KR20050022466A - A method for displaying usable time of mobile phone - Google Patents

Abstract

PURPOSE: A method for displaying a usable battery time of a mobile terminal is provided to previously measure a usable time for a voltage value of a battery to store the measured results, and to periodically measure a battery voltage, thereby informing a user of a standby time and a call enable time. CONSTITUTION: A system measures a battery voltage. The system retrieves a lookup table related to a usable time of a mobile terminal, which is stored in a memory, by using the measured battery voltage, and obtains the usable time of the mobile terminal according to a linear interpolation method. The system displays the obtained usable time of the mobile terminal on a display. When the usable time is less than a predetermined threshold value, the system periodically generates an alarming sound.

Description

A method for displaying usable time of mobile phone}

The present invention relates to a method for displaying a battery available time of a mobile terminal, and more particularly, to measure in advance the available time for the voltage value of the battery in the manufacturing process of the mobile terminal and to store the result in the mobile terminal Then, the present invention relates to a method for informing a user of a standby time and a talkable time of a mobile terminal by periodically measuring a voltage of a mobile terminal battery.

In general, currently used mobile terminals display a battery-shaped bar on the display and change the length of the bar (or the number of bars) according to the remaining capacity of the battery to inform the user of the remaining capacity of the mobile terminal battery. have. However, as shown in FIG. 2, the voltage of a typical mobile terminal battery initially drops rapidly and then gradually forms a gentle falling curve, and when the remaining amount is shortly left, a sudden falling curve is drawn again. Thus, for example, the time when the number of bars indicating the remaining battery level drops from four to three and the time when falling from one to zero is not the same.

In general, mobile terminal users cannot know how much time can be used according to the remaining battery capacity. When one bar indicating the remaining battery capacity remains, the battery voltage drops sharply. At some point, a sudden battery low warning (low-voltage alarm) may appear, causing the phone to turn off. If a user misses a conversation during an important conversation and the call is dropped, you can see a big failure.

As a countermeasure against such a problem, a technology has been developed to allow replacement of another battery while a call is maintained using an auxiliary battery inside the mobile terminal. However, in the above technique, if the user is not preparing a spare battery, such technique is also of no use.

Therefore, more fundamentally, if the user can check the available time according to the battery level of the mobile terminal, the conversation will be more efficient and the call can be safely completed. To this end, a technique of repeatedly reading a battery voltage of a mobile terminal and calculating a usable time each time by a unique calculation formula has been developed. However, the method of using the above formula has a problem in accuracy because it takes a lot of computation time and consumes a lot of battery power in itself, and only calculates the usable time using a theoretically derived algorithm. have.

The present invention is to solve the problems of the prior art as described above.

Accordingly, an object of the present invention is to provide a method for allowing a user to prepare in advance before a call is terminated by displaying the available time according to the remaining battery capacity of the mobile terminal in a call and waiting. It is also an object of the present invention to provide a method for more accurately notifying the user of the available time of a mobile terminal even with a simpler operation.

The present invention to achieve the above object, the first step of measuring the voltage of the battery; A second step of searching for a look-up table regarding a usable time of a mobile terminal stored in a memory using the measured battery voltage and obtaining a usable time of the mobile terminal according to a linear interpolation method; And a third step of displaying the available time of the mobile terminal obtained in the second step on the display unit of the mobile terminal, wherein the available time of the mobile terminal is a predetermined threshold while repeating the first to third steps. If the value is less than it is characterized in that to generate an alarm sound periodically.

That is, according to the present invention, the available time according to the voltage value of the battery in the manufacturing process of the mobile terminal is measured in advance. Here, the usable time is measured separately in two cases since the available time when the mobile terminal is in the standby state and the available time when the mobile terminal is in the call state are different from each other. Thereafter, the measurement result is prepared as a lookup table and stored in the memory of the mobile terminal. Then, by periodically measuring the voltage of the battery, the available time corresponding to the measured voltage value is queried through the lookup table. It is possible to notify the user of the available time and the available time.

