JPH04167726A - Equipment number setting method - Google Patents

Abstract

PURPOSE:To prevent setting mis-operation by connecting a cable to a communication equipment so as to set an equipment number automatically. CONSTITUTION:Communication equipments 1, 11, 21 are interconnected by a cable 100. When a specific terminal and ground form a closed circuit, decoding is implemented as an L input and when the specific terminal and ground form an open circuit, decoding is implemented as an H input, resulting that an output of a decoder is decided depending on the combination of a closed circuit and an open circuit. Since the combination is differentiated from each of the communication equipments 1, 11, 21, a different equipment number is provided to all the communication equipments 1, 11, 21. Thus, mis-operation of a switch is prevented.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a plurality of communication devices connected by cables, and particularly relates to a circuit suitable for forming a device number to distinguish the plurality of communication devices. .

[Conventional technology]

Conventional communication equipment connects multiple communication devices with cables, and the sender's device number is added to the transmitted data so that the sender can be distinguished, but the device number is an independent number in the communication system. There is a need. Conventionally, this device number was set using a switch. However, when settings are made using switches, there is a problem in that if an incorrect setting occurs, communication operations may not be performed properly.

[Problem to be solved by the invention]

The above-mentioned conventional technology does not take into consideration the possibility that erroneous settings may occur due to individual switch settings. For example, if the switches of two devices are set to the same setting, there is a problem that there are two devices with the same device number, and normal data communication cannot be performed.

The present invention aims to prevent erroneous operation of switches, and also aims to provide a device number setting method that realizes switchless operation.

[Means to solve the problem]

In order to achieve the above object, each communication device is provided with a device number recognition terminal, and the cable is further provided with a device number setting terminal. Part of the device number recognition terminal (first
The device number recognition terminal (device number recognition terminal) is connected to a decoder in the communication device and at the same time connected to the power supply via a resistor. The second device number recognition terminal is connected to ground 1 in the communication device.

On the other hand, the device number setting terminal is connected to either a closed circuit or an open circuit by a cable. A closed circuit connects the first device number recognition terminal and the second device number recognition terminal within the cable, and an open circuit connects the first device number recognition terminal and the second device number recognition terminal.
The device number recognition terminal and the second device number recognition terminal are not connected.

[Effect]

When a specific terminal and the ground form a closed circuit in a plurality of communication devices connected by a cable, it can be decoded as an L input, and when an open circuit is formed, it can be decoded as an H input.

The output of the decoder can be determined by the combination of closed and open circuits. This combination will necessarily be different for each communication device. This allows all communication devices to be given different device numbers.

〔Example〕

An embodiment of the present invention will be described below with reference to FIG. 1st
The figure is a connection diagram of a plurality of communication devices. Each communication device 1
. The pull amplifier resistor 16 side is connected to the cable internal closed circuit 11, but is not connected to the ground 13, so it becomes an H input. As a result, the decoder 12 receives the H signal and outputs a signal 15 representing device number 1.

On the other hand, the communication device 1 connects the input of the decoder 2 to pull-up resistors 4 and 6.
Since it is connected to terminals 3 and 7 respectively, it becomes an L input. As a result, the decoder 2 inputs the matching signal and outputs a signal 5 representing the device number O. In this way, different combinations of closed circuits and open circuits of the cable are used at the connecting portions of each communication device, thereby making it possible to give different device numbers to all communication devices.

FIG. 2 shows the configuration of a redundant computer which is another embodiment of the present invention. One computer has system buses 300, 310, basic processing units (BPU 320, 3
30), main memory (MS34.Q.

CM 350) and shared memory (CM 200, 210).

Two computers having the above configuration are arranged, and the shared memories of the two computers are connected by a cable 220.

Two of the signal lines of this cable are used for setting the device number.

