JP2788408B2 - Communications system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system in which devices are connected to each other by a cable and signals are transmitted and received through the cable, and more particularly, a cable disconnection detecting function for determining whether a cable has been disconnected from the device. Related to a communication system.

[0002]

2. Description of the Related Art FIG. 10 is a block diagram showing a configuration of a conventional communication system. In the figure, reference numerals 1a and 1b denote devices for transmitting and receiving signals to and from each other via a cable, reference numeral 2 denotes the above-mentioned cable for connecting the devices 1a and 1b to each other, and reference numeral 3 denotes a device 1a or 1b. This is a connector for connecting the cable 2. Reference numeral 4 denotes a cable connection signal generation circuit that is disposed in one device 1a and generates a cable connection signal that defines a significance when the cable 2 is connected, and 5 is a cable connection signal generation circuit that is disposed in the other device 1b. Cable disconnection detection that detects whether the cable 2 is connected or disconnected by inputting a connection signal and forcibly dropping the cable connection signal to an unintended side when the cable connection signal is opened due to disconnection of the cable. Circuit.

Next, the operation will be described. The device 1a connected to the device 1b by the cable 2 outputs the cable connection signal generated by the built-in cable connection signal generation circuit 4 to the device 1b via the cable 2. Here, when the cable 2 is normally connected to the device 1a and the device 1b by the connectors 3 at both ends thereof, the cable connection signal is sent to the cable disconnection detection circuit 5 in the communication device 1b via the cable 2 as a significant signal. Is entered as On the other hand, if the connection between the device 1a or the device 1b and the cable 2 by the connector 3 is poor and a cable disconnection occurs, the cable connection signal generated by the cable connection signal generation circuit 4 in the device 1a determines the cable disconnection in the device 1b. Input is not normally performed to the circuit 5, and the input of the cable disconnection detection circuit 5 is in an open state, that is, an unintended state. Since the cable connection signal is in an insignificant state, the cable disconnection detection circuit 5 causes the cable 2 to
a or the device 1b is detected.

As a document describing a technique related to such a conventional communication system having a cable disconnection detecting function, there is Japanese Patent Application Laid-Open No. 61-214626, for example.

[0005]

Since the conventional communication system is configured as described above, the connector 3 is fitted in an inclined state, and the cable is disconnected at only one end. In this state, even though some of the pins of the connector 3 are not connected, the pins connecting the cable connection signal may be connected. In such a case, actually, Even if the cable is disconnected, the cable connection signal becomes significant in the cable signal determination circuit 5, so that there is a problem that the cable disconnection cannot be reliably detected.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a communication system capable of reliably detecting a disconnection of a cable regardless of a state in which a connector is disconnected. I do.

[0007]

According to the first aspect of the present invention, there is provided a communication system for transmitting a cable connection signal to a first device.
Place the raw circuit to generate the cable connection signal, and
The second and third devices receiving the cable connection signal
Wraps and outputs, and the first, second and third devices
The received cable connection signals are transmitted to the first, second and
Input to the cable disconnection detection circuit 3 to detect cable disconnection
Output and the input / output of the cable connection signal.
This is done by pins located at both ends of the connector.
You.

[0008] A communication system according to a second aspect of the present invention is characterized in that the first and second systems are connected by a cable.
Significant when cables are connected to each of the devices
Cable connection signal that generates the specified cable connection signal
Generating circuit and significant / insignificant of input cable connection signal
A cable disconnection detection circuit that detects cable disconnection
Connect the pins for input / output of this cable connection signal.
Cable at both ends of the
A pin which is input pin connection signal is output cable
And then connect the cable to the connector
Adjacent to the pins at both ends for inputting and outputting signals,
An empty pin that is not connected is provided.

In a communication system according to a third aspect of the present invention, a cable connection signal generation circuit is provided in the first device.
To generate a cable connection signal,
The second device that receives the signal wraps it and outputs it,
The first and second devices respectively receive the cable connection
Inputting a signal to the first and second cable disconnection detection circuits;
Cable disconnection, and
Connect the input / output of the connection signal to the pins located at both ends of the connector.
And then input the cable connection signal of the connector.
Adjacent to output pins, connected to other signals
An empty pin is provided.

Further, in the communication system according to the present invention, the cable connection signal of the connector is inputted.
Cable between the cable and the input terminal of the cable disconnection detection circuit.
Once the connection signal becomes insignificant, the cable disconnection detection circuit
Is in an insignificant state for more than a predetermined time for detecting cable disconnection
Is provided.

Further, in the communication system according to the fifth aspect of the present invention, the pin to which the cable connection signal of the connector is inputted.
Cable between the cable and the input terminal of the cable disconnection detection circuit.
Once the connection signal becomes insignificant, the first or second cable
Predetermined time during which the cable disconnection detection circuit can detect cable disconnection
A control circuit for maintaining the insignificant state is provided.
You.

