JP4230264B2 - Electronic device power supply system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic device equipped with a power source such as a personal computer or a portable terminal, and more specifically, an electronic device and an electronic device power supply system that can be connected to another electronic device to supply power (battery) It is about.
[0002]
[Prior art]
An example of using an electronic device (self-device) with a built-in power supply (battery) and connecting an external device (other device) that also has a built-in battery to this self-device and using each other's battery in each device is as follows. There is Kaihei 10-13894. Here, a description will be given of an invention in which a plurality of types of external units with a built-in external power supply are prepared, and the external unit can be mounted on a radio paging receiver by the user arbitrarily selecting according to the purpose of use and usage environment. Has been.
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 10-13894
[Problems to be solved by the invention]
In the invention of Patent Document 1, a radio paging receiver (self apparatus) There are two batteries and a battery included in a battery external unit to be implemented (other device) is provided, consumption is large vibration informing battery When the self-device performs the power supply to the self-device by the battery of the external unit (other device), the battery of the self-device can reduce power consumption and extend the usage time. it can.
However, according to the present invention, the battery of the other device is consumed and the battery of the own device simply lasts longer, and the batteries possessed by both the own device and the other device cannot be made to last each other. There was a point.
[0005]
[Problems to be solved by the invention]
Accordingly, the present invention has been made in view of the above-described problems, and a plurality of devices equipped with a power supply are connected, and power supply can be interchanged between these devices, so that each power supply has a long life. It is an object of the present invention to provide an electronic device and an electronic device system that can be implemented.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, an electronic device power supply system according to the present invention has the following means.
An electronic device power supply system configured by electrically connecting a plurality of electronic devices each having an independent power source,
The plurality of electronic devices include at least one device including a display unit that displays information on the capacity of the power source,
Connecting means for connecting to each other;
Detecting means for detecting information relating to the capacity of the power source;
Control means for obtaining and comparing the result of the detecting means by the connecting means and controlling power supply from the power supply of one device to the power supply of the other device;
When the control means performs control so that the operable time of the one device provided with the display unit is longer than the operable time of the other device,
Power is supplied from the power supply of the one device to the power supply of the other device so that the ratio of the power supply capacity of the other device to the capacity of the power supply of the one device becomes a predetermined value. An electronic device power supply system characterized by the above.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described based on Examples 1 to 3 with reference to FIGS.
FIG. 1 shows a first embodiment of the present invention. FIG. 1 (1) is a block diagram showing the configuration of an electronic device and system of the present invention, which includes a mobile phone 100 and a mobile terminal 200 as electronic devices, and FIG. It is a figure which shows an example of the information display at the time of switching to electric power feeding. FIG. 2 is a flowchart relating to the control operation of the electronic device and its power supply system shown in FIG. FIG. 3 shows a second embodiment of the present invention, in which (1) shows the configuration of apparatus A-apparatus B, and (2) shows an example of how power is supplied between apparatus A and apparatus B. Further, FIG. 4 shows a third embodiment of the present invention, wherein (1) shows the configuration of a notebook personal computer (device A) -external wireless terminal (device B), and (2) shows power supply (charging). An example of the method (3) shows another example of the power feeding (charging) method.
[0013]
In FIG. 1, two apparatuses (apparatus A-apparatus B) of a mobile phone 100 (apparatus A) and a mobile terminal 200 (apparatus B) are shown as electronic apparatuses, and these mobile telephone 100 and mobile terminal 200 are shown. Is connected via a connection means.
The mobile phone 100 here includes a battery 11 that supplies power to the self-device 100, an A / D converter 12 for A / D converting the output voltage of the battery 11 from analog to digital, and the A / D And a main control unit 13 that monitors the voltage value output from the conversion unit 12. In addition, the mobile phone 100 includes a power control unit 14 that is controlled by the main control unit 13, and is switched from the battery 21 by switching the power supply of the battery 21 that is mounted to supply power to the mobile terminal 200. Power can be supplied to the telephone 100.
[0014]
The mobile phone 100 includes a display unit 15 that is controlled by the main control unit 13, and can display the power supply state and the remaining battery level during power supply. FIG. 1B is a diagram showing an example of the display. The display 41 is a battery mark indicating the remaining amount of the battery being fed, and the display 42 is “power feeding from the connected mobile terminal 200”. It shows that.
