KR100238729B1 - Method and apparatus for extending battery life of two-way radio communication terminal - Google Patents

Abstract

The technical field to which the invention described in the claims belongs.

An apparatus and method for extending battery life in a bidirectional communication device are provided.

I. The technical problem that the invention is trying to solve

The present invention provides a battery life extension device and method for operating a paging receiver capable of operating with only a low power supply and blocking a transmitter that requires a high power when a battery low occurs.

All. Summary of Solution of the Invention

A bidirectional wireless communication terminal, comprising: comparing a battery and a voltage of the battery with a first reference voltage which is a minimum voltage required for transmission, and outputting a first low signal if the battery voltage is lower than the first reference voltage; A first voltage detector and a second voltage detector configured to compare the voltage of the battery with a second reference voltage, which is a minimum voltage required for reception, and to output a second low signal if the battery voltage is lower than the second reference voltage; A first switch unit for turning off the power of the transceiver under predetermined control, a second switch unit for turning off the power of the amplifying unit under predetermined control, and a third switch for turning off the total power of the wireless communication terminal under predetermined control A first low signal is inputted from a switch unit and the first voltage detector, and outputs first and second switch control signals to turn off the first switch and the second switch, and from the second voltage detector. Receiving a second low signal is characterized in the claim made of an off-control section for the third switch unit to output a third switch control signal.

la. Important uses of the invention

It is used to extend the battery life of two-way communication devices.

Description

Battery life extension device and method in two-way communication device

The present invention relates to battery power management of a two-way wireless communication terminal, and more particularly, to a battery life extension device and method of the two-way wireless communication terminal to maintain the communication means of the wireless communication terminal at low power by operating only the paging receiver when the battery low occurs. .

Codeless telephone 2 (Codeless telephone 2: hereinafter referred to as "CT-2"), which is dedicated to transmission, has become popular and improved to allow reception by combining a pager with the CT-2. The interactive two-way pager is spreading. These two-way wireless communication terminal distinguishes the characteristics of the battery according to the transmission function requiring a high power. That is, the minimum battery voltage and energy are set to implement a transmission function with a relatively high power consumption and operating voltage.

1 is a block diagram of a conventional bidirectional wireless communication terminal.

Hereinafter, the configuration will be described with reference to FIG. 1. First, the controller 10 receives a predetermined power to control the overall operation and manages the power of the wireless communication terminal. The user interface 60 includes a key input unit and a display unit. Interface between the user and the wireless terminal. The first driving voltage unit 20 receives a predetermined power and outputs a first circuit driving voltage. The transmitting unit 60 receives the first circuit driving voltage of the first driving voltage unit 20, modulates the data output from the control unit 10 and the audio signal output from the audio unit into a radio signal, and outputs the radio signals. The wireless signal output from the transmitter 60 is amplified by the amplifier 80 and output. The duplexer 90 separates the radio signal amplified by the amplifier 80 and transmitted through the antenna AT2 and the radio signal received through the antenna AT2. The receiving unit 70 receives a wireless signal received through the antenna AT2 through the duplexer 90, receives a first circuit driving voltage from the first driving voltage unit 20, and receives the received wireless signal as data. The audio signal is demodulated, the data is output to the controller 10, and the audio signal is output to the audio unit 50. The voltage detector 140 receives a predetermined power and outputs a battery low signal to the controller 10 in comparison with the power and the reference voltage.

The paging unit 40 includes a paging receiver 42 and a second voltage driver 44. The second voltage driver 44 receives a predetermined power and outputs a second driving voltage for driving the paging receiver 42 of the paging part 40. The paging receiver 42 receives a paging radio signal and demodulates the radio signal. The paging receiver 42 detects message data from the demodulated post office code standard access group (POCSAG) and outputs the message data to the controller 10. The battery 30 supplies power to the first voltage driver 20, the voltage detector 140, the second voltage driver and the amplifier 58. The switch 150 is connected between the battery 30 and the first voltage driver 20 and is controlled by the controller 10 to turn on / off the entire power of the wireless communication terminal.

3 is a flowchart illustrating a method of managing battery power when a battery low occurs in the related art.

