KR20070030052A - Method for performance testing of mobile phone, apparatus and system thereof - Google Patents

Abstract

A method, an apparatus and a system for testing a mobile terminal are provided to automatically test a mobile terminal after transmitting data to be used for testing the mobile terminal. A measurement device(200) tests an operation of a mobile terminal(300) according to a test control signal and transmits test results. A computing device(100) transmits data to be used for testing the mobile terminal(300) to the mobile terminal(300), outputs the test control signal for testing an operation state of the mobile terminal(300) to the measurement device(200) and receives the test results from the measurement device(200) which has performed testing according to the test control signal to thus monitor the operation state of the mobile terminal(300).

Description

METHOD FOR PERFORMANCE TESTING OF MOBILE PHONE, APPARATUS AND SYSTEM THEREOF}

1 is a block diagram of a test system according to an embodiment of the present invention.

2 is a flow chart of the test operation of the test system shown in FIG.

3 is a detailed operation flowchart for modifying the parameter value in FIG.

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

100: computing device 110: memory

120: control unit 121: screen display processing unit

122: transmission processing unit 123: measurement processing unit

124: operation processing unit 130: key input unit

140: display unit 150: first network interface unit

160: second network interface unit 200: measuring device

300: mobile communication terminal

The present invention relates to an operation test of a mobile communication terminal, and more particularly, to transmit data to a mobile communication terminal automatically in conjunction with a measurement device in order to transmit optimal data when transmitting arbitrary data to the mobile communication terminal. A test method for testing a mobile communication terminal storing data and an apparatus and system therefor.

The switching point of the low noise amplifier (LNA) is a major factor affecting the inter-modulation distortion (IMD) among the items for testing the performance of the mobile communication terminal. In order to transmit and store the data, the measurer manually transmits data for determining the LNA switching point to the mobile communication terminal and repeats the operation of measuring the LNA switching point of the mobile communication terminal storing the transmitted data by using a measuring device. Performed.

The measurer uses a computer to transmit the data used to determine the LNA switching point in the mobile terminal to the mobile terminal. At this time, the computer is installed with a program for transmitting data to be used for the test of the mobile communication terminal. Here, transmitting arbitrary data to the mobile communication terminal means transmitting and storing the corresponding data in a nonvolatile memory provided in the mobile communication terminal.

The operator measures the LNA switching point of the mobile communication terminal by manipulating the measurement device to call the mobile communication terminal to which the corresponding data is transmitted and then changing the sector power value of the measurement device.

If the LNA switching point desired by the measuring device is measured by the measuring device, the data transmitted to the mobile terminal is the correct data. If not, the measurer drops the call and transmits the data to the mobile terminal again. The procedure of calling the terminal and measuring the LNA switching point of the mobile communication terminal is repeated repeatedly.

However, according to the related art, a measurer must transmit data used to determine an optimal LNA switching point to a mobile communication terminal, and accordingly, the instrument must measure the optimal LNA switching point by using a measuring instrument. Not only is this cumbersome, there is a problem in that measurement results are derived differently according to the measurement person.

The technical problem to be achieved by the present invention is to automatically transmit the data to be used for the test of the mobile communication terminal to the mobile communication terminal to test the mobile communication terminal that stores the transmitted data without performing the manual operation of each person automatically To make it happen.

According to an aspect of the present invention for achieving this object, a system for testing the operation of the mobile communication terminal, the measurement device for testing the operation of the mobile communication terminal according to a test control signal and transmitting a test result, and the mobile Transmitting data to be used for a test of the mobile communication terminal to a communication terminal, outputting a test control signal for testing an operation state of the mobile communication terminal storing the transmitted data to the measurement device, and by the test control signal It provides a test system including a computing device for receiving a test result from the measurement device performing the test to monitor the operating state of the mobile communication terminal.

Preferably, the computing device may modify data to be transmitted to the mobile communication terminal according to a test result received from the measurement device.

Preferably, the computing device may repeatedly perform transmission of the data and output of a test control signal by the modified data.

Preferably, the data transmitted to the mobile communication terminal may be data used to determine a low noise amplifier (LNA) switching point in the mobile communication terminal.

