KR20060058908A - Apparatus and method for power control test of bast transceiver in mobile communication system - Google Patents

Abstract

The present invention provides a power control test apparatus and method thereof of a base station in a mobile communication system, comprising: a base station performing data exchange with a terminal; The base station test unit provided in the base station and configured to test whether there is an abnormality of the power control function in the base station, it is possible to test the accuracy of the power control of the base station using the base station test unit.

Description

Apparatus and method for power control test of bast transceiver in mobile communication system}

1 is a block diagram of a power control test apparatus of a base station in a conventional mobile communication system,

2 is a block diagram of a power control test apparatus of a base station in a mobile communication system according to the present invention,

3 is a flowchart illustrating a power control test method of a base station in a mobile communication system according to the present invention.

Explanation of symbols on the main parts of the drawings

100: base station (Node-B) 110: base station processor (BSP)

120: Modem 130: Transceiver

140: low power amplifier (LPA) 150: front end unit (FEU)

151: Directional Coupler (D / C) 152: Transmission Front End (TXF)

153: reception front end (RXF) 160: base station test unit (BTU)

161: uplink transmitter (UL Tx) 162: vector signal analyzer (VSA)

200: antenna 300: base station controller (BSM)

The present invention relates to a power control test apparatus and a method of a base station in a mobile communication system, and in particular, a mobile station suitable for testing the accuracy of the power control of the base station using a base station test unit (BTU) The present invention relates to a power control test apparatus for a base station and a method thereof in a communication system.

In general, a mobile communication system is a communication system that targets mobile devices such as people, cars, ships, trains, and airplanes, which includes key phone systems, mobile phones (mobile phones, vehicle phones), port phones, aircraft phones, and mobile phones. Trains, cruise ships, express buses), radio calling, radiotelephony, satellite mobile communication, amateur radio, and fishing service ships.

The mobile communication system includes an AMPS (Advanced Mobile Phone Service) system using an analog method, a Code Division Multiple Access (CDMA) system using a digital method, a Wideband Code Division Multiple Access (WCDMA), and a TDMA (Time). Division Multiple Access, Time Division Multiple Access (FDMA) system, Frequency Division Multiple Access (FDMA) system, Wireless Local Loop (WLL), CDMA2000-1x, IMT-2000 (International Mobile Telecommunication in the year 2000 , Global mobile communication (GSM) systems, and GSM (Global System for Mobile communication) systems.

The third generation asynchronous system (Universal Mobile Telecommunications System) is a third generation mobile communication system evolved from the European standard GSM, based on the GSM core, by applying WCDMA technology to the Radio Access Network (RAN) Providing a service.

Thus, the base station Node-B plays a role of a physical layer and is responsible for transmitting and receiving data through an air interface. The Node B sets wireless physical channels necessary for data exchange with a terminal according to control information transmitted from a radio network controller (RNC), converts data transmitted from a higher protocol into a wireless environment, and transmits the data to the terminal. The data received from the terminal is transmitted to the upper layer protocol of the RNC.

1 is a block diagram of a power control test apparatus of a base station in a conventional mobile communication system.

As shown therein, a base station (Node-B) 10 for performing data exchange with a terminal; An attenuation unit 20 for attenuating the signal of the base station 10; A vector signal analyzer (VSA) 30 connected to the attenuator 20 to analyze a vector signal; An uplink signal generator (40) generating an uplink signal to the base station (10) to test power control of the base station (10); It is composed of a base station controller (Base Station Manager, BSM) (50) that performs the control for the base station (10).

The base station 10 includes a modem 11 for performing demodulation and demodulation of a signal; A transceiver 12 connected to the modem 11 to transmit and receive a signal; A low power amplifier (LPA) 13 connected to the transceiver 12 to perform low power amplification; The front end unit (FEU) 14 is connected to the low power amplifier 13.

The operation of the prior art configured as described above will be described in detail with reference to the accompanying drawings.

First, the configuration for the accuracy test of the power control of the base station 10 is configured and performed as shown in FIG.

Thus, the prior art generates an uplink TPC pattern (Uplink Transmit Power Control pattern) using a separate uplink signal generator 40 outside the base station 10 and inputs it to the FEU 14 stage of the base station 10. Test was made.

Here, the FEU 14 performs transmission / reception band limitation and amplification and distribution of a received signal.

In addition, a method of inputting to the FEU 10 terminal of the base station 10 by using the uplink signal generator 40 serving as a terminal or a terminal is used. Input it to the FEU (14) stage of (10).

In this case, in order to synchronize the measurement period with the base station 10, a separate synchronization signal must be supplied from the base station 10 to the measuring instrument, and at the same time, a promise 11 can be recognized by the modem 11 of the base station 10. The uplink signal should be generated and input to the base station 10.

After the modem 11 of the base station 10 recognizes the received uplink TPC pattern in this way, the output of the base station 10 is changed in units of 1 dB or 0.5 dB according to the TPC pattern, and the accuracy of power control is measured.

