JPH10321261A - Method for estimating validly usable time of battery in portable terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for estimating a valid and usable time of a battery of a portable terminal by which the charged amount of the battery is properly estimated and the validly usable time of the battery is precisely estimated. SOLUTION: An initial voltage-initial charged amount table having a property of the initial voltage and the initial charged amount of this battery is provided, the table is renewed for every battery use time by setting the total consumed discharged amount as an initial charged amount based on the stored prior initial voltage and total consumed discharged amount, the initial charged amount corresponding to the initial voltage measured at the time is read out of the table, the total consumed discharged amount is computed from the consumed electric current value and the duration for every operation mode, the battery charged amount is computed from the difference between the initial charged amount and the total consumed discharged amount, and the validly usable time is calculated based on the discharging amount per unit time of the battery.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a portable terminal,
Especially used to know the available time of the mobile terminal,
The present invention relates to a method for estimating an effective usable time of a battery of a mobile terminal.

[0002]

2. Description of the Related Art A conventional method for notifying the amount of charge of a battery in a portable terminal will be described with reference to FIG. FIG. 8 is an explanatory diagram showing the relationship between the used discharge amount and the voltage. For example, as shown in FIG. 8, a method for notifying the charge amount of the battery is to measure the voltage of the battery,
A method of displaying with a level meter and a method of lighting a battery lamp when the value becomes equal to or less than a specified value are used.

[0003]

However, in the above-mentioned conventional method for notifying the charge amount of the battery, the usable time is not displayed, and it is unclear how much the battery can be used later. There was a problem that the actual situation suddenly became unusable and an alarm was issued.

The present invention has been made in view of the above circumstances, and provides a method of estimating the effective usable time of a battery of a portable terminal, which is capable of appropriately estimating the battery charge amount and accurately estimating the usable time of the battery. The purpose is to do.

[0005]

According to a first aspect of the present invention, there is provided a method for solving the above-mentioned problems of the prior art. A method for estimating the effective usable time of a battery of a mobile terminal having a charge amount table, wherein, each time a battery is used, a previously calculated total discharge amount is used as an initial charge amount, and a previously measured initial voltage and the initial Update the initial voltage: initial charge amount table with the amount of charge, measure the voltage of the battery as the initial voltage, and
Referring to the initial charge amount table, read the initial charge amount with respect to the measured initial voltage, calculate the total used amount from the current consumption value and the duration for each operation mode, and calculate the initial charged amount and the total used amount. The battery charge is calculated from the difference between the battery charge amount and the effective usable time based on the discharge amount per unit time from the battery charge amount. : The initial charge amount characteristic curve is updated each time the battery is used, so that the effective usable time can be accurately predicted.

According to a second aspect of the present invention, there is provided a portable telephone having an initial voltage: initial charge amount table in which characteristics of an initial voltage and an initial charge amount are tabulated according to the type of battery. A method of estimating the effective usable time of a battery of a terminal. Each time the battery is used, a weighted average value of a previously read initial charge amount and a previously calculated calculated value of a total discharge amount used is calculated as an initial charge amount. And updating the initial voltage: initial charge amount table with the previously measured initial voltage and the initial charge amount, measuring the battery voltage as the initial voltage, and referring to the initial voltage: initial charge amount table, Read the initial charge amount for the measured initial voltage, calculate the total use amount from the current consumption value and the duration for each operation mode, the initial charge amount and the total use amount To calculate the battery charge amount from the difference,
An effective usable time is calculated based on a discharge amount per unit time from the battery charge amount, and an initial voltage: initial charge amount characteristic curve is set for each use of the battery with respect to deterioration due to aging of the battery. The effective usable time can be accurately predicted.

According to a third aspect of the present invention, an initial voltage from an initial charge amount of 0 to a full charge amount is divided by a constant voltage according to the type of the battery, and the initial voltage and the initial voltage are determined. An initial voltage in which an initial charge amount is stored and tabulated for each of the initial voltages so as to represent characteristics of the initial charge amount: a method for estimating an effective usable time of a battery of a portable terminal having an initial charge amount table, Each time is used, the data of the oldest initial voltage and the initial charge amount in the initial voltage: initial charge amount table are updated with the previously measured initial voltage and the previously calculated initial charge amount, and the battery voltage is changed to the initial voltage. The initial voltage: The initial voltage and the initial charge in the initial charge amount table are used as variable data, and a function is approximated to obtain an approximate expression curve. Calculate the initial charge amount corresponding to the measured initial voltage, calculate the total use amount from the current consumption value and the duration for each operation mode, and calculate the battery charge amount from the difference between the initial charge amount and the total use amount. And calculating the effective usable time based on the amount of discharge per unit time from the amount of charge of the battery. The characteristic curve of the initial voltage: initial charge amount with respect to deterioration due to aging of the battery is characterized by It is updated each time the battery is used, and the effective usable time can be accurately predicted.