According to another aspect of the invention, the computing device for testing the operation of the mobile communication terminal in conjunction with the measurement device, the memory for storing data to be used for the test of the mobile communication terminal and the program for performing the test, and the mobile The measuring device which transmits the data to a communication terminal, outputs a test control signal for testing an operating state of the mobile communication terminal storing the transmitted data to the measuring device, and performs a test by the test control signal; It provides a computing device including a control unit for receiving a test result from the monitoring state of the mobile communication terminal.

Preferably, the data transmitted to the mobile communication terminal may be data used to determine a low noise amplifier (LNA) switching point in the mobile communication terminal.

Preferably, the control unit is a screen display processing unit for displaying the screen information for performing a test procedure for the data used to determine the LNA switching point, and a screen displayed by the screen display processing unit in communication with the mobile communication terminal A transmission control unit for transmitting the data input through the information or the data modified by the monitoring procedure to a mobile communication terminal, and a test control for testing the mobile communication terminal storing the transmitted data by communicating with the measurement device. A measurement processing unit for outputting a signal to the measurement device and a target LNA switching point and a measured LNA switching point according to a test result received from the measurement device performing the test by the test control signal, and correcting the data to be transmitted. And modify the modified data It may include a calculation processing unit for outputting the transmission processing.

Preferably, the operation processor may compare the target LNA switching point with the measurement LNA switching point of the mobile communication terminal received from the measuring device, and change the data values by preset increments to match the two LNA switching points. .

According to another aspect of the present invention, a method for testing the operation of a mobile communication terminal in conjunction with a measurement device, the first step of receiving data to be used for the test of the mobile communication terminal and transmitting to the mobile communication terminal, A second step of outputting a test control signal for testing the mobile communication terminal that has received and stored the transmitted data to the measurement device, and receiving a test result from the measurement device that has performed the test by the test control signal; It provides a test method of a mobile communication terminal comprising a third step of monitoring the operating state of the mobile communication terminal.

Preferably, the third step may modify data to be transmitted to the mobile communication terminal according to a test result received from the measurement device.

More preferably, the third step may be performed repeatedly the first step and the second step by the modified data.

Preferably, the data transmitted to the mobile communication terminal may be data used to determine a low noise amplifier (LNA) switching point in the mobile communication terminal.

Preferably, the modification of the data to be transmitted includes comparing a target LNA switching point with a measurement LNA switching point of a mobile communication terminal received from the measurement device, and changing the value of the data by a predetermined increment so that the two LNA switching points coincide. Can be modified.

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

1 is a block diagram illustrating a test system according to an embodiment of the present invention.

Referring to FIG. 1, a test system according to an exemplary embodiment of the present invention includes a computing device 100 and a measurement device 200.

The computing device 100 transmits data to be used for the test of the mobile communication terminal to the mobile communication terminal 300, and measures a test control signal for testing an operation state of the mobile communication terminal 300 storing the transmitted data. It outputs to the device 200, and monitors the operation of the mobile communication terminal 300 according to the test result received from the measurement device 200 performed the test by the test control signal. In addition, the computing device 100 may repeatedly perform the operation of modifying data to be transmitted to the mobile communication terminal through monitoring and testing the mobile communication terminal storing the modified data.

The measurement device 200 tests an operation of the mobile communication terminal 300 that stores data transmitted from the computing device 100 according to a test control signal output from the computing device 100, and outputs a test result to the computing device 100. To transmit.

The computing device 100 includes a memory 110, a controller 120, a display unit 130, a key input unit 140, a first network interface unit 150, and a second network interface unit 160. It is configured by.

The memory 110 stores data to be used for a test of the mobile communication terminal 300 and a program for performing the test. The program stored in the memory 110 may transmit various types of data and perform a performance test on the transmission of the corresponding data. Here, the parameter used to determine the LNA switching point in the mobile communication terminal 300 may be used. A program for transmitting a value to the mobile communication terminal 300 and storing the value in a nonvolatile memory in the mobile communication terminal 300 is taken as an example. An example of such a program is the joy phone program®. According to the joy phone program, parameters used to determine the LNA switching point in the mobile communication terminal 300 may be NV_LNA_RANGE_RISE, NV_LNA_RANGE_FALL, and the like.

In the following, NV_LNA_RANGE_RISE will be described as the first parameter value X 'and NV_LNA_RANGE_FALL will be described as the second parameter value Y'.

The controller 120 provides a screen for performing data transmission and testing of the mobile communication terminal 300 according to a test program stored in the memory 110.

