JP3672491B2 - Communication device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is incorporated in or connected to a device such as a personal computer or a printer, for example, through the signal line of a bus having a signal line for transferring data and a power line for transmitting power. The present invention relates to a communication device for communicating with other devices.
[0002]
[Prior art]
In recent years, various digital devices such as a digital video camera, a digital still camera, and a digital video disk player are becoming widespread. Along with this, the opportunity to handle relatively large amounts of data such as video and still images is increasing at home, and the need for a highly convenient interface with a high transfer rate is increasing. is there.
One of the interfaces that realizes both high-speed transfer speed and high convenience, such as transfer of data at a transfer speed of several hundred Mbps, realization of a flexible topology, and hot swapping. There is an interface according to the IEEE 1394 standard.
In the interface conforming to the IEEE 1394 standard, a host such as a personal computer may be present, but it is not always necessary. For example, a digital still camera and a printer are directly connected to transfer a captured image from the memory of the digital still camera. It is also possible to have the printer print it.
Further, some cables according to the IEEE 1394 standard include a power line for transmitting power in addition to a signal line for transferring data. Power is transmitted from one node to another node via the power line. You can supply or receive power.
In the case of printers that do not move easily after installation, the plug is not frequently inserted and removed from the outlet, and the power can be turned on by operating the switch on the main unit. In the case of a necessary digital still camera or the like, power is usually obtained from a battery during use, and it is relatively rare to connect an AC adapter. Since the power consumption during data transfer is not small, it is better to use an AC adapter than to obtain power from a battery. In this case, however, the connection between the printer and the digital still camera is difficult. It's difficult and cumbersome.
If an interface conforming to the IEEE 1394 standard is used, power can be supplied from the printer to the digital still camera through a cable, saving the user's trouble and ensuring the flexibility of connection.
For example, Japanese Patent Application Laid-Open No. 10-243327 and Japanese Patent Application Laid-Open No. 11-243651 describe a technique related to cable power supply for supplying electric power via a cable capable of data communication.
[0003]
[Problems to be solved by the invention]
By the way, the problem when using cable power supply as described above is that when there is a device that receives cable power supply, the power source of the device that supplies the power is cut off or the power supply is suppressed. It is to be. As a result, if the device receiving the cable power supply cannot secure the necessary power, the device receiving the cable power supply will of course not operate.
Japanese Patent Laid-Open No. 10-243327 describes an example in which a printer supplies power to a digital still camera by bus. However, if the printer is turned off, the digital still camera cannot operate. Japanese Patent Application Laid-Open No. 11-243651 describes an example in which an AC adapter and a printer, and a printer and a digital camera are connected, and power is supplied from the AC adapter to the printer and the digital camera through a cable. However, if the AC adapter is turned off, the printer and digital camera cannot operate.
Of course, in such an example where the number of devices is small, it is relatively easy for the user to grasp the operating state of each device, and there are devices that are receiving cable power supply, but the power supply of the device that is the power supply source There is little worry that will be cut off.
However, as the number of devices increases, it becomes difficult for the user to grasp the operating state of each device. Even if the user does not intend to do so, there is a high risk that the power source equipment will be inadvertently turned off. Also, if the number of devices is large, other people who do not know the user's intention may turn off the power.
Such a problem is not limited to an interface conforming to the IEEE 1394 standard, but is applied to another interface that supplies power using a power line of a bus including a signal line for transferring data and a power line for transmitting power. Can also happen.
The present invention has been made in view of such problems in the conventional technology, and performs communication through the signal line of a bus having a signal line for transferring data and a power line for transmitting power. It is an object of the present invention to provide a communication device that can reduce the possibility that the power source of a device that supplies power is inadvertently disconnected when the device receives power through the power line. .
[0004]
[Means for Solving the Problems]
In order to achieve the above-described object, the present invention enables a device to communicate with another device through the signal line of a bus including a signal line for transferring data and a power line for transmitting power. A self-suppliable power detecting means for detecting the supplyable power that can be supplied by the device; and an externally supplyable power calculating means for obtaining a total of supplyable power that can be supplied by the other device; , A total power consumption calculating means for obtaining a total power consumption of the device and the other device, and the device and the other one of the total of the suppliable power of the device and the suppliable power of the other device. Notification means for notifying power-off to at least one of the other device and the device that is supplying power through the power line of the bus when the total power consumption of the device is smaller It is configured as a communication device comprising comprising a.
