JP2015207155A - Electronic apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electronic apparatus capable of detecting a connection of an electronic apparatus by using an existing terminal.SOLUTION: The electronic apparatus includes: a changeover section that switches connection/non-connection across a ground line connected to a terminal to which an electronic apparatus is connectable and the ground of the electronic apparatus; a pull-up section that pulls the voltage level of the terminal to a high level when the ground line and the ground are in non-connection state; and a detection section that detects that the electronic apparatus is connected to the terminal when the voltage level of the ground line changes from the high level to the low level.

Description

  The present invention relates to an electronic device.

  There is a method of charging an electronic device such as a portable device connected to the electronic device after turning on an electronic device such as a personal computer. There is also a method of charging an electronic device connected to the electronic device while the main power supply of the electronic device is off. Even when the main power supply of the electronic device is off, power for charging the electronic device is always output, and thus the standby power of the electronic device is large.

  When an electronic device is connected to the electronic device with the main power supply of the electronic device turned off, a charging IC (Integrated Circuit) of the electronic device detects the connection between the electronic device and the electronic device, There is a method of outputting electric power for charging an electronic device. In this method, the charging IC detects a weak leak current flowing on the electronic device side, thereby recognizing that the electronic device is connected to the electronic device, and the electronic device is charged with power for charging the electronic device. Is output.

JP-A-7-29554 JP 2011-108439 A

  Depending on the type of electronic device, the leakage current flowing on the electronic device side is small, so the charging IC may not be able to detect the connection of the electronic device. Moreover, if the detection threshold value of the leak current flowing on the electronic device side is lowered too much, the charging IC erroneously detects that the electronic device is connected to the electronic device even though the electronic device is not connected to the electronic device. There is a case. When the electronic device detects the connection of the electronic device using the dedicated terminal, a dedicated terminal is newly provided in the electronic device.

  This case provides a technique in which an electronic device detects connection of an electronic device using an existing terminal.

The electronic device according to this aspect is
A switching unit that switches connection and disconnection between the ground line connected to the terminal to which the electronic device can be connected and the ground of the electronic device;
When the ground line and the ground are not connected, a pull-up unit that pulls up the voltage level of the terminal to a high level;
And a detection unit that detects that the electronic device is connected to the terminal when the voltage level of the ground line changes from a high level to a low level.

  According to this case, the electronic device can detect the connection of the electronic device using the existing terminal.

It is a block diagram of an electronic device and an electronic device. It is a block diagram of an electronic device and an electronic device. It is a figure which shows the state of the power supply line of an electronic device, a signal line, a switch, and a ground line in time series. It is a block diagram of an electronic device and an electronic device.

  Hereinafter, embodiments will be described with reference to the drawings. The configuration of the embodiment is an exemplification, and the configuration of the electronic device is not limited to the configuration of the embodiment. In implementing the configuration of the electronic device, a specific configuration according to the embodiment may be adopted as appropriate.

  1 and 2 are configuration diagrams of the electronic device 1 and the electronic device 2. The electronic device 1 is a computer device such as a personal computer and a server, for example. The electronic device 2 is a computer device such as a mobile phone or a smartphone.

The electronic device 1 includes a USB (Universal Serial Bus) port connector 101, a power supply unit 102, a USB charging IC 103, a PCH (Platform Control Hub) 104, and a microcontroller (power supply control unit) 105. The electronic device 1 includes a CPU (Central Processing Unit) 106, a memory 107, a display unit 108, a storage unit 109, and a BIOS ROM.
(Basic Input Output System Read Only Memory) 110, a switch 111, and an LDO (Low Drop Out) 112 are provided.

  The USB port connector 101 has signal terminals 121 and 122, a power supply terminal 123, and a ground terminal 124. For example, the signal terminal 121 is the data terminal D +, and the signal terminal 122 is the data terminal D−. The USB port connector 101 has a frame ground 125 that shields noise. The frame ground 125 is a frame formed of a conductor. The frame ground 125 is connected to the ground (GND) 131 of the electronic device 1 through the wiring 126. The ground 131 of the electronic device 1 is, for example, a ground of a housing included in the electronic device 1 or a ground of a substrate included in the electronic device 1.

  The power supply unit 102 outputs (supplies) power to the electronic device 1 and the electronic device 2. The power supply unit 102 is, for example, a switching regulator (DC-DC converter). The electronic unit 102 is an example of an output unit. The power supply unit 102 converts the input voltage into a predetermined voltage and outputs it by repeating ON and OFF of the switching element.