The information display here can be set not to display in the case of power supply from the battery 11 of the mobile phone 100. Moreover, you may perform the low voltage display of the battery in electric power feeding.
[0015]
The mobile terminal 200 (device B) connected to the mobile phone 100 (device A) also has the same configuration as that of the device A, and includes a battery 21 for supplying power, an A / D converter 22, a main control. Unit 23, power supply control unit 24, and display unit 25.
The mobile phone 100 (device A) and the mobile terminal 200 (device B), which are two devices to be connected, are connected to each other through a connection means 30 by an interface such as a detachable 12-core cable. Each device includes a connection control unit 16 (device A) and 26 (device B) for controlling the interface. The connection means 30 also includes a signal line 31 (PS V +) for supplying power from the mobile phone 100 (device A) to the mobile terminal 200 (device B), and a mobile phone from the mobile terminal 200 (device B). 100 (device A), and a signal line 32 (TE V +) for supplying power.
[0016]
Next, the operation of the power control process for the electronic apparatus and the power feeding system according to the first embodiment of the present invention will be described with reference to the flowchart of FIG.
In step S1, a battery voltage monitoring process is performed, and the voltage value output from the A / D converter 12 of the mobile phone 100 (device A) is monitored by the main controller 13 to detect the battery capacity.
In the next step S2, a battery remaining amount display process is performed, and the main control unit 13 of the mobile phone 100 (device A) uses the display unit 15 to perform a battery remaining amount display process and a power supply state display process.
[0017]
In step S3, it is determined whether or not the connection between the mobile phone 100 (device A) and the mobile terminal 200 (device B) is established. Here, the main control unit 13 of the mobile phone 100 (device A) determines the connection of the mobile terminal 200 (device B) by the connection control unit 16 that controls the interface. If it is determined that the mobile terminal 200 (device B) is connected, the process proceeds to step S4.
In step S4, battery remaining data notification processing is performed. The main control unit 13 converts the voltage value output from the A / D conversion unit 12 of the mobile phone 100 (device A) to obtain battery remaining data, and the data is obtained by the connection control unit 16 and the interface 30. Notify the mobile terminal 200 (device B). That is, the battery capacity is detected, and the detection result is transmitted through the connection means.
If it is determined in step S3 that connection with the portable terminal 200 (device B) is not made, the process proceeds to step S5 without doing anything.
[0018]
In step S5, the remaining battery level of the mobile phone 100 (device A) is determined. The main control unit 13 of the mobile phone 100 (device A) uses the remaining battery level data obtained by converting the voltage value output from the A / D conversion unit 12 into the remaining battery level in the main control unit 13. A low voltage value of the operation threshold voltage set in A) is determined, and if it is equal to or lower than the low voltage value, the process proceeds to step S6.
In the subsequent step S6, a battery remaining amount decrease display process is performed, and the main control unit 13 displays a decrease in the remaining battery amount on the display unit 15.
In step S7, the remaining battery level of the portable terminal 200 (device B) is determined. Here, after the power is turned on from the mobile terminal 200 (apparatus B) connected to the mobile phone 100 (apparatus A) through the interface 30, the process is repeated at regular time intervals in the same manner as the processing up to step S4 according to the flowchart of FIG. The remaining battery level data of the mobile terminal 200 (device B) is notified (sent) to the mobile phone 100 (device A). Based on the remaining battery level data of the mobile terminal 200 (apparatus B), the low voltage value of the operation threshold voltage of the mobile terminal 200 (apparatus B) is determined in the same manner as in step S5, and is less than the low voltage value (minimum value). If so, the process proceeds to the next step S8.
[0019]
In step S8, processing related to power supply switching is performed. In response to the power supply switching instruction from the main control unit 13, the power supply control unit 14 switches from the battery 11 of the mobile phone 100 (device A) to the power supply path from the signal line TE V + (31) of the interface 30.