FIG. 3 clearly shows only the device number setting part of the cable. In the common memory cart 200, a signal determination element 202 is connected to a pull-up resistor 203, which is connected to a connector-side specific terminal 205 through a connector 204, and a cable-side specific terminal 221 is connected to a cable-side specific terminal 222 within the cable 220. The cable side specific terminal 222 is connected to the connector side specific terminal 206 and connected to the ground 207. As a result, the L signal is input to the input of the signal determining element, and the output of the signal determining element is L. One common memory card 210
Inside, a signal determination element 212 is connected to a pull amplifier resistor 217, and is connected to a connector side specific terminal 215 and a cable side specific terminal 223 through a connector 214. Note that the cable side specific terminal 223 is not connected to the ground, and as a result, an H signal is input to the input of the signal determining element, and the output of the signal determining element becomes H.

With the above configuration, the device number of the common memory can be determined simply by connecting a cable to the device without using a setting means such as a switch.

This device number can be used to determine startup priority when power is restored.

According to this method, even if the cable is inserted in the opposite direction, the device number will simply be swapped between the two systems, and errors such as those caused by the same setting using a switch will not occur.

FIG. 4 clearly shows a device number setting circuit with a connector misuse prevention circuit. The input of the inverter 302 is connected to the pull-up resistor 300, and the cable internal closed circuit 305
It is connected to the ground 301 within the own device via.

When the connector is connected, the signal comes from the ground 301, so the L signal passes through the cable internal closed circuit 305 and is sent to the inverter 3.
Since the H signal is inverted at 02 and becomes H, the H signal is input to the OR gate 303, so the signal 5 from the decoder passes through the through latch as it is. When the connector is pulled out, the H signal from the pull-up resistor 300 is inverted by the inverter 302, so that an L signal is input to the OR gate 303. Therefore, the signal from the decoder is latched by the through latch.

Note that when the power is turned on, the power-on pulse signal remains H for a certain period of time and the input data latches, so the through latch output signal 306 does not become unstable even when the cable is not connected.

As described above, even if the connector is unplugged or accidentally pulled out, the device number is retained by the through latch, so that malfunctions due to uncertainty in the device number to the internal circuit can be prevented.

〔Effect of the invention〕

According to the present invention, since the device number can be automatically set by connecting a cable, there is an effect of preventing erroneous setting operations.

Furthermore, since no switch is required, there is an effect of reducing the number of parts.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a communication system that is an embodiment of the present invention, FIG. 2 is a block diagram of a redundant computer system that is another embodiment of the present invention, and FIG. 3 is a block diagram of a shared memory section in FIG. FIG. 4 is a diagram showing the device number setting section, and is a device number setting circuit diagram with a connector misuse prevention circuit.・ 1.11.21... Communication device, 2, 12.22... Decoder, 3, 7, 13, 17, 24.27... Ground, 4. ．． 6,14,16,24.26...Pull-up resistor, 5.15.24...Decoder output, 100...Cable, 101,102,112...Closed circuit),

Claims (1)

[Claims] 1. In a communication system consisting of a plurality of communication devices connected by cables, each nuclear communication device is specified by a device number different from the others, and the device number is identified by a device number setting terminal in the cable and recognition. A device number setting method in a communication system characterized by being able to be determined by a terminal. 2. A redundant computer system in which two processing devices are connected by cables, and two CPUs
A device number setting method in a redundant computer system, characterized in that a number for distinguishing when there is a conflict is given to a CPU by a device number setting terminal and a recognition terminal in the cable. 3. Connect the connector disconnection recognition terminal consisting of the resistor, power supply wiring, and receptacle side connector to the device number setting terminal consisting of the wiring and plug side connector, and multiple device numbers can be obtained by combining the wiring of the device number setting terminal. A device number setting method characterized by: 4. A connector disconnection recognition terminal consisting of a resistor, power supply wiring, and receptacle side connector is connected to a connector connection signal output terminal consisting of wiring and a plug side connector, and after the connector disconnection is recognized, the device number of 1 above is retained. How to set the device number with a circuit to prevent connectors from being accidentally pulled out.