JP2000196492A - Power supply system for mobile terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce power consumption of a battery power supply that supplies power in the case of a speech by devising supply of power to circuit parts consuming power even in a standby state. SOLUTION: When a detection circuit 7 receives the sun ray and the detection circuit 7 outputs a light receiving enable signal (a) to a start control circuit 6, the start control circuit 6 outputs a start signal (b) to a solar battery 1, which is brought into a power generation enable state. In this case, the start control circuit 6 outputs a switching control signal (c) to a changeover control circuit 3. Thus, even when power can be supplied from a main body power supply 2 to the changeover control circuit 3, the changeover control circuit 3 selects power supply from a power supply system from the solar battery 1. Then the solar battery 1 supplies power to a liquid crystal display section 4 and an incoming call ringing section 5. Even in the case of awaiting a reception call in that state, the reception function of the mobile terminal can be kept. Since the power consumption of the main body power supply 2 in the reception wait state is suppressed, the main body power supply 2 can be used for a long time during the reception.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable telephone, a PHS
The present invention relates to a power supply method for reducing power consumption in a mobile terminal device.

[0002]

2. Description of the Related Art A mobile terminal device such as a mobile phone is presumed to be carried and used, and power required for operation is supplied only by a power supply built in the terminal device body. In addition, a part of the power is consumed even in the communication waiting state. For this reason, if the power consumption of the terminal device increases, the time during which a call can be made with a single charge becomes shorter, and the user has to repeat charging frequently, which greatly inconveniences the user. As a method of reducing the power consumption to solve such a problem, for example, Japanese Patent Application Laid-Open No. 6-224804 is disclosed. This technique is intended to reduce power consumption by stopping power supply to one side of a duplexed communication unit during standby under a specific situation. Japanese Utility Model Laid-Open No. 62-13038 discloses a system switching power supply system for switching between a solar battery and a storage battery. When the power supplied from the solar battery falls below the required power to the wireless device, the system supplies power from the storage battery. A technique of switching, that is, a so-called backup power supply system is disclosed. In this way, the power consumption of the power supply can be reduced when used under predetermined conditions.

[0003]

However, the technique disclosed in Japanese Patent Application Laid-Open No. Hei 6-224804 cannot reduce the power consumption in the case of a terminal device whose communication unit is not duplicated. In addition, the actual opening 62-13
The technology disclosed in Japanese Patent No. 038 is to switch the entire power to be supplied to the wireless unit to a solar battery or a storage battery and supply the same, and it is not possible to reduce the power consumption of any one of the systems while using the power. Can not. Therefore, for example, when power is supplied from the storage battery, it is not possible to reduce the power consumption during standby or during a call,
In this case, the talk time is limited by the power consumption, and the inconvenience of the user is still solved.

The present invention has been made in view of such circumstances, and has as its object to supply power during a call by devising a power supply system to a circuit part consuming power even during standby. An object of the present invention is to provide a power supply system for a mobile terminal device that can reduce the power consumption of a battery power supply.

[0005]

In order to achieve the above object, a mobile terminal device according to the present invention uses a liquid crystal device which consumes low power at all times even in a standby mode in order to reduce the power consumption of the terminal. For the display unit and the circuit for ringing,
A control system capable of operating using electric power from a solar cell is provided. That is, when the solar cell mounted on the mobile terminal device is in a state of being able to supply power and waiting for communication, the power supply system of the liquid crystal display unit and the ringing circuit is switched to be supplied from the solar cell. The other units such as the communication unit can be supplied with power from a power supply such as a storage battery mounted on the mobile terminal device. When power can be supplied from a solar cell during a call, the power supply system to the liquid crystal display unit and the like can be switched from a storage battery power supply to a solar cell system. In addition, when the solar battery cannot generate power outdoors, such as in rainy weather or at night, the power to the liquid crystal display unit or the like should be supplied from the storage battery power supply. The solar cell does not require the trouble of charging like a storage battery power supply, and if the solar cell can generate power, small power can be constantly supplied to a liquid crystal display or the like.

That is, a power supply system for a mobile terminal device according to a first aspect of the present invention is a power supply system for a mobile terminal device having two types of power sources, a storage battery that can be charged by an AC power supply and a solar cell. When the solar cell is in a state where power can be supplied, power is supplied from the solar cell to a circuit unit that operates even when the mobile terminal device is in a reception waiting state.

