JP2003029885A - Power supply system and electronic equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To satisfactorily realize the power source management of each equipment at the tame of using a plurality of pieces of electronic equipment respectively equipped with a battery by connecting them. SOLUTION: One and the other electronic equipment is connected through a power supply line, and the situation of each electronic equipment is monitored, and the supply of a power from one electronic equipment to the other electronic equipment, the supply of a power from the other electronic equipment to one electronic equipment through the connecting line, or the non-supply of any power is selected according to the monitored result. Also, when an external power source such as an AC power source is supplied by using the connecting line, the charging of the battery of each equipment is performed by using a power source to be supplied through the line.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply system suitable for application to, for example, a system composed of a personal computer device and its peripheral equipment, and an electronic device applied to each equipment constituting this system.

[0002]

2. Description of the Related Art Conventionally, various electronic devices, such as notebook type personal computer devices, which incorporate a battery composed of a secondary battery and operate by using a power source supplied from the battery have been put into practical use. Has been done.

On the other hand, in the case of electronic equipment such as a personal computer, peripheral equipment is often connected and used depending on the function required at that time. For example, when the personal computer device body does not have a built-in disc drive device for reading and writing optical discs and wants to use a disc such as a CD-ROM, the personal computer device body is provided with a disc drive device as a peripheral device. May be connected and used.

As described above, when connecting the personal computer main body and the peripheral equipment, a USB (Universal Se
rial bus (standard bus line) and IEEE (The Instit
uteof Electrical and Electronics Engineers) 13
Connection can be easily performed by using the 94 standard bus line. In the case of these bus lines, a power supply line is prepared in addition to the line for performing data communication, and it is also possible to supply power from the personal computer main body to peripheral equipment.

[0005]

When the personal computer device main body is simply supplied with power from the personal computer device by using the bus line as described above, for example, a battery built in the main body is supplied with power. If it is used as a means, the battery will also be used for the power supply of the peripheral device, and if the power consumption of the peripheral device is relatively large, the duration of the battery built in the computer device main body will become short. There is a problem that it can only be used for a short time.

Therefore, in the case of a peripheral device which consumes a relatively large amount of power, the peripheral device is also provided with a battery as a power supply means so that the peripheral device is supplied with power from the computer main body. I am trying to operate without.

However, when the battery is built in each of the computer device and the peripheral device, the respective devices manage the power supply in a completely non-interlocked manner, and the battery is built in the computer device and the peripheral device. However, when either one of the batteries runs out, there is a problem that processing using the computer device and peripheral devices cannot be performed.

Further, when charging a battery built in a computer device or its peripheral equipment, for example, a battery built-in device is referred to as an AC adapter 100.
A device for obtaining a DC low-voltage power source by rectifying and transforming a commercial AC power source such as V is connected, and the DC low-voltage power source obtained by the AC adapter is used to charge the battery. Therefore, for example, when a battery is built in each of the two devices of the main body of the personal computer device and the peripheral device and it is necessary to charge the batteries built in both devices,
It is necessary to connect an AC adapter to each device,
There was a problem that it took time to charge.

Although the problem in using the personal computer device and its peripheral devices has been described here, there is a similar problem in connecting and using a plurality of various battery-driven electronic devices.

An object of the present invention is to enable good power management of each device when a plurality of electronic devices each having a battery are connected and used.

[0011]

According to the present invention, when one electronic device and the other electronic device, each of which has a battery, are connected by a line capable of supplying power, the situation of each electronic device is monitored, Depending on the monitoring result, power is supplied to the connected line from one electronic device to the other electronic device, and from the other electronic device to one electronic device. The selection is made in the case of not performing.

According to the present invention, the power supply between the two devices using the connected line is performed based on the status of each electronic device.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described below with reference to the accompanying drawings.

In this example, the present invention is applied to a portable notebook type personal computer device which is relatively small in size and peripheral equipment connected to the personal computer device. That is, for example, in FIG.
As shown in FIG. 2, a notebook personal computer device 10 and a peripheral device 20 for the computer device 10 are prepared, and the computer device 10 and the peripheral device 20 are connected by a cable 30 for a bus line of a predetermined standard. It is the one. As the standard of the cable used here, for example, the USB standard and the IEEE1394 standard, the data transmission line 31 capable of bidirectional data transmission.
In addition, a power supply line 32 capable of supplying a DC low-voltage power supply (3.3 V or the like) is used.

