KR100259840B1 - Transmitter and receiver test system and method of mobile phone base station system - Google Patents

Abstract

PURPOSE: An apparatus and method for testing the functions of a transceiver in a mobile base station system is provided to simplify time and procedures required for the downloading of a test program by using a test ROM and to carry out the function test of a transceiver with the input of test commands by making the program automatically executed in the test ROM. CONSTITUTION: An apparatus for testing the functions of a transceiver in a mobile base station system is comprised of a spectrum analyzer(50), a transceiver(60), a dummy terminal(70), and a signal generator(80). The transceiver(60) having a ROM and a RAM inside receives signals from the dummy terminal(70) and the signal generator(80), carries out a test and transmits signals, depending on the test, to the spectrum analyzer(50). The spectrum analyzer(50) analyzes a spectrum of a frequency inputted from the transceiver(60) in order to catch an operation state of the transceiver. The dummy terminal(70) executes test commands. The signal generator(80) generates and supplies signals necessary to test the transceiver(60).

Description

Transceiver Function Test Apparatus and Method of Mobile Phone Base Station System

The present invention relates to an apparatus and method for testing a transceiver function of a mobile telephone base station system. More specifically, by using the test ROM in the transceiver of the mobile communication base station system, it is possible to reduce the above problems by simplifying the time and method required for downloading the existing test program and to automatically execute the test program in the test ROM. This is to enable the function test of the transceiver to be input only for test commands.

The transceiver functional test of a conventional mobile telephone base station system consists of downloading the test program and determining the result by a method of executing the function test program.

1 shows a device for functional test of a conventional mobile phone base station transceiver, which is composed of a spectrum analyzer 10, a transceiver 20, an end device 30, and a signal generator.

The conventional transmission and reception function test is made as shown in Figure 2, first, when the power of the transceiver 20 is turned on, the test program of the terminal device 30 through the debug port (debug port) RAM of the transceiver 20 (down loading) to the (random access memory). Then, the mounted test program is executed as a test program execution command in debug of the transceiver 20 RAM, and when the test command of the test program is input from the pseudo terminal 30 in the state where the test program is operated, the transceiver 10 In order to process the signal received from the signal generator 40 by the command in the) and the result is a form of analyzing the frequency spectrum obtained by inputting the signal to the spectrum analyzer (10).

However, this takes not only a lot of time to download the test program from the transceiver RAM from the terminal device, but also has a problem that it takes a lot of trouble and time to install and run the program for each transceiver test.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to reduce the processing time by providing a test method different from the conventional down loading method in the transceiver function test of a system in a mobile phone base station. have. That is, the present invention simplifies the time and procedure required for downloading the existing test program by using the test ROM in the transceiver of the mobile communication base station system so that the above problems can be reduced and the test program can be automatically executed in the test ROM. This is to enable the function test of the transceiver to be input only for test commands. Another object of the present invention is to provide an apparatus for testing a transceiver function of the mobile telephone base station system.

1 is a conventional mobile phone base station transmission and reception function test apparatus

2 is a functional test method according to FIG.

Figure 3 is a mobile phone base station transmission and reception function test apparatus of the present invention

4 is a block diagram of the transceiver test ROM according to FIG.

5 is a detailed diagram of a transceiver configuration and function according to the present invention.

Figure 6 is a radio frequency (RF) band transmission signal generation diagram in the TUCB according to the present invention

7 is a transceiver test method according to FIG.

<Explanation of symbols for main parts of drawing>

10, 50: spectrum analyzer 20: transceiver

30: dummy terminal 40: signal generator

The apparatus for testing a transceiver function of a mobile telephone system according to the present invention includes a spectrum analyzer 50, a transceiver 60, an end device 70 and a signal generator 80, the transceiver being internally It has a ROM and a RAM, it is characterized in that the function to receive the signal from the signal generator and the signal from the termination device and to send to the spectrum analyzer.

The present invention for achieving another object of the present invention, comprising the steps of mounting a test ROM; Turning on power; Automatically reading the test ROM; It characterized in that it comprises a step of executing the program in the test ROM.

The spectrum analyzer 50 of the apparatus for testing the transceiver function of the present invention is to analyze the spectrum of the frequency input from the transceiver 60, the result is used to determine the normal and abnormal operation of the transceiver 60.

The transceiver 60 is composed of a RAM and a ROM and receives a signal from the terminal device 70 and the signal generator 80 to perform a test and output the signal to the spectrum analyzer 50 accordingly.

The pseudo termination device 70 serves to execute a test command. The signal generator 80 supplies the generated signal with a signal necessary for testing the transceiver 60.

