KR20040093808A - Method for displaying charging/discharging state of secondary battery of mobile-telephone and the device - Google Patents

Abstract

PURPOSE: A method and an apparatus for displaying a charged/discharged state of a secondary battery of a mobile terminal are provided to allow a user to easily recognize a battery charge state. CONSTITUTION: A remaining capacity measuring unit(15) measures data of a voltage and current value in charging and discharging and capacity of a battery and provides the data to a terminal body through a communication port(21). A charge time calculating module(26) processes the data to calculate time required for fully charging a secondary battery. A usage time calculating module(27) receives the data from the remaining capacity measuring unit(15) and calculates average estimate time required for completely discharging the battery. A graphic output module(28) extracts a character image corresponding to the calculated charge estimate time or usage available time from a memory unit(24), combines the character image with text data of the charge estimate time or the usage available time, and outputs it to an LCD display unit(31). A controller(23) controls each element of the terminal.

Description

Method for displaying charging / discharging state of a portable terminal and its device {Method for displaying charging / discharging state of secondary battery of mobile-telephone and the device}

The present invention relates to a method for displaying a secondary battery charge and discharge state of a portable terminal and a device thereof, and more specifically, to charge and discharge the secondary battery remaining amount measuring device, the charging and discharging voltage, the current value and the remaining data to be processed and expected The present invention relates to a secondary battery charging and discharging state display method and apparatus for allowing a user to intuitively check the charging and discharging state of a battery by expressing a possible time and the like through a visual image.

In general, portable communication terminals such as mobile phones and PDAs display the state of charge of the secondary battery through a battery icon.

Such a conventional battery icon, as shown in Figure 1, usually represents a state of charge of the battery divided into three to four stages, but this is insufficient to provide accurate information about the state of the battery to the user.

In addition, the conventional portable communication terminal uses a lithium-ion secondary battery of 3.3 ~ 4.2V usually, because only the voltage of the battery is measured and the remaining amount of the secondary battery is estimated through this, the display icon is in use state. And incompletely changed according to the load from time to time.

Some mobile phones and PDAs have introduced a method of measuring the voltage fluctuation range of a battery and estimating the remaining battery level according to the fluctuation range. In this case, however, the drop point of the voltage is changed according to the usage condition of the battery and the degree of deterioration. There was a problem that it was not measured correctly.

On the other hand, the applicant of the present invention, in order to solve the above problems, has filed a "rechargeable battery residual method and apparatus thereof" (patent application, 10-2000-76085).

The remaining amount measuring device and method measures the error of the charge and discharge current and voltage of the secondary battery, the error of the decrease in power amount per cycle, and the change in the charge current, and corrects the error of the decrease in power amount, the error in the change of the charge current and the average temperature. After the coefficients are learned by using a multi-layered purge neural network, a residual control purge value is generated, and the cycle of the secondary battery is counted using the charge and discharge current values and the residual control purge value. As such, the accurate cycle count can be obtained according to the state of use of the battery, the degree of degradation thereof, and the like, so that the total remaining data of the battery calculated through this can be sufficiently reliable.

Therefore, when the improved secondary battery remaining amount measuring device is applied to a portable communication terminal, it is expected that the state of charge and discharge of the battery can be displayed more accurately and precisely through a time series character image.

In addition, the battery display icon of the conventional portable communication terminal merely displays the charging capacity roughly, and does not provide information such as the expected charging time and usable time.

Accordingly, the present invention is to solve the above-mentioned conventional problems, an object of the present invention is to apply the secondary battery remaining measuring device previously applied, and calculate the expected charging time and usable time, etc. through the measurement data By visually expressing this through a graphic image segmented in time, a method and apparatus for displaying a secondary battery charge and discharge state of a portable terminal, which enables a user to more easily recognize the state of the terminal battery more accurately, visually and intuitively. To provide.

The secondary battery charging and discharging state display method of the portable terminal for achieving the object of the present invention, measuring the charge and discharge voltage and current value and the battery capacity according to the use state of the secondary battery in the remaining amount measuring device; Determining whether the state of use of the secondary battery is in a charge mode or a discharge mode; In the charging mode, collecting the measured charging voltage and current value of the battery and the battery capacity data at a predetermined cycle and processing the same to calculate the expected charging time; In the discharge mode, collecting the measured discharge voltage and current value of the battery and battery capacity data in a predetermined cycle and processing the same to calculate the available time of the battery; And extracting an image of a time-series character corresponding to the calculated estimated charging time and usable time, and synthesizing it with the time display text and outputting the graphic.