According to a fourth aspect of the present invention, an initial voltage from an initial charge amount of 0 to a full charge amount is divided by a constant voltage according to the type of battery, and the initial voltage and An initial voltage in which the initial charge amount is stored and tabulated for each of the initial voltages so as to represent the characteristics of the initial charge amount. Each time it is used, a weighted average value of the previously calculated initial charge amount and the previously calculated value of the total used discharge amount is set as the initial charge amount, and the initial voltage and the initial voltage measured by the previously measured initial voltage and the initial charge amount are used. : Updating the data of the oldest initial voltage and the initial charge amount in the initial charge amount table, measuring the battery voltage as the initial voltage, and calculating the initial voltage in the initial charge: initial charge amount table. The initial charge amount is variable data and,
Calculate an approximate expression curve by function approximation, calculate an initial charge amount corresponding to the measured initial voltage from the approximate curve, calculate a total discharge amount used from a current consumption value and a duration for each operation mode, A battery charge amount is calculated from a difference between the charge amount and the total use amount, and an effective usable time is calculated based on a discharge amount per unit time from the battery charge amount. The initial voltage: initial charge amount characteristic curve is updated each time the battery is used with respect to the deterioration due to the change, so that the effective usable time can be accurately predicted.

According to a fifth aspect of the present invention, there is provided a power supply system comprising: an initial charge amount ranging from 0 to a full charge amount divided by a constant voltage according to a type of a battery; The memory area is divided by the number of the set voltage widths, and the initial charge amount is stored for each of the initial voltages so as to represent the characteristics of the initial voltage and the initial charge amount.
A method for estimating a valid usable time of a battery of a mobile terminal having an initial charge amount table, wherein the initial voltage is calculated based on an initially measured initial voltage and a previously calculated initial charge amount each time the battery is used. The data of the oldest initial voltage and the initial charge amount in the amount table is updated, the voltage of the battery is measured as the initial voltage, and the initial voltage and the initial charge amount in the initial voltage: initial charge amount table are used as variable data, and linear approximation is performed. Calculating an approximate expression curve, calculating an initial charge amount corresponding to the measured initial voltage from the approximate curve, calculating a total discharge amount used from a current consumption value and a duration for each operation mode, and calculating the initial charge amount. Calculate the battery charge from the difference from the total used discharge amount, and use the battery charge amount based on the discharge amount per unit time to enable effective use. The initial voltage: initial charge characteristic curve is updated each time the battery is used with respect to deterioration due to aging of the battery, so that the effective usable time can be accurately predicted. is there.

According to a sixth aspect of the present invention for solving the above-mentioned problems of the prior art, an initial voltage from an initial charge amount of 0 to a full charge amount is divided by a constant voltage according to the type of battery, The memory area is divided by the number of the set voltage widths, and the initial charge amount is stored for each of the initial voltages so as to represent the characteristics of the initial voltage and the initial charge amount.
A method for estimating the effective usable time of a battery of a mobile terminal having an initial charge amount table, the method comprising, each time a battery is used, comparing a previously calculated initial charge amount and a previously calculated total discharge amount calculated value. The weighted average value is used as the initial charge amount, the data of the oldest initial voltage and the initial charge amount in the initial voltage: initial charge amount table are updated with the previously measured initial voltage and the initial charge amount, and the battery voltage is changed to the initial voltage. The initial voltage and the initial charge in the initial charge amount table as variable data;
An approximate expression curve is obtained by linear approximation, an initial charge amount corresponding to the measured initial voltage is calculated from the approximate curve, a total used discharge amount is calculated from a current consumption value and a duration for each operation mode, and the initial charge amount is calculated. A battery charge amount is calculated from a difference between the charge amount and the total use amount, and an effective usable time is calculated based on a discharge amount per unit time from the battery charge amount. The initial voltage: initial charge amount characteristic curve is updated each time the battery is used with respect to the deterioration due to the change, so that the effective usable time can be accurately predicted.