Further, in the communication system according to the present invention, the pin to which the cable connection signal of the connector is inputted.
Cable between the cable and the input terminal of the cable disconnection detection circuit.
Cable disconnection and cable disconnection detection at recovery
Output circuit detects the unstable state of the cable connection signal.
Cable connection signal from significant to insignificant
Change point is changed from insignificant to significant by delaying the change point by a predetermined time
Change the point from significant to insignificant.
This is provided with a filter circuit for extending.

[0013] A communication system according to a seventh aspect of the present invention.
The stem is a pin to which the cable connection signal of the connector is input.
Terminals of the first and second cable disconnection detection circuits
Cable disconnection and their disconnection recovery between
The first and second cable disconnection detection circuits
To avoid detecting the unstable state of the cable connection signal.
The transition point of the cable connection signal from significant to insignificant for a predetermined time
Delay, and change the transition point from insignificant to significant from significant to insignificant
Filter that delays longer than the delay time of the transition point to
A circuit is provided.

[0014]

According to the first aspect of the present invention, the first, second, and third modes are provided.
And a third device transmits a cable connection signal that defines a significance when the cable is connected to the cable, the first, second, and third devices.
Are transmitted and received by using the pins at both ends of the connector connecting the third device, so that the connector is fitted in an inclined state and the cable is disconnected only at one end. even delicate state, Ru can be detected reliably cable out. Also, the first, second and third
Device detects cable disconnection between three devices
can do. Further, the first, second and third devices
First, second and third cables respectively provided in the
Of the first, second and third devices by the
Detecting cable disconnection in each device
it can.

Further, the first aspect of the invention according to claim 2 is as follows .
And the second device is significant when the cable is connected
The cable connection signal that defines
Use the pins at both ends of the connector connecting the second device.
The connector is tilted by transmitting and receiving
And the cable is disconnected at only one end.
Even if the cable is in a delicate condition.
Can be issued. Also, the cable connection signal
Make the pins adjacent to the pins at both ends empty
Causes short-circuit current when cable disconnection occurs
The preventing of, proof that the danger occurs, such as burning of cables
Stop.

Further, the folding according to the third aspect of the present invention.
The return means transmits the input cable connection signal to the second device.
By wrapping and outputting within the
Only one cable connection signal generation circuit is required. Also,
Adjacent to pins at both ends where cable connection signals are input / output
Cable may be disconnected
Prevents short-circuit current from flowing in the event of
Prevent any danger from occurring.

Further, the control circuit according to the fourth aspect of the present invention allows the cable disconnection signal to be detected for a short period of time by continuing the insignificant state of the cable connection signal for a predetermined time or more. I do.

The control according to the fifth aspect of the present invention.
The circuit relays the insignificant state of the cable connection signal for a predetermined time or more.
Cable is disconnected only for a short time
But make sure that disconnection of the cable can be detected.

[0019] Fi in the invention of claim 6
The filter circuit changes the signal of the cable connection from significant to insignificant.
The delay of the transition point from insignificant to significant is longer than the delay of the point
Cable disconnection can be quickly and quickly detected.
Detection of recovery from cable disconnection is sufficient for the system.
Wait for a while after the cable disconnection is securely connected.
So that

The filter according to the seventh aspect of the present invention.
The filter circuit changes the signal of the cable connection from significant to insignificant.
The delay of the transition point from insignificant to significant is longer than the delay of the point
Cable disconnection can be quickly and quickly detected.
Detection of recovery from cable disconnection is sufficient for the system.
Wait for a while after the cable disconnection is securely connected.
So that

[0021]

[Embodiment 1] Hereinafter, a first embodiment of the present invention will be described with reference to the drawings. FIG.
FIG. 1 is a block diagram showing a configuration of a communication system according to an embodiment of the present invention. In the figure, 1a and 1b are devices (the
1, a second device) , 2 is a cable, 3 is a connector, 4 is a cable connection signal generation circuit, and 5 is a cable disconnection detection circuit, which is the same or equivalent to the one denoted by the same reference numeral in FIG. Therefore, detailed description is omitted. In this embodiment, the cable connection signal generation circuit 4 is connected to both the device 1a and the device 1b connected by the cable 2.
And a cable disconnection detection circuit 5 for outputting a cable connection signal from a pin disposed at one end of the connector and inputting a cable connection signal from a pin disposed at the other end of the connector. In that the pin for outputting the cable connection signal and the pin for receiving the cable connection signal of the device 1a and the device 1b are mutually connected,
It is different from the conventional one.

Next, the operation will be described. When the cable 2 is normally connected, the cable connection signal output from the cable connection signal output circuit 4 of the device 1a is:
Via the connector 3 on the device 1a, the cable 2 and the connector 3 on the device 1b, the signal is input to the cable disconnection detection circuit 5 of the device 1b. Similarly, the cable connection signal output from the cable connection signal output circuit 4 of the device 1b is connected to the connector 3, the cable 2 and the device 1 on the device 1b side.
The signal is input to the cable disconnection detection circuit 5 of the device 1a via the connector 3 on the a side. The cable disconnection detection circuit 5 of both devices 1a and 1b determines that no cable disconnection has occurred since the input cable connection signal is significant, and performs an operation when the system is normal.

