JP2006311670A - Mobile communication terminal and power supply method thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To continuously use a mobile communication terminal without returning to a place where a dedicated charger is installed even when a built-in battery is reduced.
A battery as a power source, a power transfer means for supplying power from the battery to another mobile communication terminal or receiving power from the other mobile communication terminal, and the power transfer means And a control means for instructing supply of power to another mobile communication terminal or reception of power from the other mobile communication terminal.
[Selection] Figure 1

Description

  The present invention relates to a mobile communication terminal and a power supply method thereof.

At present, most mobile communication terminals such as mobile phones have built-in rechargeable secondary batteries such as lithium ion batteries and are driven by the power of the secondary batteries. In order to charge such a secondary battery, a dedicated charger attached when a mobile communication terminal is purchased is used. Many of the dedicated chargers obtain power from a 100V outlet, and cannot be charged if the user goes out to a place without such power (such as a mountain or the sea). Always had to pay attention to the battery level. Japanese Patent Application Laid-Open Publication No. 2004-228667 discloses a technique regarding a mobile terminal that notifies a user of the remaining battery level in an easy-to-understand manner.
JP 2004-357225 A

 On the other hand, normally, the user of the mobile communication terminal does not carry the dedicated charger when going out, and if the battery runs out while going out, the battery is charged only after returning to the place where the dedicated charger is installed (such as home). I couldn't. Therefore, recent mobile communication terminals, in particular mobile phones, have various functions such as transmission / reception of image data and mail, browsing of the Internet, address book, etc. as well as telephone calls. There was a problem that the convenience was impaired.

 The present invention has been made in view of the above-described circumstances, and even when the number of built-in batteries is reduced, the mobile communication terminal is continuously used without returning to the place where the dedicated charger is installed. The purpose is to do.

 In order to achieve the above object, according to the present invention, as a first solving means related to a mobile communication terminal, a battery as a power source and supply of the battery power to another mobile communication terminal or other mobile communication Power transfer means for receiving power from a terminal, and control means for instructing the power transfer means to supply power to another mobile communication terminal or to receive power from the other mobile communication terminal Adopt the means to do.

 In the present invention, as the second solving means relating to the mobile communication terminal, in the first solving means, the control means is either a power supply side or a power receiving side in relation to another mobile communication terminal. And a means for instructing the power transfer means to supply power to another mobile communication terminal or to receive power from the other mobile communication terminal based on the determination result is adopted.

 According to the present invention, as the third solving means relating to the mobile communication terminal, in the first or second solving means, the power transfer means is a connecting means for supply for supplying power to another mobile communication terminal. And a power receiving connection means for receiving power from another mobile communication terminal, and the control means judges itself as a supply side when another mobile communication terminal is connected to the supply connection means. Then, when another portable communication terminal is connected to the power receiving connecting means, a means is adopted in which it is determined that it is a power receiving side.

  In the present invention, as a fourth solving means relating to the portable communication terminal, in any one of the first to third solving means, the battery is a rechargeable secondary battery, and the power transfer means is another portable means. It has a function of charging the secondary battery with power received from a communication terminal, and the control means instructs the power transfer means to charge the secondary battery when it is on the power receiving side. Adopt means.

 Further, in the present invention, as a fifth solving means relating to the mobile communication terminal, in the fourth solving means, when the control means is on the supply side, the voltage of the secondary battery (supply side battery) Voltage) and the voltage of the secondary battery (charge-side battery voltage) of the other mobile communication terminal, and when both become equal voltage values, the power supply to the other mobile communication terminal is stopped. A means of instructing the power transfer means is adopted.

 In the present invention, as a sixth solving means relating to the mobile communication terminal, in the fourth or fifth solving means, the power transfer means includes a boosting means for boosting the power supplied to the other mobile communication terminal, The control means employs means for instructing boosting to the power transfer means when the supply-side battery voltage is lower than the charge-side battery voltage when the control means is the supply side.

 On the other hand, in the present invention, as a first solving means related to the power supply method of the mobile communication terminal, there is a power supply method to another mobile communication terminal in the battery-driven mobile communication terminal, where the other mobile communication terminal It is determined whether the power supply side or the power reception side, and based on the determination result, power is supplied to or received from the other portable communication terminal.

 On the other hand, in the present invention, as the second solving means relating to the power supply method of the mobile communication terminal, in the first solving means, when the battery is a rechargeable secondary battery, the voltage of the secondary battery is And the voltage of the secondary battery (supply-side battery voltage) is compared with the voltage of the secondary battery (charge-side battery voltage) of another mobile communication terminal. A means is adopted in which power supply to other mobile communication terminals is stopped when a predetermined voltage value is reached.