[0011]

Embodiments of the present invention will be described with reference to the drawings. The method for estimating the effective usable time of the battery of the portable terminal according to the embodiment of the present invention includes:
Initial voltage having initial battery and initial charge characteristics: An initial charge table is provided. Each time the battery is used, the initial voltage stored in the previous use and calculated in the previous use. The initial voltage: the initial charge amount table is updated using the total discharge amount used as the initial charge amount, and the initial charge amount for the initial voltage measured this time is read from the initial voltage: initial charge amount table, and the current consumption value and duration for each operation mode Calculates the total amount of discharge from the battery, calculates the battery charge from the difference between the read initial charge and the calculated total discharge, and uses the battery charge based on the amount of discharge per unit time for effective use. It calculates the time, and the initial voltage: initial charge characteristic curve is updated each time the battery is used in response to deterioration due to aging of the battery. Ri is one that can accurately predict the effective usable time.

A configuration of a portable terminal (this portable terminal) for realizing a method for estimating the effective usable time of a battery according to an embodiment of the present invention will be described with reference to FIG. FIG. 1 is a configuration block diagram of a mobile terminal according to an embodiment of the present invention.
As shown in FIG. 1, the mobile terminal includes a battery 11,
A / D for converting battery voltage to digital signal
The converter 12, a control unit 13 for calculating the effective usable time of the battery 11, a memory 14 for storing the initial voltage of the battery 11 and the total discharge amount used, and a display unit 15 for displaying the effective usable time of the battery 11 It is composed of

Further, the memory 14 includes, as shown in FIG.
First memory 1 for storing a plurality of initial voltages and initial charge amounts
4a, a second memory 14b for storing the initial voltage, and a third memory for storing the calculated value of the total used discharge amount.

The memory 14 is provided with a plurality of first memories 14a, second memories 14b, and third memories 14c corresponding to the batteries to be used. The first memory 14a, the second memory 14b, and the third memory 14c corresponding to the selected battery can be selected as a set.

Next, each memory in the memory 14 will be specifically described. The first memory 14a stores a table (initial voltage: initial charge amount table) for storing data of the initial charge amount with respect to the initial voltage. The initial voltage: initial charge amount table is as shown in FIG. The characteristic of the initial charge amount is represented with respect to the initial voltage and the initial charge amount is 0 for the data of the initial voltage and the initial charge amount.
The initial voltage from the first charge to the full charge is divided by a voltage at a constant interval, and is tabulated to store the initial charge for each initial voltage. FIG. 3 shows the initial voltage of the battery:
FIG. 4 is an explanatory diagram showing characteristics of an initial charge amount.

The second memory 14b stores an initial voltage measured each time the battery is used.
The third memory 14c is a memory that stores a calculated value of the total used discharge amount calculated per unit time when the battery is used.

Referring to FIG. 2, three methods for predicting the initial charge amount of the battery and the effective usable time in the portable terminal shown in FIG. 1 will be described. FIG. 2 is a flowchart of a method for estimating a valid battery usable time in the portable terminal.

First, the first prediction method will be described.
A plurality of first memories 14a for a plurality of batteries,
As shown in FIG. 2, on the premise that a plurality of second memories 14b and third memories 14c are provided as a set,
A first memory 14a corresponding to the battery used in
The second memory 14b and the third memory 14c are selected as a set (S201). When the battery used last time is used again, the first memory 14a, the second memory 14b, and the third memory 14c corresponding to the battery are used.
Is to select the same memory as before.

Next, the second memory 14b stores the initial voltage in the previous process S204, and the third memory 14c stores the data of the calculated value of the total discharge amount used in the previous process S208. Because I remember (update)
The two tables are used to update the initial voltage: initial charge amount table in the first memory 14a (S202). That is, in the process 202, the second memory 14b and the third memory 14
Although the update of the first memory 14a using c is performed,
Updating of the second memory 14b and the third memory 14c is not performed here.

Specifically, since the initial voltage is stored in the second memory 14b and the calculated total discharge amount is stored in the third memory 14c when the battery is used last time, The discharge amount is defined as the initial charge amount, and the initial voltage and the initial charge amount in the initial voltage: initial charge amount table are updated using the initial voltage and the initial charge amount.

