JP6452174B2 - Incorrect connection prevention device and erroneous connection prevention method - Google Patents

Description

  The present invention relates to an erroneous connection prevention device and an erroneous connection prevention method.

  Generally, a monitoring device or the like for monitoring an external device such as a sensor device includes an interface to which the external device is connected (hereinafter referred to as a first interface) and an interface to which an external power supply is connected (hereinafter referred to as Called a second interface). In such a monitoring device, when an external power supply is mistakenly connected to the first interface to which the external device is to be connected, a voltage is applied to the internal circuit of the monitoring device, and the internal circuit may be damaged. Therefore, there has been proposed a technique that can prevent damage to the internal circuit by detecting an erroneous connection.

  Patent Document 1 discloses a technique for preventing damage to an external unit by turning on an external power-on switch of the external unit only when it is confirmed that the external unit is properly connected to a predetermined slot. .

  The technique described in Patent Document 1 prevents damage to an external unit by making the identification number of the external unit registered in advance correspond to the identification number of the external unit connected to the slot. However, the technique described in Patent Document 1 may not be able to prevent damage to the external unit when using an external unit that does not register an identification number or an external unit that does not hold an identification number. is there.

  In contrast to such a prior art, Patent Document 2 discloses an erroneous connection prevention device having a function of effectively preventing damage to an internal circuit of an electronic device due to erroneous connection.

  Patent Document 2 discloses a first interface to which an external device is to be connected, a second interface to which an external power supply is to be connected, a first interface, and an external power supply accidentally connected to the first interface. An incorrect connection detection preventing unit that outputs a signal indicating an incorrect connection when connected, and a path connecting the first interface and the internal circuit, and is open when an external power source is not connected to the second interface. An erroneous connection prevention device is disclosed that includes an open / close section that switches from an open state to a closed state when an external power source is connected to the second interface.

JP-A-3-21630 Japanese Patent No. 6021208

  The erroneous connection prevention apparatus disclosed in Patent Document 2 outputs a signal indicating an erroneous connection when an external power supply is erroneously connected to the first interface to which the external apparatus is to be connected, and the external power supply should be connected. When the external power supply is correctly connected to the second interface, the state of the open / close section provided in the path connecting the first interface and the internal circuit of the electronic device is switched from the open state to the closed state. The erroneous connection prevention device that operates in this way can prevent damage to the internal circuit of the electronic device even if an external power supply is erroneously connected to the first interface.

  However, even in the erroneous connection prevention device disclosed in Patent Document 2, even when the external power supply to the first interface is in the erroneous connection state, the connection and disconnection can be performed by connecting the external power supply to the second interface in that state. The part switches to the closed state. In other words, there is a risk of damaging the internal circuit of the electronic device by erroneously connecting the external power source to the first interface and connecting the external power source to the second interface while overlooking the erroneous connection state. .

  An object of the present invention is to provide an erroneous connection preventing apparatus and method that can more reliably prevent damage to an internal circuit of an electronic device caused by an erroneous connection.

An erroneous connection prevention device according to an embodiment of the present invention is an erroneous connection prevention device connected to an internal circuit of an electronic device, and is connected to a signal line connected to the internal circuit and connected to an external device. One or more first interfaces to be connected, a second interface to be connected to an external power supply connected to a power supply line connected to the internal circuit, and connected to the first interface; And when an external power supply is connected to the first interface, an incorrect connection detection preventing unit that outputs a signal indicating an incorrect connection, and a signal line that connects the first interface and the internal circuit are provided, When an external power source is not connected to the second interface, and is in an open state, and an external power source is connected to the second interface, Switching to the closed state from the state, the external power supply to the second interface when receiving a signal indicating the improper connection delivered by the erroneous connection detection prevention unit by the external power supply is connected to said first interface An open / close unit that maintains an open state even when connected to the second interface, and an external power supply is correctly connected to the second interface and power is supplied to the internal circuit of the electronic device via a power line. In addition, while an external power supply is connected to the one or more first interfaces, a connection between the signal line connected to the internal circuit of the electronic device and the one or more first interfaces is established. Shut off .

A misconnection prevention method according to an embodiment of the present invention is a misconnection prevention method for an internal circuit of an electronic apparatus, and is connected to an external device connected to a signal line connected to the internal circuit. When an external power supply is connected to at least one of the one or more first interfaces, a signal indicating an erroneous connection is output, and an external power supply connected to a power supply line connected to the internal circuit is connected. While switching the state of the opening / closing part provided in the path that becomes a signal line connecting the first interface and the internal circuit of the electronic device when an external power supply is connected to the second interface to be power, when receiving a signal indicating the improper connection delivered by the erroneous connection detection prevention unit by the external power supply to the first interface is connected The second also maintains the open state of the closing unit as the external power source is connected to the interface, the internal circuit of the electronic device via the second correct external power source interface is connected to the power line Even if power is supplied to the signal line, the external power supply is connected to the one or more first interfaces while the signal line connected to the internal circuit of the electronic device is connected to the first to the plurality of first interfaces. Block the connection with the interface .

