JP2012150959A - External apparatus connecting system, and method of confirming connection of connected harness - Google Patents

Abstract

An object of the present invention is to confirm that there is no abnormality in the connection of wiring from an external device without adding a dedicated signal line even when the external device is not connected.
A device-side connector 40 of an electronic device 10 is provided with a connection detection terminal 43 for detecting whether or not a start connector 51 of a USB harness 30A is connected. When connection is established and the start connector 51 of the USB harness 30A is connected, the connection detection terminal 43 and the ground terminal 41GND are made conductive. Further, since the termination connector 52 detects whether or not the start connector 51 or the harness side connector 55 of the USB harness 30B is connected, the power supply terminal 52V and the ground terminal 52S are normally connected, and the start connector of the USB harness 30B is connected. When the connector 51 or the harness side connector 55 is connected, it becomes non-conductive.
[Selection] Figure 3

Description

  The present invention relates to an external device connection system and a connection harness connection confirmation method.

There are various connection methods for connecting external devices and the like to various electronic devices such as car navigation devices, and one of them is USB (Universal Serial Bus) connection.
In the case of USB connection, if an external device is connected, it is possible to detect whether or not the connection has been made correctly by detecting the voltage change between the power line of the USB harness and the GND (ground) line (for example, patents). Reference 1).

JP 2010-113436 A

  However, it has not been possible to confirm whether or not the USB harness is normally joined in a state where no external device is connected.

Even when an external device is connected, a dedicated signal line is necessary to detect a voltage change between the power line of the USB harness and the GND line, which hinders cost reduction.
The present invention has been made based on such a technical problem, and it is confirmed that there is no abnormality in the connection of wiring from an external device even in a state where the external device is not connected without adding a dedicated signal line. It is an object of the present invention to provide an external device connection system and a connection harness connection confirmation method that can be confirmed.

The external device connection system of the present invention made for this purpose includes an electronic device having a device-side connector for connecting an external device, and a first connector at one end for connecting the electronic device and the external device. And a connection harness having a second connector at the other end, and the device-side connector has a first detection mechanism for turning on / off the output signal according to whether the first connector is connected or not. The second connector has a second detection mechanism that turns on / off an output signal in accordance with whether or not another connector is connected to the second connector.
Here, the first detection mechanism is configured to connect and release the connection detection terminal to which the power supply voltage is supplied from the electronic device and the ground terminal, depending on whether or not the first connector is connected to the device-side connector. It can be.
The second detection mechanism connects the harness-side power supply terminal through which the power supply voltage output from the electronic device flows and the harness-side ground terminal to each other depending on whether or not another connector is connected to the second connector. It can be set as the structure opened.

According to such a structure, it can be detected by the output signal whether the 1st connector of the connection harness is connected to the apparatus side connector by the 1st detection mechanism. Further, the second detection mechanism can detect whether or not another connector on the external device side is connected to the second connector of the connection harness from the output signal. Therefore, it can be detected from the output signals of the first detection mechanism and the second detection mechanism whether or not the connection harness is correctly connected to the device-side connector and further the external device side is correctly connected to the connection harness.
At this time, output signals from the first detection mechanism and the second detection mechanism can be output to the outside of the electronic device, and it can be detected whether a correct connection is made by a diagnostic device or the like connected to the electronic device. However, the electronic device has a diagnostic circuit for detecting whether the connection harness is correctly connected to the device-side connector based on the output signal from the first detection mechanism and the output signal from the second detection mechanism. It is preferable to provide further.

  Here, ON / OFF of the output signal in the first detection mechanism and the second detection mechanism may be set in any way, but the first detection mechanism is configured such that the first connector is not connected to the device-side connector. It is preferable that the output signal is turned on when the connection is established, and the second detection mechanism is configured so that the output signal is turned on when another connector is connected to the second connector.

  Moreover, it is preferable to provide an overcurrent protection element between the power source of the electronic device and the device-side connector.

  Such a connection harness may be of any type, but the present invention is particularly effective when it is a USB connection type.

  The present invention provides an abnormality in connection when connecting a connection harness having a first connector at one end and a second connector at the other end to an electronic device having a device-side connector for connecting an external device. The device-side connector includes a first detection mechanism that turns on / off an output signal according to whether the first connector is connected, and the second connector includes the first detection mechanism. The electronic device has a second detection mechanism that turns ON / OFF an output signal according to whether or not another connector is connected to the second connector, and the electronic device outputs the output signal from the first detection mechanism and the second detection mechanism. It is also possible to provide a connection harness connection confirmation method that detects whether the connection harness is correctly connected to the device-side connector based on the output signal from the device.