The controller 120 transmits the data input through the screen or the selected data according to a user's selection signal to the mobile communication terminal 300 for the test of the mobile communication terminal 300, and transmits the transmitted data. The test control signal for testing the operation state of the stored mobile communication terminal 300 is output to the measurement device to control the measurement device 200 to test the mobile communication terminal 300.

In addition, the control unit 120 receives the test result from the measuring device 200 that performed the test, repeatedly performs data transmission and test control on the mobile communication terminal 300, and displays a result screen according to the execution operation. .

The control unit 120 includes a screen display processing unit 121, a transmission processing unit 122, a measurement processing unit 123, and an arithmetic processing unit 124.

The screen display processing unit 121 displays a screen for performing a test procedure of the mobile communication terminal.

The transmission processing unit 122 communicates with the mobile communication terminal 300 through the first network interface unit 150 to input data through a screen displayed by the screen display processing unit 121 or data modified by a monitoring procedure. Is transmitted to the mobile communication terminal (300).

The measurement processing unit 123 communicates with the measurement device 200 through the second network interface unit 160 so that the measurement device 200 performs a procedure for testing the performance of the mobile communication terminal 300. A test control signal is output to 200).

The calculation processing unit 124 modifies the data to be transmitted to the mobile communication terminal 300 according to the test result received from the measurement apparatus 200 and outputs the modified data to the transmission processing unit 122.

The operation processor 124 compares the test result received from the measurement apparatus 200 with a reference value desired by the user, and presets the values of data transmitted to the mobile communication terminal 300 until the test result is equal to the reference value. Change.

That is, the user selects the LNA switching point to be transmitted to the mobile communication terminal 300 and then finds the data necessary for determining the corresponding LNA switching point in the specification and transmits the data to the mobile communication terminal 300 as an initial value. The mobile communication terminal 300 storing the first transmitted data is operated, and the measurement apparatus 200 performs a performance test on the mobile communication terminal 300. As a result of the test performed by the measurement apparatus 200, the LNA switching point that the user aims may come out, or a difference may be generated from the LNA switching point that the user aims.

Therefore, the calculation processing unit 124 presets the size of data to be transmitted to the mobile communication terminal 300 in consideration of the difference between the LNA switching point transmitted by the user to the target and the LNA switching point actually measured by the measurement device 200. Apply in increments.

In this case, changing the size of data to be transmitted to the mobile communication terminal 300 by a predetermined increment by the calculation processing unit 124 is performed by a calculation processing rule stored in the memory 110.

The display unit 130 displays a current state of the computing device 100 or displays a data transmission screen and a test progress screen. Such a display device may be configured as a display device such as a liquid crystal display (LCD).

The key input unit 140 has a key matrix structure for inputting data for performing data transmission and testing for the mobile communication terminal. The key input unit 140 includes a plurality of numeric keys, character keys, and function keys for performing various functions, and outputs an electrical signal of key data to the controller 120 by a user's key input. An example of the key input unit 140 is a keyboard.

The first network interface unit 150 connects the computing device 100 and the mobile communication terminal 300 to transmit and store arbitrary data to the mobile communication terminal 300 by a test program stored in the computing device 100. Used.

The second network interface unit 160 connects the computing device 100 and the measurement device 200 to control the measurement device 200 by a program stored in the computing device 100 so that the measurement device 200 is a mobile communication terminal. Enable to test the performance of 300.

An example of the second network interface unit 160 corresponds to a GPIB card for performing general purpose interface bus (GPIB) communication with the measurement apparatus 200. On the other hand, the measurement device 200 is equipped with a GPIB port for GPIB communication.

The second network interface unit 160 transmits various commands of the controller 120 to perform the test by performing GPIB communication with the measurement device 200 to the measurement device 200 and transmits the test results from the measurement device 200. Receives and delivers to the control unit 120.

FIG. 2 is a flowchart of a test operation of the test system illustrated in FIG. 1.

The screen display processing unit 121 displays an input window for inputting the target LNA switching point on the display unit 130 as a screen (S1).

The user inputs the target LNA switching point to be finally transmitted to the mobile communication terminal 300 in the input window displayed on the display unit 130 using the key input unit 140.

The user inputs a first target switching point switched from a high state to a low state and a second target switching point switched from a low state to a high state as the target LNA switching point. For example, the user transmits X to the first target switching point and Y to the second target switching point.