According to a second aspect of the present invention, there is provided a power supply system for a mobile terminal device according to the first aspect, wherein a detecting means for detecting whether or not the solar cell is in a light receiving state capable of supplying power, Switching control means for switching between power supply from the solar cell and power supply from the storage battery based on the result detected by the means, and the circuit section operating even in a reception standby state is a ringing ringing section and a liquid crystal display section, An incoming call ringing unit and a liquid crystal display unit that consume the power of the system switched by the switching control unit, and a start control unit that starts up the solar cell based on a signal from the detection unit. Is configured to supply power from the solar battery to the ringing section and the liquid crystal display when a signal capable of supplying power to the solar battery is received from the activation control means. And switches the power supply system.

According to a third aspect of the present invention, there is provided a power supply system for a mobile terminal device according to the second aspect, wherein even when the mobile terminal device is receiving power, the power supply of the solar cell is possible. The switching control means switches the power supply system to a solar cell.

According to a fourth aspect of the present invention, in the power supply system of the mobile terminal device according to the second or third aspect, the detection means and the switching control means are operated by pressing a signal indicating that a signal is being received and a call button. The signal and the call disconnection press signal are configured to be input, and while the signal indicating that the signal is being received is input after the call button press signal is input,
Or, from the input of the signal indicating that the signal is being received, until the call-in button press signal or the call disconnection button press signal is input, only during the period in which it is considered that the call is in progress, the power from the solar battery and the power from the storage battery Characterized in that it is replaced with switching means for switching.

According to a fifth aspect of the present invention, there is provided a power supply system for a mobile terminal device having two types of power sources, a storage battery that can be charged by an AC power supply and a solar cell. And an antenna signal detecting means for analyzing an input signal from the antenna and outputting a detection signal while reception from the antenna is detected, and a push button for transmitting a busy signal and a call disconnection signal. A switch, start control means for receiving a signal during call and transmitting a start signal for activating the solar cell, and a state in which a signal during call, a call disconnection signal, and a detection signal from the antenna signal detection means can be input. Connected, from the input of the busy signal, or from the input of the detection signal from the antenna signal detecting means to the input of the busy signal and the input of the call disconnection signal Only during a period when it is considered that a call is being made, the control unit has a function of switching from a storage battery to a power supply system from a solar cell, and an incoming call ringing unit and a liquid crystal display unit that receive power of the system switched by the control unit. It is characterized by being.

[0011]

Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a block diagram showing a power supply method of the mobile terminal device according to the first embodiment of the present invention. In FIG. 1, the mobile terminal device is:
Main body power supply 2 for supplying power to a normal mobile terminal device
And a solar cell 1 that constantly supplies power only to parts that consume low power. Further, a system for controlling these power supplies includes a detection circuit 7 for detecting whether the solar cell 1 is in a light receiving state capable of supplying power, and a solar cell 1 based on a result detected by the detection circuit 7. Switching control circuit 3 for switching between the power supply from the main power supply 2 and the power supply from the main body power supply 2, a ringing ring unit 5 and a liquid crystal display unit 4 consuming the power switched by the switching control circuit 3, and signals from the detection circuit 7. And a start-up control circuit 6 for starting up the solar cell based on the above. The power supply system from the main power supply 2 to the communication unit of the mobile terminal device is omitted because it is not directly related to the description of the present invention.

With such a configuration, even if power can be supplied from the main body power supply 2 but power can be supplied from the solar cell 1, the liquid crystal display unit 4 and the ringing unit 5 that consume less power are used. On the other hand, the switching control unit 3 operates so that the solar cell 1 supplies power preferentially. As a result, the power consumption of the main body power supply 2 is suppressed in the reception waiting state, and the main body power supply 2 can be used for a longer time during reception.

It is to be noted that the detection circuit 7 and the switching control circuit 3 are simply configured to receive a signal indicating that a signal is being received, a call button press signal, and a call disconnection press signal.
While the signal indicating that the signal is being received is being input after the signal indicating that the call is being pressed is input, or from the time that the signal indicating that the signal is being received is being input to the time that the signal indicating that the signal is being received is being input or the signal for pressing the call disconnection button is being input , Only while it is considered busy
It is also possible to replace with a circuit that switches between the power from the solar cell 1 and the power from the main body power supply 2.