  According to the erroneous connection preventing apparatus according to one embodiment of the present invention, it is possible to more reliably prevent damage to the internal circuit of the electronic device due to the erroneous connection.

It is a block diagram which shows the structure of the misconnection prevention apparatus which concerns on 1st Embodiment. It is a block diagram which shows the structure of the monitoring apparatus which concerns on 1st Embodiment. It is a circuit diagram which shows the specific structural example of the misconnection detection prevention part and opening / closing part which concerns on this invention. It is a block diagram which shows the structure of the misconnection prevention apparatus which concerns on 2nd Embodiment. It is a block diagram which shows the structure of the monitoring apparatus which concerns on 2nd Embodiment. It is a flowchart which shows the flow of operation | movement of the misconnection prevention apparatus which concerns on 2nd Embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In addition, in order to avoid the complexity by having demonstrated repeatedly, the same code | symbol is attached | subjected to the same or corresponding part in each figure, and description is abbreviate | omitted suitably.

[First Embodiment]
A misconnection prevention device 10 according to a first embodiment of the present invention will be described. FIG. 1 is a block diagram illustrating a configuration of the erroneous connection prevention device 10.

  As shown in FIG. 1, the erroneous connection prevention device 10 includes a first interface 11, a second interface 12, an erroneous connection detection prevention unit 13, and an opening / closing unit 14.

  The first interface 11 is an interface connected to an external device (not shown), and is, for example, an external device connection connector. Although an external device is not specifically limited, For example, it is a sensor apparatus etc.

  The second interface 12 is an interface connected to an external power supply (not shown), and is, for example, an external power supply connector. The external power supply is not particularly limited, but is, for example, a power supply that outputs a DC voltage such as DC12V, DC24V, and DC48V, and has a higher voltage than the electric signal supplied to the first interface 11.

  The erroneous connection detection preventing unit 13 is connected to the first interface 11, and can detect an erroneous connection when an external power source is connected to the first interface 11. Specifically, the erroneous connection detection preventing unit 13 rectifies the output voltage of the external power supply erroneously connected to the first interface 11, thereby generating signals (notification signals) 13a and 13b indicating erroneous connection. . Further, the erroneous connection detection preventing unit 13 is configured not to operate when an external power source is not connected to the first interface 11. As will be described later, such an erroneous connection detection preventing unit 13 can be configured by, for example, a rectifier circuit such as a diode bridge.

  The opening / closing part 14 is provided between the first interface 11 and the internal circuit of the electronic device on which the erroneous connection preventing device 10 is mounted, and is connected to the first interface 11 and the second interface 12. Yes. In addition, the opening / closing unit 14 has priority when an external power supply is connected to the second interface when an external power supply is connected to the first interface (when a signal indicating an erroneous connection is received). Keep open. Specifically, the open / close unit 14 includes at least a signal terminal that receives a signal from an external device, a power supply terminal that receives power from an external power source connected to the second interface, and an external power source connected to the first interface. And an erroneous connection detection terminal for receiving a signal indicating the erroneous connection generated. In this case, the signal terminal of the opening / closing part 14 is connected to the first interface 11, the erroneous connection detection terminal is connected to the erroneous connection detection preventing part 13, and the power supply terminal of the opening / closing part 14 is connected to the second interface 12. .

  Since the opening / closing part 14 is open in the initial state, the first interface 11 and the internal circuit of the electronic device on which the erroneous connection preventing device 10 is mounted are electrically separated. In addition, when an external power source is connected to the second interface 12, the opening / closing unit 14 operates by the power of the external power source and switches the state from the open state to the closed state. However, when an external power source is connected to the first interface, the open state is maintained. When the opening / closing part 14 is in the closed state, the first interface 11 and the internal circuit of the electronic device on which the erroneous connection preventing device 10 is mounted are electrically connected. When the external power source is disconnected from the second interface 12, the open / close unit 14 is not supplied with power, and switches from the closed state to the open state, which is the initial state. Specifically, as will be described later, the open / close unit 14 is configured to protect the internal circuit of the electronic device from the output voltage of the external power supply when the external power supply is erroneously connected to the first interface 11. . Such an opening / closing part 14 can be configured by, for example, a relay, a field effect transistor, or the like. In other words, according to the first embodiment of the present invention, the voltage applied to the internal circuit of the electronic device according to whether or not the external power supply is erroneously connected to each of the first interface 11 and the second interface 12. Can be controlled.