In the communication apparatus according to the present invention, it is possible to supply devices that can communicate with other devices through the signal lines of a bus including a signal line for transferring data and a power line for transmitting power. The electric power is detected by the power supply detecting means capable of supplying itself. Further, the total amount of suppliable power that can be supplied by the other device is obtained by the external suppliable power calculating means. Here, the total is that even if the device is one other device directly connected through the bus, if the other directly connected device is connected to another device, When other devices directly connected perform relay, the device and another device can communicate with each other, and the plurality of other devices supply power to the power line of the bus. Because there is also. Further, the total power consumption calculating means obtains the total power consumption of the device and the other devices. Then, when either one of the total suppliable power of the device and the total suppliable power of the other device is smaller than the total power consumption of the device and the other device, power is transmitted through the power line of the bus. At least one of the other device and the device being supplied is notified by the notifying means of prohibition of power-off.
[0005]
If any one of the total suppliable power of the device and the suppliable power of the other device is smaller than the total power consumption of the device and the other device, power is supplied through the power line of the bus. If the device or other device is turned off, the device that is being fed through the power line of the bus may not be able to operate. The possibility can be suppressed by notifying the other device or the device that the disconnection is prohibited.
For example, when the total suppliable power of the other device is equal to or greater than the total power consumption of the device and the other device, and the suppliable power of the device is smaller than the total power consumption of the device and the other device If the power of the other device is cut off, there is a risk that the device that has been supplied with power through the power line of the bus may become inoperable. Notification is made to the other device. When the total suppliable power of the other device is smaller than the total power consumption of the device and the other device, and the suppliable power of the device is greater than or equal to the total power consumption of the device and the other device. If the power supply of the device is cut off, there is a risk that other devices that have been supplied with power through the power line of the bus may not be able to operate. Notification to the device. Furthermore, when the total suppliable power of the other device is smaller than the total consumed power of the device and the other device, and the suppliable power of the device is smaller than the total consumed power of the device and the other device. If the power of either the device or the other device is cut off, there is a risk that the device that is supplied with power through the power line of the bus may become inoperable. The notification is sent to the device and the other device.
In the communication device, for example, when the suppliable power of the device is equal to or less than the total power consumption of the device and the other device, the supply power supplied to the power line of the bus by the device is the maximum power of the device. Set to supply power, and when the maximum suppliable power of the device is greater than the power consumption of the device and the other device, the supply power of the device is smaller than the maximum supply power of the device and the device and the other The power may be set higher than the power consumption of the device.
This is because when the maximum suppliable power of the device is less than or equal to the total power consumption of the device and the other device, the supply power that the device supplies to the power line of the bus is less than the maximum supply power of the device. If it is lowered, the total power supply of the other device may not be able to cover the power consumption of the system. On the other hand, the maximum suppliable power of the device is the consumption of the device and the other device. This is because when the power is larger than the total power, the device can cover the power consumption of the system, and it is useless for the device to supply more power.
Therefore, when the suppliable power of the device is less than or equal to the total power consumption of the device and the other device, the supply power supplied by the device is set to the suppliable power of the device, and the suppliable power of the device Is larger than the total power consumption of the device and the other device, the power supply of the device is set to a power smaller than the suppliable power of the device and larger than the power consumption of the device and the other device You may do it.
Thus, power can be received more efficiently through the power line.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings for understanding of the present invention. The following embodiments are specific examples of the present invention, and do not limit the technical scope of the present invention.
As shown in FIG. 1, a communication apparatus 1 according to an embodiment of the present invention is built in a printer 2, for example. A bus cable 3 having a signal line 31 for transferring data and a power line 32 for transmitting power is connected to the communication apparatus 1, and the printer 2 is connected to the communication apparatus 1 by the communication apparatus 1. It communicates with other devices such as the digital still camera 4 and the storage device 5 connected to the cable 3 through the signal line 31.
The printer 2 includes the communication device 1 and a communication device I / F unit 201, an image processing unit 202, a control unit 202, a display unit 203, an image processing unit 204, a print engine 205, a power supply unit 206, and the like. .
The communication device I / F unit 201 is an interface for communicating with the communication device 1 through the internal bus of the printer 2, and is connected to the image processing unit 202.
