KR20050030834A - Apparatus and method for testing reverse power control function of base station in cdma mobile communication system - Google Patents

Abstract

An apparatus and a method for testing a reverse power control function of a base station in a CDMA mobile communication system are provided to synchronize a time, when a power level of a signal outputted from a mobile station is controlled, with a signal of a base station, thereby confirming whether power control information on the base station is outputted at a requested time. A signal of a base station(110) received through a base station receiving port is inputted to a duplexer(131). The duplexer(131) outputs the signal through a mobile station port, and outputs a signal outputted from a mobile station(120) to an attenuator. The attenuator outputs the signal transmitted from the mobile station(120) through the duplexer(131) at a time when the signal is synchronized with a synchronous signal obtained through a certain port.

Description

Apparatus and Method for testing Reverse Power Control Function of Base Station in CDMA Mobile Communication System}

The present invention relates to an apparatus and method for testing a base station in a CDMA mobile communication system, and more particularly, to an apparatus and method for testing a reverse power control function of a base station.

In general, a mobile communication system consists of a plurality of mobile stations and a plurality of base stations capable of communicating with the mobile station via a wireless channel within an assigned service area. The mobile communication system also includes a mobile wireless switching center operable as an upper level device, and a public telephone network.

It should be confirmed in advance whether the base station is operating normally for smooth communication with the mobile stations in the active state. To this end, various devices have been developed for testing the operation of the base station with the base station activated.

In general, in order to increase the number of mobile phone subscribers in a code division multiple access (CDMA) system, it is necessary to maximize the number of subscribers that can simultaneously talk within a given bandwidth. For this purpose, the transmit power of each mobile station must be controlled to reach the base station with a minimum signal to interference ratio. If the transmission power transmitted from the mobile station to the base station is too low, good call quality cannot be expected. Therefore, the transmission and reception power between the base station and the mobile station should be controlled to ensure the call quality of the mobile station and to keep the signal-to-interference ratio to a minimum.

In order to check whether the reverse power control function of the base station operates normally, the apparatus for testing the operation of the base station in the active state will be described with reference to FIG. 1.

The base station 10 to which the power control function for the mobile station 10 and the mobile station 20 will be verified and the test apparatus 30 for testing the reverse power control function of the base station are connected by wire.

In the test apparatus 30, a wireless environment for testing a power control function of a base station according to a power level of the output signal is generated by creating a situation in which an output signal of the mobile station 10 varies according to interference and fading in a wireless environment. Implemented by wire. To this end, the test apparatus 30 includes base station transmit / receive ports (Tx, Rx A, Rx B) and mobile station ports (M.S) to transmit and receive signals to and from the base station and the mobile station by cable. The signal of the base station 10 input from the base station transmission port Tx to the duplexer 31 is duplexed and output to the mobile station port M.S and to the bidirectional splitter 32. This transfers to the mobile station 10 via the mobile station port (M.S). The bidirectional splitter 32 receiving the signal output from the duplexer divides the signal into a port connected to a spectrum analyzer 40 showing a signal waveform and a port connected to a digital variable attenuator 33. The digital variable attenuator 33 increases or decreases the power level of the signal output from the bidirectional splitter 32 according to a control signal input through the port CON connected to the external attenuator control PC 50. do. The signal output from the digital variable attenuator 33 is output to the base station through the base station transmission port.

Referring to the reverse power control test operation of the base station through the apparatus configured in FIG. 1 as follows.

First, in accordance with a control signal for increasing and outputting the output signal of the mobile station from the attenuator control computer 50, the digital variable attenuator 33 determines the power level of the signal from the mobile station 20 transmitted through the bidirectional divider 32. It increases and outputs it to the base station 10. Then, the base station 10 commands the test device 30 to reduce the output power level of the mobile station 20, and the mobile station 20 gradually lowers the output power level. The spectra analyzer 40 then displays this reduction in output power level.

In contrast, the digital variable attenuator 33 attenuates and outputs the output power level of the mobile station 20 transmitted through the bidirectional divider 32 in accordance with a control signal to attenuate and output the output signal of the mobile station from the attenuator control computer 50. Done. Then, the base station 10 commands the test device 30 to increase the output power level of the mobile station 20, and the mobile station 20 gradually increases the output power level. The spectrum analyzer 40 then displays an increase in the output power level of the mobile station 20.

However, in the above conventional technology, only the presence or absence of the operation of the reverse power control function can be confirmed by changing the signal strength of the mobile station and measuring the output of the terminal operating according to the command of the base station. Likewise, it was impossible to confirm whether a power control command is output from the base station exactly three slots after the power level of the base station has changed.