However, this conventional technology has the following problems.

That is, the prior art of testing as shown in the structure of Figure 1 is not capable of testing at the base station itself, but requires an uplink signal generator capable of generating a separate uplink signal, and also to synchronize the synchronization between the instrument and the base station A separate sync signal had to be supplied to the instrument.

As a result, after the base station is installed at each local area, it is inconvenient to take the instrument to the field in order to test the power control of the base station.

Accordingly, the present invention has been proposed to solve the above conventional problems, an object of the present invention is to test the power control of the base station in a mobile communication system that can test the accuracy of the power control of the base station using the base station test unit An apparatus and a method thereof are provided.

In order to achieve the above object, the power control test apparatus of a base station in a mobile communication system according to an embodiment of the present invention,

A base station performing data exchange with a terminal; It is characterized in that the technical configuration comprises a base station test unit provided in the base station for testing the presence or absence of power control function in the base station.

In order to achieve the above object, the power control test method of a base station in a mobile communication system according to an embodiment of the present invention,                         

A first step of generating an uplink TPC signal from the base station test unit and transmitting the generated uplink TPC signal to the base station, receiving the transmitted signal, comparing the measured signal with the generated signal and determining the normal power control output; ; And a second step of determining whether power control of the base station is normal according to the comparison result in the first step.

Hereinafter, an embodiment according to the present invention, a power control test apparatus for a base station and a method thereof in a mobile communication system will be described with reference to the accompanying drawings.

2 is a block diagram of a power control test apparatus of a base station in a mobile communication system according to the present invention.

As shown therein, a base station (Node-B) 100 which performs data exchange with a terminal; A base station test unit (BTU) 160 provided in the base station 100 and testing the presence or absence of a power control function in the base station 100 is configured to include.

The base station 100 includes a base station processor (BSP) 110 for controlling the operation of the base station 100; A modem 120 connected to the base station processor 110 and performing modulation / demodulation of a signal; A transceiver (130) connected to the modem (120) and performing transmission and reception of signals; A low power amplifier (LPA) 140 connected to the transceiver 130 and performing low power amplification; The base station 100 is connected to the low power amplification unit 140 and the base station test unit 160 to receive an uplink TPC signal from the base station test unit 160 so that the test for the base station 100 can be performed. It is configured to include a front end unit (Front End Unit, FEU) (150).

The front end unit 150 includes a directional coupler (D / C) 151 connected to the base station test unit 160 to perform directional coupling of signals; A transmit front end unit (TFU) 152 connected to the directional coupler 151 and performing a front end function for a transmission signal; It is connected to the directional coupler 151, and comprises a Receive Front End (RXF) 153 that performs a front end function for the received signal.

The base station test unit 160 includes: an uplink transmit signal (161) for transmitting an uplink signal, which is a transmission signal of a terminal, to the front end unit 150; A vector signal analyzer (VSA) 162 for receiving a signal from the front end unit 150 and performing a vector signal analysis is configured.

Here, reference numeral 200 denotes an antenna, and 300 denotes a BSM.

3 is a flowchart illustrating a power control test method of a base station in a mobile communication system according to the present invention.

As shown in the figure, the base station test unit 160 generates an uplink transmit power control (TPC) signal to the base station 100, receives the transmitted signal, and receives the measured signal from the base station test unit 160. Comparing the generated signals with the generated signals to determine whether they are normal power control outputs (ST1 to ST5); And a second step (ST6, ST7) of determining whether the power control of the base station 100 is normal according to the comparison result in the first step.

The first step may include: an eleventh step (ST1) of generating an uplink signal from the base station test unit (160); A twelfth step (ST2) of applying the signal generated in the eleventh step to the modem (120) via the front end unit (150) and the transceiver (130); After the twelfth step, the modem 120 includes a thirteenth step ST3 of adjusting a transmission output according to an applied uplink TPC signal; A fourteenth step (ST4) of applying a transmission output to the base station test unit (160) via the transceiver (130) and the front end unit (150) after the thirteenth step; After the fourteenth step, the base station test unit 160 receiving the transmission output compares the signal received from the base station test unit 160 with the generated uplink TPC signal to determine whether it is a normal power control output. A fifteenth step ST5 is performed.

The second step may include: a twenty-first step (ST6) of outputting a result that there is no problem in the power control function of the base station (100) when it is determined that the comparison result in the first step is a normal power control output; If it is determined that the comparison result in the first step is not a normal power control output, the method includes a twenty-second step (ST7) of outputting a result indicating that an abnormality has occurred in the power control function of the base station 100.                     

In the mobile communication system according to the present invention configured as described above in detail with reference to the accompanying drawings the operation of the power control test apparatus and method of the base station as follows.

First, the present invention intends to test the accuracy of the power control of the base station using the base station test unit.