  Note that the erroneous connection prevention device 10 includes a notification unit (illustrated in FIG. 3) for notifying a user or the like that the connection is an erroneous connection when an external power supply is erroneously connected to the first interface 11. You may have. The notification unit can be configured to notify in accordance with the notification signal 13 a generated by the erroneous connection detection prevention unit 13. In this case, the user or the like can easily notice that the connection to the first interface 11 is an erroneous connection by the notification unit. Such a notification unit is not particularly limited, but is preferably configured by a combination of an LED (Light Emitting Diode), an internal buzzer, an external signal output, and the like.

  FIG. 2 is a block diagram illustrating the configuration of the monitoring device 1. The monitoring device 1 includes the erroneous connection prevention device 10 shown in FIG. 1 and an internal circuit 20.

  The monitoring device 1 is an example of an electronic device on which the erroneous connection prevention device 10 is mounted, and is a device that monitors connected external devices and the like. In this case, the internal circuit 20 is a circuit including a sensor interface, for example. In addition, although the monitoring apparatus 1 which has a signal terminal is demonstrated to an example as an electronic device carrying the misconnection prevention apparatus 10, this is an illustration and does not limit this invention. The erroneous connection prevention device 10 can be mounted not only on the monitoring device 1 but also on various electronic devices.

  As shown in FIG. 2, an external device 30 is connected to the first interface 11. An external power supply 40 is connected to the second interface 12.

  In the monitoring device 1, the external power supply 40 connected to the second interface 12 supplies power to the opening / closing unit 14. In this case, the opening / closing unit 14 operates by receiving drive power from the external power supply 40 on the condition that the external power supply is not connected to the first interface 11, and switches the state from the open state to the closed state. When the open / close unit 14 is in the open state, the external device 30 connected to the first interface 11 and the internal circuit 20 are electrically separated. And the external apparatus 30 connected to the 1st interface 11 and the internal circuit 20 are electrically connected because the state of the opening-and-closing part 14 switches to a closed state.

  On the other hand, when any external power supply is mistakenly connected to the first interface 11, the external power supply supplies power to the erroneous connection detection preventing unit 13. In this case, the erroneous connection detection preventing unit 13 operates by receiving power from the external power source, and generates a notification signal 13a indicating that the connection is incorrect. The open / close unit 14 operates by receiving power from the external power source. When the signal indicating an erroneous connection is received, even if the external power source 40 is connected to the second interface 12, the open / close unit 14 The state is maintained in an open state (non-conductive state). That is, while receiving a signal indicating an erroneous connection, the state of the opening / closing unit 14 remains in the open state, which is the initial state, and the first interface 11 and the internal circuit 20 are electrically separated. As described above, the illustrated erroneous connection preventing apparatus 10 is configured such that when the external power supply is erroneously connected to the first interface 11 when the external power supply 40 is correctly connected to the second interface, the first interface 11 is configured so that the power supply voltage applied to the internal circuit 20 is not applied to the internal circuit 20.

  Therefore, the erroneous connection preventing apparatus 10 does not apply the output voltage to the internal circuit 20 even when the external power supply is mistakenly connected to the first interface 11 and the external power supply is correctly connected to the second interface 12. Therefore, damage to the internal circuit 20 can be prevented more reliably.

  FIG. 3 is a circuit diagram illustrating an example of the configuration of the monitoring device 1. Hereinafter, a specific configuration of the monitoring device 1 will be described with reference to FIG.

  The first interface 11 has an A1 terminal 111 and a COMMON terminal 112.

  The A1 terminal 111 is a terminal connected to the A1 terminal of the external device. The COMMON terminal 112 is a terminal connected to the COMMON terminal of the external device.

  The second interface 12 has an input terminal 121 and a GND terminal 122.

  The input terminal 121 is a terminal connected to the output terminal of the external power source. The GND terminal 122 is a terminal connected to the GND terminal of the external power supply.

  Note that the configurations of the first interface 11 and the second interface 12 shown in FIG. 3 are merely examples, and the number of terminals is not limited. A designer or the like may freely change the number of terminals of the first interface 11 and the second interface 12 according to the design.

  The illustrated erroneous connection detection preventing unit 13 includes a diode bridge 133 and a protection circuit 134.

  The diode bridge 133 is a rectifier circuit that rectifies the output voltage of the external power supply when the external power supply is mistakenly connected to the first interface 11.

  More specifically, the diode bridge 133 rectifies the output voltage of the external power supply when the output terminal of the external power supply is connected to the A1 terminal 111 and the GND terminal of the external power supply is connected to the COMMON terminal 112. The diode bridge 133 rectifies the output voltage of the external power supply even when the output terminal of the external power supply is connected to the COMMON terminal 112 and the GND terminal of the external power supply is connected to the A1 terminal 111.