  The USB charging IC 103 is set with a charging mode and a non-charging mode. When the charging mode is set in the USB charging IC 103, power is supplied from the power supply unit 102 to the electronic device 2 when the main power supply of the electronic apparatus 1 is turned off. When the non-charging mode is set in the USB charging IC 103, power is not supplied from the power supply unit 102 to the electronic device 2 when the main power supply of the electronic device 1 is off.

  The PCH 104 is a chip set. The PCH 104 is also referred to as a south bridge. The PCH 104 includes a GPIO (General Purpose Input Output) controller 141 and a USB controller 142. The GPIO controller 141 controls peripheral devices and the like. The GPIO controller 141 sets the charging mode or the non-charging mode for the USB charging IC 103. The USB controller 142 controls USB communication.

The electronic device 1 includes signal lines 151 and 152, a power supply line 153, and a ground line 154. The signal lines 151 and 152 are connected to the USB port connector 101 and the USB controller 142 via the USB charging IC 103. The signal line 151 is connected to the USB charging IC 1
03 and the signal terminal 121 are connected to each other. The signal line 152 connects the USB charging IC 103 and the signal terminal 122 to each other.

  The power line 153 is connected to the power unit 102 and the USB port connector 101 via the USB charging IC 103. The power line 153 connects the power unit 102 and the USB charging IC 103 to each other. The power line 153 connects the USB charging IC 103 and the power terminal 123 to each other.

  The ground line 154 is connected to the USB port connector 101. More specifically, the ground line 154 is connected to the ground terminal 124. The ground line 154 is provided with a switch 111 and an LDO (linear regulator) 112. The switch 111 switches connection and disconnection between the ground 131 and the ground line 154. The switch 111 is an example of a switching unit. The switch 111 is turned on or off according to a control signal from the microcontroller 105. When the switch 111 is turned on, the ground line 154 is connected to the ground 131. When the switch 111 is turned off, the ground 131 and the ground line 154 are disconnected.

  The LDO 112 converts the input voltage into a predetermined voltage and outputs it. The LDO 112 pulls up the voltage level (potential) of the ground line 154 to the high level (first predetermined voltage) via the resistor 161. The LDO 112 and the resistor 161 are an example of a pull-up unit. When the switch 111 is in the ON state, the ground line 154 is connected to the ground 131, so that the voltage level of the ground line 154 becomes the Low level (second predetermined voltage, ground voltage). When the switch 111 is in an off state, the ground line 154 and the ground 131 are not connected. Since the ground line 154 is pulled up, the voltage level of the ground line 154 becomes a high level.

  The microcontroller 105 is electrically connected to the power supply unit 102, the USB charging IC 103, and the switch 111. The microcontroller 105 sends control signals to the power supply unit 102, the USB charging IC 103, and the switch 111, and controls the operations of the power supply unit 102, the USB charging IC 103, and the switch 111. A wiring 162 is provided on the ground line 154. The wiring 162 is connected to the microcontroller 105. A voltage level signal of the ground line 154 is input to the microcontroller 105 through the wiring 162.

  The CPU 106 executes various processes according to various programs stored in the memory 107. The memory 107 stores programs and data used in the electronic device 1. The memory 107 is, for example, a ROM (Read Only Memory) and a RAM (Random Access Memory). The display unit 108 is, for example, a CRT (Cathode Ray Tube), a liquid crystal display, a plasma display, and an organic EL (electroluminescence) display.

The storage unit 109 stores a plurality of programs and data used by the CPU 106 when executing each program. The storage unit 109 is, for example, EP (Erasable Programmable) R
OM and hard disk drive. BIOS ROM110
Stores the BIOS program.

  The electronic device 2 includes a USB port connector 201, a USB controller 202, and a battery (secondary battery) 203. The USB port connector 201 has signal terminals 211 and 212, a power supply terminal 213, and a ground terminal 214. For example, the signal terminal 211 is the data terminal D +, and the signal terminal 212 is the data terminal D−.

  The USB port connector 201 has a frame ground 215 that shields noise. The frame ground 215 is a frame formed of a conductor. The frame ground 215 is connected to the ground 221 of the electronic device 2 via the wiring 216. The ground 221 of the electronic device 2 is, for example, a ground of a casing included in the electronic device 2 or a ground of a substrate included in the electronic device 2. The USB controller 202 controls USB communication. The battery 203 charges power supplied from the electronic device 1 to the electronic device 2. The battery 203 outputs (supplies) the charged power to the electronic device 2.

