KR19980037645A - Method and device for extending battery standby time of wireless telephone - Google Patents

Abstract

The present invention further extends the standby time by reducing the current consumption of the wireless telephone when the voltage of the battery falls below a certain level, and extends the battery standby time of the wireless telephone to prevent the shortening of the life due to the over-discharge of the battery. Relates to a device.

Conventional wireless telephones have a problem of shortening the lifespan of a wireless telephone by decreasing the characteristics of the battery when such a process is repeated, and also shortening the battery life.

In order to solve this problem, the present invention includes a voltage detector for detecting a voltage of a battery; A central processor configured to generate an RF power cutoff control signal and a charge control signal at low voltage by comparing the voltage output from the voltage detector with a reference voltage; A low power mode oscillator for generating an oscillation clock for operating in a low power mode at low voltage; An RF power cut-off unit which cuts off a current supplied to the RF unit 105 according to the RF power cut-off control signal generated by the central processing unit; The charging unit is configured to charge a low voltage battery according to a charging control signal generated by the central processing unit.

Description

Method and device for extending battery standby time of wireless telephone

The present invention relates to a method and apparatus for extending a battery standby time of a cordless telephone, and in particular, to reduce the current consumption of the cordless telephone when the voltage of the battery falls below a certain level, to extend the standby time and shorten the life due to the over discharge of the battery. The present invention relates to a method and an apparatus for extending a battery standby time of a wireless telephone to prevent the accident.

As shown in FIG. 1, the conventional wireless telephone includes a central processing unit 1 for controlling the overall functions of the wireless telephone, an RF unit 2 for wireless transmission and reception, and a low voltage detection unit for detecting a low voltage of a battery ( 3) and a battery 4 for supplying power to the cordless telephone.

In the conventional wireless telephone configured as described above, when the battery 4 is at a normal voltage, that is, when the battery voltage is higher than or equal to a preset detection voltage by the low voltage detector 3, the central processing unit 2 drives the RF unit 2 to search each channel. In order to receive a signal transmitted from a fixed device of the wireless telephone or to request a user's call, the wireless transmission and reception operation is performed.

In this state, when the voltage of the battery 4 falls below the predetermined detection voltage by the low voltage detection unit 3, the central processing unit 1 monitors this during operation of the radiotelephone.

At this time, when the battery 4 reaches a low voltage, the central processing unit 1 stops the operation of the RF unit 2 to further reduce battery consumption, and the user resumes charging to continue to solve the low voltage state. Will be monitored.

In this process, the central processing unit 1 continues to operate normally, but the RF unit 2 cannot be used in a low voltage state.

Therefore, the central processing unit 1 continues to operate in an active state, and although the RF unit 2 cuts power consumption, the central processing unit 1 does not prevent current consumption of the central processing unit 1 itself, and thus the standby state does not last long. The battery 4 continues to drop in voltage.

That is, when the voltage of the battery 4 drops further, the central processing unit 1 also fails to operate normally.

At this time, the current to the RF unit 2 is not cut off, and the battery 4 continues to be discharged to reach a complete discharge.

However, such a conventional wireless phone has a problem of shortening the lifespan of the wireless phone by decreasing the characteristics of the battery when this process is repeated, and also has a problem of shortening the battery life, which is a major cause of the failure of the wireless phone.

The present invention has been proposed to solve the problems of the prior art, and when the voltage of the battery falls below a certain level, reducing the current consumption of the cordless phone to extend the standby time and shorten the life due to the over-discharge of the battery It is an object of the present invention to provide a method and apparatus for extending a battery standby time of a wireless telephone to prevent the problem.

Technical means for achieving the object of the present invention, the voltage detection unit for detecting the voltage of the battery; A central processor configured to generate an RF power cutoff control signal and a charge control signal at low voltage by comparing the voltage output from the voltage detector with a reference voltage; A low power mode oscillator for generating an oscillation clock for operating in a low power mode at low voltage; An RF power cut-off unit for cutting off the current supplied to the RF unit 105 according to the RF power cut-off control signal generated by the central processing unit; The charging unit for charging the battery of a low voltage in accordance with the charge control signal generated by the central processing unit.

In addition, an extension method of the present invention for achieving the above object includes a first process of detecting the voltage of the battery (108) and comparing it with a reference voltage; A second step of operating normally when the result compared in the first step is equal to or higher than the reference voltage and cutting off the RF power and generating a charge control signal when the result is lower than the reference voltage; The third step is to generate a low power oscillation clock according to the signal sent out in the second step.

1 is a block diagram of a conventional wireless telephone.

2 is a block diagram of a method and apparatus for extending a battery standby time of a wireless telephone according to the present invention.

3 is an operation flowchart for explaining the operation of FIG.

