JPH09233016A - Mobile radio terminal equipment with lcd power supply control function - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce the current consumption of the LCD in the standby state by displaying a screen of the LCD only when the user takes a terminal equipment in his hands through a detection output of a touch sensor. SOLUTION: An input of a touch sensor 105 is connected to a positive pole 104 of a conductive terminal 102, and its output is connected to an input port of a microprocessor 110. When the user takes a mobile radio terminal equipment in his hands, a very small current flows between a negative pole 103 of the conductive terminal 102 and the positive pole 104 via a transistor(TR) 108 and a resistor 106. When the TR 108 is conductive, a current flows therein via a resistor 107 and a high level is given to an input port of the microprocessor 110. An output of a constant voltage series regulator 114 is set and a display screen of an LCD 113 is turned on. When the user detaches its hands from the mobile radio terminal equipment, the LCD 113 is turned off.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile wireless terminal having an LCD.

[0002]

2. Description of the Related Art A conventional mobile radio terminal is disclosed in Japanese Patent Laid-Open No. 4-2.
It is reported that a clock circuit, a touch sensor, an optical sensor, and an LED are provided as described in Japanese Patent No. 41549.

At the time of making a call, based on the detection outputs of the touch sensor and the optical sensor, the user picks up the terminal and the LED illuminates the key only when the surroundings are dark. As a result, a mobile radio terminal is provided that has a minimum current consumption during standby.

[0004]

In a general mobile wireless terminal, the breakdown of the current consumption of the entire terminal during standby is that the current consumption of the receiving circuit or the like is large, that is, the current consumption of the LCD is The share is very small.
Therefore, the magnitude of the current consumption of the LCD rarely directly affects the standby time of the terminal.

However, a mobile terminal performing communication in a digital mobile radio communication system adopting a time division multiplexing (TDMA) system, has one time interval (time interval) within a certain time period (frame) during standby. It suffices to perform reception only in (slot). In other words, the receiving circuit does not have to be always on, but only needs to be on for a certain time interval. Therefore, the average current consumption of the receiving circuit is greatly reduced, and the current consumption of the LCD that is always in the display state accounts for a large proportion of the current consumption of the entire terminal during standby, and the current consumption of the LCD greatly affects the standby time. Come on.

As described above, in the conventional technique, L
No consideration was given to the current consumption of the CD.

An object of the present invention is to reduce the current consumption of the LCD during standby.

[0008]

[Means for Solving the Problems] The above object is to provide a mobile wireless terminal with a touch sensor, and to judge whether or not the user holds the terminal during standby to determine whether or not the user has the terminal. This is solved by controlling the power supply of the LCD, that is, turning on the power supply of the LCD only when the user holds the terminal, and turning off the power supply of the LCD when the user does not hold the terminal.

According to the present invention, the LCD in the mobile radio terminal in standby mode consumes current only when the user holds the terminal, and when the user does not hold the terminal. Does not consume current. In other words, L during standby
The average current consumption of the CD can be reduced, and the average current consumption of the entire terminal at the time of standby can be reduced.

[0010]

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a block diagram of a mobile radio terminal having an LCD power control function according to the present invention.

Reference numeral 101 is a rechargeable battery (battery) for power supply, and 102 is installed where a user touches it. 2
A conductive terminal of the pole, 105 is a touch sensor. In this case, the negative electrode 103 of the conductive terminal 105 is grounded, and the positive electrode 104 is connected to the touch sensor 105. The touch sensor 105 includes resistors 106 and 107 and a transistor 108 having a high current amplification factor.

Further, 109 is a constant voltage series regulator for supplying power to the control section, 110 is a microprocessor for system control, 111 is a ROM in which various programs are written, and 112 is a RAM for temporarily storing various data. is there. For example, the program of the routine shown in FIG. 3 is also written in the ROM 111.

Reference numeral 113 denotes an LCD for displaying various kinds of information, and the LCD 113 has a built-in drive circuit. Reference numeral 114 is a constant voltage series regulator capable of turning on and off the output that supplies power to the LCD 113, and 115 is a voltage detector for monitoring the power supply voltage of the LCD 113. The output of the voltage detector 115 is input to the microprocessor 110 and the LCD 113.

Although not shown, the mobile radio terminal further comprises an antenna, a transmitting circuit, a receiving circuit, a voice processing circuit and the like.

The operation of the touch sensor 105 will be described below.

The input of the touch sensor 105 is the conductive terminal 10.
2 is connected to the positive electrode 104 and the output is connected to the input port of the microprocessor 110.

The negative electrode 103 and the positive electrode 10 of the conductive terminal 102
4 is installed at a position that the user always touches when using the mobile wireless terminal. For example, the equipment is installed at the position shown in FIG. In FIG. 2, 201 is an antenna and 202 is an LC
D and 203 are negative electrodes of conductive terminals, and 204 is a positive electrode of conductive terminals.

First, in a normal state, the negative electrode 10 of the conductive terminal 102 is normally used.
3 and the positive electrode 104 are in an insulated state, and the transistor 10
8 is in the off state, the output of the touch sensor 105 is grounded through the resistor 107, and the microprocessor 1
Lo level is input to the 10 input ports.