  According to the present invention, the connection harness is correctly connected to the device-side connector from the output signal of the first detection mechanism provided in the device-side connector of the electronic device and the second detection mechanism provided in the second connector of the connection harness. Furthermore, it is possible to detect whether or not the external device side is correctly connected to the connection harness. Thus, it is possible to confirm that there is no abnormality in the connection of the wiring from the external device even when the external device is not connected without adding a dedicated signal line.

It is a figure which shows the system configuration | structure for connecting an external device to the electronic device which concerns on this embodiment. It is a figure which shows the structure of the structure of an electronic device, and the structure of the start end side connector and termination | terminus terminal connector of a connection harness. It is sectional drawing which shows the structure of the termination | terminus connector of a connection harness. It is a figure which shows the flow when connecting a connection harness to an electronic device.

Hereinafter, the present invention will be described in detail based on embodiments shown in the accompanying drawings.
As shown in FIG. 1, in the external device connection system according to the present embodiment, when an external connector 20 for connecting an external device is provided in the electronic device 10 such as a car navigation device, the electronic device 10 One or more USB harnesses (connection harnesses) 30A, 30B between the external connector 20 (two in the present embodiment, but not limited to this, or may be three or more). It shall be connected with.

  For this reason, the electronic device 10 is provided with a device-side connector 40 that is electrically connected to a control circuit provided therein so that a part of the device-side connector 40 is exposed to the outside of the housing 11 of the electronic device 10.

  Each of the USB harnesses 30A and 30B has four wirings including signal lines 31D + and 31D-, a power supply line 31V, and a grounding line 31GND, and these four wirings are covered with a shield part 32. The shield part 32 has a shield ground line 31S inside the coating.

Each of the USB harnesses 30A and 30B has a start connector (first connector) 51 provided at one end and a terminal connector (second connector) 52 provided at the other end.
In the USB harness 30A, the start connector 51 is connected to the device-side connector 40, and in the USB harness 30B, the start connector 51 is connected to the terminal connector 52 of the USB harness 30A.

  Further, as shown in FIG. 2, the start end connectors 51 of the USB harnesses 30A and 30B are signal terminals 51D + electrically connected to the signal lines 31D +, 31D-, the power supply line 31V, the ground line 31GND, and the shield ground line 31S. , 51D-, a power supply terminal 51V, a ground terminal 51GND, and a shield ground terminal 51S.

On the other hand, the termination connectors 52 of the USB harnesses 30A and 30B are respectively connected to the signal terminals 52D + and 52D−, the power supply lines 31D + and 31D−, the power supply line 31V, the ground line 31GND, and the shield ground line 31S. It has a terminal (cable side power supply terminal) 52V, a ground terminal 52GND, and a shield ground terminal (cable side ground terminal) 52S.
Here, the end connector 52 of the USB harnesses 30A and 30B further detects the presence or absence of connection of the start end connector 51 of the USB harness 30B or the harness side connector 55 described later. When the start end connector 51 of the USB harness 30B or the harness side connector 55 described later is not connected, they are electrically connected to each other.
As shown in FIG. 3 (a), the start end connector 51 of the USB harness 30B connected to the end connector 52 or the harness side connector 55 described later is part of the insulating housing 56 of the start end connector 51. The formed insulating partition member 56a is provided. As shown in FIG. 3B, when the start connector 51 or the harness side connector 55 is connected to the terminal connector 52, the insulating partition wall member 56a is inserted between the power supply terminal 52V and the shield ground terminal 52S. To be disconnected. This constitutes a second detection mechanism.

As shown in FIG. 1, the external connector 20 is mounted on the termination board 21. A harness-side connector 55 connected to the termination connector 52 of the USB harness 30B is mounted on the termination board 21. The harness-side connector 55 and the external connector 20 are electrically connected via an electrical circuit of the termination board 21. Has been.
The harness-side connector 55 has a plurality of terminals that are electrically connected to the signal lines 31D +, 31D-, the power supply line 31V, the ground line 31GND, and the shield ground line 31S of the USB harness 30B.

As shown in FIG. 2, the device-side connector 40 is electrically connected to the signal lines 31D + and 31D−, the power supply line 31V, the ground line 31GND, and the shield ground line 31S of the USB harness 30A. , 41D-, a power supply terminal 41V, a ground terminal 41GND, and a shield ground terminal (ground terminal) 41S.
Further, the device-side connector 40 is provided with a connection detection terminal (first detection mechanism) 43 for detecting whether or not the start end connector 51 of the USB harness 30A is connected. The connection detection terminal 43 is supplied with a detection power supply voltage from the power supply line 31V. The power supply voltage may be any voltage suitable for the diagnostic circuit 16. For example, since a port circuit of a microcomputer often has a pull-up resistor, a microcomputer power supply (usually about 3.3V) may be used.

