JPH1195883A - Communication control unit and interface cable - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make the communication control unit small-sized by providing a means for physical interface discrimination in an interface cable connected to the unit, judging the kind of the connected interface cable, and allowing the communication control unit to switch the operation of an internal circuit. SOLUTION: When the line-1 interface cable 102 is connected to the communication control unit 101, the contents of a line-1 interface cable discrimination part 103 are discriminated by a line-1 interface switching signal generation part 104, which generates a switching signal for the line interface. A line-1 interface switching control part 105 and a control circuit 106 having received the switching signal from the line-1 interface switching signal generation part 104 switches the interface to the signal corresponding to the switching signal. Thus, the interface in the communication control unit 101 is switched according to the discrimination information in a connection-destination cable and alterations by line interfaces are unnecessary.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication control device and an interface cable having a plurality of physical interfaces, distinguishing the type of an interface cable connected to the communication control device, and switching the internal operation state. Related to.

[0002]

2. Description of the Related Art As a conventional technique, for example, Japanese Unexamined Patent Publication No.
No. 6812 can be mentioned. This prior art apparatus includes a power supply detecting unit that receives one of a pair of connectors on a circuit board and the other connector on a circuit board other than the circuit board, and detects whether or not the power is on. Signal line switching means for switching a signal from the connector according to the signal of the above, a reference signal generating circuit for generating a signal unique to the device, a connection detecting means for taking out the reference signal from the other connector and comparing whether or not it is a partner to be connected When the power is turned on, the signal line switching means switches to the signal line from the logic circuit. When the power is not turned on, power is supplied from another power holding means, and the reference signal generating circuit Switch, and extract the reference signal from the other connector, compare it with the other party to be connected, and alarm if the other party is not correct. It is that is generated.

[0003]

In the above-described conventional method, first, not only the target device on the local side but also the device on the other side as the connection destination are used as a reference used in the connection diagnosis. A reference signal generation circuit for generating a signal is required. However, when considering the addition of a communication control device to an existing system, it is almost impossible to change the device at the other end of the connection. When a plurality of physical interfaces are simultaneously supported in one device, it is necessary to prepare a connector for each physical interface. When a communication control device has a large number of lines such as 8 lines or 16 lines, the number of connectors must be equal to the number of lines x the number of physical interfaces to be supported. Causes the problem of increase in

[0004]

According to the communication control device and the interface cable of the present invention, a means for identifying a physical interface is provided in the interface cable connected to the device, and the type of the interface cable to be connected is determined. By switching the operation of the internal circuit by the communication control device, it is possible to diagnose an erroneous connection without changing the partner device to be connected. In addition to checking the rationality of the connected device, it is also possible to share the connector between multiple physical interfaces by automatically switching the interface to match the connected physical interface. The size of the communication control device can be reduced.

[0005]

FIG. 1 shows a communication control device and an interface cable according to the present invention.

[0006] The communication control device 101 includes a line 1 control circuit 1
09 to the line N control circuit 119, an internal control circuit 106, a line 1 interface switching control unit 105
~ Line N interface switching control unit 115, line 1
Interface switching signal generator 104 to line N interface switching signal generator 114, line 1 interface 1 driver 108 ... line 1 interface N
Driver 107 to line N interface 1 driver 118 line N interface N driver 117
The line 1 interface cable connection unit 109 to the line N interface cable connection unit 119, and the line 1 interface cable 102 includes a line 1 interface cable identification unit 103 and a line 1 interface communication control device connection unit 110.

When the line 1 interface cable 102 is connected to the communication control device 101, the line 1 interface cable identification unit 103 identifies the content of the line 1 interface cable identification unit 103 and generates a line interface switching signal. The line 1 interface switching control unit 105 and the control circuit 106 that have received the switching signal from the line 1 interface switching signal generation unit 104 switch the interface to a signal corresponding to the switching signal. In this manner, by switching the interface inside the communication control device from the identification information inside the connection destination cable, the line 1 interface cable connection section does not need to be changed for each line interface, and is connected via the interface cable. It is not necessary to change the internal circuit in the destination connection device.

FIGS. 2A, 2B and 2C show an embodiment of an interface cable identifying means for identifying an interface cable according to the present invention. As an embodiment, there will be described an interface cable having an unbalanced electrical interface and a means for identifying a balanced interface cable. In FIG. 2, the interface cable 201 includes a cable-side connector 202, unused bits 203, 204, 205, 206 in the cable, and a wiring 20 in the cable.
7, 208, and 2 for the balanced interface cable 240 for the internal wiring of the cable connector.
Only the wiring on the 07 side is performed, and the wiring on 208 is not performed.

On the other hand, the unbalanced interface cable 2
For 50, only the wiring on the 208 side is performed, and the wiring for 207 is not performed. Reference numeral 210 denotes a communication control device. The communication control device includes a device-side connector 211 and internal wirings 223 and 2 of the board.
24, 225, 226, pull-up resistors 217, 218
Consists of Inside the device-side connector 211, pins 203 to 206 of the interface cable are respectively connected to the receiving pin 213 (connected to 203) and the receiving pin 2
14 (connected to 204), receptacle pin 215 (connected to 205), and receptacle pin 216 (connected to 206). In the wiring in the substrate, the signal line 225 from the receptacle pin 215 and the signal line 226 from the receptacle pin 216 are wired to the ground, and the signal line 224 from the receptacle pin 214
Is subjected to a pull-up process and outputs a signal A of 230. The signal line from the receptacle pin 213 is pulled up and 231
Is output. In the internal logic circuit, signal A and signal B
A register that reflects the 2-bit signal value is provided.

