KR100541767B1 - Receive power control method in mobile communication terminal - Google Patents

Abstract

The present invention relates to a transmission power control method in a mobile communication terminal.

The present invention includes the steps of measuring the power of the first received signal from the base station and the duration of the standby state in the initialization state or standby state after disconnecting the call connection; Comparing the power magnitude of the received signal with the paging value table storing the power magnitude of the received signal, the standby time, and the power magnitude of the transmitted signal; And determining the power magnitude of the measured reception signal and the power magnitude of a transmission signal according to a standby time, with reference to the paging value table according to the comparison result.

Therefore, when the mobile communication terminal is in an initialization state or standby state before a call connection is made, the present invention measures the power level of the first received signal in the initialization state or the standby state and the time duration of the standby state. After storing, by comparing the stored power magnitude and standby time with the previously stored paging value table, the power magnitude of the transmission signal according to the stored power magnitude and standby time is extracted and the power of the transmission signal in the terminal is controlled. It is possible to select an appropriate transmission signal power size according to the signal power size and the standby time of the mobile communication terminal, thereby reducing the power consumption of the mobile communication terminal required when adjusting the transmission signal level.

Description

Transmission power control method in mobile communication terminal {RECEIVE POWER CONTROL METHOD IN MOBILE COMMUNICATION TERMINAL}             

1 is a network configuration showing an example of performing a wireless communication between the base station 10 and the terminals (11, 12) in a conventional mobile communication system.

Figure 2 is a block diagram showing the configuration of an apparatus implementing the transmission power control method in a mobile communication terminal of the present invention.

Figure 3 is a flow chart showing the operation of the transmission power control method in the mobile communication terminal of the present invention.

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

20: base station 30: terminal

31: RF transceiver 32: paging value storage unit

33: control unit 34: counter

The present invention relates to a mobile communication terminal. In particular, when the mobile communication terminal is in an initialization state or a standby state before a call connection is made, the power level and the standby state of the first received signal in the initialization state or the standby state are different. In the mobile communication terminal to control the transmission power by controlling the power of the transmission signal in the mobile communication terminal according to the duration of time, by selecting the appropriate transmission signal power size according to the power size of the received signal and the standby time of the mobile communication terminal It relates to a transmission power control method of.

In general, the strength of radio waves transmitted from a base station to a plurality of mobile communication terminals in a mobile communication system is an important factor in determining call quality in performing two-way wireless communication.

However, due to technical and cost problems, mobile communication systems do not transmit strong radio waves like television stations or radio stations with one-way radio communication. In addition, the base station transmits a radio wave of greater intensity than the terminal in the short distance from the base station to the remote terminal, so that any terminal in the service area provides a high quality of service.                         

As shown in FIG. 1, the base station 10 in the mobile communication system is in service for the first and second terminals 11 and 12 having a predetermined distance difference from the plurality of terminals in the service area. Typically, the base station 10 is located between the terminals 11 and 12 and a base station controller (BSC) (not shown), and interoperates with the terminals 11 and 12 and the base station controller (not shown). In addition, the terminal 11, 12 in the service area controls the call and performs a maintenance function.

In this case, when the base station 10 transmits the same radio wave strength to the first and second terminals 11 and 12, the second terminal 12 located at a relatively long distance has a weak reception signal and low reception power. , Sound quality is reduced.

Therefore, to compensate for this, the base station 10 performs power control, transmits the radio wave strengths differently for each of the first and second terminals 11 and 12 in the corresponding service area, and distances from the base station 10. Each of the terminals 11 and 12 having a difference can receive a radio wave of the same intensity and receive a desired call quality.

However, in the conventional technology as described above, when the mobile communication terminal is located at a long distance within the service area of the base station in the mobile communication system, even if the base station performs power control due to the system performance and the influence of the wireless environment from the base station When the power strength of the signal transmitted to the terminal is weakened, the terminal consumes more battery power in order to generate a transmission signal in the internal power amplifier according to the weaker received signal. There is a problem in that the terminal cannot maintain the initialization state or the standby state for a long time in a state where the signal power is weak.

Accordingly, the present invention has been proposed to solve the above-described conventional problems. When the mobile communication terminal is in an initialization state or a standby state before a call connection is made, the received signal first received in the initialization state or the standby state is By controlling the power of the transmission signal in the mobile communication terminal according to the power level and the time duration of the standby state, the transmission power by selecting the appropriate transmission signal power size according to the power size of the received signal and the standby time of the mobile communication terminal. The purpose is to provide a method to control the.

The present invention for achieving the above object comprises the steps of measuring the power level and the time duration of the first received signal received from the base station in the initialization state or standby state after disconnecting the call connection; Comparing the power magnitude of the received signal with the paging value table storing the power magnitude of the received signal, the standby time, and the power magnitude of the transmitted signal; And determining the power magnitude of the measured reception signal and the power magnitude of the transmission signal according to the standby time with reference to the paging value table according to the comparison result.

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

FIG. 2 is a block diagram showing the configuration of an apparatus implementing the transmission power control method in the mobile communication terminal of the present invention. As shown in FIG. 2, an arbitrary base station located within the service area of the base station 20 and the base station 20 is shown. It consists of a terminal 30.

In the mobile communication system, the base station 20 is located between any terminal 30 in the service area and a base station controller (BSC) (not shown), so that the terminal 30 and the base station controller (not shown). And interworking with the terminal 30 to control and maintain the call.

