JPH11127110A - Method for prolonging service life of a battery of mobile communication terminal equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for prolonging the battery service life by easily and optimizingly adjusting a slot cycle of a mobile communication terminal equipment, depending on a residual capacity of a battery. SOLUTION: This method is a battery service life prolonging method for a mobile communication terminal equipment that has a slot cycle index corresponding to a battery comparison level and a slot cycle index corresponding to the comparison level, and in the case that a slot cycle change mode is set, the method includes a process 241, where battery level is detected for each battery level check period and a process 226 where a slot cycle index corresponding to a comparison level belonging to the detected battery level is set.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a method for extending battery life of a mobile communication terminal.

[0002]

2. Description of the Related Art A mobile communication terminal refers to a communication terminal capable of communicating with another communication terminal while moving. For example, a cellular phone, a PCS (Personal Communica).
tion Services) Hong, CT-2 (2nd generation Cord)
less Telephone).

[0003] In a mobile communication terminal, a signal corresponding to a unique code transmitted from a base station is searched for at a fixed period, and this period is determined by a slot cycle index (slot c index).
ycle index). The slot cycle index is set at the time of shipment of the mobile communication terminal, and is set to a Man Machine Interface (MMI).
ace) It can be arbitrarily changed by the function.

[0004] Conventionally, there is a method of extending the life of a battery by using the MMI function when the battery cannot be charged for a long time.

[0005]

However, the MMI function is inconvenient because it needs to check the battery status every time the slot cycle index is adjusted. In addition, even if the battery status is checked, it is difficult for a general user to optimally adjust the slot cycle index according to the battery status.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method for easily and optimally adjusting a slot cycle of a mobile communication terminal according to a remaining amount of a battery to extend a battery life.

[0007]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, a battery life extending method according to the present invention comprises a mobile communication having a slot cycle index table having a battery comparison level and a slot cycle index corresponding to the comparison level. A method for extending battery life of a terminal, comprising: when a slot cycle change mode is set, a process of detecting a battery level for each battery level check cycle, and a slot cycle index corresponding to a comparison level to which the detected battery level belongs. And a setting step. here,
If the detected battery level does not belong to the comparison level range, a slot cycle index corresponding to the longest slot cycle is set.

More specifically, a method for extending the battery life of a mobile communication terminal having a slot cycle index table including a battery comparison level and a slot cycle index corresponding to the comparison level, wherein a slot cycle change mode is set. Then, a process of detecting the battery level at each battery level check cycle,
Comparing the detected battery level with the comparison level; setting the value corresponding to the comparison level in the slot cycle index if the battery level is higher than the comparison level; and setting the comparison level if the battery level is lower than the comparison level. And comparing again by lowering by one step. Here, if the detected battery level is smaller than the lowest comparison level, a slot cycle index corresponding to the longest slot cycle is set.

[0009]

Preferred embodiments of the present invention will be described below in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram of an apparatus for extending battery life in a mobile communication terminal.

The battery 10 supplies an operating voltage of the mobile communication terminal and an A / D converter (analog-to-digital transfe).
r) 20 converts the voltage level of the analog type battery 10 into binary digital battery level data and outputs it. In addition, a central processing unit (CPU: Central
The processing unit 30 controls the overall operation of the mobile communication terminal by the control program, and the A / D converter 2
A slot cycle index corresponding to the battery level data applied from 0 is set. The memory 40 stores a control program and various data. Especially memory 4
0 holds a slot cycle index table in which a slot cycle index and a comparison level for determining a battery level for applying the slot cycle index are recorded.

Table 1 shows an example of the slot cycle index table.

[Table 1]

In Table 1, the comparison level is shown as an analog value, but is actually a binary digital value which can be processed by software. In addition, the battery level range of 7.2V to 5.7V defined by the comparison level means a battery level range required for the operation of the mobile communication terminal.

FIG. 2 is a flowchart for extending a battery life in a mobile communication terminal.

When the slot cycle change mode is set, the CPU 30 detects a battery level at each check cycle, and adjusts a slot cycle index according to the detected battery level.