 According to the present invention, in a mobile communication terminal driven by power held by a built-in battery, power transfer means for transferring power to and from other mobile communication terminals, and for the power transfer means And the control means for instructing the supply or reception of the power, the power can be exchanged between portable communication terminals. Therefore, even when the remaining amount of the built-in battery is low, the mobile communication terminal can be used continuously without returning to the place where the dedicated charger is installed.

Embodiments of the present invention will be described below with reference to the drawings.
[First Embodiment]
FIG. 1 is a block diagram showing a functional configuration of a mobile communication terminal (mobile phone) according to the first embodiment of the present invention. In this figure, reference numeral 1 denotes a first portable communication terminal, which includes a wireless communication unit 1a, a key input unit 1b, a display unit 1c, a voice input / output unit 1d, an external supply connector 1e, an external power receiving connector 1f, and a control unit. 1g, a storage unit 1h, a power mode switching unit 1i, a secondary battery 1j, and a power setting unit 1k.

 Reference numeral 2 denotes a second mobile communication terminal, which is configured in the same manner as the first mobile communication terminal 1 and is not shown in part, but includes a wireless communication unit 2a, a key input unit 2b, and a display unit. 2c, an audio input / output unit 2d, an external supply connector 2e, an external power receiving connector 2f, a control unit 2g, a storage unit 2h, a power mode switching unit 2i, a secondary battery 2j, and a power setting unit 2k. In addition, since these 1st portable communication terminals 1 and 2nd portable communication terminals 2 are comprised the same, the 1st portable communication terminal 1 is demonstrated below.

 The first mobile communication terminal 1 has three power supply modes (an internal power supply mode, an external supply mode, and an external power supply mode). Of these three power supply modes, the internal power supply mode is a mode in which the first mobile communication terminal 1 is driven by the power of the secondary battery 1j included in itself (that is, the first mobile communication terminal 1). The mode is a mode in which power held by the secondary battery 1j of the first mobile communication terminal 1 is supplied to another mobile communication terminal (that is, the second mobile communication terminal 2), and the external power supply mode is other In this mode, power is supplied from the mobile communication terminal (second mobile communication terminal 2) and the power (first mobile communication terminal 1) is driven by the power.

 The wireless communication unit 1a performs wireless communication regarding audio signals and data signals with a mobile communication base station using a predetermined communication method, for example, a CDMA (Code Division Multiple Access) method, under the control of the control unit 1g. Is what you do. The key input unit 1b includes a dial key button, a function key button, a power key button, and the like, and outputs operation information of these buttons to the control unit 1g as operation signals. The display unit 1c is, for example, a liquid crystal display device, and displays various messages, telephone numbers, images, and the like based on display signals input from the control unit 1g. The voice input / output unit 1d is a speaker and a microphone that input / output a call voice during a call, and outputs a voice signal to the control unit 1g.

 The external supply connector 1e is a connector connected to the external power receiving connector 2f of the second mobile communication terminal 2 in order to supply the power of the secondary battery 1j to the second mobile communication terminal 2 in the external supply mode. Yes, the power of the secondary battery 1j input from the power supply setting unit 1k and the control signal input from the control unit 1g are respectively output to the external power receiving connector 2f.

 The external power receiving connector 1f is a connector for connecting to the external power supply connector 2e of the second mobile communication terminal 2 in order to receive power supply from the second mobile communication terminal 2 in the external power supply mode. The power input from the second portable communication terminal 2 via the supply connector 2e is output to the power supply mode switching unit 1i, and the control signal input from the second portable communication terminal 2 is output to the control unit 1g. To do. The external supply connector 1e is connected to the external power receiving connector 2f of the second mobile communication terminal 2, or the external power reception connector 1f is connected to the external supply connector 2e of the second mobile communication terminal 2. Thus, the control signal line and the power supply line are connected between the first mobile communication terminal 1 and the second mobile communication terminal 2.

 Based on a predetermined control program stored in advance in the storage unit 1h, an operation signal input from the key input unit 1b, a communication state of the wireless communication unit 1a, and the like, the control unit 1g It controls the operation. In addition, as a characteristic control process based on the control program, the control unit 1g instructs the setting of the power supply mode according to the connection state of the external supply connector 1e or the external power reception connector 1f. The instruction signal is output to the power supply mode switching unit 1i. That is, when the power supply mode is set to the internal power supply mode, the control unit 1g outputs the internal power supply mode signal as the power supply mode instruction signal to the power supply mode switching unit 1i. When the mode signal is output as the power supply mode instruction signal and the external power supply mode is set, the external power supply mode signal is output as the power supply mode instruction signal to the power supply mode switching unit 1i.

