KR0124183B1 - Method for sawinv power supply of the cellular phone - Google Patents

Abstract

A method for saving the power of terminal whereby in case that the signal level of the receiving station is higher 30dBm than -83dBm, the power of amplifier for transmitting turn off and the transmission line is changed and then the loop of the transmission data send to antenna using the 50 ohm transmission line,in order to save the power of terminal.

Description

How to save power on your device

1 is a block diagram showing an embodiment of a general DECT terminal.

FIG. 2 is a flow chart showing step by step implementation of general DECT terminal processing of FIG. 1 according to the DECT standard. FIG.

3 is a flowchart showing step by step an embodiment of a power saving method of a terminal according to the present invention;

The present invention relates to a portable terminal of DECT (Digital European Cordless Telecommunications) method, and more particularly, to a power saving method of a terminal suitable for saving power of the terminal.

In this regard, FIG. 1 is a block diagram showing an embodiment of a general DECT terminal, including a central processing unit (CPU) 2 having a baseband processing function for controlling overall operation of the terminal, A power supply unit 4 controlled by the central processing unit 2 to indicate the current power state of the terminal, a power supply unit 6 controlled by the central processing unit 2 to supply power for operating the terminal to the terminal system; A microphone 8 for converting a voice signal into an electrical analog voice signal, an analog-digital converter 10 for converting an analog voice signal of the microphone 8 into a digital signal, The digital voice signal of the analog-to-digital converter 10 is converted into ADPCM (Adapti-ve Differential Pulse Code Modulation) data and applied to a digital signal processing (DSP) processor (14). A digital signal processing processor 14 which communicates with an ADPCM-PCM (Pulse Code Modulation) converter 12 and the central processing unit 2 to digitally process digital signals according to a speech coding method used in the DECT standard. A PCM-ADPCM converter 16 for converting ADPCM data of the digital signal processing processor 14 into PCM data, and a digital-analog converter for converting PCM data of the PCM-ADPCM converter 16 into an analog signal ( 18), a speaker 20 which is driven by an analog signal of the digital-to-analog converter 18 to output voice, and voice data encoded by ADPCM from the central processing unit 2 as a carrier for modulation. A signal synthesizer 22 for carrying and modulating the signal, a signal amplifier 24 for amplifying the modulated signal of the signal synthesizer 22 to a level defined by DECT, and amplified signal 24. Propagating signals to the atmosphere, high frequency in the atmosphere An antenna 26 for receiving a call and a low noise amplifier 28 for receiving a high frequency signal from a base station (also called a fixed station) received through the antenna 26 during a reception period and amplifying low noise. And a central processing unit extracting the original signal transmitted from the intermediate frequency converter 30 for converting the received high frequency signal of the low noise amplifier 28 into an intermediate frequency and the intermediate frequency of the intermediate frequency converter 30. A demodulation unit 32 applied to (2), a key input unit 34 for making a call input to the central processing unit 2, and a screen display unit for displaying a bell state by receiving a signal from the central processing unit 2; 36, a buzzer 38 for receiving a signal from the central processing unit 2 to generate a special sound generated for use in a terminal device such as a key input and a beeping sound, and to control the central processing unit 2; Record the initial state of volume and various phone numbers by Ipyrom (Electrically Erasable Programmable Read Only Memory); EEPROM) 40, a ROM 42 storing data for the operation of the entire processor by the central processing unit 2, and a longitudinal operation by the central processing unit 2; And a RAM (Read Access Memory (RAM)) 44 which temporarily stores the parameters.

Referring to FIG. 2, a general DECT terminal made in this way is as follows.

First, the central processing unit 2 has a baseband processing function for controlling overall operation of the terminal, and the power display unit 4 is controlled by the central processing unit 2 to display the current power calculation of the terminal. Displayed using a light emitting device such as a diode so that the user can know the current state of the power on / off of the terminal.

Then, the power supply unit 6 is controlled by the central processing unit 2 to supply power for terminal operation, and the microphone 8 converts a voice signal by the user into an electrical analog voice signal, and converts the analog-digital conversion. The unit 10 converts the analog audio signal of the microphone 8 into a digital signal.

The ADPCM-PCM converting unit 12 converts the digital voice signal of the analog-to-digital converting unit 10 into ADPCM data and applies it to the digital signal processing processor 14, and the digital signal processing processor 14 performs central processing. It communicates with the apparatus 2 and processes the digital signal according to the speech coding method used in the DECT standard.

In addition, the PCM-ADPCM converter 16 converts the ADPCM data of the digital signal processing processor 14, and the digital-analog converter 18 converts the PCM data of the PCM-ADPCM converter 16 into an analog signal. In addition, the speaker 20 outputs a voice by the analog signal of the digital-analog converter 18 so that the user can hear the voice.

Next, the signal synthesizing unit 22 receives the voice data encoded by ADPCM from the central processing unit 2 and modulates it on a carrier for modulation of 1.8GH _Z for wireless transmission, and the signal amplifying unit 24 synthesizes the signal. The amplified modulated signal of the unit 22 is amplified to the level defined by the DECT, and the antenna 26 receives the signal in the air when the amplified signal of the signal amplifier 24 propagates in the air.