Next, when the user picks up the mobile wireless terminal for the purpose of use, a minute current flows between the negative electrode 103 and the positive electrode 104 of the conductive terminal 102 through the transistor 108 and the resistor 106. This minute current is generated by the transistor 108.
Becomes the base current of the transistor and the transistor 108 is turned on. Therefore, the amplified current flows between the emitter and the collector of the transistor 108 through the resistor 107, so that the input port of the microprocessor 110 becomes H level.
The i level is input.

That is, when the user picks up the mobile wireless terminal, the input port of the microprocessor 110 receives a rising edge from the Lo level to the Hi level, and when the user releases the mobile wireless terminal, the micro The input port of the processor 110 receives a fall from Hi level to Lo level.

When the microprocessor 110 detects rising and falling edges from the touch sensor 105, which are input to the microprocessor 110, an interrupt is generated in the soft processing, and the LCD 1
The power supply of 13 is controlled by software.

The power of the LCD 113 is supplied by the constant voltage series regulator 114. The output of the constant voltage series regulator 114 can be turned on and off,
When the Hi level is input, the output turns on and Lo
When the level is input, the output is turned off. Output on / off control is performed by the output port of the microprocessor 110. The power supply voltage of the LCD 113 is the output of the voltage detector 115 that is the microprocessor 1
Monitoring is performed by inputting to 10 input ports.

Using the above block configuration, the microprocessor 110 performs the processing shown in FIG.

Next, the processing contents of the microprocessor shown in FIG. 3 will be described.

When an interrupt is input from the touch sensor 105 (301), the microprocessor 110 determines whether the port input from the touch sensor 105 is Hi level or Lo level (302), so that the user can operate the mobile wireless terminal. Or not. If the port input is at the Lo level, it is determined that the user has released his hand, and the process proceeds to step 303 and thereafter. It is determined that the user has obtained that the port input is at the Hi level, and the process proceeds to the steps 307 and thereafter.

First, the processing when the user releases the mobile radio terminal will be described.

At 303, a certain fixed time is counted.
This eliminates the inconvenience that the LCD 113 display disappears immediately when the user temporarily releases his hand. Although the processing flow is not described, if the interrupt processing is entered again at the time of counting and it is determined that the user has it, the current LCD 113 display is maintained. When the process of 303 is completed, it is determined that the user does not have it, and the current display information of the LCD 113 is written into the RAM (304). After that, the output port to the constant voltage series regulator 114 is set to Lo level (3
05). Therefore, the power of the LCD 113 is not supplied and the display of the LCD 113 is turned off (306).

Next, the processing when the user holds the mobile wireless terminal will be described.

In step 307, the RAM 112 is executed in the process 304.
The display information before the display of the LCD 113 written in the above is turned off is read from the RAM 112. 30
When the process of 7 is completed, the output port to the constant voltage series regulator 114 is set to the Hi level to turn on the power of the LCD 113 (308). After that, the input level from the voltage detector 115 is monitored for Hi level input (309), and when the Hi level is input, it is determined that the power supply of the LCD 113 is normally turned on, and the display setting of the LCD 113 is set. I do. Through the above processing, the display of the LCD 113 is turned on, and the display is in the display state before being turned off, so that the user does not feel uncomfortable. If the Hi level cannot be detected in the process of 309, it means that the power of the LCD 113 is not normally turned on. In other words, it is an abnormal mode, and it is determined that there is a failure.

[0031]

According to the present invention, when the user does not have the mobile radio terminal, that is, when the mobile radio terminal is not in use, the current consumption of the LCD can be eliminated and the entire standby time can be reduced. It is possible to reduce current consumption. In other words, the standby time that can be used by charging the battery once can be lengthened, and the user can use the battery for a long time with peace of mind without worrying about the battery running out.

[Brief description of drawings]

FIG. 1 is a block diagram of a part of a mobile wireless terminal having an LCD power control function of the present invention.

FIG. 2 is a perspective view of a mobile wireless terminal equipped with a touch sensor.

FIG. 3 is a flowchart of an example of a part of a processing routine of LCD power supply control.

[Explanation of symbols]

 101 ... Rechargeable battery, 102 ... Conductive terminal, 103 ... Negative electrode of conductive terminal, 104 ... Positive electrode of conductive terminal, 105 ... Touch sensor, 106 ... Resistor, 107 ... Resistor, 108 ... Transistor, 109 ... Constant voltage series regulator, 110 ... Microprocessor, 111 ... ROM, 112 ... RAM, 113 ... LCD, 114 ... Constant voltage series regulator, 115 ... Voltage detector.

Claims (3)

[Claims] 1. An LCD and a touch sensor are provided, and the function of displaying the LCD screen only when the user holds the terminal by the detection output of the touch sensor is provided. Mobile wireless terminal. 2. A mobile radio terminal according to claim 1, wherein the function is enabled only in a standby mode. 3. The mobile wireless terminal according to claim 1, wherein a user can select whether to enable or disable the function.