 Furthermore, the control unit 1g obtains from the second mobile communication terminal 2 while providing / acquiring power supply information (rated voltage) with the second mobile communication terminal 2 using the control signal line. The power supply information is output to the power supply setting unit 1k.

  The storage unit 1h stores in advance the control program executed by the control unit 1g, and sequentially stores various data such as a telephone number, an e-mail address, and own power supply information under the control of the control unit 1g. In response to a request from the control unit 1g, various data are output to the control unit 1g.

 The power supply mode switching unit 1i switches the power supply mode in accordance with the power supply mode instruction signal input from the control unit 1g and supplies power to each unit of the first mobile communication terminal 1. In addition, when an external supply mode signal that is one of the power supply mode instruction signals is input from the control unit 1g, the power supply mode switching unit 1i outputs the power of the secondary battery 1j to the power supply setting unit 1k. The secondary battery 1j is a rechargeable battery such as a lithium ion battery, and outputs power to the power mode switching unit 1i. The power supply setting unit 1k adjusts the voltage value of power input from the power supply mode switching unit 1i based on the power supply information of the second mobile communication terminal 2 input from the control unit 1g, and uses the adjusted power. The supplied power is output to the external supply connector 1e.

 Next, the main part operation | movement of the 1st portable communication terminal 1 comprised as mentioned above is demonstrated in detail. The operation of the first mobile communication terminal 1 described below is the same as that of the second mobile communication terminal 2.

  FIG. 2 is an operation flowchart of the first mobile communication terminal 1. The control unit 1g selects either the external supply connector 2e or the external power reception connector 2f of the second mobile communication terminal 2 based on the connection state of the external supply connector 1e or the external power reception connector 1f, that is, the state of the control signal line. It is determined that is connected (step S1). That is, when the external supply connector 2e or the external power reception connector 2f is connected to the external supply connector 1e or the external power reception connector 1f, the state of the control signal line such as the voltage level changes. By detecting such a change in the state of the control signal line, the connection of the external supply connector 2e or the external power receiving connector 2f is determined.

  If this determination is “NO”, the control unit 1g outputs an internal power supply mode signal to the power supply mode switching unit 1i to set the power supply mode to the internal power supply mode (step S2). That is, when the internal power mode signal is input from the control unit 1g, the power mode switching unit 1i supplies the power held by the secondary battery 1j to each unit of the first mobile communication terminal 1.

 On the other hand, if the determination in step S1 is “YES”, the controller 1g determines whether the external power receiving connector 2f of the second mobile communication terminal 2 is connected to the external power supply connector 1e or the external power receiving connector. By detecting whether the external supply connector 2e of the second mobile communication terminal 2 is connected to 1f, it is determined whether the first mobile communication terminal 1 should be the supply side or the power reception side ( Step S3). That is, for example, the control unit 1g controls the state of the control signal line when the external power receiving connector 2f is connected to the external power supply connector 1e and the control when the external power supply connector 2e is connected to the external power receiving connector 1f. The supply side / power reception side is determined based on the difference from the state of the signal line.

 When the determination in step S3 is “supply side”, the control unit 1g executes a process (external supply mode setting process) for setting the power supply mode to the external supply mode (step S4), while step S3. If the determination is “power reception side”, a process of setting the power supply mode to the external power supply mode (external power supply mode setting process) is executed (step S5).

  Next, details of the external supply mode setting process and the external power supply mode setting process executed by the control unit 1g of the first mobile communication terminal 1 will be described with reference to the flowchart of FIG. This flowchart shows a case where the first mobile communication terminal 1 is in the external supply mode (supply side) and the second mobile communication terminal 2 is in the external power supply mode (power reception side).

 As described above, since the first mobile communication terminal 1 and the second mobile communication terminal 2 are configured identically, when the external supply connector 1e and the external power reception connector 2f are connected, the first mobile communication terminal 1 and the second mobile communication terminal 2 are connected. The control unit 1g of the mobile communication terminal 1 determines “supply side” and executes the external supply mode setting process. However, the control unit 2g of the second mobile communication terminal 2 determines “power reception side” and external Execute the power mode setting process. The external power supply mode setting process of the control unit 2g in this case is exactly the same as the external power supply mode setting process of the control unit 1g. Therefore, the control unit 2g of the second mobile communication terminal 2 shown in the flowchart of FIG. The process in (i.e., the external power supply mode setting process) is the same as the external power supply mode setting process in the control unit 1g of the first mobile communication terminal 1.