Thus, the low noise amplifier 28 is 1.8GH of the base station received through the antenna 26 during the reception period of the terminal_ZThe low noise amplification unit 30, the intermediate frequency converter 30 is 1.8GH of the low noise amplifier 28_ZReceived frequency of 110MH_ZTo the intermediate frequency of the intermediate frequency conversion unit 30 of 110MH_Z The original signal transmitted from the intermediate frequency is extracted and applied to the central processing unit 2.

The key input unit 34 inputs a call to the central processing unit 2, and the screen display unit 36 receives a signal from the central processing unit 2 and uses a display element such as an LCD (Liquid Crystal Display). A bell state is displayed, and the buzzer 38 receives a signal from the central processing unit 2 to generate a special sound generated for use of a terminal such as a key input and a beep so that the user can listen to it. ) Records the initial state of the volume and various telephone numbers by the central processing unit 2, and the ROM 42 stores the non-volatile data for the operation of the entire terminal by the central processing unit 2, 44 temporarily stores the parameters for longitudinal operation by the central processing unit 2.

FIG. 2 is a flowchart showing step by step an embodiment of the general DECT terminal processing of FIG. 1 according to the DECT standard, that is, an algorithm of the central processing unit 2.

First, when the power is turned on, the initial value of the hardware is read from the ROM 42 or EPI rom 40 to initialize the respective hardware, and the RAM 44 is inspected and cleared. After checking the basic abnormality of the hardware by operating a diagnostic program or the like, the signal of the wireless base station receives the signals from the radio channels 0 to 9 in 10 (100, 102, 104, 106, 108, 110, 112).

Next, the received electric field strengths for all 10 radio channels are examined to determine the connection to the radio base station which emits the strongest radio signal, and based on the signals sent from the radio base station, Motivate to be the reference (114).

After that, by checking the time slot usage state of the radio base station, it is checked whether there is an empty time slot, and then a registration procedure is performed (116).

At this time, the terminal enters the standby state after completing the registration procedure, the operation of the terminal proceeding in the standby state can be divided into four.

Fourthly, the terminal checks whether there is a paging signal from the base station, and if there is a paging signal, first accesses a medium access control (MAC) layer to secure a time slot use right of a wireless channel. The connection of the DLC (Data Link Control) layer and the network (Network) layer are sequentially performed to form a call path and then proceed with the call (118, 120, 122, 124, 126).

Subsequently, due to any one call disconnection situation, network layer disconnection, DLC layer disconnection, and MAC layer disconnection are performed to release the radio channel and enter the standby state again (128, 130, 132).

On the contrary, if there is no paging signal, the terminal user checks a connection request to a specific subscriber, and if a request occurs, if there is an empty time slot by checking the existence of an empty time slot to secure use of the time slot. If the time slot is not empty, the base station makes a request for the use of the time slot. If the time slot is not empty, it waits until the time delay does not exceed the set value until another user's use of the time slot ends. If another user's use of time slot is terminated, the time slot is attempted to access the MAC layer (134, 136).

Subsequently, access to the MAC layer is secured to secure the time slot use right of the wireless channel, and access to the DLC layer and network layer are sequentially performed to form a call path and then proceed with the call (138, 140, and 142).

Subsequently, due to any one call disconnection situation, the network layer is disconnected, the DLC layer is disconnected, and then the MAC layer is disconnected to release the radio channel and enter the standby state again (144, 146, 148).

At this time, after there is no paging signal and the user's transmission request or the processing (step 132 or step 148) is completed, the state check in the terminal is performed.

A typical internal condition check is the voltage level check of the supply battery.

First, the battery voltage is input through a circuit for converting an analog signal into a digital signal to check whether it is at an appropriate level. If the battery is below an appropriate level, a battery charge warning signal is generated to display, for example, a message such as a need for charging. It informs the charging situation and checks whether the signal of the base station is maintained to maintain an appropriate signal level or whether the signal level is too low to attempt to connect to the adjacent base station (150, 152, 154, 156, 158).

If the signal level of the base station is higher than -83dBm, the signal state of the base station currently registered is maintained as it is, and if the signal level drops below a certain value and a connection movement to the previous station is required, the radio channel is changed from 0 to 9 10. Accepted across dogs (160,162,164,166,168,170,172).

Therefore, the received electric field strengths for all ten radio channels are examined to determine the connection to the wireless base station which emits the strongest wireless signal, and the various timings within the terminal are determined based on the signal sent from the wireless base station. Motivate to be the reference (174,176).

After that, the time slot usage state of the radio base station is checked to determine whether there is an empty time slot, and then handover is newly performed.

That is, in the standby state, as described above, it is determined whether or not there is a paging signal from the base station and proceeds with the processing thereof, examines the user's transmission request and proceeds with it, and checks whether the battery voltage is at an appropriate level. The basic form of the overall DECT terminal processing is to perform a process for it, inspect the signal level of the base station, proceed with the process, and perform various timer processes of the other terminal.

In this conventional technique, most of the power in the terminal is used to generate the output level during transmission, and the ratio is more than 90%.