The control unit 202 controls the entire printer 2 and is embodied by a microprocessor or the like.
The display unit 203 is a display device such as an LCD that displays an operation state of the printer 2 in accordance with control by the control unit 202.
The image processing unit 204 is means for performing image processing such as γ correction on the image data in accordance with control by the control unit 202, and its output is connected to the print engine 205.
The print engine 205 prints the image data supplied from the image processing unit 204 on a sheet.
The power supply unit 206 is a power supply that supplies power to the printer 2, and has a power capacity that is greater than the power required to drive the printer 2 including the communication device 1.
[0007]
The communication device 1 includes a communication unit 101, a printer I / F unit 102, a power receiving unit 103, a communication device power supply unit 104, a self-supplyable power detection unit 105, an externally supplyable power detection unit 106, and a total power consumption calculation unit. 107, notification unit 108, etc.
In the communication device 1, a connector terminal corresponding to the signal line 31 of the connector that connects the cable 3 to the communication device 1 is connected to the communication unit 101, and the communication unit 101 is connected to the signal line. Data is transferred (transmitted / received) through 31.
The printer I / F unit 102 is an interface connected to the communication device I / F unit 201 of the printer 2 through the internal bus of the printer 2.
A connector terminal corresponding to the power line 31 of the connector that connects the cable 3 to the communication device 1 is connected to the power receiving unit 103, and the power receiving unit 103 receives power through the power line. .
In FIG. 1, for simplification, the signal line 31 and power line 32 of the cable 3 connecting the printer 2 and the digital still camera 4 and the cable 3 connecting the printer 2 and the storage device 5 are shown. Although the signal line 31 and the power line 32 are shown as being connected in the middle of the cable 3, in reality, the communication device 1 is provided with two (or more) connectors for the cable 3, and the printer 2 and the digital still camera 4 and the cable 3 connecting the printer 2 and the storage device 5 are connected to the communication device 1 by separate connectors, and the digital still camera 4 and the digital still camera 4 are connected to the digital still camera 4. Communication with the storage device 5 is performed by relaying (through internal wiring) of the communication device 1.
The communication device power supply unit 104 is connected to the power supply unit 206 of the printer 2 and the power receiving unit 103 of the communication device 1, and the power obtained from the power supply unit 206 or the power receiving unit 103 is supplied to the communication device 1. To supply the power received from the power supply unit 206 to the power receiving unit 103 or supply the power received from the power receiving unit 103 to the power supply unit 206 as necessary. It is a circuit to supply.
[0008]
The self-suppliable power detection unit 105 is a power source of a device in which the communication device 1 is built in or connected. In this embodiment, the power source unit 206 of the printer 2 is connected to the printer 2 and the power receiving unit. 103 is a means for detecting the (maximum) suppliable power that can be supplied to 103, and its output is connected to the notification unit 108.
The external supply power calculation unit 106 is a device other than the printer 2, in this embodiment, the total power that can be supplied by the digital still camera 4 and the storage device 5, and the digital still camera 4. , And a means for calculating based on the information about the power transmitted from the storage device 5 and acquired by the communication unit 101, the output of which is connected to the notification unit 108.
The total power consumption calculation unit 107 is a means for calculating the total power consumption of the printer 2, the digital still camera 4, and the storage device 5 based on the information related to the power, and its output is the notification unit 108. Connected to.
The notification unit 108 is configured to output the printer 2 and the digital still camera 4 with either the power value supplied from the self-supplyable power detection unit 105 or the power value supplied from the external supply power calculation unit 106. And the signal line to any of the printer 2, the digital still camera 4, and the storage device 5 supplying power through the power line 32 when the power consumption is smaller than the total power consumption of the storage device 5. A notification for prohibiting power-off is sent through 31.
[0009]
More specifically, the notification unit 108 is configured such that the total power that can be supplied to the digital still camera 4 and the storage device 5 is greater than the total power consumption of the printer 2, the digital still camera 4, and the storage device 5. When the suppliable power of the printer 2 is smaller than the total power consumption of the printer 2, the digital still camera 4, and the storage device 5, the notification is sent to the digital still camera 4 and the storage device 5. . The notification is transmitted from the communication unit 101 of the communication device 1 to the digital still camera 4 and the storage device 5 through the signal line 31.