4 is a diagram illustrating a configuration of a ROM installed in the transceiver 60 of FIG. 3 and includes a debug, an operation system, and a test program. Call and run the test program. As such, debug is a program that initializes and operates hardware. It initializes the interrupt controller, timer, and processor for communication so that the central processing unit (CPU) of the transceiver can operate. Move the test program to RAM and call up the OS. The called OS then executes the test program in RAM and tests the function of the next part of the test program to perform and operate properly.

5 is a block diagram of a configuration and a functional part of the transceiver 60, an XSCB 102, which is an auxiliary control board which is a cpu portion of a transceiver, a TUCB 103, which is a transmission frequency rising conversion board, and a DCRB 101, which is a receiving frequency dropping conversion board. It is composed of The XSCB 102 exchanges signals with the DCRB 101 and the TUCB 103, and the DCRB 101 receives the received signals RxRF-1 and RxRF-2 in the radio frequency band and receives the received signal RxIF-1 at 4.95 MHz. And RxIF-2, and the TUCB 103 receives a 10 MHz reference clock from the signal generator and receives a 4.95 MHz transmission signal TxIF through a PLL (Phase Locked Loop) circuit using the reference clock. Outputs a transmission signal TxRF.

FIG. 6 includes a PLL for generating a transmission signal TxIF of a radio frequency band by the TCUB 103. The TxIF receives a reference clock of 10 MHz, divides the predetermined R times 111, divides the output TxIF signal by NA times 115, and then multiplies 112 by passing the filter 113 to sinusoidal wave 114. Produces a TxIF signal.

7 shows a test method of a transceiver according to the present invention.

In the first step, a test ROM is mounted to the transmitter to test the transmitter for proper operation of each part of the transceiver having the above structure.

In the second phase, power is applied to automatically read the test ROM, enable debug and run the OS.

In the third step, the test program is automatically executed by moving the test program from the ROM to the RAM in the OS performed as described above.

In the fourth step, initialization is performed for the XSCB 102, the TUCB 103, and the DCRB 101, which are hardware dependent parts and respective unit devices of the transceiver. At this time, in initializing the TUCB 103, the channel number is set to 599 as a default value, and the output level of the transmission signal of the radio frequency band exiting through the TCUB 103 is attenuated to a maximum of 600 to almost output. Do not exit. The level of the received signal processed by the DCRB 101 is set to the maximum level without attenuation.

In the fifth step, the CPU chip is initialized and performs periodic status and alarm functions.

In the sixth step, a command for controlling a state change is registered so that a function test can be performed for each part of the current transceiver.

Looking at the performance of the execution of some important commands in the functional test of the present invention are as follows. When the test program is executed, it is a command to control the output from the transceiver. It performs the function to make the output go out or not go out of the receiver. In order to change the frequency of the output signal in the transceiver, there is a command for changing the frequency according to the channel number and an automatic gain controller (AGC) command. Each TUCB / DCRB-A / DCRB-B has an attenuator, and there is a command to control the signal level. In this way, the transceiver can be controlled to the desired state by using the above commands, and after each command is executed, the signal analyzer can be analyzed to test whether each part of the transceiver works properly.

In the present invention, since the test program is automatically performed by operating the test ROM in which the test program is stored in the test of the transceiver of the mobile phone base station, the function of the transceiver of the mobile phone base station can be returned to normal by simply inputting a test command. It has the effect of testing the function whether it works or is abnormal. In addition, the method using the test ROM according to the present invention has an effect of reducing the test time of about 40% in testing one XCVU compared with the conventional down loading method.

Claims (9)

And a spectrum analyzer 50, a transceiver 60, a pseudo termination device 70, and a signal generator 80. The transceiver has a ROM and RAM therein, and the signal from the signal generator And a function for receiving a signal from an end device and sending it to the spectrum analyzer. The apparatus of claim 1, wherein the ROM comprises a debug program, a firmware, and a test program. The apparatus of claim 2, wherein the firmware is an operating system. The apparatus of claim 2 or 3, wherein the test program is automatically performed by the test ROM. Mounting a test ROM; Turning on power; Automatically reading the test ROM; And executing the programs in the test ROM. The method according to claim 5, And the ROM comprises a debug program, a firmware and a test program. The method according to claim 6, wherein the test program, Initialization of hardware dependent parts and each unit TUCB and DCRB of XCVU; Initialization process for the main processor; Performing periodic status and alarm management functions; Displaying the current XCVU and the set channel number and alarm status through the front LEDs; XCVU A test method for a transceiver function of a mobile telephone system, characterized in that the function is executed in the order of a command registration process for controlling a state change to enable a functional test for each part. The method according to claim 6, wherein the firmware is an operating system. The method according to claim 8, wherein the test program is automatically operated by moving the test program from the ROM to the RAM in the performed operating system.

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