In addition, the secondary battery charging and discharging state display device of the portable terminal for achieving the object of the present invention, by measuring the charge and discharge voltage and current value of the secondary battery and the battery capacity (RSOC) data provided to the terminal body Residual quantity measuring device; A memory unit configured to store a time series character including a plurality of sequential cut images; A charging time calculating module configured to calculate the expected charging time by processing the measurement data from the remaining amount measuring device; A usage time calculating module for processing the measurement data from the remaining amount measuring device and calculating the available time; A graphic output module for extracting a cut image corresponding to the calculated estimated charging time and usable time from the memory unit, and synthesizing the extracted text and the extracted image on the LCD display unit; And controlling the operation of the various devices, determining whether the battery is in a charged state or a discharged state, receiving the measured data from the remaining amount measuring device at a predetermined period, and transmitting the measured data to the charging time calculating module and the using time calculating module. Control unit;

1 is a view showing a battery icon of a conventional portable terminal.

Figure 2 is a block diagram of a secondary battery charge, discharge state display device of a portable terminal according to the present invention.

3 is a flowchart illustrating a process of calculating and displaying an estimated charging time of a portable terminal according to the present invention.

Figure 4 is an embodiment of a display screen of the estimated time of charging according to the present invention.

5 is a flow chart showing the usage time calculation and display process according to the present invention.

Figure 6 is an embodiment of a display screen of the available time according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: secondary battery 15: remaining amount measuring device

21: communication terminal 22: power terminal / power supply

23: control unit 24: memory unit

25: wireless communication module 26: charging time calculation module

27: Hour calculation module 28: Graphic output module

29: timer 30: key input unit

31: LCD display

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

2 is a block diagram of a secondary battery charge and discharge state display apparatus of a portable terminal according to the present invention.

2, the charging and discharging state display device of the present invention, the secondary battery 10 and the remaining amount measuring device 15, and the components in the portable terminal, the communication terminal 21, the power terminal / power supply unit (22), control unit 23, memory unit 24, charging time calculation module 26, usage time calculation module 27, graphic output module 28, wireless communication module 25, timer 29, Key input section 30, LCD display section 31, and the like.

The remaining amount measuring device 15 is implemented in the form of being embedded in the secondary battery 10, and the voltage and current values and battery capacity during charging and discharging as disclosed in the patent application (10-2000-76085) RSOC: measures data such as RELATED STATE OF CHARGE) and provides it to the terminal body through the communication terminal 21.

At this time, the battery capacity (RSOC) is data indicating the ratio [%] of the currently charged capacity to the full charge capacity of the battery.

The charging time calculating module 26 processes the charging voltage and current and the battery capacity (RSOC) data from the remaining amount measuring device 15 to charge the secondary battery only (that is, the estimated charging time). Is a module for calculating

The calculation of the charging expected time is as follows.

In other words, the remaining charge rate (RSOC) [%] is subtracted from 100 [%], multiplied by the normal charging time of the battery, and calculated by dividing the value by 100. When using a lithium-ion battery, the charging time is set to approximately 180 [minutes].

The usage time calculating module 27 receives data such as voltage and current at discharge, residual rate (RSOC), deterioration rate, and the like from the remaining amount measuring device 15, and then, averages the total time required to completely discharge the data. This module calculates the expected time (ie, the average usable time of the terminal).

The calculation of the available time is shown in Equation 2 below.

That is, the available time is calculated by multiplying the remaining capacity rate RSOC by the design capacity DC of the battery, dividing the value by the average consumption current value AC, and multiplying the deterioration rate of the battery.

In this case, the average current value AC may use a preset value or average the discharge current value transmitted from the remaining amount measuring device 15 for a predetermined period.

Such usable time need not be provided separately from the use time calculation module 27 when it is directly measured and transmitted from the remaining amount measuring device 15.

In addition, when the expected charging time or usable time is calculated as described above, the graphic output module 28 extracts a character image corresponding to the calculated time from the memory unit 24 and uses the estimated charging time or use time. It is combined with the text data of the available time and outputted to the LCD display unit 31.