FIG. 1 is a block diagram showing the overall configuration of the system of this example. Referring to FIG. 1, the computer device 10 includes a central control unit (CPU) 11
However, it is connected to the RAM 12, the ROM 13, the monitor 14, the input / output control unit 15, the power supply control unit 16 and the like via the internal bus. Under the control of the CPU 11, the ROM 13 and R
A monitor 1 that is configured of a liquid crystal display or the like by executing arithmetic processing based on a program stored in the AM 12
An image or the like based on the calculation result is displayed on 4.

The computer device 10 is provided with a battery 17 composed of a secondary battery as an internal power supply means, and the power supply from the battery 17 to the circuits of the respective parts in the computer device 10 is controlled by the power supply. It is controlled by the section 16. As the battery 17, for example, various secondary batteries such as a lithium ion battery, a lithium polymer battery, and a nickel hydrogen battery can be used.

In this case, the computer device 10
Connect the C adapter 18 to 100 with the AC adapter 18.
When a DC low-voltage power supply obtained by rectifying and transforming a commercial AC power supply such as V is supplied, the power supply control unit 16 uses the external power supply supplied from the AC adapter 18 instead of the built-in battery 17 as the computer device 10. It is used as a power source to operate the. When this external power is supplied, the battery 1
The power control unit 16 determines the charging status of the battery
7 is required to be charged (that is, when the battery 17 is not fully charged), an external power source is used to charge the battery 17
The power supply control unit 16 charges the battery.

In the case of this example, the power supply control section 16 controls the power supply line 32 of the cable 30 forming the bus line to supply power to the connected counterpart device. Is done. As the power source to be supplied at this time, there are a case where an external power source supplied from the AC adapter 18 is used and a case where the power source charged in the battery 17 is used.

The peripheral device 20 connected to the computer device 10 by the cable 30 is a disk drive device here. That is, the central control unit (CP
U) 21 drives the disk drive 2 via the internal bus
2, RAM 24, ROM 25, input / output control unit 26, power supply control unit 27, etc. The disc 23 mounted in the disc drive 22 under the control of the CPU 21
Writing (recording) of data to (optical disk or magneto-optical disk) and reading (reproduction) from the disk are executed. The data written on the disk 23 is transferred, for example, from the computer device 10 side through the data transmission line 31 of the cable 30. Further, the data read from the disk 23 is transferred to the computer device 10 side via the data transmission line 31 of the cable 30.

The peripheral device 20 is provided with a battery 28 composed of a secondary battery as an internal power supply means, and the power supply from the battery 28 to the circuits of the respective parts in the device 20 is controlled by the power control unit 27. It is controlled by. As the battery 28, various secondary batteries such as a lithium ion battery, a lithium polymer battery, and a nickel hydrogen battery can be used. The computer device 1
A secondary battery of a type different from the 0 side secondary battery may be used.

Further, when the AC adapter 29 is connected to the peripheral device 20 and the AC low voltage power obtained by rectifying and transforming the commercial AC power source such as 100V by the AC adapter 29 is supplied,
The power supply control unit 27 uses an external power supply supplied from the AC adapter 29 instead of the built-in battery 28.
It is used as a power source for operating the peripheral device 20. When the external power is supplied, the power control unit 27 determines the charging status of the battery 28, and when the battery 28 needs to be charged (that is, when the battery 28 is not in the fully charged state), the external power is used to charge the battery. The power supply control unit 27 charges 28.

Further, in the case of this example, the power supply control section 27 controls the power supply line 32 of the cable 30 constituting the bus line to supply power to the connected counterpart device. Is done. As the power source to be supplied at this time, there are a case where an external power source supplied from the AC adapter 29 is used and a case where a power source charged in the battery 28 is used.

The computer device 1 having such a configuration
0 and the peripheral device 20 are connected, in this example,
Data relating to power supply control is transmitted between the power supply control units 16 and 17 of the two devices 10 and 20 to manage the power supply. FIG. 3 shows two devices 10, 2
It is the figure which showed the data regarding the power supply control transmitted using the data transmission line of the cable 30 between 0.
Here, the battery 17 built in each device,
28 remaining capacity data, data of the type of power source used, estimated operating time when a battery is used, and data relating to charging such as the state of charge of the battery,
There is data on the setting status of the operation mode. The data of the type of power source used includes whether an external power source supplied from an AC adapter or the like is used, or whether a built-in battery is used as a power source. The data related to the power supply control may be transmitted, for example, at the time of initial setting of the device, when the power supply control state is changed, or periodically.