Further, the total power that can be supplied to the digital still camera 4 and the storage device 5 is smaller than the total power consumption of the printer 2, the digital still camera 4 and the storage device 5, and the power that can be supplied to the printer 2 is When the power consumption of the printer 2, the digital still camera 4 and the storage device 5 is greater than or equal to the total power consumption, the notification unit 108 sends the notification via the printer I / F unit 102 and the communication device I / F unit 201. Is transmitted to the control unit 202. Upon receiving the notification, the control unit 202 causes the display unit 203 to display and output the content of the notification. Further, the total power that can be supplied to the digital still camera 4 and the storage device 5 is smaller than the total power consumption of the printer 2 and the digital still camera 4 and the storage device 5, and the power that can be supplied to the printer 2 is also When the total power consumption of the printer 2, the digital still camera 4 and the storage device 5 is smaller than the total power consumption, the notification is sent to the printer 2, the digital still camera 4 and the storage device 5. The notification is transmitted to the control unit 202 of the printer 2 and is transmitted from the communication unit 101 of the communication device 1 to the digital still camera 4 and the storage device 5 through the signal line 31.
Further, the total power that can be supplied to the digital still camera 4 and the storage device 5 is greater than the total power consumption of the printer 2, the digital still camera 4, and the storage device 5, and the power that can be supplied to the printer 2. Is not greater than the total power consumption of the printer 2, the digital still camera 4, and the storage device 5, the notification unit 108 does not perform the notification.
[0010]
The digital still camera 4 includes a communication unit 401, a power receiving unit 402, a control unit 403, a display unit 404, and the like. Needless to say, the digital still camera 4 converts an optical image collected by, for example, an optical lens into an electrical signal by a photoelectric conversion element such as a CCD, as in a general digital still camera, and a captured image obtained thereby. These data are stored in a detachable semiconductor memory, but since the technical contents relating to these are well known, detailed description thereof will be omitted.
The communication unit 401 and the power receiving unit 402 correspond to the communication unit 101 and the power receiving unit 103 of the communication device 1. The communication unit 401 exchanges electric signals with the communication unit 101 through the signal line 31, and the power receiving unit 402 receives electric power from the power receiving unit 103 through the power line 32. The control unit 403 is embodied by a microprocessor or the like that controls the entire digital still camera 4, and the display unit 404 is mainly a captured image as provided in a general digital still camera. Is a display device such as an LCD.
Data of the captured image stored in the semiconductor memory of the digital still camera 4 is transmitted from the communication unit 401 to the communication unit 101 of the communication device 1 through the signal line 31, and the communication device 1 transmits the data to the printer. By supplying the data from the I / F unit 102 to the printer 2, the data can be printed by the print engine 205.
[0011]
The storage device 5 includes a communication unit 501, a power receiving unit 502, a control unit 503, a display unit 504, and the like. The storage device 5 is embodied by, for example, a hard disk drive having the above-described configurations 501 to 504.
The communication unit 501 and the power receiving unit 502 also correspond to the communication unit 101 and the power receiving unit 103 of the communication device 1. The communication unit 501 exchanges electric signals with the communication unit 101 through the signal line 31, and the power receiving unit 402 receives electric power from the power receiving unit 103 through the power line 32. The control unit 503 is embodied by a microprocessor or the like that controls the entire storage device 5, and the display unit 504 is an LCD or the like used to output the operation state of the storage device 5 or the like. It is a display device.
As described above, the digital still camera 4 and the storage device 5 are not directly connected by the cable 3, but the digital still camera 4 and the storage device 5 are connected to each other by the relay of the communication device 1. By performing communication through the signal line 31 of the cable 3, the data of the captured image can be stored in the storage device 5.
[0012]
The digital still camera 4 and the storage device 5 can be operated by supplying electric power by attaching a battery or connecting an AC adapter, but the electric power is supplied from the printer 2 through the power line 32. Can be supplied to the digital still camera 4 and the storage device 5.
However, in that case, for example, there is a possibility that the captured image of the digital still camera 4 is only stored in the storage device 5 and the printer 2 is not used. If the power is turned off, the digital still camera 4 and the storage device 5 cannot operate. The captured image storage process is not completed, and the captured image data may be lost or the storage device 5 being written may be damaged.