  When an external power supply is connected to the A1 terminal 111 or the COMMON terminal 112, the protection circuit 134 outputs a signal indicating an incorrect connection through the diode bridge 133 according to the connection of the external power supply. The signal indicating the erroneous connection is used for notification indicating the erroneous connection and also used as a signal for maintaining the open state of the opening / closing part 14.

  In the illustrated configuration, the erroneous connection detection preventing unit 13 outputs a signal 13a indicating an erroneous connection. The protection circuit 134 receives the signal 13a indicating the erroneous connection through the resistor R1 and the LED provided in the notification unit 15, and performs electrical isolation with the photocoupler PH1, while the switch 142 from the output side of the photocoupler PH1. Is transmitted with a signal 13b indicating an erroneous connection. In the photocoupler PH1, the system of the first interface 11 and the system of the second interface 12 are isolated to prevent unintentional connection of a plurality of external power sources inside the circuit. The alerting | reporting part 15 alert | reports that it is an incorrect connection with respect to a user etc. by a buzzer and LED by receiving the signal 13a which shows an incorrect connection. The misconnection detection prevention unit 13 (protection circuit 134) and the notification unit 15 may be configured by appropriately combining a current limiting element and a voltage adjusting element together with the notification element. For example, when a change such as not providing the notification LED is made, fine adjustment on the circuit configuration such as short-circuiting the notification LED portion may be appropriately performed.

  In other words, even if the external power supply is correctly connected to the second interface 12, the erroneous connection detection preventing unit 13 shown in the figure can output the output voltage of the external power supply if the external power supply is erroneously connected to the first interface 11. Is used as a signal for maintaining the open state of the opening / closing part 14 using the signal.

  Note that the circuit structure of the erroneous connection detection preventing unit 13 shown in FIG. 3 does not limit the present invention to this configuration. The designer or the like can appropriately change the configuration of the erroneous connection detection preventing unit 13 according to the number of signal lines of the first interface 11, the connection pattern of the external power supply, the power supply voltage that may be connected, and the like. . For example, if the external power supply to be connected is one power supply, the photocoupler PH1 (protection circuit 134) can be removed.

  The opening / closing unit 14 includes a relay 141 and a switch 142, and is provided between the first interface 11 and the internal circuit 20 of the monitoring device 1. The relay 141 is opened by the action of the switch 142 when an external power source is not connected to the second interface 12. Further, the relay 141 is switched from the open state to the closed state only when an external power source is connected to the second interface 12 and an external device is connected to the first interface 11.

  That is, even when an external power supply is mistakenly connected to the first interface 11 and an external power supply is also connected to the second interface 12, the relay 141 is kept open.

  Although FIG. 3 shows the relay 141, the relay 141 is an example for ease of explanation, and the circuit of the relay 141 can be configured by combining switching elements such as transistors. .

  In the illustrated example, the protection circuit 134 is in the open state even when an external power supply is erroneously connected to the first interface 11 or when an external device is accidentally connected to the second interface 12. Is configured to maintain. In other words, the illustrated network is configured so that the relay 141 is changed from the open state to the closed state only when the external device and the external power supply are correctly connected to the first interface 11 and the second interface 12. Operate.

  Specifically, in the circuit including the photocoupler PH1 constituting the protection circuit 134, when an external power supply is accidentally connected to the first interface 11, that is, a predetermined voltage is applied to the diode bridge 133. In such a case, the photocoupler PH1 is configured to operate.

  Hereinafter, a case where an N-channel FET is used as the switch 142 as shown in FIG. 3 will be described. First, when an external power supply is erroneously connected to the first interface 11, the photocoupler PH1 operates.

  In this state, when the external power supply is correctly connected to the second interface 12, the voltage from the voltage converter 123 is applied to the resistor R2 and the photocoupler PH1. In this case, since the photocoupler PH1 is operating, a current corresponding to the voltage from the voltage converter 123 flows through the resistor R2 and the photocoupler PH1, and the gate potential of the N-channel FET is lowered to near the ground potential. As a result, the N-channel FET is turned off. Therefore, no current flows through the coil of the relay 141, and as a result, the relay 141 is maintained in the open state.

  On the other hand, when an external device is mistakenly connected to the second interface 12 and an external power supply is mistakenly connected to the first interface 11, no current flows through the switch 142 constituted by the N-channel FET. It remains in the OFF state.