At step 210, the CPU 30 detects whether the slot cycle change mode has been set. When the slot cycle change mode is set, the CPU 30
At this stage, it is determined whether it is the battery level check timing. At this stage, the CPU 30 periodically checks the state of the battery 10 for changing the slot cycle. If it is the battery level check timing at step 212, the CPU 30 detects the battery level from the battery level data output from the A / D converter 20 at step 214. When battery level is detected,
At step 216, the CPU 30 sequentially selects the comparison level, compares it with the detected battery level, and sets the count value n to an initial value (0) in order to grasp the comparison level to which the detected battery level belongs.

Next, in steps 218 to 226, the CPU 30 compares the detected battery level and the comparison level in order from the initial value and sets an appropriate slot cycle index.

That is, at step 218, the CPU 30 compares the battery level with the comparison level_0 (7.2V) corresponding to the slot cycle index (index 0) having the shortest slot cycle period. As a result, if the detected battery level is equal to or lower than the comparison level — 0, it is determined in step 220 whether there is a comparison level one step lower. CPU 30
If it is determined at step 220 that there is a comparison level one step lower, the count value n is increased by “1” to select a comparison level one step lower at step 222, and the process returns to step 218. C
In operation 218, the PU 30 compares the battery level with the comparison level_1 selected based on the count value increased in operation 222. As a result, if the detected battery level is higher than the comparison level_1, the CPU 30 reads the slot cycle index 1 corresponding to the determined comparison level_1 (6.9 V) from the table of the memory 40 and sets it at step 224. On the other hand, if it is determined in step 220 that there is no comparison level one step lower, the CPU 30 proceeds to step 226 to read the slot cycle index 7 corresponding to the longest slot cycle from the table in the memory 40 and set it.

If the battery level detected in step 218 is higher than the comparison level, a slot cycle index corresponding to the comparison level is set in step 224. However, if the detected battery level is equal to or lower than the comparison level, the count value n is incremented by one in steps 220 and 222 until the comparison level becomes lower than the detected battery level. Thereby, an optimal slot cycle can be obtained for the battery level.

The process of setting the slot cycle index when a battery level of 6.4 V is detected will be briefly described with reference to Table 1.

The CPU 30 compares the detected 6.4 V battery level with 7.2 V, 6.9 V,
6.7V, 6.5V and 6.3V are compared in this order.
If it is determined that the detected battery level is higher at the stage of comparison to the comparison level_4 of 6.3 V, '4' corresponding to the comparison level 6.3 V is set as the slot cycle index.

In the above embodiment, by returning from step 224 or step 226 to step 212 and setting the slot cycle index again, the slot cycle index can be set for each battery level check cycle. .

[0023]

According to the slot cycle adjusting method of the present invention, the slot cycle can be easily set to an optimum value, and the battery life can be extended.

[Brief description of the drawings]

FIG. 1 is a block diagram of an apparatus for extending battery life in a mobile communication terminal.

FIG. 2 is a flowchart for extending battery life in a mobile communication terminal.

[Explanation of symbols]

 Reference Signs List 10 battery 20 A / D converter 30 CPU 40 memory

Claims (4)

[Claims] 1. A method for extending a battery life of a mobile communication terminal having a slot cycle index table including a battery comparison level and a slot cycle index corresponding to the comparison level, wherein a slot cycle change mode is set. A battery for a mobile communication terminal, comprising: detecting a battery level for each battery level check cycle; and setting a slot cycle index corresponding to a comparison level to which the detected battery level belongs. Life extension method. 2. The method according to claim 1, wherein if the detected battery level does not belong to the comparison level range, a slot cycle index corresponding to the longest slot cycle is set. 3. A method for extending battery life of a mobile communication terminal having a slot cycle index table including a battery comparison level and a slot cycle index corresponding to the comparison level, wherein a slot cycle change mode is set. Detecting the battery level at each battery level check cycle, comparing the detected battery level with the comparison level, and setting a value corresponding to the comparison level to the slot cycle index if the battery level is greater than the comparison level And extending the comparison level by one step when the battery level is smaller than the comparison level and comparing again. The method of extending the battery life of the mobile communication terminal. 4. The method of extending a battery life of a mobile communication terminal according to claim 3, wherein when the detected battery level is smaller than the lowest comparison level, a slot cycle index corresponding to the longest slot cycle is set.