1 and 3, when the power of the bidirectional wireless communication terminal is turned on, the controller 10 continuously checks the voltage state of the battery through the voltage detector 140. If the battery is at a level higher than the reference voltage set in the voltage detector 140, the controller 10 operates normally (301). However, when a low battery lower than the reference voltage is detected, the voltage detector 140 outputs a battery low signal to the controller 10. The controller 10 detects the battery low signal in step 302 and outputs a battery low alarm signal to the audio unit 50 and the user interface unit 130.

As described above, the other blocks except the transmitter have a low power consumption level, and in particular, the pager receiver has a low voltage operation. Therefore, when the operation is stopped based on the transmission block, communication stops even in a battery state that can be received. , There is a problem that the life of the battery is shortened.

Accordingly, an object of the present invention is to provide a battery life extension apparatus and method that can use a power source by distinguishing the voltage level of a transmission block requiring high voltage and high power and a reception block capable of operating with low voltage and low energy.

1 is a general block diagram of a conventional bidirectional communication device.

Figure 2 is a block diagram of a bidirectional communication device according to an embodiment of the present invention.

3 is a flowchart illustrating a battery power management method when a conventional battery low occurs.

4 is a flowchart illustrating a battery life extension method of a bidirectional communication device according to an exemplary embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals have the same reference numerals as much as possible even if displayed on different drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

2 is a block diagram of a bidirectional wireless communication terminal including a battery life extension device according to an embodiment of the present invention.

Referring to FIG. 2, first, the controller 10 receives a predetermined power to control the overall operation and manages the power of the wireless communication terminal. The user interface 60 is composed of a key input unit and a display unit. Interface between wireless terminals. The first driving voltage unit 20 receives a predetermined power and outputs a first circuit driving voltage. The transmitting unit 60 receives the first circuit driving voltage of the first driving voltage unit 20, modulates the data output from the control unit 10 and the audio signal output from the audio unit into a radio signal, and outputs the radio signals. The wireless signal output from the transmitter 60 is amplified by the amplifier 80 and output. The duplexer 90 separates the radio signal amplified by the amplifier 80 and transmitted through the antenna AT2 and the radio signal received through the antenna AT2. The receiving unit 70 receives a wireless signal received through the antenna AT2 through the duplexer 90, receives a first driving voltage from the first driving voltage unit 20, and receives the received wireless signal as data or voice. The signal is demodulated, the data is output to the controller 10, and the audio signal is output to the audio unit 50. The first voltage detector 120 receives a predetermined voltage, compares the voltage with the first reference voltage, and outputs a first battery low signal to the controller 10 when the voltage is lower than the first reference voltage. The first reference voltage is set to the same value as the minimum voltage value required for transmission. The second voltage detector 48 receives a predetermined voltage, compares the voltage with the second reference voltage, and outputs a second battery low signal to the controller 10 when the voltage is lower than the second reference voltage. . The second reference voltage is set to the same value as the minimum voltage value required for reception.

The paging unit 40 includes a paging receiver 42 and a second voltage driver 44. The second voltage driver 44 receives a predetermined power and outputs a second driving voltage for driving the paging receiver 42 of the paging part 40. The paging receiver 42 receives a paging radio signal and demodulates the radio signal. The paging receiver 42 detects message data from the demodulated post office code standard access group (POCSAG) and outputs the message data to the controller 10. The battery 30 supplies power to the first voltage driver 20, the first voltage detector 120, the second voltage detector 48, the second voltage driver and the amplifier 58. The first switch 100 is connected between the first voltage driver 20, the transmitter 60, and the transmitter 60 and the receiver 70, and is driven by the controller 10 to be provided to the transceiver. On / off. The second switch 110 is connected between the battery 30 and the amplifier 80, and under the control of the controller 10 to turn on / off the battery power provided to the amplifier 80. When the low battery is detected from the first voltage detector 120, the first switch 100 and the second switch 110 are turned off under the control of the controller 10. The third switch 150 is connected between the battery 30 and the node 1 and is controlled by the controller 10 to turn on / off the power of the entire wireless communication terminal. The third switch 150 is turned off when the low battery is detected from the second voltage detector 48.

4 is a flowchart illustrating a battery life extension method of a bidirectional communication device according to an exemplary embodiment of the present invention.