By transmitting these power control data between the connected devices, in the case of this example,
The power supply usage status of each device and the bus line 30
A power supply state or the like via the power supply line 32 of is set.

FIG. 4 is a diagram showing an example of a power feeding state in the case of this example. Explaining each power supply state,
First, as shown in FIG.
There is a case where the adapter 18 is connected and external power is supplied, and the peripheral device 20 is also connected to the AC adapter 29 and external power is supplied. When such a situation is detected by both the devices 10 and 20, no power is supplied through the power supply line 32 of the cable 30. However, although a constant bias voltage or the like may be applied to the power supply line 32, each device 10, 20
Does not use the voltage obtained via line 32 as a power source.

As shown in FIG. 4B, the AC adapter 18 is connected to the computer device 10, external power is supplied, and the peripheral device 20 is not connected to the AC adapter. When detected by 20, the computer device 10 supplies power to the peripheral device 20 through the power supply line 32 of the cable 30.

Further, as shown in FIG. 4C, the computer device 10 is not connected to the AC adapter, and the peripheral device 2
When it is detected in both devices 10 and 20 that the AC adapter 29 is connected to 0 and external power is supplied, peripheral devices are connected via the power supply line 32 of the cable 30. Power is supplied from 20 to the computer device 10.

Further, the computer device 10 and the peripheral device 2
When the AC adapter is not connected to any of the computer 0 and the peripheral device 20 from the computer device 10 via the power supply line 32 of the cable 30, as shown in FIG. 4D, depending on the situation at that time. In some cases, the peripheral device 20 supplies power to the computer apparatus 10 via the power supply line 32 of the cable 30, as shown in FIG. 4E.

Although not shown, in a situation where neither the computer device 10 nor the peripheral device 20 is connected to the AC adapter, the batteries attached to the respective devices 10 and 20 are used as a power source and a cable is used. In some cases, power supply using the power supply line 32 of 30 is not performed.

The flow chart of FIG. 5 shows the setting process of the power supply state when power is supplied through the bus line 30 as shown in FIG. In this flowchart, the computer device 10 is shown as a set A and the peripheral device 20 is shown as a set B. First, step 10
In 1, the set A (computer device 10) determines whether or not it is operating using an external power source (that is, a power source from an AC adapter). If it is determined that the external power supply is in use, the process proceeds to step 102,
It is determined whether the set B (peripheral device 20) is also operating using the external power supply. With this judgment, set B
4A, when it is determined that the external power supply is in use, the power supply via the bus line 30 is not executed and the state shown in FIG. 4A is obtained. At this time, in each of the devices 10 and 20, charging may be performed using the supplied external power source according to the remaining charge amount of the batteries 17 and 28 incorporated therein.

When it is determined in step 102 that the set B does not use the external power source, power is supplied from the set A to the set B through the bus line 30 in step 103, and the set B is also used. Use an external power source as a power source. This state is the state shown in FIG. 4B. At this time, in each of the devices 10 and 20, charging may be performed using the supplied power according to the remaining charge amount of the built-in batteries 17 and 28.

When it is determined in step 101 that the set A does not use the external power source, step 10
Moving to step 4, it is determined whether or not the set B (peripheral device 20) is also operating using the external power supply. When it is determined in step 104 that the set B is using the external power source, in step 105, the set B is set.
From the set to the set A via the bus line 30,
Even in Set A, an external power source is used as a power source. This state is the state shown in FIG. 4C. At this time, in each of the devices 10 and 20, charging may be performed using the supplied power according to the remaining charge amount of the built-in batteries 17 and 28.

When it is determined in step 104 that the set B is not using the external power source, the process proceeds to step 106, and the remaining capacities of the batteries attached to the sets A and B are compared. As the comparison here, the remaining capacities of the batteries may be simply compared, but the estimated duration time during which the set A or the set B can be operated by the battery is determined, and whether the duration times are equal or not is determined. You can compare.

If the comparison in step 106 finds that the remaining battery capacities are almost equal, the bus line 30
The power supply from the batteries attached to the respective sets A and B is used.