On the other hand, if the cable 2 is completely disconnected from the connector 3 and the cable 2 comes off,
Since the cable connection signals input to the device 1a and the device 1b become insignificant in the open state, the respective cable disconnection detection circuits 5 detect that the cable 2 is disconnected. Further, as shown in FIG.
a or in the device 1b, even if a cable in a delicate state such that only one end of the cable is disconnected,
The disconnection of the cable can be detected in either the device 1a or the device 1b. That is, since the cable connection signal is input / output via the pins arranged at both ends of the connector 3, even if the cable is in a delicate state where only one end is disconnected, one of the connectors No pin connection is performed at the end, and the cable connection signal transmitted via the pin is in an open state. In the example shown in the figure, the cable disconnection detection circuit 5 in the apparatus 1a detects the disconnection of the cable.

Embodiment 2 FIG. Next, a second embodiment of the present invention will be described with reference to the drawings. FIG.
FIG. 1 is a block diagram showing a configuration of a communication system according to an embodiment of the present invention. In the figure, 5a and 5b are cables
Disconnection detection circuit (first and second cable disconnection detection circuits),
Reference numeral 6 denotes a wrapping means for wrapping a cable connection signal input / output using pins arranged at both ends of the connector 3. The input cable connection signal is folded back to a pin arranged at the other end. In the device 1b, the cable disconnection detection circuit 5b is connected to the folding means 6, and the cable connection signal generation circuit 4b
Has been omitted.

Next, the operation will be described. Example 1 above
In the first embodiment, the cable connection signal is output from the cable connection signal generation circuit 4 in the device 1a and the device 1b. In the second embodiment, the cable connection signal from the device 1a is returned by the return means 6 in the device 1b. Thus, the cable connection signal generation circuit 4 of the device 1b is omitted. That is, the cable connection signal output from the cable connection signal generation circuit 4 in the device 1a is input to the device 1b via the connector 3, the cable 2, and the connector 3. In the apparatus 1b, similarly as in Example 1, to detect the cable out by significant / insignificant in that cable connection signal via a cable detachment detecting circuit 5 b. On the other hand, in the device 1b, unlike the first embodiment, the cable connection signal output to the device 1a is not output from the cable connection signal generation circuit 4 in the device 1b, and the cable connection signal from the device 1a is returned by the loopback unit 6. To the device 1a as it is. The device 1a transmits the cable connection signal folded back by the device 1b in this manner to the connector 3, the cable 2,
Input via connector 3 and cable disconnection detection circuit 5
At a, disconnection of the cable is detected by the significance / insignificance of the cable connection signal. In this case, since the cable connection signal is input / output using the pins arranged at both ends of the connector 3 as in the case of the first embodiment, it is a delicate state in which only one end is disconnected. Also, disconnection of the cable can be reliably detected.

As described above, by folding back the cable connection signal by the return means 6, the cable connection signal generation circuit 4 in the device 1b can be omitted, and the system can be constructed more easily.

Embodiment 3 FIG. Next, a third embodiment of the present invention will be described with reference to the drawings. FIG.
Is a block diagram showing a configuration of a communication system according to another embodiment of the present invention. The corresponding parts are denoted by the same reference numerals as in FIG. 2 and description thereof is omitted. In the figure, 1c is a device (third device) connected between the device 1a and the device 1b. 3a to 3c are connectors (first, second and third connectors).
5c is a cable disconnection detection circuit (third cable)
Le detachment detecting circuit), 6a, 6b are folded means (second to perform wrapping cable connection signal that is input and output using the pins arranged at both ends of the connector 3 c, a third folding of the
Returns a means), in the apparatus 1c, on the other hand the folded unit 6a, and outputs to the cable connection signal folded back device 1b which is input at pin disposed at one end of the connector 3 c from the device 1a , The other folding means 6b
Then, the cable connection signal that has been turned back and input by the device 1b is turned back and output to the pin arranged at the other end of the connector 3c . Note that, also in this device 1c, the cable connection signal generation circuit 4 is omitted, and the cable disconnection detection circuit 5 is connected to one return means 6a.