On the other hand, the time series character of the present invention represents the progress of time by the sequential change of the image, and consists of a plurality of cut images (about 30 cuts or more). Such a time series character may be embodied in various ways such as scale indication (ex, vehicle speedometer), size increase / decrease type, move type, level change type, and the like.

The user accesses a CP (Contents Provider) company on the Internet through the wireless communication module 25, and downloads and stores a plurality of time series characters in the memory unit 24. In addition, the graphic output module 28 extracts and displays the ones corresponding to the charging and discharging states from the time series images of the display characters according to the selection from the stored time series characters.

The control unit 23 is a component that controls various devices of the terminal, and obtains the measurement data from the remaining amount measuring device 15 at a predetermined period (for example, 50 seconds) through the communication terminal 21, Check if the secondary battery is currently charged or discharged. The charging time calculating module 26, the usage time calculating module 27, and the graphic output module 28 are driven in the charging mode or the discharge mode.

Hereinafter, the process of calculating the expected charging time and the available time and displaying the state of the battery as a graphic image will be described with reference to FIGS. 3 to 6.

3 is a flowchart illustrating a process of calculating and displaying an estimated charging time of a portable terminal according to the present invention.

Referring to FIG. 3, in the charging mode for the secondary battery, the remaining amount measuring device 15 measures its charging voltage and current value and battery capacity (RSOC) data (S301). After confirming the current charging mode from the measuring device 15 receives the measurement data of the charging start time and delivers to the charging time calculation module 26 (S302).

In addition, the charging time calculation module 26 calculates the expected charging time only by processing the measurement data according to Equation 1 (S303), the graphic output module 28 is the first of the time series character set by the user After extracting the cut image, the text data of the estimated full charge time is synthesized on the image and output on the LCD display 31 (S304).

For example, referring to FIG. 4 in which the user sets the scale indicator (vehicle speedometer) character as the display character, the estimated charging time is 30 [minutes] and the display needle is 0 [minutes] at the start of charging. The remaining charge estimated time is displayed as 30 [min].

The controller 23 determines whether a predetermined time (for example, 50 seconds) has elapsed by referring to the timer 29 (S305), and maintains the display graphic during the period (S306). When the elapsed time, new measured value data is loaded from the remaining amount measuring device 15 (S307). The measured value data is transferred to the charging time calculating module 26 to calculate the current charging estimated time according to the charging progress. (S308)

The graphic output module 28 displays the calculated current charging expected time on the LCD display unit 31 as text, extracts the cut image, and updates the display graphic. That is, the cut image corresponding to the charging progress time (only charging expected time-the current charging expected time) is extracted and displayed.

For example, as shown in FIG. 4, when the current charging expected time is 20 [minutes], not only the charging expected time is displayed as text but also a character image indicating the charging progress time (10 minutes) is extracted. Display. In addition, an appropriate time display can be made based on the estimated charging time (30 minutes) only at each indication scale.

In addition, by repeatedly repeating the steps S305 to S309 until the battery is fully charged, the estimated charging time and the charging state are displayed to the user through visual images that are sequentially changed.

5 is a flowchart illustrating a process of calculating and displaying usable time according to the present invention.

Referring to FIG. 5, in the discharge mode, the remaining amount measuring device 15 measures the discharge voltage and current value and the battery capacity (RSOC) data (S501). Usage mode), and receives measurement data of the time point at which the discharge starts (that is, end of charging) from the remaining amount measuring device 15 and transmits the measured data to the use time calculation module 27 (S502).

Accordingly, the usage time calculating module 27 calculates the first available time as shown in Equation 2 (S503), and the graphic output module 28 extracts the last cut image of the character from the memory unit 24. The calculated text data of the available time is synthesized and output to the LCD display unit 31 (S504).

For example, in Fig. 6, when the initial usable time is 30 [hours], the indication needle indicates 30 [hours], and each indication scale indicates an appropriate time when the maximum usable time is 30 [hours]. The indication is made. Also, as the discharge proceeds, the cut images will be sequentially extracted and displayed so that the indicator needle proceeds counterclockwise.