Thus, as shown in FIG. 2, the role of generating an uplink TPC pattern using a conventional measuring instrument is included in the base station 100 by being included in the function of the base station test unit (BTU) 160. By applying a signal of an uplink TPC pattern of the BTU (160) to the directional coupler (D / C) 151 of the front end unit (FEU) 150, the test can be performed in the same environment as the existing test environment. .

In addition, the present invention can be largely divided into a base station test unit 160 and a front end unit (FEU) 150 of the base station 100.

The base station test unit 160 includes a function of an uplink signal generator. The function of the uplink signal generator is performed by the uplink transmitter 161.

In addition, the directionality of the front end unit 150 can be distinguished when the uplink TPC signal of the base station test unit 160 is applied to the base station 100 and the base station test unit 160 receives the signal of the base station 100 from the base station test unit 160. The coupler 151 is used.

At this time, by operating the switch in the base station test unit 160 to generate the uplink TPC signal and when the base station 100 to receive the signal from the front end unit 150 so as to operate by separating the switch.

Thus, when the uplink transmitter 161 of the base station test unit 160 generates an uplink signal (TPC pattern) and applies it to the base station 100, the base station 100 transmits the signal to the front end unit 150, The low power amplifier 140 and the transceiver 130 to be input to the modem 120.

The modem 120 demodulates the received signal to recognize the TPC pattern of the uplink signal and then adjusts the base station output according to the applied TPC pattern.

When the modem 120 generates the base station output as described above, the signal is transmitted to the transceiver 130, the low power amplifier 140, and the front end unit 150 of the base station 100.

The base station unit 160 is applied to the base station test unit 160 via the directional coupler 151 of the front end unit 150.

Then, the vector signal analyzer 162 of the base station tester 160 compares the TPC pattern of the generated uplink signal with the TPC pattern of the received uplink signal to derive a power control result.

The power control result measured in this way is compared with the degree of change of the output power generated by the modem 120 of the TPC pattern generated by the base station test unit 160 and the base station 100, the transmission of the base station 100 It is possible to grasp the accuracy of the power control of the output and the abnormality of the power control function of the modem 120.

As such, the present invention is to test the accuracy of the power control of the base station using the base station test unit.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, the power control test apparatus and method of the base station in the mobile communication system according to the present invention is effective to test the accuracy of the power control of the base station using the base station test unit.

In addition, by applying the present invention it is possible to grasp the accuracy of the power control of the base station and the abnormality of the power control function of the modem without a separate measuring instrument from a remote.

Claims (7)

A base station performing data exchange with a terminal; And a base station tester configured to be provided in the base station to test whether there is an abnormality of a power control function in the base station. The method of claim 1, wherein the base station, A base station processor for controlling the operation of the base station; A modem connected to the base station processor and configured to perform modulation and demodulation of a signal; A transceiver connected to the modem and transmitting and receiving a signal; A low power amplifier connected to the transceiver and performing low power amplification; And a front end unit connected to the low power amplifying unit and connected to the base station test unit to receive an uplink TPC signal from the base station test unit to perform a test on the base station. Power control test apparatus of base station in mobile communication system. The method of claim 2, wherein the front end unit, A directional coupler connected to the base station test unit to perform directional coupling of a signal; A transmission front end coupled to the directional coupler and performing a front end function for the transmission signal; And a receiving front end connected to the directional coupler and configured to perform a front end function for the received signal. According to any one of claims 1 to 3, The base station test unit, An uplink transmitter for transmitting an uplink signal, which is a transmission signal of a terminal, to the front end unit; And a vector signal analyzer configured to receive a signal from the front end unit and perform a vector signal analysis. A first step of generating an uplink TPC signal from the base station test unit and transmitting the generated uplink TPC signal to the base station, receiving the transmitted signal, comparing the measured signal with the generated signal and determining the normal power control output; ; And a second step of determining whether the power control of the base station is normal according to the comparison result in the first step. The method of claim 5, wherein the first step, An eleventh step of generating an uplink signal in the base station test unit; A twelfth step of applying the signal generated in the eleventh step to a modem via a front end unit and a transceiver; After the twelfth step, the modem adjusts a transmission output according to an applied uplink TPC signal; A fourteenth step of applying a transmission output to the base station test unit after the thirteenth step through the transceiver and the front end unit; And a fifteenth step of determining whether the base station test unit is a normal power control output by comparing the measured signal received from the base station test unit with the generated uplink TPC signal after the fourteenth step. Power control test method of a base station in a mobile communication system, characterized in that. The method of claim 5 or 6, wherein the second step, A twenty-first step of outputting a result that there is no abnormality in the power control function of the base station if it is determined that the comparison result in the first step is a normal power control output; And a twenty-second step of outputting a result of abnormality in the power control function of the base station if it is determined that the comparison result in the first step is not a normal power control output. Power control test method of base station.

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