Accordingly, an object of the present invention to solve the above problems is to provide an apparatus and method that can determine the time when the base station outputs a power control command from the time when the power level of the reverse signal is changed.

An embodiment of the present invention for achieving the above object is in a wired connection to the mobile station and the base station, in the apparatus for testing the reverse power control performance of the base station, from the base station through an input terminal wired to the base station A duplexer which receives an output signal, outputs the signal to a mobile station terminal connected to the mobile station by wire, and receives and outputs a signal input from the mobile station terminal, and is output from the mobile station at a time when the signal is synchronized with the signal output from the base station; It is characterized by consisting of an attenuator for outputting to the output terminal is connected to the wire of the base station by adjusting the power level of the signal.

Another embodiment of the present invention for achieving the above object is a method for testing the reverse power control performance of the base station, the first step of establishing a call between the mobile station and the base station, and the signal output from the mobile station A second step of decreasing or increasing the power level at a time point synchronized with the base station signal and outputting the power level to the base station; a third step of collecting a power control signal output from the base station according to the signal output from the mobile station; and collecting from the mobile station; And a fourth step of calculating a rate at which a control signal is generated at each time required for each frame.

Hereinafter, the detailed operation and structure of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that reference numerals and like elements among the drawings are denoted by the same reference numerals and symbols as much as possible even though they are shown in different drawings. 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.

The present invention provides a reverse power control function test apparatus for controlling attenuating or increasing a reverse signal transmitted from a mobile station to a base station by an attenuator synchronized with the base station, and a power level of the reverse signal using the reverse power control function test apparatus is increased. The present invention proposes a method for checking a time point at which a base station outputs a power control command from a changed time point.

Next, an embodiment of a configuration including the reverse power control information device proposed by the present invention described above will be described with reference to FIG. 2.

2, a base station 110 generating a reverse power control signal, a mobile station 120 adjusting and outputting a power level of a transmission signal according to a power control signal output from the base station, and the base station 110. And a reverse power control function test apparatus 130 for adjusting and outputting the power level of the signal output from the mobile station 120 between the mobile station 120 and the mobile station 120 at a time point synchronized with the synchronization signal of the base station 110. Connected. In addition, the mobile station monitor PC 121 for monitoring the state of the mobile station 120 is connected to the mobile station 120, the base station according to the signal of the mobile station that is adjusted and output from the reverse power control performance test device 130 A power control performance monitor PC 140 for monitoring the power control signal output by 110 is connected to the base station.

Testing the power control function of the base station according to the power level of the output signal by making a situation in which the output signal of the mobile station 110 varies according to interference and fading in a wireless environment in the reverse power control function test apparatus 130. Wireless environment for wired implementation. To this end, the test apparatus 130 transmits and receives signals to and from the base station and the mobile station by wires such as cables, and the base station transmit / receive ports (Tx, Rx A, Rx B) and mobile station ports (MS) and synchronization signals from the base station. It has a port for receiving. The signal of the base station 10 received through the base station receiving port Tx is input to the duplexer 31, and the duplexer 31 outputs the signal of the base station through the mobile station port MS and from the mobile station. The output signal is output to the attenuation unit 133.

The attenuator 133 adjusts and outputs a power level of a signal transmitted from the mobile station 120 through the duplexer 131 at a point in time synchronized with a synchronization signal obtained through a port connected to the system clock of the base station by wire. do.

To this end, the attenuator 133 divides the signal output from the base station 110 into a predetermined frame synchronization signal and outputs the divided circuit 134 and a time point synchronized with the signal output from the frequency divider circuit 134. An attenuator controller 135 for outputting a power level control signal to the attenuator 136 and a power level of the signal output from the duplexer 131 at a time point at which the power control signal is output from the attenuator controller 135; Attenuator 136 to reduce and output.

The power divider 137 and the power supply unit 133 may be selectively provided inside or outside the attenuator 133, and the power divider 137 may transmit a signal output from the attenuator 136 to an input of the base station. The output is divided into two or more ports Rx A, Rx B,..., And the power supply unit 138 applies power to each of the above components.

An operation description of the reverse power control performance control apparatus as described above will be described in detail with reference to FIG. 3 while the reverse power control performance control method is described below.

Also, the reverse power control performance control of FIG. 3 will be described as being manually performed by a tester, but is connected to the control hardware of the reverse power control function test apparatus and can receive a control command signal from the tester. It may be performed by a computer or the like on which a program or the like is executed.