  First, the control unit 1g of the first mobile communication terminal 1 outputs a connector connection confirmation notification to the control unit 2g of the second mobile communication terminal 2 via the control signal line (step S10). When the connector connection confirmation notification is input, the control unit 2g of the second mobile communication terminal 2 acquires the power supply information stored in the storage unit 2h and sends it to the control unit 1g of the first mobile communication terminal 1. Output (step S11).

  Subsequently, the control unit 1g determines whether or not a function for turning off power to unnecessary circuits at the time of power supply (power-off function at the time of supply) is set (step S12). The setting of the power-off function at the time of supply is set in the first portable communication terminal 1 in advance by the user operating the key input unit 1b (that is, the setting information is stored in the storage unit 1h by the control unit 1g). Is remembered). With this setting, it is possible to suppress wasteful power consumption of the first mobile communication terminal 1 during power supply. When the power supply OFF function at the time of supply is set (step S12 “YES”), the control unit 1g outputs a power supply OFF signal together with the external supply mode signal to the power supply mode switching unit 1i (step S13). When the external supply mode signal is input, the power supply mode switching unit 1i outputs the power held in the secondary battery 1j to the power supply setting unit 1k. When the power supply OFF signal is input, the power supply mode switching unit 1i is connected to an unnecessary circuit. Stop power supply. It should be noted that before turning off the power of unnecessary circuits, it is desirable to safely turn off the power by providing a function for automatically ending an application that has been started up and saving data.

 On the other hand, if “NO” is determined in step S12, that is, if the power supply OFF function during supply is not set, the control unit 1g outputs only the external supply mode signal to the power supply mode switching unit 1i (step S14). . In this case, when the external supply mode signal is input, the power supply mode switching unit 1i outputs the power held in the secondary battery 1j to the power supply setting unit 1k and outputs the power to the first mobile communication terminal 1. Supply to each part.

 And the control part 1g outputs the power supply information acquired from the 2nd portable communication terminal 2 to the power supply adjustment part 1k (step S15). The power supply setting unit 1k adjusts the power (voltage value) of the secondary battery 1j input from the power supply mode switching unit 1i based on the power supply information, and supplies the second mobile phone via the external supply connector 1e as supply power. Output to the communication terminal 2.

 The control unit 1g outputs a supply completion notification to the control unit 2g of the second portable communication terminal 2 (step S16). When the supply completion notification is input, the control unit 2g itself (that is, the second portable communication). An external power supply mode signal is output to the power supply mode switching unit 2i included in the terminal 2) (step S17). The power supply mode switching unit 2i stops using the secondary battery 2j when the external power supply mode signal is input, and supplies power supplied from the first mobile communication terminal 1 via the external power receiving connector 2f to the first power supply mode switching unit 2i. 2 to each part of the mobile communication terminal 2. Through the above operation, power is exchanged between the first mobile communication terminal 1 and the second mobile communication terminal 2 (step S18).

 The power transfer as described above is performed until the connection between the external supply connector 1e of the first mobile communication terminal 1 and the external power reception connector 2f of the second mobile communication terminal 2 is disconnected. That is, the control unit 1g and the control unit 2g determine that the connector has been disconnected by detecting a change in the state of the control signal line. As described above, when the control unit 1g and the control unit 2g detect that the connector has been removed ("YES" in step S19, "YES" in step S19), the control unit 1g and the control unit 2g shift to the operation in step S1 in FIG. ). If it is determined “NO” in steps S19 and S20, power is continuously transferred.

 As described above, according to the first embodiment, when the remaining power of the secondary battery 2j of the second mobile communication terminal 2 decreases, the first mobile communication terminal 1 to the second mobile communication terminal 2 can be directly powered. Therefore, it is not necessary to carry a dedicated charger, power can be exchanged anywhere between portable communication terminals having the same configuration, and the portable communication terminal can be used continuously.

[Second Embodiment]
Next, a second embodiment of the present invention will be described.
FIG. 4 shows a functional block diagram of the first mobile communication terminal 10 in the second embodiment. In this figure, the same components as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted. As shown in this figure, the first mobile communication terminal 10 of the second embodiment includes a battery voltage detection unit 10a, a switch 10b, and a booster circuit in addition to the components included in the first mobile communication terminal 1 of the first embodiment. 10c is newly provided. Moreover, although illustration is abbreviate | omitted, the 2nd portable communication terminal 20 is also the same structure, and is provided with the battery voltage detection part 20a, the switch 20b, and the voltage booster circuit 20c. Since the first mobile communication terminal 10 and the second mobile communication terminal 20 are configured in the same manner, the first mobile communication terminal 10 will be described below.

