KR0169623B1 - Power detecting device and its method - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a battery residual power detection device and a method of a portable terminal system using a pen as an input means.

2. Technical problem to be solved by the invention

The present invention provides a battery residual power detection device and method for continuously detecting and displaying residual power of a battery using a pen, a TSP, and an analog-to-digital converter having a plurality of channels.

3. Summary of Solution to Invention

After detecting the detection request signal of the battery, selects the residual power supply channel of the analog / digital converter, and calculates the battery residual amount from the power level signal input through the selected channel characterized in that the device and method for performing the operation .

4. Important uses of the invention

In a portable terminal system using a pen as an input means, the remaining power of the battery can be continuously detected without additional hardware.

Description

Battery residual power detection device and method in portable terminal system using pen as input means

1 is a block diagram of a conventional battery residual power detection device.

2 is a configuration diagram of a battery residual power detection apparatus according to the present invention.

3 is a flowchart illustrating a method of detecting battery residual power according to the present invention.

* Explanation of symbols for main parts of the drawings

100: TSP (Touch Sensitive Panel) 150: control unit

160: display unit 170: memory

180: analog / digital conversion unit 190: auxiliary power battery

200: power supply unit 210: main power battery

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus for detecting battery residual power of a portable terminal system using a pen as an input means, and in particular, an analog / digital converter having a pen and a touch sensitive panel (TSP) and a plurality of channels. The present invention relates to a battery residual power detection device and method for continuously detecting and displaying residual power of a battery using a converter.

In general, a battery is used as a driving power source of a portable terminal system using a pen as an input means. Here, the input means using a pen must be provided with a pen, a TSP, and an analog / digital converter.

On the other hand, in using the portable terminal system as described above, the power supply capacity of the battery for supplying power is consumed over time, and when the power supply capacity of the battery becomes less than a predetermined reference power capacity, the operation of the portable terminal system is made. Loss of stored data or interruption of the execution operation occurred, and to solve this problem, the conventional portable terminal system is provided with a battery residual power detection circuit that continuously detects the amount of change in the battery and informs the user. The battery residual power detection circuit of this conventional portable terminal system is shown in FIG.

Referring to FIG. 1, power of the battery 10 is supplied to the control unit 40 through the power supply unit 20. And the power level of the battery 10 is lowered over time. The voltage comparison unit 30 compares the power level of the battery 10 with the comparator quasi-power level to generate a low level signal when the power level of the battery 10 is smaller than the comparison reference power level, and the power terminal of the controller 40. Input to detection VC. When the low level signal is input, the controller 40 cuts off the power supply from the battery 10. Accordingly, since the power capacity of the battery 10 is kept constant, data stored in the portable terminal system is protected.

However, when one battery 10 is used, only one power detector VC and one power comparator 30 of the controller 40 need to be used to detect the residual power. The detection terminal VC and the power comparing unit 30 are required as many as the number of batteries, and at the same time, more additional devices are required. This causes a problem in that the use of a control unit having a limited number of terminals is not efficient, and an additional additional device is added to prevent excessive power consumption and increase in manufacturing cost of a portable terminal system. It caused a problem.

Accordingly, an object of the present invention is to provide a battery residual power detection device and method that can detect the residual power of a plurality of batteries using the pen, TSP and analog-to-digital converter that is already provided, without the use of additional accessories. have.

According to an aspect of the present invention, a channel selection process of detecting a detection request signal of a battery and selecting a channel to which a residual power of an analog / digital converter is provided when the detection request signal is detected is provided. A battery residual power detection device of a portable terminal system which performs a predetermined display operation when a residual level is calculated by processing a power level signal input through a selected channel in a selection process, and calculating the residual amount of the battery below a predetermined standard; I suggest the way.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing a battery residual power detection circuit to which the present invention is applied.

The TSP 100 converts an input position of the pen into an electrical signal, and outputs an electrical signal indicating a position while receiving a current according to an operation of the provided T.L.R.B terminal. In FIG. 2, the X and Y values according to the pen input state are output through the T.L terminal. The analog / digital converter 180 receives the electrical signals of the X and Y values output through the TL terminals of the TSP 100 into the channel CH1 and the channel CH2, respectively, and converts them into predetermined digital signals to control the controller 150. ) In addition, the power of the auxiliary power battery 190 is input to the channel CH3 and the power of the main power battery 210 through the power supply unit 200 to the channel CH4 and converted to a predetermined digital signal, the control unit 150 likewise Will output That is, the analog / digital converter 180 converts the electrical signals input to the channels CH1 and 2 into X and Y position signals, and converts the powers input to the channels CH 3 and 4 into third and fourth power level signals, respectively. (Digital) and input to the controller 150. The controller 150 controls the overall operation required for detecting the residual power of the battery 10 according to the battery residual power detection program and inputs the X and Y position signals and the third and fourth power level signals to provide a power control signal. After generation, the display unit 160 is controlled.

The control unit 150 is provided with four predetermined input and output ports (100-103) for the TSP (100) to control the operation of the TSP 100, the operation of the first switch 1 (110) provided ), Switch 2 (120), switch 3 (130), and switch 4 through the control operation of 140. As an example, when the switch 1 (110) and the switch 3 (130) is turned on (ON) and the switch 2 (120) and switch 4 (140) is turned off (OFF), T of the TSP (100) A current is applied to the terminal and the B terminal, and when the values of the L and R terminals are read, the X value can be known. On the contrary, the switch 1 110 and the switch 3 130 are turned off, and the switch 2 120 ) And the switch 4 140 are turned on to apply current to the L terminal and the R terminal of the TSP 100. At this time, the Y value can be known by reading the value of the T terminal. As described above, the read X and Y values are applied to the channels CH1 and 2 of the analog / digital converter 180. The value of the T terminal is applied to the interrupt terminal INT of the controller 150 so that the controller 150 knows whether the TSP 100 is driven. The memory 170 stores the battery residual power detection program. The display unit 160 inputs the position signal according to the power control signal to display the position of the pen input to the TSP 100, and the auxiliary power battery generated according to the input of the third and fourth power level signals. The power level of 190 and the power level of main power battery 210 are displayed.