In step S9, display of the remaining battery level of the portable terminal 200 (device B) and power supply switching display processing are performed. By obtaining the battery remaining amount data notified from the connected mobile terminal 200 (device B) to the mobile phone 100 (device A), the main control unit 13 notifies information on the screen of the display unit 15. At least, the battery remaining amount display of the mobile terminal 200 (device B) and the power supply status display about the start of power supply from the mobile phone 100 (device A) are performed.
[0020]
Here, returning to the previous step S5, in this step S5, the remaining battery level data of the mobile phone 100 (device A) determines in advance the low voltage value of the operating threshold voltage of the mobile phone 100 (device A), If it is a low voltage (greater than the minimum value), the subsequent processing relating to the power control is not performed, and the processing is ended as it is.
Further, in the previous step S7, the remaining power amount data notified from the mobile terminal 200 (device B) connected to the mobile phone 100 (device A) is determined, and this is determined by the mobile phone 100 (device A). Even when the operation threshold voltage is equal to or lower than the low voltage value (minimum value), the subsequent power supply path switching process or the like is not performed, and the process is ended as it is.
[0021]
As described above, when the remaining battery level of the mobile phone 100 (device A) becomes lower than the low voltage, the mobile terminal 200 (device B) connected to the mobile phone 100 (device A) by an interface or the like. ). Therefore, the mobile phone 100 (apparatus A) itself does not become unusable due to running out of battery or the use function is not limited, it is very easy to use, and power feeding is performed very efficiently and smoothly. An electronic device is obtained.
In addition, when the mobile phone 100 (device A) switches to power supply from the mobile terminal 200 (device B), the mobile terminal 100 (B) is displayed on the display unit 15 according to an instruction from the main control unit 13 of the mobile phone 100 (device A). ) Is displayed (display example 42), and the battery remaining amount display (display example 41) of the portable terminal 200 (device B) is displayed, so that the user can display the current state of the power supply (battery). Can be clearly understood.
[0022]
As described above, according to the first embodiment shown in FIGS. 1 and 2, it is extremely easy to connect and cooperate two or more independent electronic devices each having an independent power source (battery). A highly efficient mutual power feeding system can be formed. According to this system, the devices exchange each other's battery information, and the battery can be consumed while balancing the remaining current. As a result, an electronic device power supply system that can be used for a long time is provided. Come.
[0023]
Now, a second embodiment of the present invention will be described with reference to FIG. In FIG. 3 (1), the electronic device power supply system S1 includes the device A and the device B, and the device A and the device B are connected and connected by the connecting means.
Here, the device A supplies power to the device B connected to the device B for detecting the remaining capacity (remaining amount) of the power supply (battery) of the device A, the communication connection unit for communication connection with the device B, and the like. Power supply means and control means for selecting whether or not to supply power to the device B.
The device B connected to the device A has a means for detecting the remaining capacity (remaining amount) of its own power supply (battery), a communication connection means for establishing communication connection with another device A, and a power supply from the connected device A. The battery of the device A is used as an external power source when receiving power from the device A, and the battery of the device B is used as the power source when not receiving power from the device A. , Has power selection means.
[0024]
And the apparatus B and the apparatus A communicate using a communication connection means, and the apparatus A compares the remaining capacity of the battery of the apparatus B obtained from the apparatus B with the remaining capacity of the battery power source of the apparatus A. . For example, as information on the remaining capacity of each device, an estimate is made of how much each device can be operated with the battery in its own device, and this operable time is used.
That is, when it is determined that the operable time of the device A by the battery of the device A is longer than the operable time of the device B by the battery of the device B, the device B (other device) of the device A (self device). By supplying the power supply means for the device B, power is supplied to the device B (other device),
On the contrary, when it is determined that the operable time of the device A by the battery of the device A is shorter than the operable time of the device B by the battery of the device B, the device B (other device) of the device A (self device) ) Is performed to disable the power supply means.
[0025]
FIG. 3 (2) is a diagram showing the state of power feeding from apparatus A to apparatus B in stages (I to VI) based on the second embodiment of the present invention, where the horizontal axis is the time axis (time point). As shown, the battery capacities of the devices (A and B) are shown by a change graph. The device usage time comparison means in this figure is a means for comparing the operation possible time of the device A by the battery of the device A with the operation available time of the device B by the battery of the device B. When the time is longer than the device B, “A” is indicated, and when the operable time of the device B is longer than the device A, “B” is indicated.