Next, the operation will be described. Example 2 above
In the above, two devices, ie, the device 1a and the device 1b, which transmit and receive signals via the cable 2, were used.
The present invention relates to a system having more than two devices, and here, a case of three devices 1a, 1b, and 1c is shown. Outputs cable connection signal devices 1a cable connection signal generating circuit 4 of the connector 3 a, is sent to the device 1c via the cable 2, the connector 3 c, is folded by folding means 6a, the connector 3 c, cable 2 sent to device 1b through the connector 3 b, is folded back by the return means 6, the connector 3 b, the cable 2,
Sent to the device 1c via the connector 3 c, is folded by folding means 6b, the connector 3 c, cable 2 is returned to the device 1a through the connector 3 a. If a cable disconnection occurs somewhere in this route, the subsequent cable connection signal becomes insignificant. Each device 1a, 1b, 1c in the cable detachment detecting circuit 5 a built this cable connection signal
To 5c to detect whether the cable disconnection has occurred due to its significance / insignificance.

As described above, by folding back the cable connection signal by the return means 6a, 6b, 6, etc., only one cable connection signal generating circuit 4 needs to be prepared for one system, and the system can be constructed more easily. It becomes possible.

Embodiment 4 FIG. Next, a fourth embodiment of the present invention will be described with reference to the drawings. FIG.
Is an explanatory view showing the connection status of the connector 3 according to one embodiment of the present invention. The corresponding parts are denoted by the same reference numerals as in FIG. 1 and the description thereof is omitted. In the figure, 3a is a plug provided on the device 1a side of the connector 3, 3b is a jack provided on the cable 2 side of the connector 3, and 7 is a signal line for transmitting various signals other than the cable connection signal. . Also,
Reference numeral 8a denotes a pin arranged at the extreme end of the plug 3a and the jack 3b and connected to the cable connection signal generation circuit 4 or the cable disconnection detection circuit 5 for inputting / outputting a cable connection signal. Are other pins to be connected. 8c is a pin arranged adjacent to the pin 8a at the end, and this pin 8c is an empty pin (NC pin) to which no signal is connected.

Next, the operation will be described. The jack 3a attached to the cable 2 side of the connector 3
If the plug 3a attached to the a side is inclined and comes off, the adjacent pins may be short-circuited as shown in FIG. At this time, if another signal is arranged on a pin next to the pin connected to the signal fixed to the power supply or the ground level, a large amount of current flows due to a short circuit between the pins, and the cable 2 may be burned out. There is. Here, the cable connection signal is generally a signal fixed to a power supply or a ground level. In addition, since the plug 3a is connected to the pins 8a disposed at both ends of the jack 3b in order to reliably detect the disconnection of the cable, the jack 3b is disconnected from the plug 3a at an angle as shown in the figure. Occurs, there is a high possibility that the cable 2 does not come out completely and remains short-circuited to the adjacent empty pin 8c. Therefore, like the plug 3a of the connector 3 in FIG.
It is effective to avoid the above danger if the empty pin 8c immediately adjacent to is set to an empty pin to which no signal is connected.

Embodiment 5 FIG. Next, a fifth embodiment of the present invention will be described with reference to the drawings. Here, even if the fifth embodiment such as cable goes out for a short time, reliably to be able to detect the cable out, the input terminal of the pin and the cable detachment detecting circuit connector cable connection signal is input And a control circuit for maintaining the state for a predetermined time or more when the cable connection signal becomes insignificant once. FIG. 5 is a block diagram showing a configuration example of the control circuit. In the figure, reference numeral 9 denotes the control circuit which keeps the inputted cable connection signal for a predetermined time or longer when the input cable connection signal becomes insignificant once. Are arranged between the input terminals. In the control circuit 9, reference numeral 10 denotes a pulse generation circuit which generates a pulse at an edge at which an input cable connection signal rises from significant to insignificant, and the width of the pulse is an optimum length for the system, that is, the system This is sufficient time for detecting cable disconnection. Numeral 11 denotes a logical sum circuit for calculating the logical sum of the output of the pulse generation circuit 10 and the input cable connection signal, generating a cable connection signal that continues an insignificant state for a predetermined time or more, and sending the signal to the cable disconnection detection circuit 5. is there.

Next, the operation will be described. Here, FIG.
5A is a time chart showing a signal change of each part of the control circuit 9. FIG. 5A is a cable connection signal input to the control circuit 9, FIG. 5B is an output signal of the pulse generation circuit 10, and FIG. (C) is a cable connection signal output from the control circuit 9. In the figure, L is the cable 2
Is a significant state of the cable connection signal when the connection is normal, and H is an insignificant state of the cable connection signal when the cable is disconnected.

Now, the cable connection signal input to the control circuit 9 becomes insignificant at time T1 due to the disconnection of the cable, and returns significantly at time T2 due to restoration of the disconnection of the cable, as shown on the left side of FIG. It is assumed that such a short pulse comes in. This pulse is generated by the pulse generation circuit 10
At its rising edge, the pulse generation circuit 10 changes its output signal from significant to insignificant and keeps its state until time T3. As a result, FIG.
A pulse having an optimum pulse width for the system as shown on the left side of (b) is generated and output to the OR circuit 11. The OR circuit 11 performs an OR operation on the pulse output from the pulse generation circuit 10 and the pulse of the cable connection signal input to the control circuit 9 shown on the left side of FIG. 6A, and obtains the result. From time T1 to time T
6 is output to the cable disconnection detection circuit 5 as a cable connection signal. Here, the pulse width of the pulse input as a cable connection signal to the cable disconnection detection circuit 5 is an optimal length for the system, that is, a time sufficient for detecting the cable disconnection. In the time until time T2, which is too short to detect a cable disconnection, even if the input cable connection signal returns significantly,
The cable connection signal input to the cable disconnection detection circuit 5 can be made insignificant until time T3, and the disconnection of the cable can be reliably detected.