Here, a short-circuit member 57 is provided on the start connector 51 of the USB harness 30 </ b> A connected to the device-side connector 40.
The connection detection terminal 43 is not electrically connected to, for example, the ground terminal 41GND in normal times. When the start end connector 51 of the USB harness 30A is connected, the short-circuit member 57 makes the connection detection terminal 43 and the ground terminal 41GND conductive.

  As shown in FIG. 1, the electronic device 10 includes a power supply circuit 12 that supplies a power supply voltage, an overcurrent protection element 13, a power supply voltage detection circuit 14 that detects a power supply voltage supplied from the power supply circuit 12, By detecting the voltage at the connection detection terminal 43, the connection detection circuit 15 detects whether or not the start connector 51 is connected to the device-side connector 40, and the diagnosis based on the output signals of the power supply voltage detection circuit 14 and the connection detection circuit 15 is performed. And a diagnostic circuit 16 to perform.

  Here, the overcurrent protection element 13 prevents an excessive current from flowing through the power supply circuit 12 when an abnormal connection is made for some reason. As such an overcurrent protection element 13, it is preferable to use a self-recovering type element so that its function can be maintained even after an excessive current is prevented.

In such a configuration, as shown in FIG. 4A, in the state where nothing is connected to the device-side connector 40, the power supply voltage detection circuit 14 supplies the power supply voltage ( For example, 5V) is detected (this state is set to signal ON). On the other hand, in the connection detection circuit 15, since the connection detection terminal 43 is not connected to the ground terminal 41GND, the detected signal is ON.
The diagnostic circuit 16 outputs a signal indicating the determination result that “the harness is not connected” when the power supply voltage detection circuit 14 is ON and the connection detection circuit 15 is ON.
Table 1 shows a list of output signals.

As shown in FIG. 4B, in the state where the start connector 51 of the USB harness 30A is connected to the device-side connector 40, the system to which the power supply voltage is supplied from the power supply circuit 12 is shown in FIG. As shown in FIG. 5, in the terminal connector 52 of the USB harness 30A, the power terminal 52V and the shield ground terminal 52S are electrically connected to each other because the start connector 51 of the USB harness 30B is not connected. Therefore, the power supply voltage detection circuit 14 does not detect the power supply voltage supplied from the power supply circuit 12 (signal OFF).
On the other hand, in this state, since the start connector 51 of the USB harness 30A is connected, the short circuit member 57 is electrically connected to the connection detection terminal 43 and the ground terminal 41GND. Therefore, in the connection detection circuit 15, the output signal is OFF. Become.
In the diagnostic circuit 16, when the power supply voltage detection circuit 14 is OFF and the connection detection circuit 15 is OFF, a signal indicating a determination result “harness connection abnormality (a state in which all harnesses are not connected)” is output. Output.

Furthermore, as shown in FIG. 4 (c), in the state where the start connector 51 of the USB harness 30B is connected to the end connector 52 of the USB harness 30A, the end connector 52 of the USB harness 30A has the structure shown in FIG. As shown in FIG. 2, the insulating partition wall member 56a is inserted between the power supply terminal 52V as the second detection mechanism and the shield ground terminal 52S and is not connected. However, in the terminal connector 52 of the USB harness 30B, the power supply terminal 52V and the shield ground terminal 52S are electrically connected to each other because the harness side connector 55 is not connected.
In this state, since the start connector 51 of the USB harness 30A is connected to the device-side connector 40, the short-circuit member 57 contacts both the connection detection terminal 43 and the ground terminal 41GND, and the connection detection terminal 43 And the ground terminal 41GND are in conduction, the output signal is turned off in the connection detection circuit 15.
Therefore, as described above, the output signal is OFF in the power supply voltage detection circuit 14 and the output signal is OFF in the connection detection circuit 15, so that the diagnosis circuit 16 indicates that “harness connection abnormality (all harnesses are not connected)”. A signal indicating the determination result “is present” is output.

When the harness side connector 55 of the termination board 21 is connected to the termination connector 52 of the USB harness 30B, as shown in FIG. 3B, the insulating partition wall member 56a is connected between the power supply terminal 52V and the shield ground terminal 52S. It is inserted between and disconnected. Therefore, the power supply voltage detection circuit 14 normally detects the power supply voltage supplied from the power supply circuit 12 (signal ON).
On the other hand, in this state, since the start connector 51 of the USB harness 30A is connected to the device-side connector 40, the short-circuit member 57 contacts both the connection detection terminal 43 and the ground terminal 41GND, and the connection detection terminal 43 And the ground terminal 41GND are in conduction, the output signal is turned off in the connection detection circuit 15.
In the diagnostic circuit 16, when the power supply voltage detection circuit 14 is ON and the connection detection circuit 15 is OFF, a signal indicating a determination result that “the harness connection is normal (all harnesses are correctly connected)” Is output.