 The battery voltage detection unit 10a detects the voltage of the secondary battery 1j and outputs battery voltage information indicating the battery voltage to the control unit 1g. The input terminal of the switch 10b is connected to the output terminal of the power supply setting unit 1k, one end of the output terminal is connected to the input terminal of the booster circuit 10c, and the other terminal of the output terminal is connected to the external supply connector 1e. Has been. The switch 10b switches whether to supply the supply power output from the power supply setting unit 1k to the booster circuit 10c based on the switching signal input from the control unit 1g. The booster circuit 10c is a circuit that boosts the voltage of the supplied power input from the power supply setting unit 1k.

 The first mobile communication terminal 10 has three power supply modes (an internal power supply mode, an external supply mode, and an external charge mode). Of these three power supply modes, the internal power supply mode and the external supply mode are the same modes as in the first embodiment. The external charging mode is a mode in which power is supplied from the other mobile communication terminal (second mobile communication terminal 20) and the secondary battery 1j included in the first mobile communication terminal 10 itself is charged with the power. is there.

 The second embodiment is different from the first embodiment in the following points because the external charging mode as described above is provided.

 The storage unit 1h of the first mobile communication terminal 10 stores battery standard information (charging voltage, charging current, battery capacity, battery type, etc.) for the secondary battery 1j instead of the power supply information. In addition, when the power supply mode is set to the external charging mode, the control unit 1g of the first mobile communication terminal 10 outputs the external charging mode signal to the power supply mode switching unit 1i as a power supply mode instruction signal. When the external charging mode signal is input from the control unit 1g, the power supply mode switching unit 1i is supplied from the other portable communication terminal (second portable communication terminal 20) connected to the external power receiving connector 1f. Electric power is output to the secondary battery 1j to perform charging.

 Next, the operation of the main part of the first mobile communication terminal 10 configured as described above will be described in detail. The operation of the first mobile communication terminal 10 described below is the same as that of the second mobile communication terminal 20.

 FIG. 5 is an operation flowchart of the first mobile communication terminal 10. Based on the connection state of the external supply connector 1e or the external power reception connector 1f, that is, the state of the control signal line, the control unit 1g is either the external supply connector 2e or the external power reception connector 2f of the second mobile communication terminal 20. It is determined that is connected (step S30). That is, when the external supply connector 2e or the external power reception connector 2f is connected to the external supply connector 1e or the external power reception connector 1f, the state of the control signal line such as the voltage level changes. By detecting such a change in the state of the control signal line, the connection of the external supply connector 2e or the external power receiving connector 2f is determined.

  If this determination is “NO”, the control unit 1g outputs an internal power supply mode signal to the power supply mode switching unit 1i to set the power supply mode to the internal power supply mode (step S31). That is, when the internal power mode signal is input from the control unit 1g, the power mode switching unit 1i supplies the power held by the secondary battery 1j to each unit of the first mobile communication terminal 10.

 On the other hand, when the determination in step S30 is “YES”, the control unit 1g determines whether the external power receiving connector 2f of the second mobile communication terminal 20 is connected to the external power supply connector 1e or the external power receiving connector. By detecting whether the external supply connector 2e of the second mobile communication terminal 20 is connected to 1f, it is determined whether the first mobile communication terminal 10 should be the supply side or the power reception side ( Step S32). That is, for example, the control unit 1g controls the state of the control signal line when the external power receiving connector 2f is connected to the external power supply connector 1e and the control when the external power supply connector 2e is connected to the external power receiving connector 1f. The supply side / power reception side is determined based on the difference from the state of the signal line.

 When the determination in step S32 is “supply side”, the control unit 1g executes a process for setting the power supply mode to the external supply mode (external supply mode setting process) (step S33), while step S32 If the determination is “power-receiving side”, a process of setting the power supply mode to the external charging mode (external charging mode setting process) is executed (step S34).

  Next, details of the external supply mode setting process and the external charging mode setting process executed by the control unit 1g will be described with reference to the flowchart of FIG. This flowchart shows the case where the first mobile communication terminal 10 is in the external supply mode (supply side) and the second mobile communication terminal 20 is in the external power reception mode (charge side).

