JPH04121979A - Detection system for connector connection condition - Google Patents

Abstract

PURPOSE:To detect whether or not a connector to connect a unit to a control object or another unit is in connection by detecting the voltage between two terminals of the connectors at the side of an electronic equipment or the mating side of the electric equipment connected to the electronic equipment. CONSTITUTION:A voltage detection circuit 10 is built-in a unit, and the connector terminals CA, CB at the connector 17 at the unit side end portion of the cable 16 which connects the unit to an external control object or another unit are short-circuited so that voltage is applied between both the connector terminals CA, CB. The CPU 11 of the voltage detection circuit 10 detects whether the voltage between both terminals CA, CB of the connector 17, has been detected or not, that is, whether the connector 17 is in connection or not according to the levels ('H' or 'L') of a terminals Q0 and Q1.

Description

[Detailed description of the invention] [Industrial application field]

The present invention relates to a connector connection state detection system suitable for improving reliability and maintainability by detecting the presence or absence of a connection between a unit and a controlled object or another unit.

[Conventional technology]

Conventionally, as shown in FIG. 6, for example, in a system that electrically connects a unit 1 on which a plurality of printed circuit boards are mounted and a controlled object or other units, the above-mentioned circuit board is used for inputting and outputting electrical signals between the two. Connector 2A to unit 1
1 to the control target or other unit.
Cable 3 connected via paired connectors (as shown)
A connector 2B is arranged at the end of the connector 2B, and a pair of both connectors 2A
. The connectors 2B are connected to each other.

[Problem to be solved by the invention]

By the way, the prior art as shown in FIG. 6 has the following problems. ■Since the unit 1 does not have a function to detect whether the connectors 2A and 2B are unconnected (unconnected state), it is necessary for a human to visually check whether the connectors are unconnected. 1 connected to the controlled object or other unit
There was a problem in that it was necessary for humans to judge whether a pair of connectors were connected or not. ■For the above reasons, the control target or other units may be installed far away from the unit 1, or the installation location of the unit 1, the control target, or other units may be inaccessible to humans. In such cases, there is a problem in that maintenance regarding the connectors and the like becomes troublesome. The present invention solves the above-mentioned problems, and by making it possible to detect the presence or absence of connection of a connector that connects a unit and a controlled object or other units, the connector connection state achieves improved reliability and maintainability. The purpose is to provide a detection system.

[Means to solve the problem]

In order to achieve the above object, the present invention provides a connector connection state detection system configured to detect connection or disconnection of a connector disposed at the end of a cable connecting a plurality of electronic devices. A short circuit that shorts between two terminals connected to a connector installed on the electronic device side of the plurality of electronic devices or a connector installed on the other side of the electronic device connected to the electronic device. means, disposed in the electronic device of the plurality of electronic devices,
a voltage applying section that applies a voltage between the two terminals; a voltage detecting section that detects the voltage between the two terminals; and a connection state of the connector based on whether or not the voltage detecting section detects the voltage between the two terminals. and a control means having a connection detection section for detecting whether the connection is in the disconnected state or in the unconnected state.

[Effect]

According to the present invention, if a voltage is detected between two terminals of the connector on the electronic device side or the other side of the electronic device connected to the electronic device, it is detected that the connector is in the connected state. On the other hand, if the voltage between the two terminals is not detected, it is detected that the connector is in an unconnected state.