  Further, when the external device and the external power supply are correctly connected to the first and second interfaces 11 and 12, the voltage from the voltage converter 123 is applied to the gate of the N-channel FET, and the N-channel FET is in the ON state. become. On the other hand, since only a minute current from the external device flows through the circuit including the photocoupler PH1, the photocoupler PH1 is kept in the OFF state. In this state, since the voltage from the voltage conversion unit 123 is applied to the coil of the relay 141 and the switch 142 is in the ON state, a current flows from the voltage conversion unit 123 to the circuit including the coil and the switch 142, and the relay 141 Is closed (conducting state).

  The voltage converter 123 boosts / steps down the output voltage of the external power supply normally connected to the second interface 12. Such a voltage conversion unit 123 can be configured by, for example, a DC / DC converter, a chopper circuit, or the like. When the external power supply is normally connected to the second interface 12, the open / close unit 14 including the relay 141 connected to the voltage conversion unit 123 is erroneously connected to the first interface as described above. If there is no, it will be in a closed state and the 1st interface 11 and the internal circuit 20 will be electrically connected.

  With the circuit configuration described above, the open / close unit 14 has the internal circuit 20 of the monitoring device 1 even when an external power supply is mistakenly connected to the first external interface 11 and an external power supply is connected to the second interface in that state. Is configured so that no output voltage is applied thereto.

  According to the above circuit configuration, the open / close control (that is, ON / OFF control) of the relay 141 is automatically performed only by hardware by a Zener diode or FET that works effectively only when an overvoltage is applied to the first external interface 11. Even if multiple external power supplies are connected, damage to the internal circuit can be prevented. Further, this circuit configuration extracts power by a diode bridge, drives an LED and a buzzer, and immediately notifies an operator of an abnormal state even if power is not supplied in the case of incorrect connection.

  Therefore, even if the external power supply is correctly connected to the second interface 12 and the external power supply is accidentally connected to the first interface 11, the erroneous connection prevention device 10 can further damage the internal circuit 20 of the monitoring device 1. It can be surely prevented.

  When an external power supply that may be connected to the first interface 11 (A1 terminal 111, COMMON terminal 112) is determined to be a 24V power supply, circuit elements that affect the current value of the signal 13a indicating an incorrect connection are: A resistor R1 (5 [KΩ]) and a Zener diode D2 (Vz = 6 [V]) may be used. Further, as the adjustment element (resistor R2) for the signal 13b indicating erroneous connection, a resistor of about several KΩ may be used in consideration of the current, voltage, noise resistance, etc. of the surrounding circuit. The role of the resistor R2 is to apply a Low / Hi potential to the gate of the N-channel FET for switch control and not to exceed the collector rated current of the light receiving side transistor of the photocoupler PH1. The Zener diode D1 may be a Zener diode having a value that matches the required voltage of the buzzer.

  As described above, the erroneous connection detection preventing unit 13 is connected to the first interface 11 and not only when the external power supply is erroneously connected to the first interface 11 but also correctly to the second interface 12. When an external power supply is connected and an external power supply is erroneously connected to the first interface 11, a signal indicating an erroneous connection is output. In response to the signal indicating the erroneous connection, the opening / closing unit 14 electrically disconnects the first interface from the internal circuit of the electronic device. As described above, according to the present embodiment, the connection prevention that can prevent the internal circuit from being damaged even when the external power supply is connected to both the first and second interfaces is performed. Apparatus and methods can be provided.

[Second Embodiment]
A misconnection prevention device 10A according to a second embodiment of the present invention will be described. FIG. 4 is a block diagram showing a configuration of the erroneous connection preventing apparatus 10A. In addition, the same code | symbol is attached | subjected to the part which is the same as that of the erroneous connection prevention apparatus 10 which concerns on 1st Embodiment, or it corresponds, and description is abbreviate | omitted suitably.

  As illustrated in FIG. 4, the erroneous connection prevention device 10 </ b> A includes a first interface 11, a second interface 12, an erroneous connection detection prevention unit 13, an opening / closing unit 14, and a control unit 16.

  The control unit 16 is connected to the second interface 12 and the opening / closing unit 14, and when an external power source is connected to the second interface 12 and no external power source is connected to the first interface. The state of the opening / closing part 14 can be switched from the open state to the closed state. Specifically, when an external power supply is connected to the second interface 12, the control unit 16 operates by receiving power from the external power supply, on condition that it does not receive a signal 13 c indicating an incorrect connection. A control signal 16a is generated. The control signal 16a is output to the opening / closing part 14, and the state of the opening / closing part 14 is switched from the open state to the closed state. That is, the illustrated erroneous connection detection preventing unit 13 outputs a signal 13c indicating erroneous connection to the control unit 16 when an external power supply is erroneously connected to the first interface 11. That is, the control unit 16 gives priority to the signal 13c indicating the erroneous connection with respect to the connection of the external power supply to the second interface 12. Then, the control unit 16 outputs the generated control signal 16a to the opening / closing unit 14, thereby switching the state of the opening / closing unit 14 from the open state to the closed state.