Therefore, it is possible to use it once for about 10 to 20 hours in the standby state of use of the current mobile phone, and about 1 to 2 hours when the call continues.

And, if the signal level of the terminal is received within the range of + 24dBm (250mV) to -83dBm, it is possible to talk to the base station, and the DECT standard does not adjust the output level. The signal is output at 24dBm output, and in the conventional method, the terminal also transmits the signal at 24dBm output in its own time slot.

In addition, the signal level of the radio wave transmitted by the terminal will be strong at the terminal received at the base station at a close distance from the base station, the signal level of the terminal received at the base station will be weak when away from the base station, If the base station and the terminal are out of the service area of the base station, the signal of the opposite party is lower than the minimum of the available signal level, so that the call is impossible.

As seen from the base station, the signal of the terminal will be much higher than the transmit / receive signal level at close range. In the middle of the signal reach distance of the base station, the maximum signal level (24 dBm) and the lowest signal level are considered in the current DECT terminal. There is a part to enhance power saving function

SUMMARY OF THE INVENTION The present invention has been made in view of such a conventional technology, and an object thereof is to provide a power saving method of a terminal that can save power more than necessary by limiting the operation of a transmission amplifier at a close distance during a call. .

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention for achieving the above object is as follows.

Referring to FIG. 3, FIG. 3 is a flowchart showing step by step an embodiment of a power saving method of a terminal according to the present invention.

At this time, the algorithm according to the present invention is mounted in the Ypyrom 40 or the ROM 42 and is operated by the central processing unit 2. In addition, communication between terminals can be made by a switching action of the exchange via a base station having one cell (also called a fixed station), a base station controller communicating with a plurality of base stations, and a switch communicating with a plurality of base station controllers. In general, the terminal and the base station communicate wirelessly in a cell of the base station, and the base station, the base station controller, and the exchange between the wired communication.

Basic operation of each part according to FIG. 1 showing the hardware of the terminal according to the present invention will be described above.

First, while monitoring the signal level of the base station periodically during the call, the voice data of the other party is received and the voice data is decrypted by the encryption key (200, 202).

Next, the decoded ACPCM voice signal is converted into a PCM voice signal, and then converted into an analog voice signal, and outputted through a speaker or the like (204, 206, 208).

Subsequently, the sound transmission signal synthesized at a high frequency according to the DECT standard is radiated into the air through the amplifier and the antenna in turn. In this case, the synthesized high frequency signal is 50 ohm directly to the antenna without passing through the amplifier and the amplifier. Since there are two transmission routes for transmitting signals through the line, one of the two routes is configured to be turned on during transmission by using a high-frequency analog switch and detects the signal level of the base station. It is determined whether it is 30 dBm or more higher than the lowest level of -83 dBm (216, 218).

That is, after performing the steps 204, 206 and 208, the voice is converted into a digital voice signal, and then converted into an ADPCM voice signal, and then encrypted by an encryption key, and the signal level of the branch station is examined and the signal level is lower than the minimum level (-83 dBm). It is determined whether the level is higher than a predetermined level (30 dBm) (216, 218).

Next, when the signal level of the received base station is 30dBm or more higher than the lowest level of -83dBm, the power of the transmitting amplifier is turned off and the transmission path is changed to transfer the route of the transmission data to the antenna using a 50 ohm transmission line. 220, 222).

In addition, when the power of the transmitting amplifier is turned off, that is, when the operation of the transmitting amplifier is prohibited, the power of the transmitting amplifier is turned on when the signal level of the received base station is 30 dBm or more lower than -83 dBm, which is the lowest level. Allows transmit data to be sent through the amplifier.

Next, when the call is terminated, the connection is released and the reception waiting state is maintained (224, 226).

As described above, in the present invention, when the signal level of the received base station is 30 dBm or more higher than -83 dBm, which is the lowest level, the power of the transmission amplifier is turned off and the transmission path is changed to use a 50-ohm transmission line as a route. By transmitting to the antenna (220,222) it will be able to save the power of the terminal.

Claims (2)

Periodically monitoring the signal level of the base station during a call and receiving the other party's voice and data and decoding the voice data into an ADPCM voice signal (200, 202); Converting the decoded ADPCM voice signal into a PCM voice signal and converting the decoded ADPCM voice signal into an analog voice signal (204, 206, 208); Converting the voice sound into a digital voice signal, converting the voice sound back into an ADPCM voice signal, encrypting the signal, and checking a signal level of the base station to determine whether the predetermined level is 30dBm or more higher than the minimum level of -83dBm (216, 218); When the signal level of the received base station is higher than the minimum level of -83 dBm above the predetermined level by 30 dBm or more, turning off the power of the transmitting amplifier, changing the transmission path, and transmitting the transmission data to the antenna using the transmission line (220). , 222); When the signal level of the base station received when the power of the transmission amplifier is turned off is lower than the minimum level of -83 dBm by the predetermined level 30 dBm or more, turning on the power of the transmission amplifier to transmit the transmission data through the amplifier; Disconnecting and maintaining a standby state (224, 226) when the call is terminated. The method of claim 1, wherein the transmission line of the step (220, 222) is a 50 ohm transmission line.