  The electronic device 2 includes signal lines 231 and 232, a power supply line 233, and a ground line 234. The signal line 231 connects the USB controller 202 and the signal terminal 211 to each other. The signal line 232 connects the USB controller 202 and the signal terminal 212 to each other.

  The power line 233 is connected to the battery 203 and the power terminal 213 via the USB controller 202. The power supply line 233 connects the USB controller 202 and the battery 203 to each other, and connects the USB controller 202 and the power supply terminal 213 to each other. Since the ground line 234 is connected to the ground (GND) 221 of the electronic device 2, the voltage level of the ground line 234 becomes a low level (ground potential).

  A resistor 241 is provided between the signal line 232 and the power supply line 233. When electric power is supplied to the electronic device 2 via the power line 233, the voltage level of the signal line 232 is pulled up to a high level (third predetermined voltage) via the resistor 241. A resistor 241 may be provided between the signal line 231 and the power supply line 233. By supplying power to the electronic device 2 via the power line 233, the voltage level of the signal line 231 is pulled up to a high level (third predetermined voltage) via the resistor 241.

<Description when the main power supply of the electronic apparatus 1 is on>
A case where the main power supply of the electronic apparatus 1 is turned on will be described. The microcontroller 105 sends control signals to the power supply unit 102 and the switch 111. When the microcontroller 105 sends a control signal to the power supply unit 102, the output of the power supply unit 102 becomes valid. That is, the microcontroller 105 controls the operation of the power supply unit 102 so that the output of the power supply unit 102 becomes valid. The power supply unit 102 outputs (supplies) power to the electronic device 1. Power is supplied from the power supply unit 102 to the USB port connector 101 via the USB charging IC 103 and the power supply line 153. When the microcontroller 105 sends a control signal to the switch 111, the switch 111 is turned on. That is, the microcontroller 105 controls the operation of the switch 111 so that the switch 111 is turned on. The switch 111 is turned on, and the ground line 154 is connected to the ground 131.

<Description when Main Power of Electronic Device 1 is Off (1)>
A case where the main power supply of the electronic apparatus 1 is off and the electronic apparatus 2 is not connected to the electronic apparatus 1 will be described. When the microcontroller 105 sends a control signal to the power supply unit 102, the output of the power supply unit 102 becomes invalid. The power supply unit 102 stops supplying power to the electronic device 1. When the supply of power from the power supply unit 102 to the electronic device 1 is stopped, standby power of the electronic device 1 is reduced. A power supply unit (not shown) supplies power to the microcontroller 105. A battery (not shown) may supply power to the microcontroller 105. Since the power supplied to the microcontroller 105 is small, the standby power of the electronic device 1 is lower than when the power supply unit 102 is enabled and power is supplied to the electronic device 1.

When the microcontroller 105 sends a control signal to the switch 111, the switch 111 is turned off. When the switch 111 is turned off, the ground line 154 and the ground 131 are disconnected. Since the ground line 154 is pulled up, the voltage level of the ground line 154 becomes a high level.

A voltage level signal of the ground line 154 is input to the microcontroller 105 through the wiring 162. Therefore, the microcontroller 105 monitors the voltage level of the ground line 154 via the wiring 162.
<Description when Main Power of Electronic Device 1 is Off (2)>
The case where the main power supply of the electronic device 1 is off and the electronic device 2 is connected to the electronic device 1 will be described. FIG. 2 is an explanatory diagram when the electronic apparatus 2 is connected to the electronic apparatus 1. As shown in FIG. 2, the USB port connector 101 of the electronic device 1 and the USB port connector 201 of the electronic device 2 are connected via the USB cable 3.

  The USB cable 3 has signal lines 301 and 302, a power supply line 303 and a ground line 304. By connecting the signal terminal 121 of the electronic device 1 and the signal terminal 211 of the electronic device 2 via the signal line 301 of the USB cable 3, the signal line 151 of the electronic device 1 and the signal line 231 of the electronic device 2 are connected. Are electrically connected. By connecting the signal terminal 122 of the electronic device 1 and the signal terminal 212 of the electronic device 2 via the signal line 302 of the USB cable 3, the signal line 152 of the electronic device 1 and the signal line 232 of the electronic device 2 are connected. Are electrically connected.