  The open / close unit 14 that has received the control signal 16a switches the open state to the closed state if the external power supply is not connected to the first interface 11 and the signal 13b indicating an erroneous connection is not received. In addition, although the protection function by the signal 13b which shows the misconnection input into the opening-and-closing part 14 is not essential in this embodiment, double protection can be achieved by making both function.

  The incorrect connection detection preventing unit 13 generates a signal 13c indicating an incorrect connection. It is desirable to generate the signal 13c indicating the erroneous connection as an isolated signal in the same manner as the signal 13b indicating the erroneous connection.

  Note that when the external power source is disconnected from the second interface 12, the control unit 16 cannot generate the control signal 16a. In this case, since the control part 16 cannot output the control signal 16a to the opening / closing part 14, the state of the opening / closing part 14 switches from the closed state to the open state which is the initial state.

  The opening / closing unit 14 may be configured to operate according to the control signal 16a while operating the function of preventing erroneous connection by the signal 13b indicating the erroneous connection. In addition, the circuit configuration of the opening / closing unit 14 may include a power amplifier circuit or the like that can be operated by the control signal 16a as necessary.

  FIG. 5 is a block diagram showing a configuration of the monitoring apparatus 1A. The monitoring device 1 </ b> A includes an erroneous connection prevention device 10 </ b> A and an internal circuit 20.

  In the monitoring apparatus 1A, the control unit 16 operates by receiving power from the external power source 40 connected to the second interface 12, and is a command for switching the state of the opening / closing unit 14 in accordance with a signal 13c indicating an erroneous connection. A control signal 16a is generated. In parallel with the operation of the control unit 16, when an external power supply is connected to the first interface 11, the erroneous connection detection preventing unit 13 sends an erroneous connection signal 13 b to the opening / closing unit 14. A signal 13 c shown is sent to the control unit 16. When both the control signal 16a and the signal 13b indicating an erroneous connection are received, the opening / closing unit 14 preferentially maintains the open state with the signal 13b indicating an incorrect connection.

  In this way, the control unit 16 attempts to switch the state of the opening / closing unit 14 from the open state to the closed state by outputting the control signal 16a to the opening / closing unit 14. Thereby, if the external power supply is not connected to the first interface 11, the first interface 11 and the internal circuit 20 are electrically connected.

  In addition, when the external power supply 40 is disconnected from the second interface 12, the control unit 16 cannot generate the control signal 16a. In this case, the control unit 16 switches the state of the opening / closing unit 14 from the closed state to the open state. As a result, the first interface 11 and the internal circuit 20 are electrically separated.

  Therefore, the erroneous connection prevention device 10A can prevent damage to the internal circuit 20 because the output voltage is not applied to the internal circuit 20 when the external power supply 40 is erroneously connected to the first interface 11. . Further, the erroneous connection prevention device 10A prevents damage to the internal circuit 20 because no output voltage is applied to the internal circuit 20 even when an external power supply other than the external power supply 40 is mistakenly connected to the first interface 11. Can be prevented.

  In addition, in 2nd Embodiment, although the control part 16 is provided with 10 A of misconnection prevention apparatuses, the internal circuit 20 of 1 A of monitoring apparatuses may be provided, for example. In this case, for example, the control unit 16 generates the control signal 16a when the internal circuit 20 of the monitoring device 1A receives power from the external power source connected to the second interface 12, and the control signal 16a is transmitted to the opening / closing unit 14. Can be configured to output. The control unit 16 may have a function of determining the value of the output voltage of the external power supply 40. In this case, for example, when the value of the output voltage of the external power supply 40 is in a predetermined range, the control unit 16 generates the control signal 16a and outputs the control signal 16a to the opening / closing unit 14. Can be configured.

  Further, the control unit 16 may have a function of respectively determining output voltage values applied to the first interface 11 and the second interface 12. In this case, for example, the control unit 16 determines that the output voltage value applied to the first interface is within a predetermined value range even if the output voltage value of the external power supply 40 is within a predetermined range. If it is outside, the control signal 16a is not generated, and the control signal 16a is not output to the opening / closing unit 14, so that the opening / closing unit 14 is maintained open.

[Operation of Second Embodiment]
(Operation of control unit 16)
Next, the operation flow of the control unit 16 will be described. FIG. 6 is a flowchart showing an operation flow of the control unit 16.

  First, when an external power source is connected to the second interface 12, the control unit 16 receives power necessary for operation from the external power source (step S201).

  Next, the control part 16 produces | generates the control signal 16a which is a command which switches the state of the opening-and-closing part 14 from an open state to a closed state, if the signal 13c which shows an incorrect connection is not received (step S202).