Alternatively, as shown in FIG.
The weighted average value is obtained by weighting the calculated values of the initial charge amount and the total used discharge amount written in the memory 41 (corresponding to the memory 14 in FIG. 1) by α and (1−α), respectively. Is an initial charge amount, and the initial voltage stored in the second memory 44 and the initial charge amount are used to update the initial voltage and the initial charge amount in the initial voltage: initial charge amount table. FIG. 4 is a processing block diagram for obtaining a weighted average value in the mobile terminal.

More specifically, the initial charge stored in the fourth memory 42 of the memory 41 is weighted by α by the weighter 46, and the weight is added to the third memory 45 (corresponding to the third memory 14c in FIG. 1). ) Is calculated by weighting (1−α) by the weighting device 47 and the weighted average value is obtained by adding both values to the calculated value of the total discharge amount used by the weighting device 47. Amount),
The initial voltage corresponding to the initial charge amount stored in the fourth memory 42 is stored in the second memory 44 (the second memory 14b in FIG. 1).
), The initial voltage stored in the first memory 43 (corresponding to the first memory 14a in FIG. 1) is calculated by using the initial voltage and the initial charge obtained by the adder 48. Voltage: Update the data in the initial charge amount table.

Next, the battery voltage is measured from the battery 11 through the A / D converter 12 and read into the control unit 13 (S203). Then, the initial voltage is set to the second memory 1
4b (S204).

Then, based on the initial voltage stored in step S204, the initial voltage of the battery of the first memory 14a:
The battery initial charge amount is read from the initial charge amount table (S205). Initial voltage: When updating the initial charge amount table by weighted averaging, the battery initial charge amount is stored in the fourth memory 42 of the memory 41 (S206).
Processing is required.

Next, the controller 13 calculates the product sum of the total discharge amount used based on the current consumption value and the duration of each operation mode (position registration, standby, communication, etc.) of the portable terminal (S2).
07). The calculated value of the total used discharge amount is stored (updated) in the third memory 14c of the memory 14 (S208).

Further, the battery charge is calculated by the control unit 13 from the difference between the initial charge obtained in the process S206 and the total discharge used in the process S207 (S209). Then, the control unit 13 calculates the effective usable time (use effective time) of the communication time and the standby time based on the amount of discharge per unit time at the time of communication and at the time of standby from the battery charge amount obtained in the process S209. (S210). Further, the effective usable time (effective time) is displayed on the display unit 15, for example,
"Talk time remaining-minutes, pick-up time remaining **
Minutes ”(S211).

In step S212, steps S207 to S207 are executed.
A voltage corresponding to the minimum amount of charge required to perform the operation up to step S212 is defined, and it is determined whether a battery voltage higher than the specified voltage remains. If (Yes)
The process returns to step S207 again, and if not (in the case of No), the process proceeds to step S213. Note that the determination process of step S212 is repeatedly performed for each unit time, and by repeating this series of operations at a certain fixed cycle, a highly accurate battery effective usable time can be obtained. It is. Then, the power is turned off and the processing is terminated (S
213).

Here, a series of operations in steps S207 to S212 will be described with reference to FIG. FIG. 5 is a time chart showing a part of the relationship between current consumption and time when the mobile terminal according to the embodiment of the present invention is used. M1 and M2 indicate the time required for location registration, R1 to R6 indicate the time required for standby, and T1 indicates the talk time. Process S207 for each unit time indicated by arrows at certain intervals
A series of operations from S212 to S212 are repeated until the battery voltage becomes equal to or lower than a specified value. The memory 14 in the portable terminal stores data immediately before the battery voltage becomes equal to or lower than a specified value. Specifically, the calculated value of the total discharge amount used immediately before the battery voltage becomes equal to or lower than the specified value is stored in the third memory 14c in FIG.

Next, a second prediction method will be described.
In the second prediction method, first, the memory 1 shown in FIG.
In the first memories 14a and 43 in the first and fourth memories 41 and 41, the initial voltages are:
Initial voltage and initial charge amount data having an initial charge amount characteristic curve are stored up to the maximum capacity of the first memories 14a and 43.