 As described above, since the first mobile communication terminal 10 and the second mobile communication terminal 20 are configured identically, when the external supply connector 1e and the external power reception connector 2f are connected, the first mobile communication terminal 10 and the second mobile communication terminal 20 are connected. The control unit 1g of the mobile communication terminal 10 determines the “supply side” and executes the external supply mode setting process. However, the control unit 2g of the second mobile communication terminal 20 determines the “charge side” and the external Execute the charging mode setting process. The external charging mode setting process of the control unit 2g in this case is exactly the same as the external charging mode setting process of the control unit 1g, and thus the control unit 2g of the second mobile communication terminal 20 shown in the flowchart of FIG. The process in (i.e., the external power supply mode setting process) is the same as the external charge mode setting process in the control unit 1g of the first mobile communication terminal 10.

  First, the control unit 1g of the first mobile communication terminal 10 outputs a connector connection confirmation notification to the control unit 2g of the second mobile communication terminal 20 via the control signal line (step S40). When the connector connection confirmation notification is input, the control unit 2g acquires the battery standard information stored in the storage unit 2h and outputs it to the control unit 1g (step S41).

  Subsequently, the control unit 1g outputs an external supply mode signal to the power supply mode switching unit 1i (step S42). When the external supply mode signal is input, the power supply mode switching unit 1i outputs the power held in the secondary battery 1j to the power supply setting unit 1k and supplies the power to each unit of the first mobile communication terminal 10. To do.

 And the control part 1g outputs the battery specification information acquired from the 2nd portable communication terminal 20 to the power supply setting part 1k (step S43). The power supply setting unit 1k adjusts the power (voltage value and current value) of the secondary battery 1j input from the power supply mode switching unit 1i based on the battery standard information, and supplies the supplied power via the external supply connector 1e. It outputs to the 2nd portable communication terminal 20 (step S44). At this time, in the switch 10b, the input side terminal and the other end of the output side terminal are electrically connected.

 The control unit 1g outputs a supply completion notification to the control unit 2g (step S45), and when the supply completion notification is input, the control unit 2g switches the power mode included in itself (that is, the second mobile communication terminal 20). An external charging mode signal is output to the unit 2i (step S46). When the external charging mode signal is input, the power supply mode switching unit 2i outputs the supply power supplied from the first mobile communication terminal 10 to the secondary battery 2j via the external power receiving connector 2f and starts charging. (Step S47).

 Then, the control unit 1g determines whether the external supply mode is mode 1 or mode 2. If the mode is mode 1, the control unit 1g proceeds to step S49, and if it is mode 2, proceeds to step S50 (step S48). Mode 1 and mode 2 in these external supply modes are set in advance in the first portable communication terminal 10 by the user's operation of the key input unit 1b (that is, the mode setting is performed in the storage unit 1h by the control unit 1g). Is remembered).

 When the external supply mode is set to mode 1 in step S48, the control unit 1g acquires the battery voltage information (charge side battery voltage) of the secondary battery 2j from the control unit 2g, and self (first Compared with the battery voltage information (supply-side battery voltage) of the secondary battery 1j of the mobile communication terminal 10), it is determined whether or not the supply-side battery voltage and the charge-side battery voltage are equal (step S49). If “NO” is determined in step S49, that is, if the supply-side battery voltage and the charge-side battery voltage are not equal, the external supply mode signal is continuously output to the power supply mode switching unit 1i and the power supply is continued. To do.

 On the other hand, when it is determined as “YES” in step S49, that is, when the supply-side battery voltage and the charge-side battery voltage are equal, the control unit 1g stops the output of the external supply mode signal and performs the second operation. Power supply to the mobile communication terminal 20 is terminated (step S56).

  As described above, mode 1 in the external supply mode always monitors the supply-side battery voltage and the charge-side battery voltage, and automatically cancels the power supply based on the battery voltage values, thereby supplying the portable terminal on the supply side. That is, this is a mode in which the remaining battery level of the first mobile communication terminal 10 is left to some extent. This mode 1 is used when temporary charging is temporarily performed when the first mobile communication terminal 10 is fully charged and the remaining battery level of the mobile communication terminal (second mobile communication terminal 20) such as a friend is low. It is convenient to use.

 On the other hand, when the external supply mode is set to mode 2 in step S48, the control unit 1g outputs a power OFF signal together with the external supply mode signal to the power supply mode switching unit 1i (step S50). When the power supply OFF signal is input, the power supply mode switching unit 1i stops power supply to unnecessary circuits in itself (first mobile communication terminal 10). It should be noted that before turning off the power of unnecessary circuits, it is desirable to safely turn off the power by providing a function for automatically ending an application that has been started up and saving data.