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

As described above, the battery of a typical mobile terminal exhibits a non-linear discharge curve as shown in FIG. 2. 2 shows a discharge curve of a typical three cell battery. The maximum voltage when the battery is fully charged is 4.2V, the minimum operating voltage required for the operation of the terminal is 3.15V, and the voltage when fully discharged is 0.0V. Therefore, the battery voltage range in which the terminal can operate is 4.2V to 3.15V. Therefore, if the relationship between the battery voltage and the operation time is known correctly, the available time of the mobile terminal can be accurately estimated by measuring the voltage of the battery. However, as shown in FIG. 2, since the relationship between the voltage of the battery and the operation time is nonlinear, there is a limit in predicting the relationship accurately in theory.

In order to overcome this problem, in the present invention, the interval between the maximum voltage when the battery is fully charged in the development process and the minimum operating voltage required for the operation of the terminal is divided into N (where N is an arbitrary natural number), The wait time and talk time of the mobile terminal for (N + 1) voltage values are respectively measured. FIG. 3 exemplarily illustrates a principle of measuring an available time of a mobile terminal by dividing a voltage section of a battery by N in accordance with the present invention. As shown in FIG. 3, for example, a typical three cell battery has a maximum voltage of 4.2 (V) and an operating minimum voltage of 3.15 (V). Therefore, in the case of the battery as described above, the usable time is measured by dividing the interval from 3.15 (V) to 4.2 (V) in units of 1.05 / N (V). Here, the available time will be different from when the mobile terminal is in a standby state and when in a call state, so that the measurement is performed separately in the standby state and the call state. The standby time (ie, available time in standby state) and talk time (ie, available time in call state) of the mobile terminal according to the measured battery voltage are in the form of a look-up table. As it is stored in the memory of the mobile terminal. Here, the lookup table for the waiting time will be called a first lookup table, and the lookup table for the talkable time will be called a second lookup table.

The first lookup table and the second lookup table generated during the development of the mobile terminal are generally stored in the NV data area (ie, NV memory) of the flash memory inside the mobile terminal. NV memory is a non-volatile (Non Volatile) memory that records the system parameters of a CDMA mobile terminal and important information of a user. The NV memory is stored permanently and can be modified and deleted when necessary. Memory. As such NV memory, EEPROM, which is usually a nonvolatile memory, is mainly used.

The first lookup table and the second lookup table stored in the NV memory are used to obtain a usable time of the mobile terminal while the mobile terminal is actually operating. To this end, the mobile terminal first measures the voltage of the battery. In general, the mobile terminal measures a number of parameters in order to perform its functions smoothly and transmits them to the mobile station modem (MSM), a chip that performs the core functions of the mobile terminal. Examples of such parameters include the temperature of the MSM chip, the battery, and the like. Voltage, the strength of the received signal, and the like. Since the measured values are analogue values, they are converted to digital form through the A / D converter and input to the MSM chip. The MSM chip then references the lookup table stored in the NV memory using the voltage value. In this case, since the usable time is recorded only for (N + 1) voltage values, not the entire voltage, the line segments passing through two points are used to obtain the usable time for any voltage value. Linear interpolation should be used to find missing function values. Using linear interpolation, even when a voltage value is input to the MSM chip, the usable time of the mobile terminal can be derived relatively accurately. Here, the larger the value of N, the more the available time of the mobile terminal can be calculated more accurately.

Therefore, in comparison with the prior art, the present invention uses a value that has already been precisely measured in the development process, so that it is possible not only to accurately calculate the usable time from the voltage of the battery, but also to linearly require only a very simple operation mathematically. Since the calculation using interpolation method, the burden on the MSM chip is small and the available time can be obtained at a high speed.

1 is a flowchart illustratively illustrating a method for displaying battery life of a mobile terminal in accordance with the present invention. Referring to FIG. 1, a method of displaying available time of a mobile terminal will be described as an embodiment.