Next, updating of the initial voltage: initial charge amount table in the process S202 of FIG. 2 is performed. In the case of FIG. 1, the initial voltage of the second memory 14b and the total discharge amount used by the third memory 14c are calculated. The update is performed by rewriting the oldest initial voltage and initial charge amount data in the first memory 14a using the value data.

Alternatively, the update of the initial voltage: initial charge amount table in the processing S202 of FIG. 2 is performed by calculating the initial charge amount of the fourth memory 42 and the total discharge amount used of the third memory 45 in the case of FIG. The data is updated by rewriting the oldest initial voltage and initial charge amount data in the first memory 43 using a weighted average value with the values.

In step S205, the control unit 13 determines an initial charge characteristic curve (battery initial voltage: initial charge characteristic curve) with respect to the initial voltage of the battery. The battery initial voltage: initial charge amount characteristic curve is obtained by the control unit 13 using a polynomial approximation or a logarithmic approximation to obtain a relational expression between the two initial voltages in the first memories 14a and 43 and the variable data of the initial charge amount. .

As shown in FIG. 6, a polynomial approximation y = a is set so as to match the data of (initial voltage [x], initial charge amount [y]).
_{0 + a 1 x + a 2} x 2 + ... + a n x n or, to obtain the fitting and a, the coefficient of b in log approximation y = blogx like, and requests a characteristic curve. Then, the initial charge is obtained by substituting the initial voltage into the obtained approximate expression. FIG.
FIG. 4 is an explanatory diagram showing a relationship between an initial voltage and an initial charge amount of a battery. It should be noted that the second prediction method includes processes S202 and S2.
Other than 05, it is the same as the first prediction method.

Next, a third prediction method will be described. A third prediction method is as follows. First, in the first memory 14a in FIG. 1, the initial voltage from the initial charge amount of 0 to the full charge amount is divided by a voltage of a certain width, and the number of divided voltage widths Divide the memory area. In an area of the memory corresponding to the divided voltage, data of the initial voltage and the initial charge having the characteristic curve of the initial voltage: initial charge is stored up to the maximum capacity of the memory area.

The update processing in step S202 in FIG.
The data of the initial voltage of the second memory 14b and the calculated value of the total discharge amount used in the third memory 14c are stored in the first memory 14a.
In which the oldest data is replaced. The initial voltage is replaced with the oldest initial voltage memory area, and the calculated total used discharge amount is replaced and updated by overwriting the initial charge amount memory area corresponding to the initial voltage.

Alternatively, as described in the first prediction method with reference to FIG. 4, the weighted average of the data of the initial charge amount of the fourth memory 42 and the calculated value of the total discharge amount used in the third memory 45 is used. The value is set as a new initial charge amount, and the oldest “initial voltage, initial charge amount” in the first memory 43 is updated with the initial voltage of the second memory 44 and the new initial charge amount.

Then, in the process S205 of FIG. 2, the control section 13 obtains an initial voltage: initial charge amount characteristic curve of the battery. The control unit obtains a relational expression of two variable data of “initial voltage and initial charge amount” in the first memories 14 a and 43 by linear approximation. As shown in FIG. 7, a linear approximation y = c so as to match the data of (initial voltage [x], initial charge amount [y])
The fitting is performed by x + d, the coefficients of c and d are obtained, and the characteristic curve is obtained. Then, the initial charge is obtained by substituting the initial voltage into the obtained approximate expression. FIG. 7 is an explanatory diagram showing the relationship between the initial voltage and the initial charge amount of the battery. Except for steps S202 and S205 in FIG. 2, the process is the same as the first prediction method.

According to the first to third prediction methods, the accuracy of the effective battery usable time is improved in the portable terminal of the owner whose handling behavior pattern is determined. In addition, since the initial voltage: initial charge characteristic curve is updated each time the mobile terminal is used, it is possible to display an accurate effective usable time of the battery with respect to deterioration due to aging of the battery. You can do it.

As described above, according to the method of estimating the usable time of the battery of the portable terminal according to the embodiment of the present invention, the initial charge amount is obtained from the initial voltage of the battery, and the battery charge is obtained from the initial charge amount and the total discharge amount used. Since the amount is obtained and the effective usable time is calculated, the specific effective usable time can be known, and the initial voltage: initial charge amount table is updated every time the battery is used. It can cope with deterioration due to aging. In addition, since the initial voltage: initial charge amount table is prepared according to the type of battery, it is possible to know the correct usable time even when using multiple types of batteries. There is an effect that can be.