When it is judged in the comparison in step 106 that the remaining battery capacities are not equal, step 107
In, the magnitude relationship between the remaining capacities of the battery of set A and the battery of set B is determined. Here, when the battery of the set A has a larger remaining capacity, the process proceeds to step 108 and power is supplied from the set A to the set B via the bus line 30. This state is the state shown in FIG. 4D.
If the battery of the set B has a higher remaining capacity, the process proceeds to step 109, and power is supplied from the set B to the set A via the bus line 30. This state is shown in Figure 4.
This is the state shown in E.

In the power feeding state of step 108 shown in FIG. 4D and the power feeding state of step 109 shown in FIG. 4E, the battery is not charged by the power source fed through the bus line 30.

By performing the power supply process in this way, data such as the usage status of the power supplies of the respective devices and the remaining battery level are exchanged, and the devices having good power usage conditions such as external power supply are changed from those having good power usage. It is possible to supply power,
The entire system effectively uses the power source, and as a result, the battery life can be extended.

In this example, the performance setting of each of the devices 10 and 20 is performed at the same time as the power feeding control process. The flowchart of FIG. 6 shows an example of this performance setting.
First, in step 201, it is determined whether an external power source such as an AC adapter is being used. Here, when the external power supply is in use, the bus line 30 as shown in FIGS.
It also includes the case where power is supplied from an external power source via. When it is determined in step 201 that the external power supply is in use, the process proceeds to step 202, and the device is set to operate at maximum performance. When set to run at maximum performance, the device may also consume the most power.

When it is determined in step 201 that the external power source is not being used, the process proceeds to step 203, in which the remaining amount of the battery attached to itself (when the power is supplied through the bus line 30, the remaining battery of the other party is left). (Quantity) exceeds the boundary value 1 or not. As the boundary value 1, for example, a value when the remaining capacity of the battery is 75% is set. When the boundary value 1 is exceeded by this determination, in step 204, the own device is set to be operable with medium performance.

When it is determined in step 203 that the remaining amount of the battery attached to the own device is less than or equal to the boundary value 1, the process proceeds to step 205, and the remaining amount of the battery attached to the own device (bus line When power is supplied via 30, it is determined whether or not the remaining battery level of the other party's battery exceeds the boundary value 2. As the boundary value 2, for example, a value when the remaining capacity of the battery is 10% is set. When the boundary value 1 is exceeded by this determination, in step 206, the own device is set to be operable with the minimum performance.

Further, when it is determined in step 205 that the remaining amount of the battery attached to the own device is less than or equal to the boundary value 2, the shutdown processing for stopping the operation of the own device is performed.

When setting the maximum performance in step 202, for example, in the case of the computer device 10, the operating clock of the device is set to the maximum frequency to operate at high speed, and the backlight of the monitor also has the maximum brightness. Allows light emission and sets the output volume from the speaker to the maximum level. In the case of a disk drive device, the rotation speed of the disk can be set up to the maximum speed, high-speed access is enabled, and the access time becomes the minimum time.

When the medium performance is set in step 204, for example, in the case of the computer device 10, the operating clock of the device is limited to a certain frequency, the backlight of the monitor is turned off, and the volume of the speaker is adjusted. Also restrict. In the case of a disk drive device, the rotation speed of the disk is limited, and the access time is set to a low-speed access which takes some time. Further, for example, in a disk drive device capable of both writing and reading, only reading can be performed, and when the battery capacity (remaining capacity) runs out during writing and there is a risk of data destruction,
Writing may be restricted.

At the time of setting the minimum performance in step 206, the power consumption is reduced by further restricting the operation as compared with the setting of the medium performance.

The current performance setting status may be displayed on the monitor screen of the computer 10 to notify the user.

By setting the performance in this way, it becomes possible to set the operable state of the device favorably according to the power supply condition at that time, and to effectively limit the power consumption of the device. It is possible to extend the duration of the battery attached to the device. By combining with the control of power supply via the bus line shown in the flowchart of FIG. 5, the power supply can be managed more effectively.

In the above-described embodiment, the disk drive device is used as the peripheral device connected to the personal computer device, but the power supply management of the peripheral device connected to the other personal computer device and having the built-in battery is performed. , May be performed in the same manner. For example,
As a peripheral device, it can be applied to various devices such as an additional hard disk drive device and a printer device.