Meanwhile, in a typical mobile communication system, the terminal 30 has three states of an initialization state, an idle state, and a call state. In the initialization state, the terminal 30 is powered on. Immediately afterwards, a predetermined message is received from the base station 20 through a pilot and a synchronization channel to synchronize with the system and receive necessary system information, thereby preparing to transition to the standby state.

In the standby state, the terminal 30 transmits and receives a predetermined message through a paging channel, and receives system related information from the base station 20 or transmits information for accessing the system. 30) responds to the paging channel message received in the standby state or accesses the system through the base station 20 to actually transmit and receive voice or data.

Here, the standby state is a state in which the terminal 30 internally establishes a condition for performing various additional services including wireless communication in an initializing state and then sets up a call or processes a control signal, and thus, the terminal 30 in the standby state. Through the base station 30 receives a paging channel message having information such as system information transmission, call information, channel information, authentication request, SMS (Short Message Service) reception.

Accordingly, the terminal 30 in the waiting state searches whether the paging channel message is transmitted at a predetermined time period from the base station 20 managing itself in order to process call setup or control signals.

Referring to the operation of the present invention with reference to the flowchart of Figure 3, after the power is supplied to the terminal 30 in the initialization state, a predetermined message from the base station 20 through a pilot (Pilot) and a synchronization (Sync) channel When the base station 20 transmits a paging channel message to any terminal 30 in the service area in a standby state or in a standby state, the RF (Radio Frequency) transceiver 31 in the terminal 30 transmits a predetermined message or message. When the paging channel message is first received, the power magnitude of the received signal is measured and stored in the paging value storage unit 32 (S30 and S31).

Here, the first received paging channel message refers to a signal first received from the base station 20 after the terminal 30 releases a call connection, switches to an initialization state or a standby state.

In addition, the RF transceiver 31 reports to the controller 33 that a received signal such as a predetermined message or a paging channel message is first received from the base station 20, and accordingly, the controller 33 controls the counter 34. Start driving by driving (S32).

Then, when a call connection attempt from the user's keypad (not shown) or a call connection request from the other party occurs, the controller 33 transmits a counting end command to end the counting to the counter 34. In response to the received counting termination command, the counter 34 ends counting (S33, S34), where the value counted by the counter 34 is a call connection while the corresponding terminal 30 is in a standby state. It means the time that the initialization state or the standby state is maintained until the next call connection after termination, that is, the waiting time while the terminal 30 is not in the call connection state.

In addition, the counter 34 stores the counted value as a waiting time in the paging value storage unit 32 and reports the counting to the control unit 33. At this time, the paging value storage unit 32 Along with the waiting time, the power magnitude of the received signal is stored.

Then, when the control unit 33 reports the counting end from the counter 34, the control unit 33 loads the power size and the waiting time stored in the paging value storage unit 32 and then stores the paging value storage unit ( Compared to the paging value table previously stored in 32), the power size of the transmission signal according to the power size and the standby time is extracted from the paging value table (S35).

That is, since an important factor for determining the power magnitude of the transmission signal is the power magnitude of the received signal, the paging value table classifies the waiting time before the terminal 30 connects the call according to the power magnitude of the received signal, and the classified standby. By forming the fields by dividing the power size of the transmission signal for each time again, the control unit 33 sequentially searches for each field of the paging value table and transmits the power corresponding to the power size and standby time of the current received signal. After extracting the power magnitude of the signal, the transmission power level of a power amplifier (not shown) is controlled according to the power magnitude of the extracted transmission signal.

Therefore, in general, the power size of the extracted transmission signal is determined to be larger when the power size of the received signal is smaller, thereby setting a paging value table, thereby preventing the call quality from being degraded due to the weakness of the received signal. If the waiting time is increased, the paging value table is set so that the power size of the transmission signal is reduced, thereby preventing unnecessary power waste caused by increasing the strength of the transmission signal while not in the call connection state, thereby requiring adjustment of the transmission signal level. The power consumption of the battery in the terminal 30 is reduced.

Then, the control unit 33 controls the counter 34 to reset the counting value (S36), so that the counter 34 waits until the first received signal is received after disconnecting the call.

As described above, according to the present invention, when the mobile communication terminal is in an initialization state or a standby state before a call connection is made, the power level of the first received signal in the initialization state or the standby state and the standby state are maintained. After measuring and storing the time, comparing the stored power magnitude and standby time with a previously stored paging value table, and extracting the power magnitude of the transmission signal according to the stored power magnitude and the standby time to determine the power of the transmission signal in the terminal. By controlling the transmission power by selecting the appropriate transmission signal power size according to the power size of the received signal and the standby time of the mobile communication terminal, the power consumption of the mobile communication terminal required for adjusting the transmission signal level is reduced. There is.

Claims (5)

Measuring, in an initialization state or a standby state after disconnecting the call, the power level of the first received signal from the base station and a time duration of the standby state; Comparing the power magnitude of the received signal with the paging value table storing the power magnitude of the received signal, the standby time, and the power magnitude of the transmitted signal; Transmitting power control in the mobile communication terminal, characterized in that for determining the power size of the transmission signal according to the measured power size and the standby time, with reference to the paging value table according to the comparison result Way. delete The method of claim 1, wherein the waiting time is a time for which an initialization state or a waiting state is maintained after a call connection ends until a next call connection is made. The method of claim 1, wherein the power size of the transmission signal is determined to be a value that increases when the power size of the reception signal decreases. The transmission in the mobile communication terminal according to claim 1 or 4, wherein the power magnitude of the transmission signal is determined to be smaller when the measured standby time of the reception signal becomes longer. Power control method.

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