First, as described above, the voltage of the battery is measured, converted into a digital format, and then input to the MSM chip. Then, the MSM chip checks whether the current state of the mobile terminal is in a standby state or a call state. If the current state of the mobile terminal is in the standby state, the standby time and the talkable time of the mobile terminal are obtained according to the linear interpolation method with reference to the first lookup table and the second lookup table based on the measured voltage value. Then, the battery level display in the form of a bar is displayed on the LCD display of the mobile terminal, and at the same time, the standby time and the talkable time of the mobile terminal are toggled at regular time intervals (for example, at 5 second intervals). For example, if [I] 47.40.00 is displayed, the standby time is 47 hours 40 minutes 00 seconds, and if [T] 00.40.30 is displayed, the available time is 40 minutes 30 seconds. At this time, when the standby time is 2 hours or less, an alarm sound is generated every 10 minutes, so that the user can recognize it, and when the standby time is 30 minutes or less, the alarm sounds every 5 minutes.

On the other hand, if the current state of the mobile terminal is a call state, only the talkable time of the mobile terminal is obtained according to the linear interpolation method with reference to the second lookup table based on the measured voltage value. Then, while displaying the remaining battery power in the form of a bar on the LCD display of the mobile terminal, only the talkable time of the mobile terminal is displayed while being toggled at regular time intervals (for example, every 5 seconds). At this time, if the available time is less than 10 minutes, the alarm sounds every 30 seconds so that the user can be prepared to suddenly hang up. In this way, even if the battery is low, the user knows the available time, so the conversation will be efficient and no interruption will occur during the conversation.

So far, the configuration and operation of the present invention have been described in detail. According to the present invention, since the user of the mobile terminal can know exactly the waiting time and the available time for the mobile terminal, the user can cope with the sudden disconnection during the call and is effective. Furthermore, compared with the prior art, the present invention uses precisely measured values in the development process, so that it is possible not only to accurately calculate the usable time from the voltage of the battery, but also to linearly require only very simple calculations mathematically. The calculation using interpolation method is advantageous in that the burden on the MSM chip is small and the usable time can be obtained at a high speed.

1 is a flowchart illustrating a method for displaying a battery available time of a mobile terminal according to the present invention.

2 exemplarily illustrates a discharge curve according to an operation time of a mobile terminal.

3 exemplarily illustrates a principle of measuring a usable time of a mobile terminal by dividing a voltage section of a battery by N in accordance with the present invention.

Claims (6)

A first step of measuring a voltage of a battery; A second step of searching for a look-up table regarding a usable time of a mobile terminal stored in a memory using the measured battery voltage and obtaining a usable time of the mobile terminal according to a linear interpolation method; And And a third step of displaying the available time of the mobile terminal obtained in the second step on the display unit of the mobile terminal, And repeating the first to third steps and generating an alarm sound periodically when the available time of the mobile terminal is less than or equal to a predetermined threshold value. The method of claim 1, The lookup table comprises N equal divisions between the maximum voltage when the battery is fully charged and the minimum operating voltage required for the operation of the terminal, and a movement corresponding to each of the N + 1 voltage values between the maximum voltage and the minimum voltage. A method of displaying a battery usable time of a mobile terminal, which is obtained by measuring the available time of the terminal in advance in the manufacturing process of the mobile terminal. The method of claim 2, The lookup table includes a first lookup table for indicating a waiting time, which is a usable time when the mobile terminal is in a standby state, and a callable time for indicating a available time when the mobile terminal is in a call state. And a second lookup table. The method according to claim 1 or 3, In the second step of obtaining a usable time of the mobile terminal, when the mobile terminal is in a standby state, the first lookup table and the second lookup table are searched to obtain a standby time and a talkable time of the mobile terminal. Is in a call state, the second lookup table is searched to obtain a talk time available for the mobile terminal. The method according to claim 1 or 3, The threshold value when the mobile terminal is in a call state is smaller than the threshold value when the mobile terminal is in a stand-by state, and the cycle of generating a beep sound when the mobile terminal is in a call state is a beep sound when the mobile terminal is in a standby state. A method of displaying battery usable time of a mobile terminal, characterized in that it is shorter than an occurrence period. The method of claim 5, wherein And when the waiting time of the mobile terminal is less than or equal to a predetermined threshold value, a shorter period of warning sound is also shortened when the waiting time becomes shorter than or equal to a predetermined value.