JPS59191943A - Detecting system for cable unconnected state - Google Patents

Abstract

PURPOSE:To detect a connected or unconnected state of an interface signal cable only with a circuit that needed in a normal operation state, by making use of a crosstalk signal which is produced by reflection. CONSTITUTION:A control signal 4 is set at 0 by the control of a microprocessor to open a driver 3, and 0 is written to an FF6. Then 0 and 1 are written to a register 2, and a rise waveform is sent to an interface signal cable. When this signal cable 12 is not connected yet at the side of a device 9, the voltage of the receiver side is set at 0. This voltage exceeds the threshold level of a receiver 5 when a crosstalk signal is produced at the cable 12. Thus the FF6 is set, and therefore the unconnected state can be confirmed for interface signal cables 10-12 by checking the FF6.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Application of the Invention] The present invention relates to a cable disconnection detection method for detecting disconnection of a cable connecting devices.

[Background of the invention]

A conventional method for confirming the connection of an inter-device interface cable is to send a signal from one device and receive a response signal from the other device in response. This confirms that the interface cable between the devices is connected and that the other device is powered on.

In the prior art, two interface signals and a receiver-driver circuit are provided for checking the connection of the inter-device interface cable, resulting in an increase in hardware.

[Purpose of the invention]

An object of the present invention is to provide a method that can detect disconnection of interface cables between devices and within devices using interface signals and circuits necessary for normal operation without providing dedicated interface signals and circuits. .

[Summary of the invention]

In order to achieve the above object, the present invention provides an interface signal with a rising waveform. If the interface cable is not connected, the receiving end is open, and a receiving end waveform different from the sending end waveform is generated due to reflection.

The waveform generated by the reflection causes a crosstalk waveform in adjacent interface signals. If the circuit configuration is such that the flip-flop is set by this crosstalk signal, it is possible to know whether the interface signal cable is disconnected by checking whether the flip-flop is set.

[Embodiments of the invention]

An embodiment of the present invention will be described below with reference to FIG.

Device A8 is a device controlled by a microprocessor,
Interface signal 10°11.12 with device B9
Send and receive information via.

The device A8 has a self-diagnosis function and automatically performs self-diagnosis when the power is turned on and when the maintenance panel is operated. Self-diagnosis is performed by reading and writing all 1s or all 0s to the register 2 via the data bus 1 under microprocessor control. Self-diagnosis is also performed on the flip-flop 6 to confirm its normality.

Also, during self-diagnosis, the interface signal cable 10.1
Control signal 4 is always given "1" so that no signal is output to "1".

Next, a method for detecting connection or disconnection of the interface signal cable will be explained.

The control signal 4 is set to "0" under microprocessor control to keep the driver 6 open. Flip 70 knob 6 to O''
After inserting it, go to register 2.

0”, write “i” Interface signal cable 10
Sends a rising waveform. If the interface signal cable is not connected in device B9iljl, the following voltage value V
The crosstalk waveform of the interface signal cable 12
occurs in

υ=-γ(K-1)-4,'L μ α Here, CM: Two adjacent transmission lines C
Mutual force r=
4 μ”=bc “’Input signal diagram of signal line α: Signal rise time I! : physical length of track interface signal cable driver.

When there is no connection between register/<-, the potential on the receiver side is generally OV. If a crosstalk signal occurs in the interface signal cable 12 with a potential of 0■,
The voltage value of the crosstalk signal 20 exceeds the threshold level 21 of the receiver 5.

The crosstalk signal 20 is generated even during normal operation, but the generated crosstalk signal 20 never exceeds the threshold level 21 as shown in Figure 2. .

The crosstalk signal generated in the interface signal cable 12 exceeds the threshold level of the receiver 5,
Therefore, flip-flop 6 is set.

Therefore, after sending the sparrow waveform to the interface signal cable 1o, it is checked whether the flip-flop is set, and if it is set, it is found that the interface signal cables 10, 11, and 12 are not connected.

The circuit used in this example is also used in normal operation, and includes at least one interface signal cable, a circuit that sends out a rising waveform, a flip-flop that receives the signal, and a flip-flop that is set as a result. If there is an on/off discrimination circuit, no special hardware for the present invention is required.

〔Effect of the invention〕

According to the present invention, since it is possible to know whether an interface signal cable is connected or not by using the circuit required for normal operation as is, it is possible to simplify the device hardware.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of an embodiment of the present invention, and FIG. 2 is a diagram showing a state in which a crosstalk signal is generated. DESCRIPTION OF SYMBOLS 1...Data bus, 2...Register, 6...Driver, 4...Control signal, 5...Driver, 6...Flip-flop, 8...Device A1 9...Device B1 10.11,12...Interface signal cable.

Claims (1)

[Claims] The interface cable has a sending circuit that sends a signal to one side and a receiving circuit that receives a signal from the other side. Cable disconnection characterized in that the disconnection of the cable is detected by receiving the crosstalk signal and determining whether the voltage value of the crosstalk signal exceeds a threshold level of the receiver of the receiving circuit based on the output signal of the receiver. Detection method.