Next, as shown on the right side of FIG. 6 (a), a long pulse exceeding the time required for detecting the disconnection of the cable, which becomes insignificant at time T4 and returns significantly at time T6, enters. Think about the case. Even in such a case, as shown on the right side of FIG. 6B, the pulse generation circuit 10 outputs a pulse having the same pulse width as in the case described above, which becomes insignificant from time T4 to time T5. However, the output of the pulse generation circuit 10 is sent to the OR circuit 11 together with the input cable connection signal and the two are ORed, so that the output of the pulse generation circuit 10 is output at time T5.
6, the cable connection signal output to the cable disconnection detection circuit 5 does not immediately return to a significant state.
As shown on the right side of (c), it is insignificant until time T6 when the disconnection of the cable is completely restored.

In the above embodiment, the control circuit 9 is constituted by the pulse generation circuit 10 and the OR circuit 11. However, this control circuit 9 may be replaced by another circuit having a logic having the same function. It may have a configuration.

Embodiment 6 FIG. Next, a sixth embodiment of the present invention will be described with reference to the drawings. Here, quickly this Example 6 cable out, since the cable out of the recovery so as to detect at a systematically sufficient time, pin connector that cable connection signal is input and a cable detachment detecting circuit And a filter circuit for delaying the delay time at the transition point from insignificant to significant of the cable connection signal longer than the delay time at the transition point from significant to insignificant. FIG. 7 is a block diagram showing a configuration example of the filter circuit. In the figure, reference numeral 12 delays a significant to insignificant rising edge of an input cable connection signal by a predetermined time which does not hinder rapid detection of a cable disconnection, and reduces a insignificant to significant falling edge to the rising edge. The filter circuit, which is longer than the delay time and delays by a time sufficient for stabilizing recovery from disconnection of the cable, is disposed between a pin of the connector 3 to which a cable connection signal is input and an input terminal of the disconnection detection circuit 5. Is done. In the filter circuit 12, 13a is the filter circuit 12
Is a delay circuit for delaying the cable connection signal inputted to the delay circuit 13a by a predetermined delay time, and 13b is a delay circuit for delaying the cable connection signal by a time longer than the delay time of the delay circuit 13a. Numeral 14 calculates the logical sum of the output of the delay circuit 13a and the output of the delay circuit 13b to generate a cable connection signal that rises without delay much later than the rise of the input cable connection signal and falls sufficiently later than the fall. , And outputs the result to the cable disconnection detection circuit 5.

Next, the operation will be described. Here, when a cable disconnection occurs, the cable connection signal input from the connector 3 may be dirty and unpredictable ringing unlike the signal when the cable is normally connected. If the disconnection or the connection state is determined as it is based on the significance / insignificance of such a signal, a single disconnection of the cable will repeatedly detect the disconnection and recovery operations of the cable a plurality of times. , The reliability of the system decreases. Therefore, it is necessary to remove the unnecessary ringing. However,
In terms of data reliability, disconnection of the cable must be detected quickly. On the other hand, when the disconnection of the generated cable is restored, if the cable connection signal is made significant too early, it is determined that the disconnection of the cable has been recovered even in an unstable state where the connector 3 is about to be connected. Since the communication via the cable 2 starts, the recovery from the disconnection of the cable must be determined after a sufficient time for the system. for that reason,
In the sixth embodiment, the cable connection signal shaped by the filter circuit 12 is input to the cable disconnection detection circuit 5.

Hereinafter, this will be described in detail with reference to FIG. Here, FIG. 8 is a time chart showing a signal change of each part of the filter circuit 12, and FIG. 8A shows a cable connection signal input to the filter circuit 12, and FIG.
Is an output signal of the delay circuit 13a, and FIG.
FIG. 3C shows an output signal of the filter circuit 12 and a cable connection signal output from the filter circuit 12. In the figure, L indicates a significant state of the cable connection signal when the cable 2 is normally connected, and H indicates an insignificant state of the cable connection signal when the cable is disconnected.