  Subsequently, when the control signal 16 is generated, the control unit 16 tries to switch the state of the opening / closing unit 14 from the open state to the closed state by outputting the control signal 16a to the opening / closing unit 14 (step S203).

  Then, when the external power source is disconnected from the second interface 12, the control unit 16 cannot receive the power necessary for the operation and ends the operation (step S204).

  When the control unit 16 is not operated, the control signal 16a is not supplied to the opening / closing unit 14, and the state of the opening / closing unit 14 is switched from the closed state to the open state.

  Part or all of the above embodiments can be described as in the following supplementary notes. Note that the following supplementary notes do not limit the present invention.

[Appendix 1]
An erroneous connection prevention device connected to an internal circuit of an electronic device,
One or more first interfaces to which external devices are to be connected;
A second interface to which an external power supply is to be connected;
An erroneous connection detection preventing unit that outputs a signal indicating an erroneous connection when connected to the first interface and an external power source is connected to the first interface;
Provided in a path connecting the first interface and the internal circuit, and is open when no external power source is connected to the second interface, and when an external power source is connected to the second interface An open / close unit that switches from an open state to a closed state and maintains an open state even when the external power source is connected to the second interface when receiving a signal indicating the erroneous connection.
Incorrect connection prevention device.

[Appendix 2]
The erroneous connection prevention device according to appendix 1, wherein the erroneous connection detection prevention unit operates a circuit element that maintains an open state with electric power obtained from an external power supply erroneously connected to the first interface.

[Appendix 3]
When connected to the second interface and an external power source is connected to the second interface, the state of the opening / closing part is switched from the open state to the closed state, and when the signal indicating the erroneous connection is received, The erroneous connection prevention device according to appendix 1 or 2, further comprising a control unit that maintains the state of the open / close unit in an open state even when the external power source is connected to the second interface.

[Appendix 4]
The control unit determines an output voltage value applied to the first interface and an output voltage value of an external power source connected to the second interface, and outputs applied to the first interface. When the voltage value is outside the range of the predetermined value, the open state of the opening / closing part is maintained even if the output voltage value of the external power source connected to the second interface is within the range of the predetermined value. The erroneous connection prevention device according to attachment 3.

[Appendix 5]
5. The erroneous connection prevention device according to claim 1, wherein the erroneous connection detection prevention unit includes a protection circuit that isolates the first interface system and the second interface system from each other.

[Appendix 6]
A method for preventing erroneous connection to an internal circuit of an electronic device,
A signal indicating an erroneous connection is output when an external power source is connected to at least one of the one or more first interfaces to which the external device is to be connected;
When an external power supply is connected to the second interface to which an external power supply is to be connected, the state of the open / close section provided in the path connecting the first interface and the internal circuit of the electronic device is switched from the open state to the closed state. on the other hand,
When the external power supply is connected to the second interface when the signal indicating the erroneous connection is received, the open / close portion is maintained in an open state.
Incorrect connection prevention method.

[Appendix 7]
When an external power source is connected to the first interface, a signal indicating the erroneous connection is obtained by a circuit element that operates using a voltage applied by the external power source as a power source, and the open state of the switch is maintained. The misconnection prevention method according to appendix 6.

[Appendix 8]
By controller
Monitoring whether an external power source is connected to the first interface based on a signal indicating the erroneous connection, and monitoring whether the external power source is connected to the second interface;
When an external power source is connected to the second interface, if an external power source is not connected to the first interface, the path connecting the first interface and the internal circuit is switched from an open state to a closed state.
Switching the state of the opening / closing part from a closed state to an open state when an external power source is disconnected from the second interface;
The erroneous connection prevention method according to appendix 6 or 7.

[Appendix 9]
The controller is
Monitoring an output voltage value applied to the first interface and an output voltage value of the external power source connected to the second interface,
When the output voltage value applied to the first interface exceeds a predetermined value, the opening / closing is performed even if the output voltage value of the external power source connected to the second interface exceeds a predetermined value. Keep the part open,
The method for preventing erroneous connection according to appendix 8.

[Appendix 10]
The signals indicating the erroneous connection are generated as separate signals indicating the erroneous connection, wherein the system of the first interface and the system of the second interface are isolated from each other by a protection circuit. The erroneous connection prevention method according to any one of the above items.