【Example】

EMBODIMENT OF THE INVENTION Hereinafter, a connector connection state detection system according to each embodiment of the present invention will be described based on the drawings. ■First Embodiment FIG. 1 is a block diagram of the voltage detection circuit 10 of the first embodiment. The voltage detection circuit 10 is connected to an external control object or other unit via a cable, for example, to a plurality of printed sheets. It is built into a unit on which a board is mounted, and detects whether a connector disposed on the unit side is in a connected state or an unconnected state. In the voltage detection circuit 10, an output buffer 12 is connected to a terminal Q0 of a CPU (central processing unit) 11, and an input buffer 13 is connected to a terminal Q1. Further, the output buffer I2 has an oven drain type N
An AND 14 is connected, and the output side of the NAND 14 is connected to a terminal CA of a connector 17 (see FIG. 2) at the end of the cable connected to the control object or other unit. The input side of the human power buffer 12 is connected to a 5V power supply by a pull-up resistor 15, and is also connected to a terminal CB of a hole 17 at the end of the cable connected to the controlled object or other unit. There is. A voltage is applied between both connector terminals CASc8. Further, FIG. 2 shows a cable 16 connecting the unit and the external control object or other unit, and a pair of connectors 17 on the unit side disposed at the end of the cable 16, The connector 17 is provided with the terminal cA1cB shown in FIG. 1, and both connector terminals cA and CB are short-circuited, for example, by an electric wire 18 (or short terminal 19), which will be described later. In this case, as a method of short-circuiting both connector terminals CASC, for example, the third
Either a method of connecting the two connector terminals CA and CB with an electric wire 18 as shown in the figure, or a method of using a terminal terminal 19 as shown in FIG. 4, for example, may be used. Here, the truth table of the CPU 11 of the voltage detection circuit 10 is set as follows. That is, the terminal Q of the CPU II. When the terminal Q1 is "H" and the terminal Q1 is "L", the connector I7 connecting the unit to the controlled object or another unit is in a connected state, and the terminal Q is "L". is "H" and terminal Q1 is "H", the connector 17 is in an unconnected state and the terminal Q is in an unconnected state. or “L” terminal Q,
or “H”, the connector 17 is in the connected state,
Terminal Q. If the Q1 terminal is "L" and the Q1 terminal is "L", it indicates that the connector 17 is not connected. According to the first embodiment configured as described above, the voltage detection circuit 10 is installed in the unit. The connector terminals CA and C of the connector 17 at the end of the cable 16 connecting the unit and the external control object or other unit are connected by short-circuiting between the connector terminals CA and C of the connector 17 on the side of the unit and Terminal CA
Since the voltage is applied between SCB, the CPU II of the voltage detection circuit 10 is connected to both terminals C of the connector 17.
It detects whether the connector 17 is connected or unconnected depending on whether the voltage between A and 08 is detected, that is, the level (“H” or “L”) of the terminal Q. That is, according to the first embodiment, the reliability of the unit can be improved by making it possible to detect whether or not the connector 17 that connects the unit and the controlled object or other unit is connected/unconnected. It is possible to improve the maintainability of the unit, connectors, etc. ■Second Embodiment Figure 5 is a block diagram of the second embodiment. The voltage detection circuit built into the own unit detects whether the connector installed on the external control target (or other unit) is connected or disconnected. Fig. 5 In this case, the self-unit 20 has a built-in voltage detection circuit 21 having the same configuration as the voltage detection circuit shown in FIG. 1 of the first embodiment, and a connector 22 is provided at the end of the self-unit 20. In addition, the self unit 20 has a connector 22, a cable 23, a connector 24
via the external control target (or the other party's unit 7l-) 2
5. Further, the connector 22 of the self-unit 20 is connected to a terminal Q of the CPU (path shown) of the voltage detection circuit 21. , the connector terminals CA connected to Ql, respectively.
10B is arranged, and both these connector terminals CA
, CB and the two connector terminals of the connector 24 on the controlled object 25 side are short-circuited by a short-circuiting member 26 . In this case, the shorting member 26 may be an electric wire, a shorting terminal, a pattern formed on a printed circuit board, or the like. It should be noted that the truth table of the CPU of the voltage detection circuit 21 is the same as that of the first embodiment, and will therefore be omitted. According to the second embodiment configured as described above, the voltage detection circuit 21 is built into the self-unit 20, and the terminal Q of the CPU of the voltage detection circuit 21 is built-in. , Ql, and the two connector terminals of the connector 24 of the corresponding external control object (or counterpart unit) 25 are short-circuited, so that the voltage detection circuit 21 of the Uniso 1-20 Whether or not the CPU has detected the voltage between the two terminals of the connector 24 of the external control target (or counterpart unit) 25, that is, the terminal Q. , terminal Q. It is possible to detect whether the connector 24 is in a connected state or an unconnected state depending on the level (“H” or “L”) of the unit. Connector 2 of the controlled object (or partner unit)
By making it possible to detect whether or not 4 is connected/unconnected, it is possible to improve the reliability of the external control object (or counterpart unit) 25 and the ease of maintenance regarding the connectors and the like.

【Effect of the invention】

As explained above, according to the present invention, the following two effects can be achieved. ■It is possible to detect the connected/unconnected state of the connector on the electronic device side and the connected/unconnected state of the connector on the other side of the electronic device connected to the electronic device with a simple structure. . (2) With the above (2), it is possible to improve the reliability of the electronic device and the electronic device of the other party, and also to improve the maintainability of the connector and the like.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing the configuration of a voltage detection circuit according to a first embodiment of the present invention, FIG. 2 is a diagram showing a short-circuited state of two terminals of the unit side connector of the first embodiment, and FIG. A diagram showing an example in which two terminals of the connector common to the second embodiment are shorted by an electric wire, FIG. 4 is a diagram showing a short terminal common to the first and second embodiments, and FIG. 5 is a diagram showing the second embodiment. Fig. 6 shows the connection state between the unit and the controlled object or the other unit.
The figure shows the configuration of a conventional example. 10... Voltage detection circuit (voltage application section, voltage detection section, connection detection section, control means), 11 ・CPU 16
・・Cable, 17 ・・Connector, 18 Wire (short circuiting means), L9・・: L-to terminal (shorting means), 2
0...unit (electronic equipment), 21 voltage detection circuit (voltage application section, voltage detection section, connection detection section, control means),
22. -7 connector, 23 cable, 24... connector, 25 controlled object or counterpart unit (electronic equipment), 26 short circuit member (short circuit means), cA, CB connector terminal.

Claims (1)

[Claims] A connector connection state detection system configured to detect connection or disconnection of a connector disposed at an end of a cable connecting a plurality of electronic devices, the system comprising: 20) side or the connector (25) installed on the other party's electronic device (25) connected to the electronic device.
4) short-circuit means (18, 19, 26) for short-circuiting the two terminals (C_A, C_B); a voltage applying section (10, 21) to apply voltage;
Voltage detection unit (10, 21) that detects the voltage between two terminals
and a connection detection unit (10, 21) that detects whether the connector is in a connected state or an unconnected state based on whether the voltage detection unit detects a voltage between the two terminals. 10, 21) A connector connection state detection system comprising: