KR100644550B1 - Method for calibrating control parameter of transmission power in global system for mobile communication terminal and the terminal thereof - Google Patents

Abstract

A method for correcting a transmission power control parameter of a GSM(Global System for Mobile communication) terminal and the GSM terminal are provided to allow a GSM terminal to effectively control transmission power while minimizing current consumption. A memory(150) stores a program for correcting a transmission power control parameter. A CPU(Central Processing Unit)(146) couples transmission power to a base station according to driving of the program, selects a transmission power control parameter value for compensating a difference of transmission power of each radio channel by changing a transmission power control parameter value set for a transceiver(130) in a state that a transmission power control parameter previously set in a power amplifier(120) is maintained as it is, and corrects the previously set transmission power control parameter with the selected transmission power control parameter value to thus reset it.

Description

Method for correcting transmission power control parameter of GSM terminal and its GSM terminal {METHOD FOR CALIBRATING CONTROL PARAMETER OF TRANSMISSION POWER IN GLOBAL SYSTEM FOR MOBILE COMMUNICATION TERMINAL AND THE TERMINAL THEREOF}

1 is a block diagram of a GSM terminal for performing a transmission power control parameter correction method of a GSM terminal according to an embodiment of the present invention.

2 is a flowchart illustrating a method of correcting a transmission power control parameter of a GSM terminal according to an embodiment of the present invention.

3 is a detailed block diagram of a GSM terminal for performing a transmission power control parameter correction method of a GSM terminal according to an embodiment of the present invention shown in FIG.

4 and 5 are flow charts for performing a transmission power control parameter correction method of the GSM terminal shown in FIG.

<Description of the symbols for the main parts of the drawings>

100: GSM terminal 110: FEM

120: power amplifier 130: transceiver

140: control unit 141: coupling unit

142: A / D conversion unit 143: Transmission power processing unit

144: parameter selection unit 145: parameter reset unit

146: central processing unit 150: memory

161: key input unit 162: display unit

163: voice processing unit 164: speaker

165: microphone

The present invention relates to transmission power control of a global system for mobile communication (GSM) terminal. Specifically, the present invention relates to a transmission power control parameter for causing a GSM terminal to output transmission power of the same magnitude to a base station for each wireless channel. The present invention relates to a transmission power control parameter correction method and a GSM terminal for performing transmission power control parameter design in a GSM terminal.

In the GSM network, when the power is controlled between the base station and the terminal, the GSM terminal transmits the output to the base station at a predetermined output according to the power level.

In this case, the GSM terminal may have a different flatness according to the wireless channel used due to the characteristics of the GSM terminal device and the mechanical characteristics. If the flatness is incorrect, the GSM terminal may not output the same transmission power.

To prevent this, the task of calibrating the transmit power control parameter for performing transmit power control to output the same transmit power between wireless channels is performed in the performance test stage of the GSM terminal before the product is released.

The GSM terminal sets the required voltage value in the memory through correction to output an arbitrary transmit power. Therefore, when the required transmission power is determined, the transmission power is output at a voltage value corresponding to the transmission power.

In this case, the amount of current consumed to control the transmission power may be estimated as a parameter value called a digital analog converter (DAC) value during correction. The DAC values are stored in memory during calibration to correspond to the transmit power control levels, which are referenced to the output control values. Also, the DAC value increases as the output control level increases. Higher outputs mean more current. In other words, if the DAC value is high, a large amount of current flows through the power amplifier, and if the DAC value is low, a small current flows through the power amplifier.

That is, the difference in the DAC value for each radio channel at the time of correction indicates that the current value is high and low for each radio channel. This means that when the GSM terminal performs transmit power control for outputting the same transmit power, the flatness of each radio channel is different and thus the amount of current consumption required to output the same transmit power for each radio channel is different. do. That is, even if the transmission power control of the same size is performed, the DAC values are greatly different from each other according to the wireless channel.

In this case, there is a problem that the current consumption may be large in any other wireless channel even if the transmission power control parameter is optimally adjusted for any wireless channel. Therefore, when outputting transmission power using a wireless channel with a large current consumption when controlling transmission power in a GSM terminal, the battery is quickly exhausted.

SUMMARY OF THE INVENTION The present invention has been made to solve such a problem in the prior art, and when performing the correction for the transmission power control parameter in the GSM terminal, even if the flatness is different for each wireless channel, the transmission power control can reduce the current consumption if possible. It is an object of the present invention to provide a method for calibrating a transmission power control parameter of a GSM terminal that can be set as a parameter and the GSM terminal.

According to an aspect of the present invention for achieving this object, in the transmission power control parameter correction method performed in the design of the transmission power control parameter in the GSM terminal having a transceiver and a power amplifier, the transmission power to the base station is coupled By changing the value of the transmission power control parameter set in the transceiver while maintaining the transmission power control parameter set in the power amplifier as it is, the value of the transmission power control parameter that can compensate for the difference in transmission power for each wireless channel is set. And selecting and correcting and resetting the transmission power control parameters preset in the transceiver to the values of the selected transmission power control parameters.

Preferably, the selecting step includes the steps of coupling the transmission power output by the transmission power parameters preset to the transceiver and the power amplifier, A / D conversion of the coupled transmission power and storing for each wireless channel, The transmission power control parameter value for compensating for the difference in transmission power for each wireless channel may be changed by changing the value of the transmission power control parameter set in the transceiver while maintaining the transmission power control parameter preset in the power amplifier. And selecting a value of a transmission power control parameter to be reset.

Preferably, the transmit power parameters of the calibrated transceiver are stored in the memory of the GSM terminal for use in controlling the transmit power at the GSM terminal.

According to another aspect of the present invention, in a GSM terminal having a transceiver and a power amplifier, a memory for storing a program for correcting transmission power control parameters and a transmission power to a base station by driving the program are coupled to each other. Select a value of the transmission power control parameter that can compensate for the difference in transmission power for each wireless channel by changing the value of the transmission power control parameter set in the transceiver while maintaining the transmission power control parameter preset in the power amplifier. And a control unit for correcting and resetting the transmission power control parameter preset in the transceiver to a value of the selected transmission power control parameter.

Preferably, the control unit stores the corrected transmit power control parameters of the transceiver in the memory of the GSM terminal.

Preferably, the controller selects a size of a transmission power to perform a transmission power test and a wireless channel to perform a test, reads transmission power control parameters stored in the memory, and sets them in the power amplifier and the transceiver, respectively, to transmit power test. A central processing unit configured to perform the operation, a coupling unit coupling the transmission power output by the transmission power parameters preset to the transceiver and the power amplifier, an A / D conversion unit performing A / D conversion of the coupled transmission power, A transmission power processing unit for storing the digital data converted by the A / D conversion unit in a memory for each wireless channel, and reading the digital data stored in the memory to maintain transmission power control parameters preset in the power amplifier. Change the value of the transmit power control parameter set to the transceiver at each wireless channel A parameter selecting unit for selecting a value of the transmission power control parameter that can compensate for the difference in the transmission power, and a parameter reset unit for correcting and resetting the transmission power control parameter preset in the transceiver to the value of the selected transmission power control parameter It can be configured to include.

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

1 is a configuration block diagram of a GSM terminal for performing a transmission power control parameter correction method of a GSM terminal according to an embodiment of the present invention.

Referring to FIG. 1, the GSM terminal 100 according to an embodiment of the present invention separates a transmission signal from a reception signal so as not to collide with each other, and outputs transmission power to a base station according to a set transmission control parameter. A power amplifier 120 for amplifying transmission power, a transceiver 130 for transmitting data or receiving data through an antenna according to a set transmission control parameter, a controller 140 for performing transmission power control parameter correction, and a controller. Memory 150 that stores the transmit power control parameters corrected by 140. In addition, the GSM terminal 100 includes a key input unit 161, a display unit 162 for providing a screen window, a voice processor 163, a speaker 164, and a microphone 165.

FEM (Front End Module) 110 is a composite device that can reduce the space used by more than 50% by combining various devices such as SAW filter and diplexer. It separates and acts as a filter to pass only a specific frequency.

The power amplifier 120 performs power amplification required for data transmission from the GSM terminal 100 to the base station. At this time, the power amplifier 120 adjusts the transmission power output to the base station by the transmission power control parameter set by the controller 140. In general, the amount of transmit power amplified by the power amplifier 120 is 32-33 dBm or less.

The transceiver 130 performs preprocessing amplification before the main amplification is performed by the power amplifier 120. Accordingly, the transceiver 130 also adjusts the transmission power output to the base station by the transmission power control parameter set by the controller 140. In general, the transmit power amplification amplified by the transceiver 130 is 5 dBm or less.

The memory 150 stores the transmission power level DAC parameter values at the time of correction.

That is, according to the transmission power control parameters stored in the memory 150, the voltage value is determined when the transmission power control is performed. The amount of output current is determined corresponding to the transmission power control parameter, which is each digital value stored in the memory 150.

In addition, the memory 150 stores a transmission power table for each wireless channel for the value of the transmission power for the correction operation performed by the controller 140 when the transmission power control parameter is corrected.