[0040]

According to the first aspect of the present invention, each time the battery is used, the previously calculated total discharge amount is set as the initial charge amount, and the initial voltage and the initial charge amount measured previously are used as the initial voltage. : The initial charge amount table is updated, and the initial charge amount with respect to the measured initial voltage is read from the initial voltage: initial charge amount table, the total used discharge amount is calculated from the current consumption value and the continuation time in each operation mode, and the read initial value is calculated. Calculates the amount of battery charge from the difference between the amount of charge and the calculated total amount of use, and calculates the effective usable time based on the amount of discharge per unit time from the amount of battery charge. Since the time is predicted, the initial voltage: initial charge characteristic curve is updated every time the battery is used, against deterioration due to aging of the battery. , There is an effect that can accurately predict the effective usable time.

According to the second aspect of the invention, each time the battery is used, a weighted average value of the previously read initial charge amount and the previously calculated calculated value of the total use amount is set as the initial charge amount, Update the initial voltage: initial charge amount table with the previously measured initial voltage and its initial charge amount, read the initial charge amount for the measured initial voltage from the initial voltage: initial charge amount table, and determine the current consumption value for each operation mode. Calculates the total use amount from the duration, calculates the battery charge amount from the difference between the read initial charge amount and the calculated total use amount, and is effective based on the discharge amount per unit time from the battery charge amount. The battery life of the mobile terminal is calculated by calculating the usable time. Therefore, the initial voltage and the initial charge amount are used for the deterioration due to aging of the battery. Curve will be updated after each use of the battery, there is exactly predictable effect an effective usable time.

According to the third aspect of the present invention, each time the battery is used, the initial voltage based on the previously measured initial voltage and the previously calculated initial charge amount: the oldest initial voltage and the initial charge in the initial charge amount table. The amount data is updated, the battery voltage is measured as the initial voltage, and the initial voltage and the initial charge in the initial voltage: initial charge amount table are used as variable data, and a function is approximated to obtain an approximate expression curve. Calculates the initial charge amount corresponding to the measured initial voltage, calculates the total use amount of discharge from the current consumption value and the duration in each operation mode, and calculates the battery charge amount from the difference between the initial charge amount and the total use amount of discharge. A method for estimating the effective usable time of the battery of a mobile terminal, which calculates the effective usable time based on the amount of discharge per unit time from the battery charge amount. Runode, initial voltage to degradation due to aging of the battery: the initial state of charge characteristic curve will be is updated after each use of the battery, there is exactly predictable effect an effective usable time.

According to the fourth aspect of the invention, each time the battery is used, a weighted average value of the previously calculated initial charge amount and the calculated value of the previously used total discharge amount is set as the initial charge amount, Update the data of the oldest initial voltage and the initial charge amount in the initial voltage: initial charge amount table with the previously measured initial voltage and the initial charge amount, measure the battery voltage as the initial voltage, and initialize the initial voltage: the initial charge amount. The initial voltage and the initial charge amount in the amount table are used as variable data, an approximate expression curve is obtained by function approximation, the initial charge amount corresponding to the initial voltage measured from the approximate curve is calculated, and the current consumption value and the current consumption value for each operation mode are calculated. Calculate the total amount of discharge from the duration, calculate the battery charge from the difference between the initial charge and the total amount of discharge, and calculate the amount of discharge per unit time from the battery charge. The method of estimating the effective usable time of the battery of a mobile terminal, which calculates the effective usable time, calculates the initial voltage: initial charge amount characteristic curve for deterioration due to aging of the battery every time the battery is used. As a result, the effective usable time can be accurately predicted.

According to the fifth aspect of the present invention, each time the battery is used, the initial voltage based on the previously measured initial voltage and the previously calculated initial charge amount: the oldest initial voltage and the initial charge in the initial charge amount table. The amount data is updated, the battery voltage is measured as the initial voltage, and the initial voltage: the initial voltage and the initial charge amount in the initial charge amount table are used as variable data, and an approximate expression curve is obtained by linear approximation. Calculates the initial charge amount corresponding to the measured initial voltage, calculates the total use amount of discharge from the current consumption value and the duration in each operation mode, and calculates the battery charge amount from the difference between the initial charge amount and the total use amount of discharge. A method for estimating the effective usable time of the battery of a mobile terminal, which calculates the effective usable time based on the amount of discharge per unit time from the battery charge amount. Runode, initial voltage to degradation due to aging of the battery: the initial state of charge characteristic curve will be is updated after each use of the battery, there is exactly predictable effect an effective usable time.

According to the present invention, each time the battery is used, a weighted average value of the previously calculated initial charge amount and the previously calculated value of the total used discharge amount is set as the initial charge amount, Update the data of the oldest initial voltage and the initial charge amount in the initial voltage: initial charge amount table with the previously measured initial voltage and the initial charge amount, measure the battery voltage as the initial voltage, and initialize the initial voltage: the initial charge amount. The initial voltage and the initial charge amount in the amount table are used as variable data, an approximate expression curve is obtained by linear approximation, the initial charge amount corresponding to the initial voltage measured from the approximate curve is calculated, and the current consumption value and the current consumption value in each operation mode are calculated. Calculate the total amount of discharge from the duration, calculate the battery charge from the difference between the initial charge and the total amount of discharge, and calculate the amount of discharge per unit time from the battery charge. The method of estimating the effective usable time of the battery of a mobile terminal, which calculates the effective usable time, calculates the initial voltage: initial charge amount characteristic curve for deterioration due to aging of the battery every time the battery is used. As a result, the effective usable time can be accurately predicted.

[Brief description of the drawings]

FIG. 1 is a configuration block diagram of a mobile terminal according to an embodiment of the present invention.

FIG. 2 is a flowchart of a method for estimating a valid battery usable time in the portable terminal.

FIG. 3 is an explanatory diagram showing characteristics of an initial voltage of a battery and an initial charge amount.

FIG. 4 is a processing block diagram for obtaining a weighted average value in the mobile terminal.

FIG. 5 is a time chart showing a part of the relationship between current consumption and time when the portable terminal according to the embodiment of the present invention is used.

FIG. 6 is an explanatory diagram showing a relationship between an initial voltage and an initial charge amount of a battery.

FIG. 7 is an explanatory diagram showing a relationship between an initial voltage and an initial charge amount of a battery.

FIG. 8 is an explanatory diagram showing a relationship between a used discharge amount and a voltage.

[Explanation of symbols]

11: Battery, 12: A / D converter, 13: Control unit, 14, 41: Memory, 15: Display unit, 14
a, 43: first memory, 14b, 44: second memory, 14c, 45: third memory, 42: fourth memory, 46, 47: weight, 48: adder

Claims (6)