Now, the cable connection signal input to the filter circuit 12 becomes insignificant at time T7 due to the occurrence of the cable disconnection, and becomes time T1 due to the restoration of the cable disconnection.
It is assumed that a pulse as shown in FIG. This pulse is input to the delay circuit 13a and the delay circuit 13b, and a delay corresponding to the respective delay time is given. That is, the pulse input to the delay circuit 13a is delayed by a predetermined delay time, that is, a time that does not hinder the quick detection of disconnection of the cable, becomes insignificant at time T8, and returns significantly at time T10.
The pulse shown in (b) is input to the OR circuit 14. On the other hand, the pulse input to the delay circuit 13b has a longer delay time than that of the delay circuit 13a, that is, it is determined that the disconnection of the cable has been restored when the connector 3 is still in an unstable state. Is delayed for a time sufficient to prevent
The pulse returns to a significant state at 12 and becomes a pulse shown in FIG. Therefore, the OR circuit 1
4, the pulse output from the delay circuit 13 a and the delay circuit 13 b is ORed, becomes insignificant at time T 8, and returns significantly at time T 12. The pulse shown in FIG. Cable disconnection detection circuit 5
Is output to Thus, the disconnection of the cable can be quickly detected at the time T8, and the recovery of the disconnection of the cable is detected at a time T12 when a sufficient time has passed from the system after the connection of the cable 2, and the connector is disconnected. It is possible to prevent a situation in which the unstable state in which the cable 3 is about to be connected is determined to be a recovery from disconnection of the cable, and the communication via the cable 2 is started.

In the above embodiment, the filter circuit 12
Is configured by the delay circuit 13a, the delay circuit 13b, and the OR circuit 14, but the filter circuit 12 may have another circuit configuration as long as the logic has the same function. . Also, this filter circuit 1
Although the description has been made assuming that the output of No. 2 is directly input to the cable disconnection detection circuit 5 as a cable connection signal, the output may be input to the cable disconnection detection circuit 5 via the control circuit 9 described in the fifth embodiment.

Embodiment 7 FIG. Next, a seventh embodiment of the present invention will be described with reference to the drawings. FIG.
A block diagram showing the configuration of a communication system according to an embodiment of the inventions of Yoko, the corresponding parts will not be described with the same reference numerals as in FIG. 3. In the figure, reference numeral 15 denotes an attached device such as a terminating resistor of a data bus, which is mounted on the device 1b, and is connected in series between pins for inputting and outputting a cable connection signal of the connector 3.

Next, the operation will be described. In a communication system, when each of the devices 1a to 1c is connected by a data bus, an auxiliary device 15 such as a terminating resistor is often required at the end of the data bus. This accessory 1
5 is usually mounted on the device 1b connected to the end of the data bus as shown. If the communication system performs communication without mounting the accessory device 15 on the device 1b, a communication failure may occur. In the seventh embodiment, the accessory device 15 necessary for such a communication system is connected in series between pins of the connector 3 through which a cable connection signal is input and output. Therefore, if the accessory device 15 is not mounted, the cable connection signal is not looped back by the device 1b. Therefore, the cable is disconnected, and the system performs communication without the accessory device 15 and communication failure occurs. Can be prevented in advance.

[0044]

According to the first aspect of the present invention, the first,
In the second and third devices, the cables are connected
Cable connection signal, which is defined as significant when
First and second connecting first, second or third devices
Using the pins at both ends of the third connector.
Since it is configured to receive, the first, second and third
The connector is fitted in an inclined state, and only one end
Even in delicate conditions such as disconnecting
The disconnection of the cable can be detected. In addition, the first
With the second and third devices, the cable between the three devices is
Cable can be detected. In addition, the first and
The first, second and third units respectively provided in the second and third units .
And the third cable disconnection detection circuit,
Cable disconnection at each of the third and third devices
The effect of obtaining a communication system that can detect
is there.

Further, according to the invention described in claim 2, the
In the first and second devices , the cables are connected.
Cable connection signal, which is defined as significant when
Of both ends of the connector connecting the first or second device
Because they are configured to transmit and receive each other using pins,
The connector is fitted in an inclined state, and the cable is
Even in the delicate state where the bull has come off, surely
Cable disconnection can be detected. Also the cable
Pins adjacent to pins at both ends where connection signals are input / output
By using empty pins, if the cable is disconnected
Prevents short-circuit current from flowing, causing dangers such as cable burnout
Communication system that can prevent
Has the effect.

According to the third aspect of the present invention, the folding
The input cable connection signal to the second
Since it is configured to wrap and output in the same device,
Only one cable connection signal generation circuit in the stem is required
be able to. Also, cable connection signals are input and output
Make the pins adjacent to the pins at both ends empty pins.
To prevent short-circuit current from flowing when a cable is disconnected.
To prevent dangers such as cable burnout.
There is an effect that a communication system that can perform communication is obtained.

According to the fourth aspect of the present invention, the control
The circuit controls the cable connection signal
More than a predetermined time during which the disconnection detection circuit can detect disconnection of the cable
It is configured to continue, so the cable is only for a short time
Even if the cable comes off, the cable can be reliably detected.
There is an effect that a communication system that can be obtained is obtained.