In order to prevent the printer 2 from being turned off in such a case, the operation of notifying the printer 2 by the notification unit 108 of the communication apparatus 1 will be briefly described.
First, when the power switch of the printer 2 is turned on, the printer 2 and the communication device 1 are made operable by the power supplied from the power supply unit 206.
Next, the maximum power that can be supplied to the printer 2 and the power receiving unit 103 is detected by the self-suppliable power detection unit 105, and the value is supplied to the notification unit 108.
Next, the bus is reset and the other devices 4 and 5 connected to the communication device 1 are confirmed.
Next, information including suppliable power and power consumption of the digital still camera 4 by communication through the signal line 31 between the communication unit 101 and the communication unit 401, and between the communication unit 101 and the communication unit 501. , And information including suppliable power and power consumption of the storage device 5 is transmitted to the communication device 1 of the printer 2. Next, of the information received by the communication unit 101, information on the suppliable power of the digital still camera 4 and the storage device 5 is supplied to the external suppliable power calculation unit 106. Of the information received by the communication unit 101, information on the power consumption of the digital still camera 4 and the storage device 5 is supplied to the total power consumption calculation unit 107.
[0013]
Next, the external suppliable power calculation unit 106 adds the values of the suppliable power of the digital still camera 4 and the suppliable power of the storage device 5 to add the digital still camera 4 and the storage device 5. Is calculated, and the calculated value is supplied to the notification unit 108. Further, the total power consumption calculation unit 107 adds the power consumption of the digital still camera 4, the power consumption of the storage device 5, and the power consumption of the printer 2 obtained from the printer 2 in advance. The total power consumption of the printer 2, the digital still camera 4, and the storage device 5 is calculated, and the calculated value is supplied to the notification unit 108.
Next, the notifying unit 108 compares the power value supplied from the own device suppliable power detecting unit 105 with the power value supplied from the total power consumption calculating unit 107, and also calculates the external suppliable power calculation. The power value supplied from the unit 106 and the power value supplied from the total power consumption calculation unit 107 are compared.
In this example, the power value supplied from the externally suppliable power calculation unit 106 is 0, and is always smaller than the power value supplied from the total power consumption calculation unit 107. Here, if the power value supplied from the self-suppliable power detection unit 105 is greater than or equal to the power value supplied from the total power consumption calculation unit 107, the notification unit 108 prohibits the power supply from being turned off. A notification is generated, and the notification is transmitted to the control unit 202 of the printer 2 via the printer I / F unit 102 and the communication device I / F unit 201. When the notification is received by the control unit 202, the content of the notification is displayed and output on the display unit 203 of the printer 2 under the control of the control unit 202.
For example, the display unit 203 displays a message such as “Power is being supplied to another device .... Please do not turn off the power of this printer.”
This message can reduce the possibility that the user will inadvertently turn off the printer 2.
[0014]
In the case where power can be supplied to the power line 32 by connecting an AC adapter to the digital still camera 4 or the storage device 5, the determination by the notification unit 108 is different from the above example. In some cases.
For example, as a result of the comparison, the power value supplied from the externally suppliable power calculation unit 106 is greater than or equal to the power value supplied from the total power consumption calculation unit 107, and is supplied from the own device suppliable power detection unit 105. When it is determined that the measured power value is smaller than the power value supplied from the total power consumption calculation unit 107, the notification unit 108 generates a notification prohibiting power off, and the notification The data is transmitted from the communication unit 101 of the apparatus 1 to the digital still camera 4 and the storage device 5 through the signal line 31. When the notification is received by the control units 403 and 503 of the digital still camera 4 or the storage device 5, the contents of the notification are displayed on the display units 404 and 504 according to the control of the control units 403 and 503. Is displayed.
In addition, as a result of the comparison, the power value supplied from the externally suppliable power calculation unit 106 is smaller than the power value supplied from the total power consumption calculation unit 107 and is supplied from the own device suppliable power detection unit 105. When it is determined that the power value is also smaller than the power value supplied from the total power consumption calculation unit 107, the notification unit 108 generates a notification prohibiting power-off, and the notification is sent to the printer 2 In addition to being transmitted to the control unit 202, it is transmitted from the communication unit 101 of the communication device 1 to the digital still camera 4 and the storage device 5 through the signal line 31. When the notification is received by the control units 202, 403, and 503 of the printer 2, the digital still camera 4, and the storage device 5, the display units are controlled according to the control of the control units 202, 403, and 503. The contents of the notification are displayed at 203, 404, and 504.