In stage I located on the leftmost side of FIG. 3 (2), the device usage time comparison means “A”, the power supply state “A” from A to B, the external / internal power state B of “external”, and the battery of A Capacity (graph), battery capacity of B (graph), and in the stage II where time has passed, the device usage time comparison means “B”, the power supply state from A to B “None” ”, External / internal power state of B“ internal ”, A battery capacity (graph), B battery capacity (graph).
[0026]
As apparent from FIG. 3B, when the remaining capacity of the battery of the device B is larger than the remaining capacity of the battery of the device A, the device B can use the battery of the device B as a power source. .
On the contrary, when the remaining capacity of the battery of the device B is smaller than the remaining capacity of the battery of the device A, the device B uses the battery of the device A as a power source.
By constructing such a power supply system, at least the device B can be controlled to make the operation time of the device longer than that of the device A, and the power supply is performed so as to balance the remaining operation time of the device B and the device A. Can also be controlled. In addition, since the batteries of the devices A and B can be consumed evenly, the usage time of the entire system can be extended.
Furthermore, according to the present invention, when configuring a connection system composed of two electronic devices, if the system is composed of two devices having both the configuration of the device A and the configuration of the device B, the device C and the device D, the usage time Alternatively, by controlling the remaining time to be balanced, it is possible to balance the time of the two systems, and as a result, it is possible to provide an electronic device feeding system that is efficient and can operate for a long time.
[0027]
Now, a third embodiment of the present invention will be described with reference to FIG.
FIG. 4A shows an example of a system configuration in which a notebook personal computer (notebook personal computer) 300 (device A) and an external wireless terminal 400 (device B) are connected by USB (Universal Serial Bus). FIG. 4 (2) is a graph showing the change (%) in the remaining battery level of each of the devices A and B along with the power supply (charging) between the devices A and B with the horizontal axis as the time axis. FIG. 4 (3) is a diagram showing another example of the same.
[0028]
There is a notebook type or portable type personal computer 300 (apparatus A). An external wireless terminal 400 (apparatus B) as an external external device is connected to the personal computer 300 (apparatus A) with each other using a USB connection. Form a connected system. In this system, the external wireless terminal 400 (device B) receives, as a message, the battery charging status (remaining battery level and AC adapter connection) of the personal computer 300 (device A) and information on the application used via USB. Can do. The message exchange in this case is performed by the device driver of each of the personal computer 300 (device A) and the external wireless terminal 400 (device B), and does not affect the application.
[0029]
In the third embodiment of the present invention, the following control regarding battery charging can be performed.
I) When the personal computer 300 (device A) is connected to the AC adapter, the external wireless terminal 400 (device B) is charged unconditionally. External wireless terminal 400 (device B) may also be AC-connected, but normal charging may not provide enough power for communication, so PC 300 (device A) is connected to the AC adapter. If there is, do it unconditionally.
Even when the external wireless terminal 400 (device B) is not AC-connected, the PC 300 (device A) is not charged, so the external wireless terminal 400 (device B) communicates in a place with poor conditions. Subsequently, even when the charge cannot be caught from the personal computer (device A), the external wireless terminal is charged.
[0030]
II) When the personal computer 300 (apparatus A) is not connected to the AC adapter If it is a normal model of the existing notebook type personal computer (apparatus A), it can be driven by the built-in battery for about three hours. The external wireless terminal (device B) can be driven by the built-in battery for about 1 to 3 hours.
Ultimately, it is desirable that the battery remains in the personal computer 300 (apparatus A) only for a few minutes. This is because if the personal computer (device A) finally has a remaining battery level, the user can be notified that the battery of the external wireless terminal (device B) has become empty. At the same time, when the external wireless terminal (device B) is charged without limitation, it is assumed that the battery of the personal computer (device A) is exhausted and the external wireless terminal (device B) is sufficiently charged.