Referring to FIG. 3, in order to control reverse power control performance, the tester sets up the call of the base station 110 and the mobile station 120 in step 300. When the call is established in step 300, the base station 110 adjusts the output of the terminal by the power control operation to maintain the reverse frame error rate (1% or less). Then, the tester checks through the power control function monitor PC 140 whether the reverse frame error rate is maintained at 1% or less. However, if the verification result of step 310 does not maintain the frame error rate below 1%, the tester checks and adjusts the test environment and system parameters.

As a result of the checking in step 310, if the frame error rate is maintained at 1% or less, the tester determines whether to check the reverse power control increase bit or the reverse power control decrease bit in step 330.

According to the determination result of step 330, the tester manually sets the attenuator controller 136 of the reverse power control function device 130.

That is, when the determination result of step 330 determines that the reverse power control increase bit is confirmed, in step 340, the tester sets the attenuator controller 135 to perform a repeating operation of increasing the current set value by 10 dB and decreasing the 3 dB.

On the other hand, if it is determined that the reverse power control decrease bit is confirmed as a result of the determination in step 330, the tester sets the attenuator control unit 135 to perform a repetitive operation of decreasing the current set value by 10 dB and increasing the 3 dB in step 345.

When the reverse power control function test apparatus 130 set as described above is operated, the power level of the signal output from the mobile station is increased or decreased in accordance with the synchronization signal of the base station to output the power control performance monitor PC (50). In step 350, the time point at which the power control command signal is output from the base station 110 is monitored. That is, as shown in FIGS. 4 and 5, since the external output is changed at a constant period (frame) for each case, the desired power control command is performed from the period (frame) starting slot (t ₀ ) to the third slot (t ₁ ). Check whether the bit is transmitted. The power control function monitor PC 140 checks whether the power control bit is detected at 9000 times corresponding to 90% in the third slot every frame as a result of performing more than 10,000 times in step 360. As a result of the checking in step 360, if the rate of detecting the power control bit in the third slot is 90% or less, a warning message is generated in step 370, and a cause analysis such as code analysis is performed if there is a problem. However, if it is determined in step 360 that the rate of detecting the power control bit in the third slot is less than 90%, it is determined that the base station is operating normally.

As described above, the present invention outputs the timing at which the power control information of the base station is required by adjusting the power level of the signal output from the mobile station in synchronization with the signal of the base station in synchronization with the synchronization signal of the base station. There is an advantage in that it can be confirmed.

1 is a block diagram of an apparatus for testing a reverse power control function of a base station in a CDMA mobile communication system according to the prior art;

FIG. 2 is a block diagram illustrating an apparatus for testing a reverse power control function of a base station in a CDMA mobile communication system according to an embodiment of the present invention; FIG.

3 is a flowchart illustrating a method for testing a reverse power control function of a base station in a CDMA mobile communication system according to an embodiment of the present invention;

4 is a graph showing a power level increase command measurement interval according to the 3GPP2 TSG-C C.SOO32 1xEV-DO standard;

5 is a graph showing a power level reduction command measurement interval according to the 3GPP2 TSG-C C.SOO32 1xEV-DO standard.

Claims (4)

An apparatus for testing a reverse power control performance of a base station by wired connection with a mobile station and a base station, A duplexer that receives a signal output from the base station through an input terminal wired to the base station, outputs the signal to the mobile station terminal wired to the mobile station, and simultaneously receives and outputs a signal input from the mobile station terminal; And an attenuator configured to adjust a power level of a signal output from the mobile station at a time point synchronized with the signal output from the base station, and output the attenuator to a wired output terminal of the base station. The method of claim 1, wherein the attenuation portion A division circuit for dividing the signal output from the base station and outputting a predetermined frame synchronization signal; An attenuator control unit for outputting a power level control signal to the attenuator at a point in time synchronized with the signal output from the division circuit; And an attenuator for increasing or decreasing a power level of a signal output from the duplexer at a time point when a power control signal is output from the attenuator controller. The method of claim 1, And a divider for dividing and outputting two or more signals output from the attenuator. A method for testing reverse power control performance of a base station, the method comprising: A first step of establishing a call between the mobile station and the base station; A second step of reducing or increasing the power level of the signal output from the mobile station to a base station at a time point synchronized with the base station signal; A third step of collecting a power control signal output from the base station according to the signal output from the mobile station; And a fourth step of calculating a rate at which a control signal collected from the base station is required every frame.