The controller 23 determines whether a predetermined time (for example, 10 seconds) has elapsed by referring to the timer 29 (S505), and maintains the display graphic during the period (S506). When the elapsed time, new measurement data is loaded from the remaining amount measuring device 15 (S507). The measured data is transferred to the usage time calculating module 27, and the average estimated time available for the current charging capacity of the battery is obtained. (S508)

When the current usable time is calculated, the graphic output module 28 extracts a cut image corresponding to the available time from the memory unit 24, and displays the displayed usable time with the extracted image. (S509)

For example, FIG. 6 shows a discharge mode display graphic for the case where the initial available time is 30 [hours] and the current available time is 15 [hours].

Further, by repeatedly repeating the steps S505 to S509 while the discharge is in progress, it is possible to sequentially display the available time and the charging state to the user.

As described above, the method for displaying a secondary battery charge and discharge state of a portable terminal according to the present invention and a device thereof include voltage, current, and battery capacity (RSOC) data during accurate charge and discharge from a secondary battery remaining measurement device. By processing and subdividing the expected charging time and available time, etc. into text and a plurality of visual images, the user can easily grasp the state of charge of the terminal visually and intuitively.

What has been described above is only one embodiment for implementing the secondary battery charge, discharge status display method and apparatus of the portable terminal according to the present invention, the present invention is not limited to the above embodiment, the following patents Without departing from the gist of the present invention claimed in the claims, any person of ordinary skill in the art will have the technical spirit of the present invention to the extent that various modifications can be made.

Claims (8)

Measuring a charge and discharge voltage and a current value and a battery capacity according to the state of use of the secondary battery in the remaining amount measuring device; Determining whether the state of use of the secondary battery is in a charge mode or a discharge mode; In the charging mode, collecting the measured charging voltage and current value of the battery and the battery capacity data at a predetermined cycle and processing the same to calculate the expected charging time; In the discharge mode, collecting the measured discharge voltage and current value of the battery and battery capacity data in a predetermined cycle and processing the same to calculate the available time of the battery; And Extracting an image of a time-series character corresponding to the calculated estimated charging time and usable time, and synthesizing it with time-displayed text to output a graphic; secondary battery charging and discharging state of the portable terminal, comprising: Display method. The portable terminal of claim 1, wherein the calculating of the estimated charging time is performed by subtracting a battery capacity (RSOC) value from 100 [%], multiplying by a standard charging time of the battery, and dividing the value by 100 to calculate the portable terminal. Secondary battery charge and discharge status display method. The method of claim 1, wherein the calculating a usable time is performed by multiplying a battery capacity (RSOC) value by a battery design capacity (DC), dividing the value by an average current value (AC), and then applying a deterioration rate of the battery. Secondary battery charge and discharge status display method of a portable terminal, characterized in that by calculating. The rechargeable battery charger of claim 1, wherein the time series character is composed of a plurality of sequential cut images, and is implemented in a scale indicating type, a size increasing type, a moving type, or a level changing type. How to indicate the discharge status. The secondary battery of claim 1, wherein the time series character is downloaded and stored from a content providing server on the Internet through a wireless communication module, and a display character is set among time series characters by a user's selection. How to display charge and discharge status. Residual amount measuring device for measuring the charge and discharge voltage and current value of the secondary battery and the battery capacity (RSOC) data provided to the terminal body; A memory unit configured to store a time series character including a plurality of sequential cut images; A charging time calculating module configured to calculate the expected charging time by processing the measurement data from the remaining amount measuring device; A usage time calculating module for processing the measurement data from the remaining amount measuring device and calculating the available time; A graphic output module for extracting a cut image corresponding to the calculated estimated charging time and usable time from the memory unit, and synthesizing the extracted text and the extracted image on the LCD display unit; And The controller controls the operations of the various devices, determines whether the battery is in a charged state or a discharged state, and receives the measured data from the remaining amount measuring device at a predetermined period and transmits the measured data to the charging time calculating module and the using time calculating module. (23); secondary battery charge and discharge status display device of a portable terminal, characterized in that consisting of. The method of claim 6, wherein the charging time calculation module is configured to calculate the expected charging time of the battery by subtracting the battery capacity (RSOC) value from 100 [%], multiplying by the standard charging time of the battery, and dividing the value by 100. A secondary battery charge and discharge status display device of a portable terminal. The method of claim 6, wherein the usage time calculation module multiplies the battery capacity (RSOC) value by the design capacity (DC) of the battery, divides the value by the average current value (AC), and then applies a degradation rate of the battery. A secondary battery charging and discharging status display device of a portable terminal, characterized in that for calculating the available time of the battery.