According to the fifth aspect of the present invention, the control
The control circuit determines the insignificant state of the cable connection
And second cable disconnection detection circuit can detect cable disconnection
It is configured to continue for more than
Even if the cable comes off for a short time, make sure that the cable
The effect is that a communication system that can detect
You.

Further, according to the invention described in claim 6, off
Filter circuit changes signal connection from significant to insignificant
Of the change point from insignificant to significant than the change point
Cable is detected because the cable is longer.
Is fast and the detection of cable disconnection recovery
After a sufficient time, disconnect the cable securely.
Communication system that can be performed after
There is fruit.

According to the seventh aspect of the present invention, the
Filter circuit changes signal connection from significant to insignificant
Of the change point from insignificant to significant than the change point
Cable is detected because the cable is longer.
Is fast and the detection of cable disconnection recovery
After a sufficient time, disconnect the cable securely.
Communication system that can be performed after
There is fruit.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration of a communication system according to a first embodiment of the present invention.

FIG. 2 is a block diagram illustrating a configuration of a communication system according to a second embodiment of the present invention.

FIG. 3 is a block diagram illustrating a configuration of a communication system according to a third embodiment of the present invention.

FIG. 4 is an explanatory diagram illustrating a connection state of a connector of a communication system according to a fourth embodiment of the present invention.

FIG. 5 is a block diagram illustrating a configuration of a control circuit of a communication system according to a fifth embodiment of the present invention.

FIG. 6 is a time chart for explaining the operation of the embodiment.

FIG. 7 is a block diagram illustrating a configuration of a filter circuit of a communication system according to a sixth embodiment of the present invention.

FIG. 8 is a time chart for explaining the operation of the embodiment.

FIG. 9 is a block diagram illustrating a configuration of a communication system according to a seventh embodiment of the present invention.

FIG. 10 is a block diagram showing a configuration of a conventional communication system.

[Explanation of symbols]

1a device (first device), 1b device (second device)
Device, 1c device (third device), 2 cables, 3
Connector, 3a Connector (first connector), 3b
Connector (second connector), 3c connector (third connector)
4 ) Cable connection signal generation circuit, 5 Cable disconnection detection circuit, 5a Cable disconnection detection circuit (1st
5b cable disconnection detection circuit)
Road (second cable disconnection detection circuit), 5c cable outside
Detection circuit (third cable disconnection detection circuit), 6- fold
Return means (first return means), 6a return means
(Second folding means), 6b folding means (third
Folding means), 8a pin, 8c empty pin, 9 a control circuit, 12 a filter circuit, 15 accessory.

Claims (7)