DESCRIPTION OF SYMBOLS 1,1A ... Monitoring apparatus 10, 10A ... Misconnection prevention apparatus 11 ... 1st interface 12 ... 2nd interface 13 ... Misconnection detection prevention part 14 ... Opening / closing part 15 ... notification unit 16 ... control unit 20 ... internal circuit 111 ... A1 terminal 112 ... COMMON terminal 121 ... input terminal 122 ... GND terminal 123 ... voltage conversion unit 131- ..A1 wiring 132 ... COMMON wiring 133 ... Diode bridge 134 ... Protection circuit 141 ... Relay 142 ... Switch 13a, 13b, 13c ... Signal indicating incorrect connection 16a ... Control signal

Claims (10)

An erroneous connection prevention device connected to an internal circuit of an electronic device,
One or more first interfaces to which an external device is connected , connected to a signal line connected to the internal circuit ;
A second interface to which an external power supply is connected , connected to a power supply line connected to the internal circuit ;
An erroneous connection detection preventing unit that outputs a signal indicating an erroneous connection when connected to the first interface and an external power source is connected to the first interface;
Provided in a path serving as a signal line connecting the first interface and the internal circuit;
When no external power source is connected to the second interface,
When an external power source is connected to the second interface, the open state is switched to the closed state,
Even if an external power supply is connected to the second interface when an external power supply is connected to the first interface and a signal indicating the erroneous connection sent by the erroneous connection detection preventing unit is received. Maintain state,
An opening and closing part;
Equipped with a,
Even if an external power supply is correctly connected to the second interface and power is supplied to the internal circuit of the electronic device via a power supply line, an external power supply is connected to the one or more first interfaces. An erroneous connection prevention device that cuts off the connection between the signal line connected to the internal circuit of the electronic device and the one or more first interfaces . The erroneous connection detection preventing unit is
Operating a circuit element that maintains an open state with power obtained from an external power supply that is misconnected to the first interface;
The erroneous connection preventing apparatus according to claim 1. When the external interface is connected to the second interface and an external power source is connected to the second interface, the state of the opening / closing part is switched from the open state to the closed state,
A control unit that maintains a state of the opening / closing unit in an open state even when the external power source is connected to the second interface when receiving a signal indicating the erroneous connection;
The erroneous connection prevention device according to claim 1 or 2. The controller is
Determining an output voltage value applied to the first interface and an output voltage value of an external power source connected to the second interface;
When the output voltage value applied to the first interface is outside the predetermined value range, the output voltage value of the external power source connected to the second interface is within the predetermined value range. Maintaining the open state of the opening and closing part,
The erroneous connection preventing apparatus according to claim 3. The erroneous connection detection preventing unit is
A protection circuit that isolates the first interface system and the second interface system from each other;
The erroneous connection preventing apparatus according to any one of claims 1 to 4. A method for preventing erroneous connection to an internal circuit of an electronic device,
When an external power supply is connected to at least one of one or more first interfaces to which an external device is connected , which is connected to a signal line connected to the internal circuit , a signal indicating an erroneous connection is output. ,
A signal line connecting the first interface and the internal circuit of the electronic device when an external power supply is connected to a second interface to which an external power supply is connected , connected to a power supply line connected to the internal circuit While switching the state of the opening and closing part provided in the path to be from the open state to the closed state,
Even if the external power source is connected to the first interface and the external power source is connected to the second interface when a signal indicating the erroneous connection sent by the erroneous connection detection preventing unit is received. Maintaining the open state of the opening and closing unit ,
Even if an external power supply is correctly connected to the second interface and power is supplied to the internal circuit of the electronic device via a power supply line, an external power supply is connected to the one or more first interfaces. An erroneous connection prevention method for disconnecting a connection between a signal line connected to the internal circuit of the electronic device and the one or more first interfaces . When an external power source is connected to the first interface, a signal indicating the erroneous connection is obtained by a circuit element that operates using a voltage applied by the external power source as a power source, and the open state of the switch is maintained. ,
The erroneous connection prevention method according to claim 6. By controller
Monitoring whether an external power source is connected to the first interface based on a signal indicating the erroneous connection, and monitoring whether the external power source is connected to the second interface;
When an external power source is connected to the second interface, if an external power source is not connected to the first interface, the path connecting the first interface and the internal circuit is switched from an open state to a closed state.
Switching the state of the opening / closing part from a closed state to an open state when an external power source is disconnected from the second interface;
The method for preventing erroneous connection according to claim 6 or 7. The controller is
Monitoring an output voltage value applied to the first interface and an output voltage value of the external power source connected to the second interface,
When the output voltage value applied to the first interface exceeds a predetermined value, the opening / closing is performed even if the output voltage value of the external power source connected to the second interface exceeds a predetermined value. Keep the part open,
The erroneous connection preventing method according to claim 8. The signal indicating the erroneous connection is
Generated by the protection circuit as a signal indicating the misconnection separated from the system of the first interface and the system of the second interface.
The method for preventing erroneous connection according to any one of claims 6 to 9.

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