 And the control part 1g acquires the battery voltage information (charge side battery voltage) of the secondary battery 2j from the control part 2g, and compares with the battery voltage (supply side battery voltage) of its own secondary battery 1j ( Step S51). When the charging-side battery voltage is higher than the supply-side battery voltage (step S51 “YES”), the control unit 1g outputs a switching signal to the switch 10b to perform switching. As a result, the input side terminal and one end of the output side terminal of the switch 10b become conductive, and the supply power output from the power supply setting unit 1k is input to the booster circuit 10c. The booster circuit 10c boosts the voltage of the supplied power and then outputs it to the external supply connector 1e (step S52).

  If “NO” is determined in step S51, that is, if the charging-side battery voltage is lower than the supply-side battery voltage, the control unit 1g does not output a switching signal to the switch 10b, but outputs from the power supply setting unit 1k. The supplied power is supplied to the second mobile communication terminal 20 without going through the booster circuit 10c. Thus, even when the charging-side battery voltage is higher than the supplying-side battery voltage, charging can be continuously performed by increasing the supply power voltage via the booster circuit.

  And the control part 2g of the 2nd portable communication terminal 20 determines whether charge was completed from battery voltage information (step S53). When it is determined “YES” in step S53, that is, when charging is completed, the control unit 2g outputs a charging completion notification to the control unit 1g of the first mobile communication terminal 10 (step S54). When the control unit 1g obtains the above-described charging completion notification, the control unit 1g determines that the charging is completed ("YES" in step S55), stops the output of the external supply mode signal, and ends the power supply to the second mobile communication terminal 20. (Step S56). The operations in steps S51 and S52 are repeated until a charging completion notification is input to the control unit 1g.

 As described above, mode 2 in the external supply mode supplies the second mobile communication terminal 20 with as much power as possible held by the supply-side mobile communication terminal, that is, the secondary battery 1j of the first mobile communication terminal 10 ( Charging mode.

 Further, after charging is completed, as in the first embodiment, the control unit 1g of the first mobile communication terminal 10 and the control unit 2g of the second mobile communication terminal 20 are connected to the external supply connector 1e and the external power receiving connector. When it is detected that 2f has been removed, the operation proceeds to step S30 in FIG.

 As described above, according to the second embodiment, when the remaining power of the secondary battery 2j of the second mobile communication terminal 20 decreases, the first mobile communication terminal 10 to the second mobile communication terminal The power can be supplied directly to 20 and charged. Therefore, it is not necessary to carry a dedicated charger, and charging can be performed anywhere between mobile communication terminals having the same configuration, and the mobile communication terminal can be used continuously.

 FIG. 7 is an external view showing a specific example of a mobile communication terminal having the functional configuration described in the first embodiment and the second embodiment. The external supply connector 1e is a female connector, and is provided below the key input portion 1b on the surface of the first mobile communication terminal 1 as shown in FIG. On the other hand, the external power receiving connector 1 f is a male connector and is provided below the back surface of the first mobile communication terminal 1. Accordingly, when the first portable communication terminal 1 is on the power supply side, the external supply connector 1e of the first portable communication terminal 1 and the second portable communication terminal 2 as shown in the side view of FIG. To the external power receiving connector 2f. By directly connecting the mobile communication terminals in this way, a connection cable is not required, and the user cannot operate the mobile communication terminal on the power supply side, so that power can be safely exchanged.

 In addition, this invention is not limited to the said embodiment, For example, the following modifications can be considered.

(1) In the first and second embodiments, one mobile communication terminal is provided with two connectors, and the mobile communication terminals on the power supply side and the power receiving side (charging side) are directly connected. However, the present invention is not limited to this, and the mobile communication terminals may be connected to each other using a dedicated cable, or power may be exchanged by a non-contact method.

(2) In the first and second embodiments described above, which mobile phone is detected by detecting which of the two connectors provided in one mobile communication terminal is connected to the other mobile communication terminal. It was determined whether the communication terminal is a power supply side or a power reception side (charging side), but not limited to this, for example, when there is one connector, compare the remaining battery levels of both mobile communication terminals, A function may be provided such that the one with the larger remaining amount is set as the power supply side and the one with the smaller remaining amount is set as the power receiving side (charging side).

  In addition, when the mobile communication terminal is a mobile phone and has a communication function as in the first and second embodiments, the radio wave reception intensity is measured, and the weaker reception intensity is set as the power supply side. In addition, a function of setting the power receiving side (charging side) with the stronger receiving intensity may be provided.