(57) [Claims] 1. A method for transmitting and receiving signals to and from each other.
And a third device, between the first, second and third devices
A cable for transmitting a signal;
First, second and third connecting to second and third devices
A connector provided on the first device, wherein the cable
Cable connection signal that defines significant when the cable is connected
And disposed at one end of the first connector.
A cable connection signal generating circuit for outputting to the
1 device, and the first device is connected via the cable.
The cable from the pin located at the other end of the connector.
Input the connection signal and determine the significance / insignificance
A first cable disconnection detection circuit for detecting disconnection of the cable;
The third device is provided in the third device, and the third device is connected to the third device via the cable.
From the pin arranged at one end of the first connector.
Input the cable connection signal output from the device of,
A pin disposed near one end of the third connector;
A second fold that folds back the cable connection signal
Returning means, connected to the second folding means,
Cable disconnection based on significance / insignificance of cable connection signal
A third cable disconnection detection circuit for detecting
Provided in the device, via the cable with the third device.
To the input and output of the cable connection signal
Cable using pins located at both ends of the cable.
First return means for returning a connection signal;
The cable connection signal connected to the first folding means;
To detect cable disconnection based on significance / insignificance of
A cable disconnection detection circuit, provided in the third device,
The other end of the third connector via the cable
Before output from the second device through the pin located at
Input the cable connection signal, and
Through the cable from the pin located near the other end
Return the cable connection signal to the first device.
A communication system comprising: a third return unit for performing the return operation. 2. A first and a second apparatus for mutually transmitting and receiving signals.
And transmitting a signal between the first and second devices.
Cable, and connecting the cable to the first and second devices.
And a connector for connecting to the first and second devices.
Setting each vignetting, when the cable is connected
Generates a cable connection signal that defines significant, and
Cable output to a pin located at one end of the
Connection signal generation circuit and each of the first and second devices
And the other connector through the cable.
The cable connection signal from the pin located at one end
Input and judge the significance / insignificance to detect cable disconnection
A cable disconnection detection circuit for
Provided adjacent to pins at both ends for inputting and outputting cable connection signals
And a vacant pin not connected to other signals . 3. A first and a second apparatus for mutually transmitting and receiving signals.
And transmitting a signal between the first and second devices.
Cable, and connecting the cable to the first and second devices.
A connector for connecting to the first device;
A cable that defines significance when the cable is connected
Generates a connection signal and places it at one end of the connector.
Cable connection signal generation circuit that outputs to the
The connector is provided in the first device, and is connected to the cable via the cable.
The cable from the pin located at the other end of the connector
Input the connection signal, judge the significance / insignificance and cable
A first cable disconnection detection circuit for detecting disconnection,
And the cable through the cable
Are located at both ends of the connector for input and output of
Using the pin
Folding means for performing, and connected to the folding means,
Out of the cable based on the significance / insignificance of the cable connection signal
A second cable disconnection detection circuit for detecting disconnection,
Pins at both ends for inputting and outputting the cable connection signal of the connector
To an empty pin not connected to other signals.
And a communication system comprising: 4. A first and a second apparatus for mutually transmitting and receiving signals.
And transmitting a signal between the first and second devices.
Cable, and connecting the cable to the first and second devices.
And a connector for connecting to the first and second devices.
When each cable is connected and provided for each
Generates a cable connection signal that defines significant, and
Cable output to a pin located at one end of the
Connection signal generation circuit and each of the first and second devices
And the other connector through the cable.
The cable connection signal from the pin located at one end
Input and judge the significance / insignificance to detect cable disconnection
Cable out a detection circuitry, the cable of the connector to
Cable connection signal input pin and cable disconnection detection
Once between the input terminal of the circuit and the cable connection signal
If it becomes inadvertent, the cable disconnection detection circuit
System that maintains its involuntary state for a predetermined time or more
A communication system comprising a control circuit . 5. A first and a second apparatus for mutually transmitting and receiving signals.
And transmitting a signal between the first and second devices.
Cable, and connecting the cable to the first and second devices.
A connector for connecting to the first device;
A cable that defines significance when the cable is connected
Generates a connection signal and places it at one end of the connector.
Cable connection signal generation circuit that outputs to the
The connector is provided in the first device, and is connected to the cable via the cable.
The cable from the pin located at the other end of the connector
Input the connection signal, judge the significance / insignificance and cable
A first cable disconnection detection circuit for detecting disconnection,
And the cable through the cable
Are located at both ends of the connector for input and output of
Using the pin
Folding means for performing, and connected to the folding means,
Out of the cable based on the significance / insignificance of the cable connection signal
A second cable disconnection detection circuit for detecting disconnection,
Pin to which the cable connection signal is
Cable between the input terminal of the
Once the connection signal becomes insignificant, the first or second cable
At a predetermined time when the cable disconnection detection circuit can detect cable disconnection
A communication system comprising: a control circuit that maintains the insignificant state for at least a while . 6. A first and a second apparatus for mutually transmitting and receiving signals.
And transmitting a signal between the first and second devices.
Cable, and connecting the cable to the first and second devices.
And a connector for connecting to the first and second devices.
When each cable is connected and provided for each
Generates a cable connection signal that defines significant, and
Cable output to a pin located at one end of the
Connection signal generation circuit and each of the first and second devices
And the other connector through the cable.
The cable connection signal from the pin located at one end
Input and judge the significance / insignificance to detect cable disconnection
A cable disconnection detection circuit for
Pins and said cable outer Re detection Bull connection signal is inputted
Between the input terminal of the circuit and the cable
By the cable disconnection detection circuit at the time of cable disconnection recovery
Detection of unstable state of the cable connection signal can be avoided
So that the cable connection signal changes from significant to involuntary
The point is delayed for a predetermined time, and the transition point from insignificant to significant
Time delay longer than the delay time of the transition point from the significant to involuntary
A communication system comprising: 7. A first and a second apparatus for mutually transmitting and receiving signals.
And transmitting a signal between the first and second devices.
Cable, and connecting the cable to the first and second devices.
A connector for connecting to the first device;
A cable that defines significance when the cable is connected
Generates a connection signal and places it at one end of the connector.
Cable connection signal generation circuit that outputs to the
The connector is provided in the first device, and is connected to the cable via the cable.
The cable from the pin located at the other end of the connector
Input the connection signal, judge the significance / insignificance and cable
A first cable disconnection detection circuit for detecting disconnection,
And the cable through the cable
Are located at both ends of the connector for input and output of
Using the pin
Folding means for performing, and connected to the folding means,
Out of the cable based on the significance / insignificance of the cable connection signal
A second cable disconnection detection circuit for detecting disconnection,
The cable connection signal of the connector
Between the input terminals of the first and second cable disconnection detection circuits
At the time of disconnection of the cables and recovery of those cables
The first and second cable disconnection detection circuits
Detection of unstable state of these cable connection signals can be avoided
In this way, the cable connection signal changes from significant to insignificant.
The transition point from insignificant to significant is delayed by a predetermined time
Is longer than the delay time of the transition point from the significant to insignificant
A communication system comprising: a filter circuit for delaying .