* Description of the symbols for the main parts of the drawings *

101 central processing unit (CPU) 102: active mode oscillator

103: low voltage detection unit 104: RF power cut-off unit

105: RF unit 106: oscillation unit for low power mode

107: battery charging unit 108: oscillation unit for active mode

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

FIG. 2 is a block diagram illustrating a method and apparatus for extending a battery standby time of a wireless telephone according to the present invention. FIG. 3 is a flowchart illustrating an operation of FIG. 2, and a voltage for detecting a voltage of a battery 108. The detection unit 103 and the central processing unit 101 generating an RF power cutoff control signal and a charging control signal at low voltage by comparing the voltage output from the voltage detector 103 with a reference voltage, and operating in a low power mode at low voltage. Low power mode oscillator 106 for generating an oscillation clock for the RF power cut-off unit 104 to cut off the current supplied to the RF 105 according to the RF power cut control signal generated in the central processing unit 101 and The charging unit 107 is configured to charge the low voltage battery 108 according to the charging control signal generated by the central processing unit 101.

In the above, the active oscillation unit 102 for detecting the voltage of the battery 108 and operating the central processing unit 101 when the reference voltage is equal to or more is configured.

Referring to Figures 2 and 3 attached to the operation and effect of the present invention configured as described above are as follows.

First, when the battery 108 of the cordless phone is a normal voltage, that is, when the voltage detected by the low voltage detector 103 is greater than the voltage set by the central processor 101, the RF unit 105 is driven to drive each channel. Search and receive a voice signal transmitted from a fixed device of the wireless telephone, or perform a wireless, transmit and receive operation to perform a normal operation.

On the other hand, when the voltage detected by the low voltage detection unit 104 is less than the voltage value preset by the central processing unit 101 determines that the battery 103 is a low voltage and the central processing unit 101 is determined during operation of the wireless telephone. Keep an eye on it.

In such a state, when the battery 103 reaches a low voltage state, an RF power cutoff control signal and a charge control signal are generated, and the battery 103 is switched to the low power mode according to the oscillation clock obtained from the low power mode oscillator 106.

Accordingly, the RF power cutoff unit 104 cuts off the current supplied to the RF unit 105 by the RF power cutoff control signal output from the central processing unit 101.

In addition, when the low power mode oscillator 106 is determined to be the low power mode of the central processing unit 101, the oscillation clock for operating in the low power mode is provided to the central processing unit 101 to switch to the low power consumption mode.

At this time, the central processing unit 101 can know only whether the normal voltage has been made, and does not perform other operations.

In this case, the current consumption of the central processing unit 101 consumes about 10 mA which is much smaller than the current of about 7 to 10 mA in normal operation.

In such a low voltage mode, the CPU 101 generates a battery charge control signal to the battery charger 107.

Then, the battery charger 107 charges the battery 103 in the low voltage state by a predetermined level by the battery charge control signal output from the central processing unit 101.

Accordingly, the central processing unit 101 outputs an active mode oscillation driving control signal to the active mode oscillator 108 when the low residual pressure of the battery 103 becomes a normal voltage state.

Then, the active mode oscillator 108 oscillates the central processing unit 101 to perform normal operation again.

In addition, the method for performing the present invention performs a first process of detecting the voltage of the battery 108 and comparing it with the reference voltage, and if the result compared in the first process is more than the reference voltage and operates normally and the reference voltage If less, it performs a second process of shutting off the RF power and generating a charge control signal. Subsequently, a third process of generating a low power oscillation clock is performed according to the signal transmitted in the second process.

By repeating such a process, complete discharge of the battery 103 is prevented in advance.

As described above, the present invention has the effect of significantly extending the standby time of the wireless telephone to provide convenience in use, and also has the effect of minimizing the defect of the wireless telephone by extending the life of the battery.

Claims (3)

A voltage detector 103 which detects a voltage of the battery 108; A central processing unit (101) for generating an RF power cutoff control signal and a charging control signal at a low voltage by comparing the voltage output from the voltage detector (103) with a reference voltage; A low power mode oscillator 106 for generating an oscillation clock for operating in a low power mode at low voltage; An RF power cut-off unit 104 for cutting off a current supplied to the RF unit 105 according to the RF power cut-off control signal generated by the central processing unit 101; And a charging unit (107) for charging a low voltage battery (108) according to the charging control signal generated by the central processing unit (101). The method of claim 1, The battery standby time device of claim 1, comprising an active oscillation unit (102) for detecting the voltage of the battery (108) and operating the central processing unit (101) normally when the reference voltage is higher than. Detecting a voltage of the battery 108 and comparing the voltage with a reference voltage; A second step of operating normally when the result compared in the first step is equal to or higher than the reference voltage and cutting off the RF power and generating a charge control signal when the result is lower than the reference voltage; And a third step of generating a low power oscillation clock according to the signal sent out in the second step.