(3) In the first embodiment, the rechargeable secondary battery is used as the power source of the mobile communication terminal. However, the present invention is not limited to this, and a primary battery may be used.

1 is a configuration block diagram of a mobile communication terminal (first mobile communication terminal 1) according to a first embodiment of the present invention. It is an operation | movement flowchart figure of the 1st portable communication terminal 1 and the 2nd portable communication terminal 2 in 1st Embodiment of this invention. It is an operation | movement flowchart figure of the 1st portable communication terminal 1 and the 2nd portable communication terminal 2 in 1st Embodiment of this invention. It is a block diagram of a mobile communication terminal (first mobile communication terminal 10) according to the second embodiment of the present invention. It is an operation | movement flowchart figure of the 1st portable communication terminal 10 and the 2nd portable communication terminal 20 in 2nd Embodiment of this invention. It is an operation | movement flowchart figure of the 1st portable communication terminal 10 and the 2nd portable communication terminal 20 in 2nd Embodiment of this invention. It is an external view of a portable communication terminal provided with the function structure demonstrated in 1st Embodiment and 2nd Embodiment of this invention.

Explanation of symbols

 DESCRIPTION OF SYMBOLS 1, 10 ... 1st portable communication terminal, 2, 20 ... 2nd portable communication terminal, 1a, 2a ... Wireless communication part, 1b, 2b ... Key input part, 1c, 2c ... Display part, 1d, 2d ... Voice Input / output unit, 1e, 2e ... external supply connector, 1f, 2f ... external power receiving connector, 1g, 2g ... control unit, 1h, 2h ... storage unit, 1i, 2i ... power supply mode switching unit, 1j, 2j ... 2 Secondary battery, 1k, 2k ... power supply setting unit, 10a, 20a ... battery voltage detection unit, 10b, 20b ... switch, 10c, 20c ... booster circuit

Claims (8)

A battery as a power source;
Power transfer means for supplying power of the battery to another mobile communication terminal or receiving power from the other mobile communication terminal;
And a control means for instructing the power transfer means to supply power to another mobile communication terminal or to receive power from the other mobile communication terminal.  The control means determines whether it is a power supply side or a power reception side in relation to another mobile communication terminal, and the power to the other mobile communication terminal is transmitted to the power transfer means based on the determination result. The mobile communication terminal according to claim 1, wherein the mobile communication terminal instructs the supply of power or the reception of power from the other mobile communication terminal. The power transfer means includes a supply connection means for supplying power to another mobile communication terminal, and a power reception connection means for receiving power from the other mobile communication terminal,
The control means determines that it is a supply side when another portable communication terminal is connected to the supply connection means, and determines that it is a supply side when the other portable communication terminal is connected to the power receiving connection means. The mobile communication terminal according to claim 1, wherein the mobile communication terminal is determined to be a power receiving side. The battery is a rechargeable secondary battery,
The power transfer means has a function of charging the secondary battery with power received from another mobile communication terminal,
The mobile communication terminal according to any one of claims 1 to 3, wherein the control means instructs the power transfer means to charge the secondary battery when the control means is the power receiving side.  The control means compares the voltage of the secondary battery (supply-side battery voltage) with the voltage of the secondary battery (charge-side battery voltage) of another mobile communication terminal when both are on the supply side. 5. The mobile communication terminal according to claim 4, wherein the power transmission / reception unit is instructed to stop power supply to another mobile communication terminal when the voltage values become equal to each other. The power transfer means includes a boosting means for boosting the power supplied to other mobile communication terminals,
6. The portable device according to claim 4, wherein the control means instructs the power supply means to step up when the supply-side battery voltage is lower than the charge-side battery voltage when the control means is the supply side. Communication terminal. A method of supplying power to another mobile communication terminal in a battery-driven mobile communication terminal,
Determine whether the other mobile communication terminal is the power supply side or the power reception side,
A power supply method for a mobile communication terminal, wherein power is supplied to or received from the other mobile communication terminal based on the determination result. When the battery is a rechargeable secondary battery, the voltage of the secondary battery is detected,
When the battery itself is on the supply side, the voltage of the secondary battery (supply-side battery voltage) is compared with the voltage of the secondary battery (charge-side battery voltage) of another mobile communication terminal, and both are set to a predetermined voltage value. The power supply method for a mobile communication terminal according to claim 7, wherein power supply to another mobile communication terminal is stopped when the error occurs.

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