[0015]
By the way, if the power supplied from the printer 2 to the digital still camera 4 and the storage device 5 through the power line 32 is larger than the power consumed by the digital still camera 4 and the storage device 5, the power is increased by a large amount. It will be wasted.
Therefore, for example, when the notification unit 108 determines that the power value supplied from the power supply detection unit 105 is larger than the power value supplied from the total power consumption calculation unit 107, the notification The unit 108 may obtain a difference between the two and reduce the power supplied to the power receiving unit 103 by the communication device power supply unit 104 that has received the difference from the notification unit 108 by the difference.
Thereby, waste of electric power can be suppressed.
However, if the device in which the communication device is built-in or connected has a power supply but is supplied with power from another device through the power line, the supply power supplied by the device Since the burden on other devices increases by that amount, the power supplied to the device is set to the power that can be supplied by the device.
When it is determined that the power value supplied from the self-suppliable power detection unit 105 is larger than the power value supplied from the total power consumption calculation unit 107, the printer 2 is connected to the power line 32. It is preferable that the supplied power and the power consumed by the digital still camera 4 and the storage device 5 coincide with each other. However, if the supplied power is smaller than the power that can be supplied by the printer 2, the waste is reduced. it can.
[0016]
【The invention's effect】
As described above, according to the communication device according to the present invention, a device that performs communication through the signal line of a bus including a signal line for transferring data and a power line for transmitting power is connected through the power line. When receiving this, it is possible to reduce the possibility that the power source of the power supply device is inadvertently disconnected.
In the communication device, when the suppliable power of the device is less than or equal to the total power consumption of the device and the other device, the supply power supplied by the device is set to the suppliable power of the device, When the suppliable power of the device is greater than the total power consumption of the device and the other device, the supply power of the device is smaller than the suppliable power of the device and than the power consumption of the device and the other device. By setting the power to a high level, the power can be received more efficiently through the power line.
[Brief description of the drawings]
FIG. 1 is a diagram for explaining a schematic configuration and the like of a communication apparatus according to an embodiment of the present invention.
[Explanation of symbols]
1 Communication device
2. Printer
3 ... Cable
4. Digital still camera
5. Storage device
31 ... Signal line
32 ... Power line
101, 401, 501, ... communication section
103, 402, 502 ... power receiving unit
104. Communication device power supply
105. Self-suppliable power detection unit
106: Externally suppliable power calculation unit
107: Total power consumption calculation unit
108: Notification unit
202, 403, 503 ... control unit
203, 404, 504 ... display section
206 ... power supply

Claims (3)

A communication device for a device to communicate with another device through the signal line of a bus having a signal line for transferring data and a power line for transmitting power,
Self-suppliable power detection means for detecting the supplyable power that can be supplied by the equipment; external supplyable power calculation means for obtaining a total of supplyable power that can be supplied by the other equipment;
The total power consumption calculating means for obtaining the total power consumption of the device and the other device, and the device and the other device both of the suppliable power of the device and the total suppliable power of the other device A notification means for notifying power-off to at least one of the other device and the device that is supplying power through the power line of the bus when the total power consumption is less than
A communication apparatus comprising: The notifying means is configured such that a total amount of power that can be supplied by the other device is equal to or greater than a total power consumption of the device and the other device, and the power that can be supplied by the device is the power consumption of the device and the other device. When the total is smaller than the total, the notification is sent to the other device, the total suppliable power of the other device is smaller than the total power consumption of the device and the other device, and the suppliable power of the device is When the total power consumption of the device and the other device is equal to or greater than the total, the notification is sent to the device, and the total suppliable power of the other device is smaller than the total power consumption of the device and the other device, The communication device according to claim 1, wherein when the suppliable power of the device is smaller than the total power consumption of the device and the other device, the notification is performed to the device and the other device. When the suppliable power of the device is less than or equal to the total power consumption of the device and the other device, the supply power supplied by the device is set to the suppliable power of the device, and the suppliable power of the device is When the total power consumption of the device and the other device is larger than the total power consumption of the device, the power supply of the device is set to a power smaller than the suppliable power of the device and larger than the power consumption of the device and the other device. The communication apparatus according to claim 1.

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