The transmission power for each wireless channel stored in a table in the memory 150 is used by the controller 140 to select transmission power control parameters to be set in the power amplifier 120 and the transceiver 130.

The memory 150 stores arbitrary transmission power control parameters by default, and receives and resets parameters to be reset in the power amplifier 120 and the transceiver 130 through the transmission power control parameter correction operation.

The transmission power control parameters reset in the memory 150 through the transmission power control parameter correction operation are applied to the power amplifier 120 and the transceiver 130 to control transmission power during transmission power control.

The controller 140 performs transmission power control of the corresponding GSM terminal 100 according to the transmission power control parameter set as a default in the memory 150 of the GSM terminal 100, and reflects the result to the default value in the memory 150. Performs an operation of correcting the transmission power control parameter set to.

The calibration operation of the control unit 140 is performed in a performance test and calibration process performed by connecting an external test device (not shown) to each GSM terminal in which default parameters are uniformly set before product release of the corresponding GSM terminal 100. .

The controller 140 reads the transmission power control parameters set by default in the memory 150 for each transmission power size for testing and correction of the transmission power parameters, and transmits the transmission power control parameters to the power amplifier 120 and the transceiver 130. Set to perform the transmission power control operation for the GSM terminal 100.

In this case, the controller 140 selects several radio channel frequencies for each magnitude of the transmission power to be tested. Typically three or more radio channels are selected and tested. The controller 140 reads the transmission power parameter stored in the memory 150 and sets the power amplifier 120 and the transceiver 130 for each wireless channel with respect to any size of the transmission power to be tested.

The controller 140 couples the transmission power output through the FEM 110 and stores the transmission power for each radio channel. When this process is performed for three wireless channels, the controller 140 detects a difference in transmission power for each wireless channel from the stored data. When a difference in transmission power for each wireless channel is detected, the controller 140 selects a parameter for compensating for a difference in transmission power for each wireless channel.

At this time, the control unit 140 is set to the transceiver 130 in a state in which the transmission power control parameters set in the power amplifier 120 to compensate for the difference in the transmission power for each radio channel is maintained as the default setting. Only the values of the parameters present are corrected.

The reason for changing the transmit power control parameter set to the transceiver 130 in the state in which the control unit 140 does not change the transmit power control parameter set to the power amplifier 120 is to compensate for the difference in the same transmit power. This is because adjusting the value of the transmission power control parameter set in the transceiver 130 rather than adjusting the transmission power control parameter of the power amplifier 120 can reduce current consumption.

In general, GSM terminals limit the transmission power to 33 dBm or less in consideration of various communication environments. Therefore, when the transmission power of 33dBm transmission power is used, it means that the communication environment is not very good.

In the state where the transmit power is limited to 33 dBm or less, the transmit power amplification performed by the power amplifier 120 is 32 to 33 dBm or less. And, the transmission power amplification made by the transceiver 130 is 5 dBm or less.

For example, when the transmission power output through the FEM 110 is 33dBm, the difference in transmission power for each wireless channel is measured, and when the transmission power difference of 1dBm occurs, the power difference of 1dBm transmission power is measured. Compensation in the amplifier 120 generates a 200 mA current consumption difference for each wireless channel.

In other words, changing the transmission power parameter set in the power amplifier 120 to compensate for the transmission power in any wireless channel may result in the consumption of up to 200 mA of current in some wireless channels, causing the battery to be exhausted early. Can be.

Meanwhile, when the transceiver 130 compensates for the difference of 1 dBm transmission power while the transmission power parameter set in the power amplifier 120 is maintained, a difference in current consumption of about 10 mA is generated for each wireless channel.

That is, by changing the transmit power parameter set in the transceiver 130 for the transmission power compensation in any wireless channel, it is possible to prevent the battery from running out early because only 10 mA of current is consumed depending on the wireless channel. .

2 is a flowchart illustrating a method of correcting a transmission power control parameter of a GSM terminal according to an embodiment of the present invention.

Referring to FIG. 2, the control unit 140 selects a magnitude of transmission power to perform a transmission power test (S1). If the size of the transmission power to be tested is selected, the controller 140 selects a wireless channel to be tested (S2). When the magnitude of the transmission power to be tested and the wireless channel are selected, the controller 140 transmits the transmission power control parameter to be set in the power amplifier 120 and the transmission power to be set in the transceiver 130 in correspondence with the corresponding transmission power from the memory 150. Read the control parameter (S3). The controller 140 applies the read transmission power control parameters to the power amplifier 120 and the transceiver 130, respectively (S4). Accordingly, the transceiver 130 and the power amplifier 120 amplify and transmit the transmission power according to the applied transmission power control parameter (S5).

The controller 140 couples and stores the transmission power output through the FEM 110 for the corresponding wireless channel (S6). When the transmission power coupled for one radio channel is stored, the controller 140 determines whether there are more radio channels to test (S7), and if there is a next channel, sets the transmission power control parameter for the next radio channel. And couples and stores the transmission power output through the FEM 110 in the corresponding wireless channel.

As a result of the determination, when a test is performed on all the radio channels selected to be tested, a difference in transmission power for each radio channel is calculated from the stored test results (S8).

When the difference in the transmission power for each wireless channel is calculated, the transmission power control parameter set in the power amplifier 120 maintains the default value and changes the value of the transmission power control parameter set in the transceiver 130 to transmit for each channel. A transmission power control parameter capable of compensating for the power difference is selected (S9).

When a transmission power control parameter is selected to compensate for the difference in transmission power, the controller 140 adjusts the transmission power control parameter previously set in the memory 150 with respect to the corresponding transmission power size. In order to reset to a value it is stored in the memory 150 (S10). When the correction of the transmission power control parameter is completed for one selected transmission power, it is determined whether the transmission power to be tested is larger (S11) and the transmission power control parameter is corrected for the next transmission power. .

3 is a detailed block diagram of a GSM terminal for performing a transmission power control parameter correction method of a GSM terminal according to an embodiment of the present invention shown in FIG.

3 shows a detailed configuration of the control unit for explaining a control unit for performing transmission power control parameter correction in the configuration of the GSM terminal illustrated in FIG. 1, and thus other configurations omitted will be referred to FIG. 1. .

Referring to FIG. 3, the controller 140 may include a coupling unit 141, an A / D converter 142, a transmission power processor 143, a parameter selector 144, and a parameter reset unit 145. And a central processing unit 146.

The coupling unit 141 couples the transmission power output by the transmission power parameter preset to the transceiver 130 and the power amplifier 120.

The A / D converter 142 converts the transmission power coupled by the coupling unit 141 to A / D conversion and outputs the digital data.

The transmission power processor 143 stores the digital data converted by the A / D converter 142 in the memory 150 for each wireless channel. The transmission power processor 143 may store digital data about transmission power in a table form for each wireless channel.

The parameter selector 144 reads the digital data stored in the memory 150 to compensate for the difference in transmit power for each wireless channel while maintaining the transmission power control parameter preset in the power amplifier 120. Select the value of transmission power control parameter to be set.

The parameter resetting unit 145 corrects and resets the transmission power control parameter preset in the transceiver 130 to the value of the transmission power control parameter selected by the parameter selecting unit 144.

The central processing unit 146 selects the amount of transmit power to perform the transmit power test and the wireless channel to perform the test.

The central processing unit 146 reads from the memory 150 the transmission power control parameter to be set in the power amplifier 120 and the transmission power control parameter to be set in the transceiver 130 according to the corresponding transmission power from the memory 150. The amplifier 120 and the transceiver 130 are respectively applied.

The central processing unit 146 performs a test on a wireless channel to be tested according to the amount of transmission power to be tested, and when the new transmission power control parameter set in the transceiver 130 by the parameter reset unit 145 is reset, the corresponding transmission power. The control parameter is stored in the memory 150.

Thereafter, the central processing unit 146 reads the transmission power control parameters stored in the memory 150 and performs transmission power control of the GSM terminal 100.

4 is a flowchart of a method of correcting a transmission power control parameter of a GSM terminal illustrated in FIG. 3.

Referring to FIG. 4, the central processing unit 146 selects a magnitude of transmission power to perform a transmission power test (S21). If the size of the transmission power to be tested is selected, the central processing unit 146 selects a wireless channel to be tested (S22). When the magnitude of the transmission power to be tested and the wireless channel are selected, the central processing unit 146 transmits the transmission power control parameter to be set in the power amplifier 120 and the transmission to be set in the transceiver 130 according to the corresponding transmission power from the memory 150. Read the power control parameters (S23). The central processing unit 146 applies the read transmission power control parameters to the power amplifier 120 and the transceiver 130, respectively (S24). Accordingly, the transceiver 130 and the power amplifier 120 amplify and transmit the transmission power by the applied transmission power control parameter (S25).

The coupling unit 141 couples the transmission power output through the FEM 110 to the corresponding wireless channel and outputs the coupled power to the A / D converter 142 (S26). When the transmission power coupled from the coupling unit 141 is input, the A / D converter 142 converts the input transmission power into a digital value through A / D conversion and stores it in the memory 150 for each wireless channel ( S27). When the transmission power coupled for one radio channel is stored, the central processing unit 146 determines whether there are more radio channels to be tested (S28), and if there is a next channel, the transmission power control parameter for the next radio channel. By setting the to couple the transmission power output through the FEM (110) in the wireless channel to store.