[0031]
For this purpose, the personal computer (device A) notifies the external wireless terminal (device B) of the remaining battery level about once a minute. Control is performed so that about half of the remaining battery level of the personal computer (device A) becomes the remaining battery level of the external wireless device (device B). This control is performed so that the battery level of the personal computer (device A) is about 30%. After the battery level of the personal computer (apparatus A) has dropped below 30%, it is determined whether or not to charge by using application.
When using WEB browsing software, a wide band is required instantaneously, but on average, the band is not so large, and the current consumption of the external wireless terminal (device B) is not often used. . Therefore, in this case, since the external wireless terminal (device B) is expected to be able to communicate for a certain amount of time, the external wireless terminal (device B) is not charged from the personal computer (device A).
[0032]
When the application being used performs download (FTP or HTML download) or streaming (see FIG. 4 (2)), it continuously uses a wide band, which continues for a certain period of time. Therefore, in this case, since the power consumption of the external wireless terminal (device B) is large, the ratio of the remaining battery level of the personal computer (device A) is continued until the battery level of the personal computer (device A) reaches 10%. Then, the external wireless terminal (device B) is charged from the personal computer (device A) so that the remaining battery capacity is half that ratio.
After that, when the remaining battery level of the personal computer (device A) drops below 10% (the charge amount of the external wireless terminal (device B) is 5%), no further charging is performed. In this way, the external wireless device (device B) runs out of battery before the personal computer (device A).
Note that charging is not performed when browsing or internet connection is not performed (see FIG. 4 (3)).
[0033]
As described above, since the external wireless terminal can be controlled to run out of the battery before the personal computer, the personal computer can notify the user that there is no battery remaining in the external wireless terminal.
Also, it is not necessary to frequently exchange data for control, and only once per minute, so the actual transfer rate is not reduced.
[0034]
【The invention's effect】
According to the electronic device and the electronic device system of the present invention, it is possible to connect a plurality of electronic devices equipped with a power source, and to interchange the power supply among these devices, thereby extending the power supply of each device. be able to.
[Brief description of the drawings]
FIG. 1 is a diagram showing a first embodiment of the present invention, where (1) shows a configuration of mobile phone (A1) -mobile terminal (B1), and (2) shows an example of information display on a display unit. Show.
FIG. 2 is an operation flowchart for explaining the first embodiment of the present invention.
FIGS. 3A and 3B are diagrams showing a second embodiment of the present invention, in which FIG. 3A shows the configuration of apparatus A-apparatus B, and FIG. 3B shows an example of how power is supplied from apparatus A to apparatus B; .
FIGS. 4A and 4B are diagrams showing a third embodiment of the present invention, in which FIG. 4A shows the configuration of a notebook personal computer (device A) -external wireless terminal (device B), and FIG. ) An example of the method, and (3) shows another example of the feeding (charging) method.
[Explanation of symbols]
100 Mobile phone (device A)
200 Mobile terminal (device B)
11 Battery (Device A)
12 A / D converter (device A)
13 Main control unit (Device A)
14 Power supply control unit (Device A)
15 Display (Device A)
16 Connection control unit (device A)
21 Battery (Device B)
22 A / D converter (device B)
23 Main control unit (Device B)
24 Power supply control unit (Device B)
25 Display (Device B)
26 Connection Control Unit (Device B)
30 connection means (interface means)
31, 32 Signal 41, 42 Display example on display section S1 Electronic device power supply system I, II, III, IV, V, VI including device A and device B Stage 300 of power supply Personal computer (device A)
400 External portable terminal (device B)

Claims (1)

An electronic device power supply system configured by electrically connecting a plurality of electronic devices each having an independent power source,
The plurality of electronic devices include at least one device including a display unit that displays information on the capacity of the power source,
Connecting means for connecting to each other;
Detecting means for detecting information relating to the capacity of the power source;
Control means for obtaining and comparing the result of the detecting means by the connecting means and controlling power supply from the power supply of one device to the power supply of the other device;
When the control means performs control so that the operable time of the one device provided with the display unit is longer than the operable time of the other device,
Power is supplied from the power supply of the one device to the power supply of the other device so that the ratio of the power supply capacity of the other device to the capacity of the power supply of the one device becomes a predetermined value. An electronic device power supply system characterized by the above.

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