3 is a flowchart illustrating a method of detecting battery residual power according to the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 2 and 3.

First, in step 300 of FIG. 3, the controller 150 checks whether a pen is input to the TSP 100, which indicates whether an electrical signal is applied to the INT terminal of the controller through the T terminal of the TSP 100. The test is made as to whether or not. If it is checked in step 300 that there is an input of a pen, in step 310, an interrupt is generated to perform a control operation of the analog-digital converter 180, and the process proceeds to step 320. Then, in step 320, the controller 150 causes the analog / digital converter 180 to select channels CH 1 and 2, switches on the switches 1 and 3 (110 and 130), and switches 2 and 4 (120, After the 140 is turned off, the process 330 is performed. In step 330, the controller 150 reads the X coordinate value according to the pen input generated according to the operation of step 320, and then proceeds to step 340. In step 340, the switch 1, 3 (110, 130) in the on state is turned off, and the switch 2, 4 (120, 140) in the off state is performed in step 350. Then, in step 350, the controller 150 reads the Y value of the pen input generated according to the operation of step 340, and then proceeds to step 360. In step 360, the controller 150 displays a portion corresponding to the X and Y coordinate values on the display unit 160. In this case, it becomes an operation process of the controller 150 to display it on the display unit 160 according to the input of the pen.

On the other hand, if there is no pen input in step 300, that is, if there is no output from the T terminal to the INT terminal, the process proceeds to step 370. In step 370, the controller 150 determines whether there is a detection request of the battery, and if it is determined that the detection request of the battery 10 is detected, the controller 150 proceeds to step 380. In step 380, the controller 150 controls to select channels CH3 and 4 of the analog / digital converter 180 and proceeds to step 390. In step 390, the controller 150 receives the third and fourth power level signals output from the analog / digital converter 180 to calculate a corresponding battery residual amount. That is, the power of the auxiliary power battery 190 input through the channel CH3 is converted and outputted as a third power level signal through the analog / digital converter 180, and the controller 150 receives the input and receives the auxiliary battery. The power remaining amount of the power source 190 may be calculated, and when the power of the main power battery 210 input through the channel CH4 is converted and output as the fourth power level signal through the analog / digital conversion unit 180, The control unit 150 may receive the input and calculate a residual amount of power of the main battery 210.

In addition, when the power level of the main power battery 210 and the power level of the auxiliary power battery 190 become 2.1 V or less in step 400, the controller 150 warns that the battery is low through the display unit 160 in step 410. After the remaining power is displayed, the process proceeds to step 420. In operation 420, when the power level of the main power battery 210 and the power level of the auxiliary power battery 190 become less than 1.8V, the main power battery 210 and the auxiliary power battery in step 430. By interrupting the power supply of 190, the remaining power of the battery terminates the detection. The numerical value of 2.1V or 1.8V becomes a value presented for convenience of description, and may be changed according to the intention of the implementer or the characteristics of the device to be applied.

As described above, the present invention has the advantage of continuously detecting and displaying the residual power of the battery using a pen, a TSP, and an analog / digital converter, which are necessarily provided in a portable terminal system using a pen as an input means. Even when a large number of batteries are provided, there is an advantage of facilitating detection of these residual power sources.

Claims (4)

A battery residual power detection apparatus of a portable terminal system using a touch panel (TSP) for outputting corresponding X and Y direction values according to a plurality of switch operations and a pen as an input means, the battery comprising: at least one battery and a plurality of Has a channel and receives the X and Y direction values as a predetermined channel among the plurality of channels and converts them into X and Y position signals, and converts the residual power applied from the battery into another channel and converts them into power level signals. And an analog / digital converter for outputting the control unit and the switch, and controlling a channel selection operation of the analog / digital converter according to whether the X and Y direction values output from the touch panel are input according to the control of the switch. Receiving an X, Y position signal or a power level signal output from the analog / digital converter through a channel selected according to the control operation And a control unit for performing a display operation or a battery remaining amount calculation operation corresponding thereto. A touch panel (TSP) that receives power from a battery, uses a pen as an input means, and outputs corresponding X and Y direction values according to a plurality of switch operations, and a plurality of channels provided with the X and Y direction values. An analog / digital converter which receives a predetermined channel and converts it into X and Y position signals, and converts residual power applied from the battery into another channel and converts it into a power level signal, and outputs the X and Y positions. A battery residual power detection method of a portable terminal system which performs a corresponding display operation through a signal and a power level signal, the method comprising: a first step of detecting a residual power detection request signal from a battery; If detected, the second process of selecting the residual power supply channel of the analog / digital converter, and is input through the channel selected in the second process is converted into a power level signal A portable terminal comprising a third process of receiving a residual power and calculating a battery residual amount, and a fourth process of performing a predetermined display operation when the calculated residual amount is less than or equal to a predetermined criterion in the third process. How to detect remaining battery power in the system. The method of claim 1, wherein the controller is further configured to control a display operation or a stop operation of power supply from the battery when the remaining battery amount according to the calculation operation is determined to be a predetermined value or less. Battery residual power detection device. 3. The battery remaining of the portable terminal system of claim 2, further comprising: performing a power supply disconnection operation from the battery if the calculated residual amount is less than or equal to a predetermined reference value. Power detection method.