Next, the operation of the first embodiment shown in FIG. 1 will be described. When sunlight is received by the detection circuit 7 of the mobile terminal device and the light receiving enable signal a is output from the detection circuit 7 to the activation control circuit 6, the activation control circuit 6
To output a start signal b, and the solar cell 1 is in a power generation enabled state. At this time, a switching control signal c is output from the activation control circuit 6 to the switching control circuit 3.

Thus, the switching control circuit 3 allows the solar cell 1 even if power can be supplied from the main body power supply 2.
Is determined to be in a power generation state and can supply power, and is switched to a power supply system from the solar cell 1. Therefore,
Power is supplied from the solar cell 1 to the liquid crystal display unit 4 and the ringing unit 5. In this state, even when the mobile terminal device is waiting for reception, the reception function of the mobile terminal device is maintained because the liquid crystal display unit 4 and the ringing unit 5 for notifying reception are in operation. Therefore, power consumption of the main body power supply 2 in the reception waiting state is suppressed, so that the main body power supply 2 can be used for a long time during reception.

If the solar cell 1 can generate power even during reception, the switching circuit 3 is switched to the solar cell 1 side, and the liquid crystal display unit 4 and the ringing unit 5 , And power can be supplied to the other communication units from the main battery 2.

Next, a power supply system for a mobile terminal device according to a second embodiment of the present invention will be described. FIG. 2 is a block diagram illustrating a power supply method of the mobile terminal device according to the second embodiment of the present invention. In FIG. 2,
The blocks having the same functions as those in FIG. 1 are given the same names and the same reference numerals.

In this embodiment, the power supply comprises a solar cell 1 and a main body power supply 2 as in the first embodiment. Further, a system that controls these power supplies includes an antenna 9 for receiving a call signal and an input signal d from the antenna 9, and outputs a detection signal e while reception from the antenna 9 is detected. A signal detection circuit 10, an incoming call ringing unit 5 and a liquid crystal display unit 4 for receiving the power of the system switched by the control circuit 8, a button 12 for transmitting a busy signal and a call disconnection signal, and a busy button press signal f , A start-up control circuit 11 for transmitting a start-up signal h for starting up the solar cell 2, a telephone call button press signal f, a call disconnection button press signal g, and a detection circuit 10.
Is connected in a state where the detection signal e from the communication circuit can be input, and the communication button press signal f is input after the call button press signal f is input or after the detection signal e from the detection circuit 10 is input. And a control circuit 8 having a function of switching from the main power supply 2 to a power supply system from the solar cell 1 only during a period during which it is considered that a call is in progress until the call disconnection button press signal g is input.

Next, the operation will be described. First, when a busy button press signal f is inputted by the button 12, this signal is received by the start control circuit 11, and then the start signal h is received.
Is output to the solar cell 1. Then, the power from the solar cell 1 activated by the activation signal h is input to the control circuit 8. The control circuit 8 is in a state where it can receive the busy button press signal f, the call disconnection button press signal g, and the detection signal e from the detection circuit 10. Then, from when the talking button press signal f is input to the control circuit 8 or after the detection signal e is input to when the talking button pressing signal f is input and the call disconnection button pressing signal g is input. The control circuit 8 determines that power supply from the solar cell 1 is possible, and switches the liquid crystal display unit 4 and the ringing unit 5 to a power supply system from the solar cell 1.

FIG. 3 is a state transition diagram of the control circuit of the power supply system in the simplified mobile terminal device shown in FIG. When the reception determination result signal, that is, the detection signal e is input to the control circuit 8 when the mobile terminal device is in the standby state (S1), the response standby supply switching state is switched to power supply from the solar cell (S2). . At this time, when the talking button press signal f is input, the state is switched to the disconnection waiting supply state, and the power supply system is maintained at the system from the solar cell (S3). Also, when in the standby state (S
1) From the time when the detection signal e is received to the time when the busy button press signal f is received and the call disconnection button press signal g are received, the disconnection waiting supply switching state is established, and the power supply system from the solar cell (S3).

The embodiment described above is an example for describing the present invention, and the present invention is not limited to the above-described embodiment, and various modifications are possible within the scope of the invention. is there. For example, among mobile terminal devices, when it is considered that a constant luminous intensity can be always maintained during a call, such as a PHS used in a business office, a simple circuit using a call button, a call disconnection button, and a received signal is used. And it is also possible to switch the power supply system between the solar cell and the main body power supply. In the case where a high-power solar cell can be mounted, the solar cell can supply power not only to the ringing section and the liquid crystal display section but also to the communication section, and it is almost unnecessary to charge the battery. It is also possible to make long calls.

