of FIG. FIG. 1 (a)
The same elements in the circuit elements of (b) are given the same numbers as the circuit elements of FIG. However, in the terminal device 31 of FIG. 1B, the input / output device 2 is provided instead of the operation switch S and the light emitting diodes LEDa and LEDb, and the inner input part of the input / output device 2 is an operation switch or an external sensor or the like. It is an input means, the output part is a relay that controls the load,
It may be a light emitting diode for display, and will be referred to as an input terminal or an output terminal depending on the form of the input / output device 2.

Thus, the central processing unit 30 constantly transmits a dummy transmission signal in the voltage mode through the transmission line 4 as in the conventional example, and the terminal 31 ₁ ... Determines the diode bridge 10 from the dummy transmission signal. Signal processing unit 1 with voltage circuit 11
2. Obtain the operation power supply. Here, for example, when the terminal device 31 ₁ constitutes an input terminal device and the input portion of the input / output device 2 is operated, interrupt processing is performed in the same manner as in the conventional case, and then, in the signal return period, the current mode The transmission signal is returned from the terminal device 31 ₁ . The current mode transmission signal returned at this time includes a source address, a destination address and transmission data. Here the source address is the address of the terminal device, the destination address is a previously the terminal output terminal unit which is set to correspond to, for example, 31 _second address, the transmission data constitute control data .

The central processing unit 30 detects the current mode transmission signal by the current detecting resistor R, fetches the data into the CPU 51 through the control circuit 52, and the CPU 51
Controls the control circuit 52 on the basis of the fetched data to start signal ST and source address A as shown in FIG.
The voltage mode transmission signal Vs including the D1, the destination address AD2, the transmission data CD, and the signal reply period WT is sent to the transmission line 4.

That is, the central processing unit 30 converts the current mode transmission signal from the terminal 31 ₁ into a voltage mode transmission signal and transfers it. In the terminal 31 ₁ ... Connected to the transmission line 4, when the self-address set by the address switch 13 and the destination address AD2 included in the transmission signal Vs match, the transmission data CD is fetched and the transmission data CD is received. Input / output device 1 based on the contents of the CD
Control the load through 2. When it is necessary to send the return data within the signal return period WT, the return data is returned in the current mode during the signal return period WT. This return data is composed of the source address AD1, the destination address AD2, and the transmission data CD in which the data to be returned is written, as in the above, and the central processing unit 30 receiving this return data uses the same voltage as the above. The signal is converted into a mode transmission signal Vs and transferred and transmitted.

Here, the transmission source address AD1 and the transmission destination address AD2 each have a 12-bit structure, and the transmission data CD
Also, the returned data is variable length data, and in order to correspond to the variable length data, a mark indicating the end is added to each data, and a portion indicating the number of bytes is included. As described above, in the present embodiment, the current mode transmission signal transmitted from the terminal device 31 is converted into the voltage mode transmission signal Vs by the central processing unit 1 and transferred, whereby data can be exchanged between the terminal devices. In addition, by transmitting the dummy voltage mode transmission signal Vs from the central processing unit 1 in the normal state, the operating power supply of each terminal 31 can be secured. Also, by making the transmission data CD a variable length, efficient data transmission is realized.

(Embodiment 2) In this embodiment, a plurality of the data transmission systems shown in the above-mentioned Embodiment 1 are provided side by side, and the relays 20 ₁ ... Between the transmission lines 4 and 4 of each data transmission system as shown in FIG. It is possible to intervene. That is, in the present embodiment, the transmission signal Vs can include the address data of the repeater 20 _1, ..., For example, when the transmission data CD is sent from the terminal 31 ₁₁ , the destination terminal sends another data. If the transmission system is belonging 31 ₂₁ writes the address of the repeater 20 ₁ interposed between the data transmission system with the destination address. Therefore, when the repeater 20 _{1 that} has received the transmission signal Vs that has been converted into the voltage mode and has received the transmission signal Vs includes its own address, the transmission signal Vs is taken in and the transmission signal Vs is transmitted to the data transmission side. The transmission is transmitted to the transmission line 4 on the transmission side at the same timing as the system transmission. As shown in FIG. 5, the repeater 20 ₁ includes a transmission / reception unit 22 connected between the transmission lines 4 and 4 of both systems, a CPU 23, a memory 24, and a power supply unit 21. From the transmission signal Vs input through one of the transmission lines 4 connected to the power supply unit 21, the power supply unit 21 obtains an operating power source similarly to the terminal device 31, and the transmission / reception unit 22 transmits any of the transmission lines 4 and 4 connected. Signal V
s also has a relay function capable of transmitting the transmission signal Vs, and the COU23
Takes in the transmission signal Vs received by the transmission / reception unit 22, and once it judges that the address of the repeater 20 ₁ is included in the transmission signal Vs, the temporary transmission signal Vs is temporarily stored in the memory 24.
After storing the data of s, the data stored in the memory 24 is read at the transmission timing of the transmission signal Vs of the transmission side system and transmitted as the voltage mode transmission signal Vs.

In the terminal device 31 ₂₁ of the sending side system, the own address is included in the transmission signal Vs as the destination address data A.
Terminal 31 ₂₁ matching the D2 fetches the transmission data of the transmission signal Vs. Since the subsequent operation is the same as that of the first embodiment, the description is omitted. Of course when sending the response data to the transmission source, it is of course kept by also including the address of the repeater 20 ₁ interposed between systems.