Further, in the above-described embodiment, the AC adapter for rectifying and transforming the commercial AC power source is connected to obtain the external power source. However, for example, an automobile battery is used as the external power source, An external power source may be obtained by connecting a DC converter that transforms the DC power source from the automobile battery. Further, the computer device or the peripheral device may have a built-in conversion circuit for converting an AC power source or the like to obtain a DC low-voltage power source and directly input an external power source such as an AC power source to these devices.

Further, in the above-described embodiment, the example in which the personal computer device and its peripheral devices are connected has been described as an example, but other various electronic devices are connected by a bus line capable of supplying power to each of them. Of course, the present invention can be applied to the case of operating the device. For example, the present invention may be applied to a case where a mobile phone terminal and a data processing terminal called PDA are connected by a USB standard bus line or the like. Further, it may be applied when connecting the audio recording device and the audio reproducing device.

Further, in the above-described embodiment, each device has an example in which one set of batteries is built in. However, for example, a device to which an additional battery different from the battery built in the main body can be attached May be applied to. in this case,
In addition to the case of handling the built-in battery in the same manner as the built-in battery, the battery for expansion is a battery having a larger capacity than the battery in which the built-in battery for expansion is installed, It may be handled as an external power source.

As the battery attached to the main body, a primary battery may be used.

Further, in the above-described embodiment, the power supply is managed between the two devices connected via the bus line, but more algebraic devices connected to each battery are connected. Even in the case of the above, the same power management may be performed among the three or more devices.

[0053]

According to the present invention, power is supplied between two devices using connected lines based on the status of each electronic device, and for example, the remaining capacity of the battery of one device is eliminated. As a result, it is possible to prevent a situation in which the processing using the two connected devices cannot be performed.

In this case, when power is supplied from one electronic device to the other electronic device, one electronic device is supplied with an external power supply such as an AC power supply and the other electronic device is not supplied with the external power supply. As a result, the power from the device to which the external power supply means using an AC power source such as an AC adapter is connected is preferentially used, and the battery of the device can be effectively prevented from being consumed. .

Further, when the power supply means using the external power supply is connected to one of the devices as described above, when the power is supplied through the connected line, the power is supplied through the line. Since the battery included in the device is charged by the power source, it is possible to charge the battery included in the device to which the power supply unit using the AC power source is not directly connected. Therefore, it is not necessary to connect an external power supply means such as an AC adapter to charge each device equipped with a battery, and all the connected devices can be easily charged.

When power is supplied from one electronic device to the other electronic device in the connected line, external power is not supplied to each electronic device, and the remaining capacity of the battery of the one electronic device is not supplied. Alternatively, when the estimated operable time is determined to be larger than the remaining capacity of the battery included in the other electronic device or the estimated operable time, the remaining capacity of the batteries included in the two connected devices is different. However, power can be supplied by effectively using the remaining capacity of both batteries. For example, it is possible to effectively prevent a situation in which only one of the devices has a shortage of remaining battery capacity and only one of the devices stops.

Further, by setting the performance of each electronic device in a plurality of stages based on the monitoring result of the condition of each electronic device, the duration of the battery provided in each device can be lengthened. .

In this case, as a result of monitoring, when at least one of the power supply devices is supplied with the external power supply, the first performance which is the maximum performance is set, and both power supply devices are supplied with the external power supply. If not, by setting the second performance, which is more limited than the first performance, the battery duration of all connected devices can be lengthened.

Further, when it is determined that the remaining capacity of the battery provided in each electronic device is less than or equal to a predetermined capacity in a situation where external power is not supplied to both power supply devices, the second
By setting the third performance, which is more limited than the performance of, the battery duration of all connected devices can be effectively lengthened.

[Brief description of drawings]

FIG. 1 is a block diagram showing an example of the overall configuration according to an embodiment of the present invention.

FIG. 2 is a perspective view showing an example of a device shape according to an embodiment of the present invention.

FIG. 3 is an explanatory diagram showing an example of exchange information and control according to an embodiment of the present invention.

FIG. 4 is an explanatory diagram showing an example of a power feeding state according to an embodiment of the present invention.

FIG. 5 is a flowchart showing an example of bus power feeding processing according to an embodiment of the present invention.

FIG. 6 is a flowchart showing an example of power saving setting and performance setting according to a power supply state according to an embodiment of the present invention.

