KR100506264B1 - How to measure the received field strength of base station in wireless switching system - Google Patents

Abstract

end. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a method for measuring the received electric field strength of a base station in a wireless switching system.

I. The technical problem that the invention is trying to solve

In the mass production stage to provide a method for measuring the received electric field strength according to the RF board of the base station.

All. Summary of the Solution of the Invention

It is connected to the base station through the RS-232 interface, and connected to the RF signal generator and the HPIB interface to test the RF board of the base station, and the RF signal generator connected to the antenna connection part of the base station by cable to generate the RF signal. It is configured to determine the output of the RF signal generator through the test PC to measure the received electric field strength on the RF board for the signal output from the RF signal generator.

la. Important uses of the invention

In the wireless switching system, it is easy to design the cell by measuring the received electric field strength of the base station RF board.

Description

How to measure the received field strength of base station in wireless switching system

The present invention relates to a method for measuring the received field strength of a base station in a wireless switching system, and more particularly to a method of measuring the received field strength through the RF board of the base station in the mass production stage.

In general, a wireless switching system installs a wireless base station connected by wire to a place remotely located from a base station management apparatus, and can make outgoing and incoming calls freely using a wireless terminal within a predetermined distance from the wireless base station. It is configured as shown in. In addition, according to the distance away from the base station 111 in the wireless switching system can be divided into NEAR CELL, FAR CELL, HANDOVER CELL, RELINK CELL and the like as shown in FIG. By properly adjusting the size and position of these cells in the radio switching system, it is possible to perform a smooth radio communication function when the radio terminal moves between cells.

In the conventional wireless switching system, the adjustment of these internal cells is adjusted to the received field strength value of the terminal measured at the base station, so each base station has a received field strength reference value for the cells as a database. That is, in the conventional radio switching system, a method for adjusting an inner cell adjusts the size of each inner cell by changing the database value. However, in the conventional wireless switching system, since the received field strength values measured for each board are different in the radio wave strength of the same size in the wireless base station, the field strength characteristics of each base station for each base station are different. After testing, the cell design should be tested. Therefore, when the cell design is performed by the conventional method in the radio switching system, the larger the number of base stations, the more manpower and time for the cell design test.

Accordingly, an object of the present invention is to provide a method for measuring the received electric field strength according to the RF board of the base station at both ends of the RF board in a wireless switching system.

The present invention for achieving this purpose is connected to the base station and the RS-232 interface, connected to the RF signal generator and HPIB interface for testing a test PC RF board of the base station, and the antenna connection of the base station is connected to the cable Characterized in that the RF signal generator for generating an RF signal. In addition, the present invention is characterized by determining the output of the RF signal generator through a test PC to measure the received field strength of the RF board of the base station for the signal output from the RF signal generator.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

3 is a diagram showing a configuration for measuring the received electric field strength of the base station according to the present invention, which is composed of the base station 300, the test PC310 and the RF signal generator 320. The base station 300 mounts the RF boards 301 and 302, and is connected to the test PC310 by the RS-232 interface and by the 50Ω cable through the RF signal generator 320 and the antenna connection. This configuration is achieved when final production of the completed base station is carried out. In addition, when the measurement of the received field strength through the RF board of the base station according to an embodiment of the present invention, the received field strength value corresponding to the absolute wireless field strength, such as -100dBm, -70dBm, -50dBm, etc. in the memory of the base station Is stored. Since the above values correspond to the received field strength characteristics of the corresponding RF board, the cell design test is much easier because the RF characteristics of the base station can be confirmed only by this value in the cell design.

4 shows a process of measuring the received electric field strength in the RF board of the base station according to an embodiment of the present invention.

A method of measuring the received electric field strength of a base station in a wireless switching system according to an embodiment of the present invention will be described with reference to FIGS. 3 and 4. In step 411, the test PC310 selects a port and a channel of the base station for which the received field strength is to be measured, and then transmits an RX_MODE message corresponding to the selected test item to the base station 300 through the RS232 interface. The test PC310 also sends a SET_CH message to the RF signal generator 320 via the HPIB interface.

In step 412, the base station 300, which has received the RX_MODE message, fixes the selected port to a corresponding channel, operates in a receive mode (RX_MODE), and transmits an RX_MODE_ACK message to the test PC310.

In step 413, the RF signal generator 320 receiving the SET_CH message is set to the corresponding channel (CH).