[Claims] 1. A portable terminal having an initial charge amount table in which characteristics of an initial voltage and an initial charge amount are tabulated according to a type of a battery. The discharge amount is an initial charge amount, the initial voltage: the initial charge amount table is updated with the previously measured initial voltage and the initial charge amount, the battery voltage is measured as the initial voltage, and the initial voltage: the initial charge amount table is measured. Referring to the above, read the initial charge amount with respect to the measured initial voltage, calculate the total use amount of discharge from the current consumption value and the continuation time in each operation mode, from the difference between the initial charge amount and the use total discharge amount Calculating a battery charge amount, and calculating an effective usable time from the battery charge amount based on a discharge amount per unit time. Method for estimating the effective usable time of a tree. 2. A portable terminal having an initial charge amount table in which characteristics of an initial voltage and an initial charge amount are tabulated according to a type of a battery. The weighted average value of the charge amount and the calculated value of the total use amount calculated previously is used as the initial charge amount, and the initial voltage: initial charge amount table is updated with the previously measured initial voltage and the initial charge amount. The initial voltage is measured as an initial voltage, the initial voltage: the initial charge amount for the measured initial voltage is read with reference to the initial charge amount table, and the total used discharge amount is calculated from the current consumption value and the duration for each operation mode. The battery charge is calculated from the difference between the initial charge amount and the total used discharge amount, and the battery is effectively used based on the discharge amount per unit time from the battery charge amount. A method for predicting an effective usable time of a battery of a portable terminal, comprising calculating an available time. 3. An initial voltage from an initial charge amount of 0 to a full charge amount is divided by a constant voltage according to a type of a battery, and an initial charge amount is set for each of the initial voltages so as to represent characteristics of the initial voltage and the initial charge amount. Is a portable terminal provided with an initial charge amount table which stores an initial charge amount table, wherein each time a battery is used, the initial voltage: the initial charge amount is calculated based on the previously measured initial voltage and the previously calculated initial charge amount. The data of the oldest initial voltage and the initial charge amount in the amount table are updated, the voltage of the battery is measured as the initial voltage, and the initial voltage and the initial charge amount in the initial voltage: initial charge amount table are used as variable data, and the function is approximated. From the approximate curve, calculate the initial charge amount corresponding to the measured initial voltage from the approximate curve, and use the current consumption value and the duration for each operation mode. Calculate the total discharge amount, calculate the battery charge amount from the difference between the initial charge amount and the used total discharge amount, and calculate the effective usable time based on the discharge amount per unit time from the battery charge amount. A method for estimating the effective usable time of a battery of a portable terminal, characterized in that: 4. An initial voltage from an initial charge amount of 0 to a full charge amount is divided by a constant voltage according to a type of a battery, and an initial charge amount is set for each of the initial voltages so as to represent characteristics of the initial voltage and the initial charge amount. Is a portable terminal provided with an initial charge amount table, and each time a battery is used, a difference between the previously calculated initial charge amount and the previously calculated total use amount calculated value is calculated. The weighted average value is used as the initial charge amount, the data of the oldest initial voltage and the initial charge amount in the initial voltage: initial charge amount table are updated with the previously measured initial voltage and the initial charge amount, and the battery voltage is changed to the initial voltage. The initial voltage: The initial voltage and the initial charge in the initial charge amount table are used as variable data, and a function is approximated to obtain an approximate expression curve. From the approximate curve, the measured initial value is calculated. Calculate the initial charge amount corresponding to the voltage, calculate the total use amount of discharge from the current consumption value and the duration in each operation mode, and calculate the battery charge amount from the difference between the initial charge amount and the total use amount of discharge. And estimating the effective usable time of the battery of the portable terminal, wherein the effective usable time is calculated from the battery charge amount based on the discharge amount per unit time. 5. An initial voltage from an initial charge amount of 0 to a full charge amount is divided by a constant voltage according to a type of a battery, and a memory area is divided by the divided voltage width to obtain an initial voltage and an initial charge. An initial voltage in which an initial charge amount is stored and tabulated for each of the initial voltages so as to represent the characteristics of the amount: a portable terminal having an initial charge amount table, and each time the battery is used, the initial voltage previously measured And updating the data of the oldest initial voltage and the initial charge amount in the initial voltage: initial charge amount table with the previously calculated initial charge amount, measuring the battery voltage as the initial voltage, and using the initial voltage: initial charge amount table. Using the initial voltage and the initial charge amount as variable data, linear approximation to obtain an approximate expression curve, and calculating the initial charge amount corresponding to the measured initial voltage from the approximate curve, Calculate the total used discharge amount from the current consumption value and the duration in each operation mode, calculate the battery charge amount from the difference between the initial charge amount and the total use discharge amount, and discharge from the battery charge amount per unit time. A method for predicting the effective usable time of a battery of a portable terminal, comprising calculating an effective usable time based on an amount. 6. An initial voltage from an initial charge amount of 0 to a full charge amount is divided by a constant voltage in accordance with a type of a battery, and a memory area is divided by the divided voltage width to obtain an initial voltage and an initial charge. A portable terminal provided with an initial charge amount table in which an initial charge amount is stored for each of the initial voltages so as to represent a characteristic of the amount: an initial charge amount previously calculated every time the battery is used. The weighted average value of the amount and the calculated value of the used total discharge amount calculated previously is used as the initial charge amount, and the initial voltage previously measured and the initial charge at the initial charge amount: the oldest initial voltage in the initial charge amount table and The data of the initial charge amount is updated, the voltage of the battery is measured as the initial voltage, and the initial voltage and the initial charge amount in the initial charge amount table are used as variable data, and linear approximation is performed. Obtain the equation curve, calculate the initial charge amount corresponding to the measured initial voltage from the approximate curve,
The used total discharge amount is calculated from the consumed current value and the duration in each operation mode, the battery charge amount is calculated from the difference between the initial charge amount and the used total discharge amount, and the discharge per unit time is calculated from the battery charge amount. A method for predicting the effective usable time of a battery of a portable terminal, comprising calculating an effective usable time based on an amount.