When the transmission signal Vs is sent via two or more systems, it is necessary to include the addresses of all the repeaters 20 ₁ ... Which are interposed between the systems in the transmission signal Vs. is there. As described above, in the present embodiment, the transmission signal Vs is transmitted over a plurality of data transmission systems only by writing the address of the repeater 20 ₁ ... In the transmission signal Vs.
s can be sent, multiple data transmission systems can be handled as one system, and there is no limit on the number of terminals, and a system that integrates various control systems such as lighting control systems and air conditioning control systems It is possible to build.

[0027]

According to the first aspect of the present invention, a plurality of terminals and a central processing unit are connected to a two-wire type transmission line, and the central processing unit includes a transmission including an address for specifying a destination and data to be transmitted. The terminal is provided with a transmitting means for transmitting a signal in a voltage mode through a transmission line, and a transfer means for converting a current mode transmission signal input through the transmission line into a voltage mode transmission signal by the transmitting means and transmitting the terminal. A means for obtaining an operating power supply from a voltage mode transmission signal input through a transmission line,
Since it is provided with means for sending out the current mode transmission signal including the destination address and the transmission data in a time division manner, the power supply of the terminal can be obtained by the voltage mode transmission signal,
There is no need to provide an operating power supply for each terminal unit, and data can be exchanged between the terminals, reducing the load on the functions of the central processing unit and changing the central processing unit when improving the system functions. It is possible to realize this by simply adding a terminal device having a new function without doing so.

According to a second aspect of the present invention, a plurality of terminals and a central processing unit are connected to a two-wire type transmission line, and the central processing unit receives a transmission signal including an address for specifying a destination and data to be transmitted. The terminal device is provided with a transmission means for sending out through the transmission line in the voltage mode, and a transfer means for converting the current mode transmission signal input through the transmission line into the voltage mode transmission signal by the sending means and sending out the voltage mode transmission signal. Is a plurality of data transmission systems provided with means for obtaining an operating power supply from a voltage mode transmission signal input via a transmission line and means for time-divisionally transmitting a current mode transmission signal including a destination address and transmission data. When installed side by side, a repeater is interposed between the transmission lines of these data transmission systems, and if the repeater includes its own address in the voltage mode transmission signal input via the transmission line, the transmission signal is transmitted. Since the system has the signal relay means for sending out to the other transmission line, the same operation as the invention of claim 1 is performed in each system system, and in addition, the data transmission between the terminal devices between the system systems can be performed, and the plurality of system systems can be performed. Has the effect that it can be handled as a seamless system.

According to the invention of claim 3, in the inventions of claim 1 and claim 2, since the transmission signal includes the addresses of the transmission source and the transmission destination, the receiving side knows the transmitting terminal device, and the transmitting terminal devices can communicate with each other. There is an effect that it becomes possible to make the linkage of the item more effective. According to the invention of claim 4, in the inventions of claims 1 to 3, since the transmission data included in the transmission signal is variable length data, there is an effect that data transfer can be efficiently performed.

[Brief description of drawings]

FIG. 1A is a circuit configuration diagram of a central processing unit used in an embodiment of the present invention. (B) is a circuit block diagram of the above terminal device.

FIG. 2 is an overall system configuration diagram of the above.

FIG. 3 is an explanatory diagram of a format of a transmission signal Vs of the above.

FIG. 4 is an overall system configuration diagram of a second embodiment of the present invention.

FIG. 5 is a circuit configuration diagram of the above repeater.

FIG. 6 is a system configuration diagram of a conventional remote monitoring control system.

FIG. 7 is an explanatory diagram of a transmission signal of the above.

[Explanation of symbols]

2 input / output device 4 transmission line 10 diode bridge 11 constant voltage circuit 13 address switch 12 signal processing unit 30 central processing unit 31 terminal device 50 power supply unit 51 CPU 52 control circuit R current detection resistance R ₀ resistance Q _{0 to} Q ₄ transistor

Continuation of front page (51) Int.Cl. ⁶ Identification number Office reference number FI technical display location H04L 25/02 H04L 11/00 321

Claims (4)

[Claims] 1. A transmission line including a plurality of terminals and a central processing unit connected to a two-wire type transmission line, and the central processing unit transmits a transmission signal including an address for specifying a destination and data to be transmitted in a voltage mode. And a transfer means for converting the current mode transmission signal input through the transmission line into a voltage mode transmission signal by the transmission means and transmitting the voltage mode transmission signal, and the terminal device through the transmission line. A data transmission system comprising: means for obtaining an operating power supply from a voltage-mode transmission signal input as input; and means for time-divisionally transmitting a current-mode transmission signal including a destination address and transmission data. 2. A transmission line in which a plurality of terminals and a central processing unit are connected to a two-wire type transmission line, and a transmission signal including an address specifying a destination and data to be transmitted is transmitted to the central processing unit in a voltage mode. And a transfer means for converting the current mode transmission signal input through the transmission line into a voltage mode transmission signal by the transmission means and transmitting the voltage mode transmission signal, and the terminal device through the transmission line. A plurality of data transmission systems provided with a means for obtaining an operating power supply from a voltage mode transmission signal input by inputting and a means for sending out a current mode transmission signal including a destination address and transmission data in a time division manner. When a repeater is interposed between the transmission lines of the data transmission system and the repeater includes its own address in the voltage mode transmission signal input via the transmission line, the transmission signal is transmitted to the other transmission line. Send out Data transmission system comprising the signal relaying means that. 3. The data transmission system according to claim 1, wherein the transmission signal includes addresses of a transmission source and a transmission destination. 4. The data transmission system according to claim 1, wherein the transmission data included in the transmission signal is variable length data.