In operation 421, the test PC310 which has received the RX_MODE_ACK message from the base station 300 transmits a CHECK100 message to the base station 300 and the RF signal generator 320 for measuring the reception field characteristic of -100 dBm.

In step 422, the RF signal generator 320 receiving the CHECK100 message from the test PC310 transmits an RF signal of -100 dBm.

In step 423, the base station 300, which has received the CHECK100 message from the test PC310, measures the received field strength according to an internal received field strength measurement program, and stores the value in the internal memory as a received field strength value of -100 dBm. In addition, the base station 300 transmits a CHECK 100_ACK message according to the result of the received electric field strength measured for -100 dBm to the test PC310.

In step 431, the test PC310 having received the CHECK 100_ACK message from the base station 300 transmits a CHECK70 message to the base station 300 and the RF signal generator 320 to measure the received electric field characteristic of -70 dBm.

In step 432, the RF signal generator 320 receiving the CHECK70 message from the test PC310 transmits an RF signal of -70 dBm.

In step 433, the base station 300 receiving the CHECK70 message from the test PC310 measures the received field strength according to an internal received field strength measurement program, and stores the received field strength in the internal memory as a received field strength value of about -70 dBm. In addition, the base station 300 transmits a CHECK 70_ACK message according to the result of the received electric field strength measured for -70 dBm to the test PC310.

In step 441, the test PC310 having received the CHECK 70_ACK message from the base station 300 transmits a CHECK50 message to the base station 300 and the RF signal generator 320 to measure the reception field characteristic of -50 dBm.

In step 442, the RF signal generator 320 receiving the CHECK50 message from the test PC310 transmits an RF signal of -50 dBm.

In step 443, the base station 300 receiving the CHECK50 message from the test PC310 measures the received field strength according to an internal received field strength measurement program, and stores the received field strength in the internal memory as a received field strength value of about -50 dBm. In addition, the base station 300 transmits a CHECK 50_ACK message to the test PC310 according to the result of the received electric field strength measured for -50 dBm.

In operation 450, the test PC310 receiving the CHECK 50_ACK message from the base station 300 ends the received field strength test according to the embodiment of the present invention.

As described above, according to the present invention, a cell can be configured based on this value when the base station is installed by storing the result of the test at both ends in the radio switching system.

1 is a view showing a schematic configuration of a general wireless switching system.

2 shows a cell of a base station.

3 is a view showing a configuration for measuring the received field strength of the base station according to the present invention.

4 is a view showing a process of measuring the received electric field strength in the RF board of the base station according to an embodiment of the present invention.

Claims (5)

In the method for measuring the received electric field strength of the base station in a wireless switching system, The test PC connected to the base station through at least one interface determines the output of the RF signal generator for generating an RF signal and measures the received field strength at the base station's RF board for the signal output from the RF signal generator. The base station measures the received field strength, characterized in that. A test PC connected to a base station and a first interface, connected to an RF signal generator and a second interface to test an RF board of the base station, and an RF signal generator connected to an antenna connection part of the base station to generate an RF signal. In the method for measuring the received field strength of the base station in the wireless switching system configured, A first step of transmitting a message about a test item for determining a port and a channel to be measured by the test PC to the base station and the RF signal generator; A second process of setting an RF port in the base station according to the message transmitted in the first process, placing the RF port in a reception mode of a corresponding frequency, and transmitting an ACK signal to the test PC; A third step of setting a corresponding channel in the RF signal generator in response to the message transmitted in the first step; A fourth step of transmitting a message requesting measurement of received field strength corresponding to an absolute wireless field strength determined by the test PC to the base station and the RF signal generator after receiving the ACK signal transmitted in the second process; A fifth step of transmitting the RF signal of the absolute radio field strength by the RF signal generator in response to the message transmitted in the fourth step; And a sixth step of measuring the received field strength of the RF signal transmitted in the fifth step by the base station. The method of claim 2, The received field strength measured in the sixth step is stored in the internal memory of the base station. The method of claim 2, When the measurement of the received electric field strength is completed in the sixth step, the base station measures the received electric field strength, characterized in that for transmitting the ACK signal and waiting for the next command. The method of claim 2, The absolute wireless field strength is -100dBm, -70dBm, -50dBm method for measuring the received field strength of the base station, characterized in that.

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