In this way, even when no external device is connected to the external connector 20, it is possible to detect whether or not all of the USB harnesses 30A and 30B and the termination board 21 are normally connected to the electronic device 10. .
Further, it is not necessary to provide a dedicated signal line in order to detect a connection abnormality, and a mechanism for detecting whether or not the connection is normal to the device side connector 40 and the terminal connector 52 of the USB harness 30A, 30B. It is only necessary to provide it.

  Further, when the connection is normally performed, the circuit does not have an unnecessary resistance component, and thus no voltage drop is caused on the external device side. As a result, noise such as radiation can be prevented.

  Even when an abnormal connection is made for some reason, the overcurrent protection element 13 is provided, so that a load is applied to the power supply circuit 12 while detecting the connection abnormality as described above. There is no.

Further, in the device-side connector 40, the output signal is turned OFF when the start end connector 51 of the USB harness 30A is correctly connected. In the end connectors 52 of the USB harnesses 30A and 30B, the start end connector 51 and the end end of the USB harness 30B. When the harness side connector 55 of the substrate 21 is correctly connected, the output signal is turned ON.
Thus, the output logic of the signal when the device side connector 40 and the terminal connector 52 are correctly connected is inverted. This prevents unnecessary current from flowing on the device side when the connection to the device-side connector 40 is not performed. Thereby, the power consumption in the electronic device 10 can be suppressed.

In the above embodiment, the configurations of the device-side connector 40, the start-end connector 51, the end-connector 52, and the harness-side connector 55 have been described. However, the specific structure, shape, and configuration can be changed as appropriate. .
In the above embodiment, the two USB harnesses 30A and 30B are connected. However, only one or three or more USB harnesses may be connected.
In addition to this, as long as it does not depart from the gist of the present invention, the configuration described in the above embodiment can be selected or changed to another configuration as appropriate.

  DESCRIPTION OF SYMBOLS 10 ... Electronic device, 12 ... Power supply circuit, 13 ... Overcurrent protection element, 14 ... Power supply voltage detection circuit, 15 ... Connection detection circuit, 16 ... Diagnostic circuit, 20 ... External connector, 21 ... Termination board, 30A, 30B ... USB Harness (connection harness), 31S: shield ground line, 31V: power supply line, 40 ... device side connector, 41S: shield ground terminal (ground terminal), 41V ... power supply terminal, 43 ... connection detection terminal (first detection mechanism) 51 ... Start connector (first connector) 52 ... Termination connector (second connector) 52S ... Shield ground terminal (cable side ground terminal) 52V ... Power source terminal (cable side power terminal) 55 ... Harness side Connector 56 ... Insulating housing 56a ... Insulating partition member 57 ... Short-circuit member

Claims (8)

An electronic device having a device-side connector for connecting an external device;
In order to connect the electronic device and the external device, a connection harness having a first connector at one end and a second connector at the other end,
The device-side connector has a first detection mechanism that turns ON / OFF an output signal according to whether the first connector is connected,
The external device connection system, wherein the second connector has a second detection mechanism for turning on / off an output signal in accordance with whether or not another connector is connected to the second connector.   The first detection mechanism connects / releases a connection detection terminal to which a power supply voltage is supplied from the electronic device and a ground terminal, depending on whether the first connector is connected to the device-side connector. The external device connection system according to claim 1.   The second detection mechanism includes a harness-side power supply terminal through which a power supply voltage output from the electronic device flows, and a harness-side ground terminal, depending on whether the other connector is connected to the second connector. 3. The external device connection system according to claim 2, wherein the external device connection system is connected / released. In the first detection mechanism, the output signal is turned on when the first connector is not connected to the device-side connector,
4. The external detection device according to claim 1, wherein the second detection mechanism is configured such that the output signal is turned on when the other connector is connected to the second connector. 5. Equipment connection system.   The electronic device detects whether or not the connection harness is correctly connected to the device-side connector based on an output signal from the first detection mechanism and an output signal from the second detection mechanism. The external device connection system according to claim 1, further comprising a diagnostic circuit.   The external device connection system according to any one of claims 1 to 5, further comprising an overcurrent protection element between a power source of the electronic device and the device-side connector.   The external device connection system according to claim 1, wherein the connection harness is a USB (Universal Serial Bus) connection method. When connecting a connection harness that has a first connector at one end and a second connector at the other end to an electronic device with a device-side connector that connects external devices, diagnoses whether there is a connection abnormality A way to
The device-side connector includes a first detection mechanism that turns on / off an output signal according to whether the first connector is connected or not, and the second connector has another connector for the second connector. A second detection mechanism that turns on / off the output signal according to the presence or absence of the connection,
The electronic device detects whether or not the connection harness is correctly connected to the device-side connector based on an output signal from the first detection mechanism and an output signal from the second detection mechanism. A connection confirmation method of a connection harness characterized by the above.

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