Referring to FIG. 4, when the power of the bidirectional wireless communication terminal is turned on, the controller 10 continuously checks the voltage state of the battery through the first voltage detector 120. If the battery is at a level higher than the first reference voltage set in the first voltage detector 120, the controller 10 operates normally (402). However, when the first voltage detector 120 detects a battery voltage lower than the first reference voltage, the first voltage detector 120 outputs the first low battery signal to the controller 10. In step 404, the controller 10 detects the first low battery signal and outputs the first low battery alarm signal to the audio unit 50 and the user interface 130. The audio unit 50 receives the first low battery alarm signal and outputs an alarm sound through a ringer. In addition, the display unit included in the user interface 130 receives the first low battery alarm signal and outputs the first low battery as text or an icon (step 406). After notifying that the first low battery is notified, in step 408, the control unit 10 connects the first switch 100 and the battery 30 connected to a line supplied from the first voltage driver 20 to the transmitter 60 and the receiver 70. The second switch 110 connected to the amplification unit 80 is turned off. The controller 10 stops the transmission operation by turning off the first and second switches, and operates only in the paging reception mode in step 410. When operating only in the paging reception mode, the controller 10 operates the second voltage detector 48 and detects the secondary battery voltage. In operation 412, the controller checks whether the secondary battery voltage is low. When the second battery voltage is lower than the second reference voltage, the second voltage detector 48 outputs the second low battery signal to the controller 10. The controller 10 receives the second low battery signal and outputs the second low battery alarm signal to the audio unit 50 and the user interface 130. The audio unit 50 receives the second low battery alarm signal and sounds an alarm through a ringer. The user interface 130 receives the second low battery alarm signal and displays a text indicating that the battery is low on the display in operation 414. After notifying that the battery is low through the alarm sound and the display through the ringer, in step 416, the controller 10 controls the third switch 150 to turn off the entire power supply.

As described above, the present invention uses battery power by dividing a voltage level required for reception and a voltage level required for transmission in a wireless communication terminal so that communication can be extended without being disconnected even in a low battery state, and sufficient energy of the battery is used. By doing so, there is an effect of extending the life of the battery.

Claims (6)

In a two-way wireless communication terminal, With battery, A first voltage detector for comparing the voltage of the battery with a first reference voltage which is a minimum voltage required for transmission, and outputting a first low signal if the battery voltage is lower than the first reference voltage; A second voltage detector configured to compare the voltage of the battery with a second reference voltage, which is a minimum voltage required for reception, and to output a second low signal if the battery voltage is lower than the second reference voltage; A first switch unit for turning off the power of the transceiver unit under predetermined control; A second switch section for turning off the power of the amplifier section under predetermined control; A third switch unit for turning off the entire power of the wireless communication terminal under predetermined control; Receiving a first low signal from the first voltage detector and outputting first and second switch control signals to turn off the first switch and the second switch, and receiving a second low signal from the second voltage detector to receive a third signal; And a controller for outputting a switch control signal to turn off the third switch unit. The method of claim 1, And an audio unit generating a low battery alarm sound through a ringer when the first detection voltage or the second detection voltage is low. The method of claim 1, And displaying a low battery if the first detection voltage or the second detection voltage is low, wherein the display further comprises a user interface having a display unit. In the method of extending the battery life in the two-way wireless communication terminal, Detecting a primary voltage from the primary voltage detector to determine whether the detected primary voltage is low, and stopping the transmission operation if the primary voltage is low; When the transmission operation is stopped, the second voltage detection unit detects the second voltage and checks whether the detected second voltage is low, and if the second voltage is low, a second process of turning off the entire power supply. The battery life extension method of the bidirectional wireless communication terminal. The method of claim 4, wherein The method of claim 1, further comprising: a three-step process of generating a primary low battery alarm sound through a ringer when the primary voltage is low and displaying that the primary battery is low on a display unit included in the user interface unit. How to extend battery life of wireless communication terminal. The method of claim 4, wherein In the second process, if the secondary voltage is low, the secondary low battery alarm sound is generated through the ringer, and the display unit included in the user interface unit further includes a four process of displaying that the secondary battery is low. How to extend battery life of wireless communication terminal.

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