When the balanced interface cable 240 is connected, the signal line A is HIGH because the pull-up process is performed, and the signal line B is connected LOW because the signal line B is connected to the ground through the interface cable connector internal wiring 207. Output. When the unbalanced interface cable is connected, the signal line A outputs LOW because the signal line A is connected to the ground through the interface cable connector internal wiring 208. Since the signal line B has been subjected to the pull-up processing, it becomes HIGH. In the case where the interface cable is not connected, both the signal A and the signal B are set to H level by a pull-up resistor.
Outputs IGH. When the control software for controlling the circuit reads the value of this register and determines the two bits of signal A and signal B, the cable connection state of the device is when the balanced interface cable is connected or when the unbalanced interface cable is connected. , Can be identified from among three states when the cable is not connected.

By this means, the control software for monitoring the line side periodically checks the rationality with the interface setting information set in advance by the host application program and the connection information from the register, so that the interface cable can be controlled. Erroneous connection, or a state where the connection of the interface cable is unexpectedly disconnected can be detected.

FIG. 3 is a diagram showing one embodiment of the termination control switching means for switching the termination processing between valid and invalid when switching between the unbalanced interface and the balanced interface in the communication control apparatus according to the present invention.

In a balanced interface, a signal is reflected between the signal lines due to the impedance mismatch of the signal lines and the like, and a terminating resistor is provided between the "going" and "return" signal lines in order to prevent data from being transmitted accurately. Need to be installed. However, when sharing the signal line between the balanced interface and the unbalanced interface,
When switching to the unbalanced interface, normal data transmission cannot be performed if resistors are inserted in parallel between the signal lines. Therefore, when sharing a signal line between the balanced interface and the unbalanced interface is considered, it is necessary to remove the terminating resistor inserted in the balanced interface in the unbalanced interface.

Referring to FIG. 3, the switching means for the termination processing will be described. Reference numeral 310 denotes a balanced interface termination processing switching unit, 311 denotes a termination resistance of a signal in the balanced interface, 312 denotes an unbalanced driver, and 313 denotes a balanced driver. When connecting an unbalanced interface cable, unused pins 316, 3
17 are the communication control device side receiving pins 314 and 31 respectively.
5, the terminating resistor 311 can be inserted. 31 for unbalanced interface cables
By eliminating the wiring for switching the termination processing of 0, the termination processing can be invalidated.

[0015]

By using the communication control device and the interface cable of the present invention, the type of the interface cable to be connected can be determined, and the communication control device can switch the operation of the internal circuit.

Further, by automatically switching the interface so as to match the connected physical interface, the connector can be shared among a plurality of physical interfaces, and the communication control device can be downsized. Can be. In addition, diagnosis of erroneous connection of the interface cable can be performed without changing the partner device to be connected.

[Brief description of the drawings]

FIG. 1 is a diagram showing internal functional blocks of a communication control device and an interface cable according to the present invention.

FIG. 2 is a circuit diagram showing one embodiment of an interface cable identification unit according to the present invention.

FIG. 3 is a circuit diagram showing an embodiment of a switching unit for switching between a balanced interface and an unbalanced interface in the present invention.

[Explanation of symbols]

101: communication control device, 102: line 1 interface cable, 103: line 1 interface cable identification unit, 104: line 1 interface switching signal generation unit.

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Hideaki Mashiko 5-2-1, Omika-cho, Hitachi City, Ibaraki Prefecture Inside the Omika Plant, Hitachi, Ltd. (72) Inventor Naoo Ogawa 5-chome, Omika-cho, Hitachi City, Ibaraki Prefecture No. 1 Inside the Hitachi, Ltd. Omika Plant (72) Inventor Kazuo Kono 5-2-1 Omika-cho, Hitachi City, Ibaraki Pref.

Claims (4)

[Claims] 1. A communication control device having a plurality of physical interfaces and an interface cable connected to the communication control device, wherein the communication control device includes an interface cable connection portion to which the interface cable is connected, and an interface for switching the plurality of interfaces. A switching control unit, an interface driver unit for controlling the driving of signals of each interface, and an interface cable connected to the device, the type of the communication control unit connection unit and the type of the interface cable to which the communication control unit is connected. Having an identification means for identifying, the communication control device side identifies the type of the interface cable from the cable identification means in the interface cable, so as to match the type of the interface cable to be connected,
A communication control device and an interface cable for switching an interface. 2. In the interface cable, when unused pins are wired to each other at a communication control device connection portion, and the interface cable is connected to the communication control device,
Means for identifying a plurality of bits of information on a signal line connected to a reference voltage inside the board via a loop inside the cable, means for identifying the type of interface cable, or means for identifying a cable unconnected state The communication control device and the interface cable according to claim 1, wherein 3. The communication control device and an interface cable connected to the communication control device, wherein the communication control device has termination processing switching means for enabling / disabling termination processing in the communication control device. By being connected to the cable connection section, when a balanced interface cable is connected, the termination processing of the communication control device is enabled, and when an unbalanced interface cable is connected,
2. The termination processing is switched to invalid.
The communication control device and the interface cable described in the above. 4. A communication control device and an interface cable connected to the communication control device, wherein the communication control device includes a mechanism for periodically monitoring a signal reflecting the interface cable identification means, and the connection of the interface cable is unexpectedly disconnected. 2. The communication control device according to claim 1, wherein even if the interface cable is incorrectly connected, the communication control device detects the connection and enables the line monitoring mechanism of the communication control device to detect the connection. Interface cable.