  By connecting the power supply terminal 123 of the electronic device 1 and the power supply terminal 213 of the electronic device 2 via the power supply line 303 of the USB cable 3, the power supply line 153 of the electronic device 1 and the power supply line 233 of the electronic device 2 are connected. Are electrically connected. By connecting the ground terminal 124 of the electronic apparatus 1 and the ground terminal 214 of the electronic apparatus 2 via the ground line 304 of the USB cable 3, the ground line 154 of the electronic apparatus 1 and the ground line 234 of the electronic apparatus 2 are connected. Are electrically connected.

  FIG. 2 shows an example in which the USB port connector 101 of the electronic device 1 and the USB port connector 201 of the electronic device 2 are connected via the USB cable 3. The USB port connector 101 of the electronic device 1 and the USB port connector 201 of the electronic device 2 may be directly connected without being limited to the example illustrated in FIG. The signal terminal 121 of the electronic device 1 and the signal terminal 211 of the electronic device 2 may be directly connected. The signal terminal 122 of the electronic device 1 and the signal terminal 212 of the electronic device 2 may be directly connected. The power supply terminal 123 of the electronic device 1 and the power supply terminal 213 of the electronic device 2 may be directly connected. The ground terminal 124 of the electronic device 1 and the ground terminal 214 of the electronic device 2 may be directly connected. As described above, the signal terminals 121 and 122, the power supply terminal 123, and the ground terminal 124 of the electronic device 1 can be connected to the electronic device 2.

  Since the voltage level of the ground line 234 of the electronic apparatus 2 is low, the ground line 154 of the electronic apparatus 1 and the ground line 234 of the electronic apparatus 2 are electrically connected to each other, whereby the ground line 154 of the electronic apparatus 1 is electrically connected. The voltage level of becomes low level. Since a low level signal is input to the microcontroller 105, the microcontroller 105 detects a change in the voltage level of the ground line 154. When the voltage level of the ground line 154 changes from the High level to the Low level, the microcontroller 105 detects the connection between the ground terminal 124 of the electronic device 1 and the ground terminal 214 of the electronic device 2. That is, the microcontroller 105 detects that the electronic device 2 is connected to the ground terminal 124 of the electronic device 1. The microcontroller 105 is an example of a detection unit.

When the voltage level of the ground line 154 changes from the Low level to the High level, the microcontroller 105 sends a control signal to the power supply unit 102, the USB charging IC 103, and the switch 111. When the microcontroller 105 sends a control signal to the switch 111, the switch 111 is turned on. That is, the microcontroller 105 controls the operation of the switch 111 so that the switch 111 is turned on. The switch 111 is turned on, and the ground line 154 is connected to the ground 131.

  When the microcontroller 105 sends a control signal to the power supply unit 102, the output of the power supply unit 102 becomes valid. That is, the microcontroller 105 controls the operation of the power supply unit 102 so that the output of the power supply unit 102 becomes valid. The output of the power supply unit 102 becomes valid, and the power supply unit 102 supplies power to the USB charging IC 103. In this case, the power supply unit 102 does not supply power to devices other than the USB charging IC 103.

  When the microcontroller 105 sends a control signal to the USB charging IC 103, the charging mode set in the USB charging IC 103 becomes active. That is, the microcontroller 105 controls the operation of the USB charging IC 103 so that the USB charging IC 103 operates in the charging mode. Power is supplied from the power supply unit 102 to the USB port connector 101 via the USB charging IC 103 and the power supply line 153. Power is supplied from the power supply unit 102 to the electronic device 2 via the USB port connectors 101 and 201.

  When electric power is supplied to the electronic device 2 via the power line 233, the voltage level of the signal line 232 is pulled up to a high level (third predetermined voltage) via the resistor 241. When the USB controller 202 starts charging the battery 203, power is supplied to the battery 203 and the battery 203 is charged.

  The signal terminal 122 of the electronic device 1 and the signal terminal 212 of the electronic device 2 are connected. Since the voltage level of the signal line 232 of the electronic device 2 is pulled up to the high level (third predetermined voltage), the voltage level of the signal line 152 of the electronic device 1 becomes the high level (third predetermined voltage).

<Explanation when Main Power of Electronic Device 1 is Off (3)>
A case where the main power supply of the electronic device 1 is off and the electronic device 1 and the electronic device 2 are disconnected will be described. After the charging of the battery 203 is completed, the USB port connector 101 and the USB port connector 201 are disconnected, whereby the electronic device 1 and the electronic device 2 are disconnected. Further, before the charging of the battery 203 is completed, the USB port connector 101 and the USB port connector 201 are disconnected, whereby the electronic device 1 and the electronic device 2 are disconnected. When the electronic device 1 and the electronic device 2 are disconnected, the electronic device 1 and the electronic device 2 are in the state shown in FIG.