[0022]

As described above, according to the power supply system for a mobile terminal device of the present invention, when power can be generated by a solar cell, power is supplied to a liquid crystal display unit, a ringing unit, and the like. This can be performed without consuming the power of the main body power supply, so that the usage time of the main body power supply during communication can be extended. As a result, there is an effect that it is possible to realize a terminal device that enables a long-time call.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a power supply method of a mobile terminal device according to a first embodiment of the present invention.

FIG. 2 is a block diagram illustrating a power supply method of a mobile terminal device according to a second embodiment of the present invention.

FIG. 3 is a state transition diagram of a control circuit of a power supply system in the simplified mobile terminal device shown in FIG.

[Explanation of symbols]

1: solar cell, 2: body power supply, 3: switching control circuit,
4 liquid crystal display section, 5 ringing section, 6 start control circuit,
7 detection circuit, 8 control circuit, 9 antenna, 10 antenna signal detection circuit, 11 activation control circuit, 12 push button, a light receiving enable signal, b activation signal, c switching control signal, d ... Input signal, e ... Detection signal, f ... Calling button press signal, g ... Call disconnection button press signal, h ... Start signal

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04B 7/26 103M F-term (Reference) 5G003 AA06 BA01 CC02 DA02 DA18 FA08 GC05 5K011 AA08 DA29 HA06 HA07 JA01 KA03 LA01 5K027 AA11 BB17 CC08 GG03 MM11 MM17 5K067 AA27 AA43 BB04 CC21 FF19 FF23 FF25 KK06 KK17

Claims (5)

[Claims] 1. A storage battery chargeable by an AC power supply,
In a power supply system for a mobile terminal device having two types of power sources, a solar cell and a circuit unit that operates even when the mobile terminal device is in a reception standby state when the solar cell is in a power supplyable state. , Power is supplied from the solar cell. 2. A detecting means for detecting whether the solar cell is in a light receiving state capable of supplying power, and a power supply from the solar cell and a power supply from the storage battery based on a result detected by the detecting means. A switching control unit for switching between power supply and the circuit unit operating even in a reception standby state is a ringing unit and a liquid crystal display unit, wherein the ringing unit for consuming power of a system switched by the switching control unit; The liquid crystal display unit, comprising: a start control unit that starts the solar cell based on a signal from the detection unit. The switching control unit can supply power to the solar cell from the start control unit. Switch the power supply system so as to supply power from the solar cell to the ringing section and the liquid crystal display section when receiving an appropriate signal. Power supply system of the mobile terminal apparatus according to claim 1, wherein a. 3. The switching control unit switches a power supply system to the solar cell when the solar cell is in a state where power can be supplied even during reception of the mobile terminal device. 3. A power supply method for a mobile terminal device according to item 2. 4. The apparatus according to claim 1, wherein the detection unit and the switching control unit are configured to receive a signal indicating that a signal is being received, a call button press signal, and a call disconnection press signal. While the signal indicating that the signal is being received is input after the input, or after the signal indicating that the signal is being received is input, the communication is performed until the call-in-button press signal or the call disconnection button-press signal is input. The power supply of the mobile terminal device according to claim 2 or 3, wherein the switching unit switches between the power from the solar battery and the power from the storage battery only during a period when the power is considered to be medium. method. 5. A storage battery chargeable by an AC power supply,
In a power supply system of a mobile terminal device provided with two types of power sources, a solar cell, an antenna for receiving a call signal, and an input signal from the antenna is analyzed, and while reception from the antenna is detected. Is an antenna signal detecting means for outputting a detection signal; a push button switch for transmitting a call signal and a call disconnection signal; and a start control for receiving a call signal and transmitting a start signal for starting the solar cell. Means, the busy signal, the call disconnection signal and the detection signal from the antenna signal detection means are connected in a state capable of input,
After the busy signal is input, or after the detection signal from the antenna signal detection unit is input, the busy signal is input, and the call is considered to be busy until the call disconnection signal is input. And a control unit having a function of switching from the storage battery to a power supply system from the solar cell, and an incoming call ringing unit and a liquid crystal display unit that receive power of the system switched by the control unit. A power supply method for a mobile terminal device.