On the other hand, when the test is performed on all the wireless channels selected to be tested by the central processing unit 146, the parameter selecting unit 144 is a wireless channel from the test results for each wireless channel stored in the memory 150 The difference in transmission power per star is calculated (S29).

When the difference in the transmission power for each wireless channel is calculated, the parameter selecting unit 144 maintains the transmission power control parameter set in the power amplifier 120 as a default value, and the parameter of the transmission power control parameter set in the transceiver 130. By changing the value, a transmission power control parameter capable of compensating for the difference in transmission power for each channel is selected (S30).

When the value of the transmission power control parameter to compensate for the difference in transmission power is selected by the parameter selecting unit 144, the parameter reset unit 145 transmits the transmission power control parameter previously set in the memory 150 for the corresponding transmission power size. Is stored in the memory 150 to reset to the transmission power control parameter selected by the correction operation (S31). When the correction of the transmission power control parameter is completed with respect to one selected transmission power, the central processing unit 146 determines whether the transmission power to be tested is larger (S32) and transmit power control parameter for the next transmission power. Perform the calibration process.

The present invention has been described with reference to preferred embodiments and many specific variations. However, it will be understood by those skilled in the art that many other embodiments other than those specifically described also fall within the spirit and scope of the invention.

According to the present invention, when designing the transmission power control parameters used for the control of the transmission power in the GSM terminal, it is necessary to correct the transmission power control parameters set in the power amplifier and the transceiver to evenly transmit power for each wireless channel. By compensating the transmit power by compensating the transmit power control parameter set in the transceiver with low current consumption while maintaining the transmit power control parameter set in the power amplifier having a relatively high current consumption. Effectively controlling transmit power while minimizing consumption.

Claims (6)

A transmission power control parameter correction method performed at the time of designing a transmission power control parameter in a GSM terminal having a transceiver and a power amplifier, By coupling the transmission power to the base station and changing the value of the transmission power control parameter set in the transceiver while maintaining the transmission power control parameter preset in the power amplifier, it is possible to compensate for the difference in transmission power for each wireless channel. Selecting a value of a transmission power control parameter; And correcting and resetting the transmission power control parameter preset in the transceiver to a value of the selected transmission power control parameter. The method of claim 1, wherein the selecting step, Coupling transmission power output by a predetermined transmission power parameter to the transceiver and a power amplifier; A / D-converting the coupled transmit power and storing each coupled wireless channel; The transmission power control parameter value for compensating for the difference in transmission power for each wireless channel may be changed by changing the value of the transmission power control parameter set in the transceiver while maintaining the transmission power control parameter preset in the power amplifier. A method for calibrating a transmit power control parameter of a GSM terminal comprising the step of selecting a value of a transmit power control parameter to be reset. The method according to claim 1, And storing the corrected transmit power control parameters of the transceiver in a memory of the GSM terminal. In a GSM terminal having a transceiver and a power amplifier, A memory for storing a program for correcting transmission power control parameters; Coupling the transmission power to the base station by driving the program, changing the value of the transmission power control parameter set in the transceiver while maintaining the transmission power control parameter preset in the power amplifier and transmitting by radio channel. And a controller selecting a value of a transmission power control parameter capable of compensating for a difference in power, and correcting and resetting the transmission power control parameter preset in the transceiver to the value of the selected transmission power control parameter. The method according to claim 4, And the control unit stores the corrected transmission power control parameters of the transceiver in a memory of the GSM terminal. The method according to claim 4, The control unit, A central processing unit which selects a size of a transmission power to perform a transmission power test and a wireless channel to perform a test, reads transmission power control parameters stored in the memory, and sets them in the power amplifier and the transceiver to perform a transmission power test; , A coupling unit for coupling the transmission power output by the transmission power parameter preset to the transceiver and the power amplifier; An A / D converter configured to A / D convert the coupled transmission power; A transmission power processor for storing the digital data converted by the A / D converter in a memory for each wireless channel; By reading the digital data stored in the memory and changing the value of the transmission power control parameter set in the transceiver while maintaining the transmission power control parameter preset in the power amplifier, it is possible to compensate for the difference in transmission power for each wireless channel. A parameter selector which selects a value of a transmit power control parameter, And a parameter reset unit configured to correct and reset the transmission power control parameters preset in the transceiver to values of the selected transmission power control parameters.

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