  Since the switch 111 is in an on state and the ground line 154 is connected to the ground 131, the voltage level of the ground line 154 is low. The signal terminal 122 of the electronic device 1 and the signal terminal 212 of the electronic device 2 are not connected. Therefore, the voltage level of the signal line 152 of the electronic device 1 falls from the High level (third predetermined voltage) to the Low level (fourth predetermined voltage). A signal having a voltage level of the signal line 152 is input to the microcontroller 105 via the USB charging IC 103.

The microcontroller 105 detects that the voltage level of the signal line 152 has changed from the high level (third predetermined voltage) to the low level (fourth predetermined voltage). Thereby, the microcontroller 105 detects that the USB port connector 101 and the USB port connector 201 are disconnected. In other words, the microcontroller 105 detects that the electronic device 1 and the electronic device 2 are disconnected.

  The microcontroller 105 sends control signals for the power supply unit 102, the USB charging IC 103, and the switch 111. When the microcontroller 105 sends a control signal to the switch 111, the switch 111 is turned off. That is, the microcontroller 105 controls the operation of the switch 111 so that the switch 111 is turned off.

  When the microcontroller 105 sends a control signal to the power supply unit 102, the output of the power supply unit 102 becomes invalid. That is, the microcontroller 105 controls the operation of the power supply unit 102 so that the output of the power supply unit 102 becomes invalid. The power supply unit 102 stops supplying power to the USB charging IC 103. When the supply of power to the USB charging IC 103 is stopped, the standby power of the electronic device 1 is reduced.

  When the microcontroller 105 sends a control signal to the USB charging IC 103, the charging mode set in the USB charging IC 103 is canceled. That is, the microcontroller 105 controls the operation of the USB charging IC 103 so that the charging mode set in the USB charging IC 103 is released.

  FIG. 3 is a diagram showing the states of the power supply line 153, the signal line 152, the switch 111, and the ground line 154 of the electronic apparatus 1 in time series. FIG. 3A shows the voltage level state of the power supply line 153 of the electronic device 1 in time series. FIG. 3B shows the state of the voltage level of the signal line 152 of the electronic device 1 in time series. FIG. 3C shows the on / off state of the switch 111 in time series. 3D shows the voltage level state of the ground line 154 of the electronic device 1 in time series.

  (1) in FIG. 3 shows a period in which the main power supply of the electronic device 1 is on and the electronic device 2 is connected to the electronic device 1. Since the output of the power supply unit 102 is valid, the voltage level of the power supply line 153 of the electronic device 1 is the high level. Since communication is performed between the electronic device 1 and the electronic device 2, the voltage level of the signal line 152 of the electronic device 1 is alternately repeated between a high level and a low level. Since the switch 111 is in the on state and the ground line 154 of the electronic device 1 is connected to the ground 131, the voltage level of the ground line 154 of the electronic device 1 is the low level (second predetermined voltage, ground voltage).

  (2) in FIG. 3 shows a period in which the main power supply of the electronic device 1 is on and the electronic device 2 is not connected to the electronic device 1. Since the output of the power supply unit 102 is valid, the voltage level of the power supply line 153 of the electronic device 1 is the high level. Since the signal terminal 122 of the electronic device 1 and the signal terminal 212 of the electronic device 2 are not connected, the voltage level of the signal line 152 of the electronic device 1 is the Low level (fourth predetermined voltage). Since the switch 111 is in the on state and the ground line 154 of the electronic device 1 is connected to the ground 131, the voltage level of the ground line 154 of the electronic device 1 is the low level (second predetermined voltage, ground voltage).

(3) in FIG. 3 shows a period in which the main power supply of the electronic device 1 is off and the electronic device 2 is not connected to the electronic device 1. Since the output of the power supply unit 102 is invalid, the voltage level of the power supply line 153 of the electronic apparatus 1 is the Low level. Since the signal terminal 122 of the electronic device 1 and the signal terminal 212 of the electronic device 2 are not connected, the voltage level of the signal line 152 of the electronic device 1 is the Low level (fourth predetermined voltage). The switch 111 is in an off state, and the ground line 154 and the ground 131 of the electronic device 1 are not connected. Since the ground line 154 of the electronic apparatus 1 is pulled up, the ground line 15 of the electronic apparatus 1 is pulled up.
The voltage level 4 is a high level (first predetermined voltage).