[Explanation of symbols]

10 ... Personal computer device, 11 ... Central control unit (CPU), 12 ... RAM, 13 ... ROM, 14
... monitor, 15 ... input / output control section, 16 ... power supply control section, 1
7 ... Battery, 18 ... AC adapter, 20 ... Peripheral device,
21 ... Central control unit (CPU), 22 ... Disk drive section, 23 ... Optical disk, 24 ... RAM, 25 ... R
OM, 26 ... Input / output control unit, 27 ... Power supply control unit, 28 ...
Battery, 29 ... AC adapter, 30 ... Cable constituting bus line, 31 ... Data transmission line, 32 ... Power supply line

   ─────────────────────────────────────────────────── ─── Continued front page    F term (reference) 5B011 DA02 DA13 DB22 EA04 EB06                       FF03 GG03 GG10 GG14 HH01                       JB10 LL08 LL12 LL14                 5G003 AA01 BA02 CA06 DA07 DA17                       DA18 EA05 GC05                 5H030 AS11 BB21 BB26 DD08 FF41                       FF52

Claims (14)

[Claims] 1. A power supply system configured by connecting one and the other electronic devices each equipped with a battery with a line capable of supplying power, monitoring the status of each of the electronic devices, and monitoring the situation. According to the result, in the line, power is supplied from the one electronic device to the other electronic device; and in the line, power is supplied from the other electronic device to the one electronic device. A power supply system that selects whether or not power is supplied through the line. 2. The power supply system according to claim 1, wherein when supplying power from the one electronic device to the other electronic device in the line, external power is supplied to the one electronic device, A power supply system in which external power is not supplied to the other electronic device. 3. The power supply system according to claim 2, wherein the power source supplied from the one electronic device to the other electronic device via the line charges a battery included in the other electronic device. Power supply system. 4. The power supply system according to claim 1, wherein when power is supplied from the one electronic device to the other electronic device in the line, external power is not supplied to the respective electronic devices. A power supply system in which it is determined that the remaining capacity of the battery included in the one electronic device or the estimated operable time is greater than the remaining capacity of the battery included in the other electronic device or the estimated operable time. 5. The power supply system according to claim 1, wherein based on the monitoring result of the status of each of the electronic devices,
A power supply system that sets the performance of each electronic device in multiple stages. 6. The power supply system according to claim 5, wherein, as the monitoring result, the first performance that is the maximum performance is set when at least one of the power supply devices is supplied with external power, A power supply system that sets a second performance, which is more limited than the first performance, when external power is not supplied to both power devices. 7. The power supply system according to claim 6, wherein, when external power is not supplied to both power supply devices, it is determined that the remaining battery capacity of each electronic device is less than or equal to a predetermined capacity. , A power supply system that sets a third performance that is more limited than the second performance. 8. An electronic device equipped with a battery as a power supply means, a connection terminal to which a bus line having a data communication line and a power supply line is connected, and a partner via the bus line connected to the connection terminal. In communication with other devices, the power status of the other device is judged, the power status of the own machine is also judged, the judged power statuses are compared, and based on the comparison, the above power supply line is used. Control means for selecting whether to supply power to the partner device, obtain power from the partner device via the power supply line, or not to transfer power using the power supply line Electronic devices. 9. The electronic device according to claim 8, wherein the control means supplies an external power supply to itself and supplies the converted power to the counterpart device connected via the bus line. When it is determined that the situation is not
An electronic device in which power is supplied to the other device through the power supply line. 10. The electronic device according to claim 8, wherein the control means does not supply external power to itself, but supplies external power to a counterpart device connected via the bus line. An electronic device configured to obtain power from a partner device through the power supply line when it is determined that the situation is present. 11. The electronic device according to claim 10, wherein the control means charges a battery included in the device with a power source obtained through the power supply line. 12. The electronic device according to claim 8, wherein the control means does not supply external power to each of the device itself and the device of the other party, and the remaining capacity of the battery of the device itself or the estimated operable time is An electronic device configured to supply power to the partner device through the power supply line when it is determined that the remaining capacity of the battery of the partner device or the estimated operable time is greater. 13. The electronic device according to claim 8, wherein the control means does not supply external power to each of the device itself and the device of the other party, and the remaining capacity of the battery of the device itself or the estimated operable time is An electronic device configured to obtain power from the partner device via the power supply line when it is determined that the remaining capacity of the battery of the partner device is less than the estimated remaining operating time. 14. The electronic device according to claim 8, wherein the control means performs control for setting the performance of the own device in a plurality of stages based on the determination of the power status of the other device and the own device.