The operation processor 124 stores X and Y, which are target LNA switching points input by the user, in the memory 110 (S2).

When the input of the target LNA switching point is completed, the calculation processing unit 124 according to the equation that defines the correlation between the LNA switching point presented in the specification and the parameter value to be transmitted to the mobile communication terminal to determine the corresponding switching point. The parameter value to be first transmitted to the mobile communication terminal 300 is calculated (S3).

The first parameter value X ′ for the first target switching point X and the second parameter value Y ′ for the second target switching point Y are calculated by Equation 1 below.

1st parameter value (X ') = 2.5 × (X + 63.8)

2nd parameter value (Y ') = 2.5 × (Y + 63.8)

The transmission processor 122 communicates with the mobile communication terminal 300 through the first network interface unit 150 using a transmission program stored in the memory 110, and transmits the first transmission to the mobile communication terminal 300. The parameter value X 'and the second parameter value Y' are transmitted to the mobile communication terminal 300 (S4).

When the initial transmission of the first parameter value X 'and the second parameter value Y' to the mobile communication terminal 300 is performed, the measurement processing unit 123 transmits the measurement device through the second network interface unit 160. In communication with 200, a test control signal is output to the measurement apparatus 200 (S5).

According to the test control signal output from the measurement processor 123 of the computing device 100, the measurement device 200 calls the mobile communication terminal 300 through a cable connected to the mobile communication terminal 300 (S6).

The measurement apparatus 200 measures the LNA switching point of the mobile communication terminal 300 while changing the sector power with respect to the mobile communication terminal 300 while being connected to the mobile communication terminal 300 (S7).

The LNA switching point measured by the measurement device 200 is measured by a first measurement switching point switched from a high state to a low state and a second measurement switching point switched from a low state to a high state. For example, X "is measured by a 1st measurement switching point, and Y" is measured by a 2nd measurement switching point.

When the measurement of the first measurement switching point and the second measurement switching point for the mobile communication terminal 300 is completed, the measurement device 200 releases communication with the mobile communication terminal and transmits the measurement result to the computing device 100. (S8).

The calculation processing unit 124 receiving the measurement result from the measurement device 200 through the second network interface unit 160 is the target LNA switching point stored in the memory 110 and the measurement LNA received from the measurement device 200. The switching points are compared with each other to determine whether they match (S9).

That is, the calculation processing unit 124 is the same as the first target switching point (X) and the first measurement switching point (X ") stored in the memory 110, the second target switching point (Y) and the second measurement Compare whether the switching points Y "are the same.

The calculation processing unit 124 determines that the first parameter value X 'and the second parameter value Y' are determined to determine the target LNA switching point when the target LNA switching point and the measurement LNA switching point are the same. The parameter value is selected and displayed on the display unit 130 as a guide screen through the screen display processing unit 121 (S10).

However, if it is determined that the target LNA switching point and the measurement LNA switching point are not equal to each other, the operation processor 124 determines that the target LNA switching point and the measurement LNA switching point are to be transmitted to the mobile communication terminal 300 according to the difference between the target LNA switching point and the measurement LNA switching point. The first parameter value X 'and the second parameter value Y' are adjusted and corrected (S20).

The transmission processor 122 transmits the first parameter value X ′ and the second parameter value Y ′ modified by the operation processor 124 through the first network interface 150 again to the mobile communication terminal 300. In step S4, the data transmission operation is performed. Accordingly, the transmission processing unit 122, the measurement processing unit 123, and the operation processing unit 124 work together with the mobile communication terminal 300 and the measurement apparatus 200 until the target LNA switching point and the measurement LNA switching point become equal. Modification of the first parameter value X 'and the second parameter value Y', transmission to the mobile communication terminal, and measurement of the LNA switching point of the mobile communication terminal 300 are repeatedly performed.

3 is a detailed operation flowchart of modifying a parameter value in FIG. 2.

Referring to FIG. 3, an operation of modifying the first parameter value X ′ and the second parameter value Y ′ by the operation processor 124 will be described below.

The calculation processing unit 124 does not have the same first target switching point X and the first measurement switching point X "or the second target switching point Y and the second measurement switching point Y" are not the same. In this case, it is determined whether the first target switching point X is larger than the first measurement switching point X "and whether the second target switching point Y is larger than the second measurement switching point Y" ( S21). This is called a first condition.

As a result of the determination, when the first condition (X-X "> 0 & YY"> 0) is satisfied, the first parameter value X 'and the second parameter value Y' are each increased by one increment (X '=). X '+ 1, Y' = Y '+ 1) (S22).

On the other hand, when the determination result does not satisfy the first condition (X-X "> 0 & YY"> 0), the calculation processing unit 124, the first target switching point (X) is the first measurement switching point (X ") It is determined whether it is larger and whether the second target switching point Y is smaller than the second measurement switching point Y "(S23). This is called a second condition.

If the determination result satisfies the second condition (X-X "> 0 & YY" <0), the first parameter value X 'is increased by an increment of 1 (X' = X '+ 1), and the second parameter value (Y ') decreases by increment 1 (Y' = Y'-1) (S24).

On the other hand, when it is determined that the second condition is not satisfied, the calculation processing unit 124 determines whether the first target switching point X is smaller than the first measurement switching point X ", and the second target switching point Y. Is determined to be greater than the second measurement switching point Y ″ (S25). This is called the third condition.

If it is determined that the third condition (X-X "<0 & YY"> 0) is satisfied, the first parameter value X 'is decreased by one increment (X' = X'-1), and the second parameter value is determined. (Y ') increases by increment 1 (Y' = Y '+ 1) (S26).

On the other hand, when the determination result does not satisfy the third condition (X-X "<0 & YY"> 0), the calculation processing unit 124, the first target switching point (X) is less than the first measurement switching point (X ") It is determined whether it is small and whether the second target switching point Y is smaller than the second measurement switching point Y "(S27). This is called a fourth condition.

As a result of the determination, when the fourth condition (X-X "<0 & YY" <0) is satisfied, the first parameter value X 'and the second parameter value Y' are each decreased by one increment (X '=). X'-1, Y '= Y'-1) (S28).

On the other hand, when the determination result does not satisfy the fourth condition (X-X "<0 & YY" <0), the calculation processing unit 124 is the first target switching point (X) and the first measurement switching point (X ") It is determined whether or not it is the same and whether the second target switching point Y is larger than the second measurement switching point Y "(S29). This is called the fifth condition.

As a result of the determination, when the fifth condition (X-X "= 0 & YY"> 0) is satisfied, the first parameter value X 'is kept as it is (X' = X '), and the second parameter value Y' Increases by an increment of 1 (Y '= Y' + 1) (S30).

On the other hand, when the determination result does not satisfy the fifth condition (X-X "= 0 & YY"> 0), the calculation processing unit 124 determines that the first target switching point X is the first measurement switching point X ". And whether the second target switching point Y is smaller than the second measurement switching point Y "(S31). This is called the sixth condition.

As a result of the determination, when the sixth condition (X-X "= 0 & YY" <0) is satisfied, the first parameter value X 'is maintained as it is (X' = X '), and the second parameter value Y' Decreases by increment 1 (Y '= Y'-1) (S32).

On the other hand, when the determination result does not satisfy the sixth condition (X-X "= 0 & YY" <0), the calculation processing unit 124, the first target switching point (X) is the first measurement switching point (X ") It is determined whether it is larger and whether the second target switching point Y is equal to the second measurement switching point Y "(S33). This is called a seventh condition.

If the result of the determination satisfies the seventh condition (X-X "> 0 & YY" = 0), the first parameter value X 'is increased by one increment (X' = X '+ 1), and the second parameter value is determined. (Y ') remains as it is (Y' = Y ') (S34).

On the other hand, when the determination result does not satisfy the seventh condition (X-X "> 0 & YY" = 0), the calculation processing unit 124 determines that the first target switching point X is the first measurement switching point X ". It is determined whether it is smaller and whether the second target switching point Y is equal to the second measurement switching point Y "(S35). This is called an eighth condition.

If it is determined that the eighth condition (X-X "<0 & YY" = 0) is satisfied, the first parameter value X 'is decreased by an increment of 1 (X' = X'-1), and the second parameter value is determined. (Y ') remains as it is (Y' = Y ') (S36).

The present invention is not limited to the embodiments described above, and various modifications and changes can be made by those skilled in the art, which are included in the spirit and scope of the present invention as defined in the appended claims.

According to the present invention, when the measurer inputs the target LNA switching point to the computing device, the computing device calculates an initial parameter value corresponding to the target LNA switching point based on the specification, transmits the initial parameter value to the mobile communication terminal, and controls the measurement device. The measurement device tests the mobile communication terminal and receives the measured measurement LNA switching point.

The computing device compares the LNA switching point measured by the measurement device with the target LNA switching point transmitted by the user, modifies the parameter values that were initially transmitted, transmits the data to the mobile terminal, and stores the data through the measurement device. The operation of testing a mobile terminal is automatically repeated until the target LNA switching point and the measurement LNA switching point are equal.

Accordingly, when the measurer first executes an operation of initially inputting the target LNA switching point to the computing device, the measurer automatically finds and transmits a parameter value for implementing the target LNA switching point to the mobile communication terminal through operations of the computing device and the measurement device. Since it can be stored, the operation test of the mobile communication terminal can be conveniently performed. In addition, since the corresponding parameter value is found by automatic calculation through the computing device and the measurement device, it is possible to solve the conventional problem that the measured value is different according to the measurer.

Claims (13)

A system for testing the operation of a mobile terminal, A measurement device for testing an operation of the mobile communication terminal according to a test control signal and transmitting a test result; Transmitting data to be used for a test of the mobile communication terminal to the mobile communication terminal, outputting a test control signal for testing an operation state of the mobile communication terminal storing the transmitted data to the measurement device, and performing the test control signal And a computing device for receiving a test result from the measuring device that has performed the test and monitoring an operating state of the mobile communication terminal. The method of claim 1, wherein the computing device, And a test system for modifying data to be transmitted to the mobile communication terminal according to a test result received from the measuring device. The method of claim 2, wherein the computing device, And a test system for repeatedly transmitting the data and outputting a test control signal based on the modified data. The method according to claim 1, And the data transmitted to the mobile communication terminal is data used to determine a low noise amplifier (LNA) switching point in the mobile communication terminal. A computing device that tests the operation of a mobile communication terminal in conjunction with a measurement device, A memory for storing data to be used for a test of the mobile communication terminal and a program for performing the test; Transmitting the data to the mobile communication terminal, outputting a test control signal for testing an operating state of the mobile communication terminal storing the transmitted data to the measurement device, and performing a test by the test control signal; And a controller configured to receive a test result from a measurement device to monitor an operation state of the mobile communication terminal. The method according to claim 5, And the data transmitted to the mobile communication terminal is data used to determine a low noise amplifier (LNA) switching point in the mobile communication terminal. The method according to claim 5, The control unit, A screen display processing unit which displays screen information for performing a test procedure on data used to determine the LNA switching point; A transmission processor for performing communication with the mobile communication terminal to transmit data input through the screen information displayed by the screen display processing unit or data modified by the monitoring procedure to the mobile communication terminal; A measurement processing unit communicating with the measurement device and outputting a test control signal for testing the mobile communication terminal storing the transmitted data to the measurement device; Comparing the measured LNA switching point with the measured LNA switching point according to the test result received from the measuring device which performed the test by the test control signal, and correcting the data to be transmitted and outputting the corrected data to the transmission processor. Computing device including a computing processor. The method according to claim 7, wherein the processing unit, And comparing the measured LNA switching point of the mobile communication terminal received from the measuring device with a target LNA switching point and changing and modifying the values of the data in predetermined increments so that the two LNA switching points coincide. In connection with the measurement device to test the operation of the mobile communication terminal, A first step of receiving data to be used for testing the mobile communication terminal and transmitting the received data to the mobile communication terminal; A second step of outputting a test control signal for testing the mobile communication terminal receiving and storing the transmitted data to the measurement device; And a third step of receiving a test result from the measuring device performing the test by the test control signal and monitoring an operation state of the mobile communication terminal. The method of claim 9, wherein the third step, And a method of modifying data to be transmitted to the mobile communication terminal according to a test result received from the measurement device. The method of claim 10, wherein the third step, And testing the mobile terminal repeatedly performing the first and second steps based on the modified data. The test method of claim 9, wherein the data transmitted to the mobile communication terminal is data used to determine a low noise amplifier (LNA) switching point in the mobile communication terminal. The method of claim 10, wherein the modification of the data to be transmitted, A test method of a mobile communication terminal for comparing a target LNA switching point and a measurement LNA switching point of a mobile communication terminal received from the measuring device and changing and modifying the values of the data in predetermined increments so that the two LNA switching points coincide.

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