  (4) in FIG. 3 shows a period in which the main power supply of the electronic device 1 is off and the electronic device 2 is connected to the electronic device 1. Since the output of the power supply unit 102 is valid, the voltage level of the power supply line 153 of the electronic device 1 is the high level. The signal terminal 122 of the electronic device 1 and the signal terminal 212 of the electronic device 2 are connected, and the voltage level of the signal line 232 of the electronic device 2 is pulled up to a high level (third predetermined voltage). Therefore, the voltage level of the signal line 152 of the electronic device 1 is a high level (third predetermined voltage). Since the switch 111 is in the on state and the ground line 154 of the electronic device 1 is connected to the ground 131, the voltage level of the ground line 154 of the electronic device 1 is the low level (second predetermined voltage, ground voltage).

  FIG. 3 (5) shows a state in which the main power of the electronic device 1 is off and the electronic device 1 and the electronic device 2 are disconnected after the electronic device 2 is connected to the electronic device 1. Shows the period. Since the output of the power supply unit 102 is invalid, the voltage level of the power supply line 153 of the electronic apparatus 1 is the Low level. Since the signal terminal 122 of the electronic device 1 and the signal terminal 212 of the electronic device 2 are not connected, the voltage level of the signal line 152 of the electronic device 1 is the Low level (fourth predetermined voltage). The switch 111 is in an off state, and the ground line 154 and the ground 131 of the electronic device 1 are not connected. Since the ground line 154 of the electronic device 1 is pulled up, the voltage level of the ground line 154 of the electronic device 1 is the high level (first predetermined voltage).

Although the example in which the electronic device 1 is a computer device such as a personal computer and a server has been shown, the electronic device 1 may be a computer device such as a mobile phone or a smartphone that supplies power to the electronic device 2. The electronic device 1 may be a charger that supplies power to the electronic device 2. The interface for connecting the electronic apparatus 1 and the electronic device 2 is not limited to the USB standard, and for example, IEEE (Institute of Electrical and Electronics Engineers) 139
It may be a 4 standard interface.

  FIG. 4 is a configuration diagram of the conventional electronic device 4 and electronic device 2. The electronic device 4 does not include the switch 111, the LDO 112, the resistor 161, and the wiring 162. Other components in the electronic device 4 are the same as those in the electronic device 1. By providing the electronic device 1 with the switch 111, the LDO 112, the resistor 161, and the wiring 162, the electronic device 1 can detect the connection of the electronic device 2 using the existing terminals.

  When the electronic device 1 and the electronic device 2 are not connected, the standby power of the electronic device 1 can be suppressed by invalidating the output of the power supply unit 102. The microcontroller 105 detects the connection between the electronic device 1 and the electronic device 2 based on the change in the voltage level of the ground line 154. Therefore, it is possible to detect the connection between the electronic device 1 and the electronic device 2 with higher accuracy than in the case of detecting the leakage current flowing on the electronic device 2 side. In addition, the connection between the electronic device 1 and the electronic device 2 can be detected with high accuracy without being affected by noise derived on the electronic device 2 side.

1 Electronic Device 2 Electronic Device 3 USB Cable 101 USB Port Connector 102 Power Supply Unit 103 USB Charging IC
104 PCH
105 Microcontroller 111 Switch 112 LDO
121, 122 Signal terminal 123 Power terminal 124 Ground terminal 125 Frame ground 126 Wiring 131 Ground 151, 152 Signal line 153 Power line 154 Ground line 161 Resistance 162 Wiring 201 USB port connector 202 USB controller 203 Battery 211, 212 Signal terminal 213 Power terminal 214 Ground terminal 215 Frame ground 216 Wiring 221 Ground 231, 232 Signal line 233 Power supply line 234 Ground line 241 Resistance

Claims (2)

A switching unit that switches connection and disconnection between the ground line connected to the terminal to which the electronic device can be connected and the ground of the electronic device;
When the ground line and the ground are not connected, a pull-up unit that pulls up the voltage level of the terminal to a high level;
An electronic device comprising: a detection unit that detects that the electronic device is connected to the terminal when the voltage level of the ground line changes from a high level to a low level. An output unit that outputs power to the electronic device;
The detection unit controls the switching unit so that the ground line and the ground are connected, and controls the output unit so that electric power is output from the output unit. Electronic equipment.

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