KR20050052554A - Method and device correcting tx power of base station in mobile communication system - Google Patents

Abstract

In a mobile communication system including a base station transmitting base station transmit power to a mobile terminal, the base station corrects the base station transmit power so as to maintain a constant cell coverage. Measuring an output value of transmission power to be transmitted to the mobile terminal, measuring a base station rated output value at an output terminal of the base station according to a preset condition, and calculating a reference output by applying the base station rated output value and correction parameters And comparing the calculated reference output with an output value of the transmit power to correct the base station transmit power to be transmitted to the mobile terminal.

Description

Method and device correcting Tx power of base station in mobile communication system

The present invention relates to a method and apparatus for correcting transmission power to maintain constant cell coverage at a base station of a mobile communication system.

In a code division multiple access system (CDMA system), a base station must maintain constant cell coverage through cell planning in order to configure an optimal interface environment with a mobile terminal. The most influential factor in keeping this cell coverage constant is the base station transmit power.

Since the base station transmit power is closely related to the radio signal (RF) hardware devices of the base station, the corresponding transmit power may decrease due to deterioration of each RF hardware device during long time operation of the base station. Since the fluctuation of the transmission power of the base station may affect the base station call service, the base station should always detect the fluctuating transmission power so that the reference output state is always maintained so that stable service can be provided. This function is called a transmission power compensation function, and the transmission power compensation function will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing the structure of a base station for correcting a conventional transmission power.

The base station system includes a transceiver for transmitting and receiving a signal, a base station test unit (BTU) 20 for constantly monitoring the base station transceiver 10, and a controller 30 for controlling the operation of the base station transceiver. .

The base station transceiver 10 processes the baseband signal as an intermediate frequency signal, processes the baseband signal, and then transmits the base station transmission power as a radio signal to the mobile terminal as a radio signal (hereinafter referred to as RF).

The base station transceiver 10 includes an intermediate frequency digital processor 11 for converting a baseband signal into an intermediate frequency signal, a transceiver 12 for converting the converted intermediate frequency into a radio signal, and amplifying the transmission power of the radio signal. And a transmission / reception end portion 14 for transmitting the transmission power amplified through the antenna 40. The intermediate frequency digital processor (IFDA) 11 converts the baseband signal into an intermediate frequency signal and measures the digital gain power value according to the digital gain level at the converted intermediate frequency. The transceiver (TRXA) 12 receives the converted intermediate frequency signal, converts it into a radio signal, and determines a transmission attenuation level Tx_Atten of the radio signal to be transmitted. The front end unit (FEU) 14 separates a transmission signal and a reception signal.

The base station inspection unit 20 is connected to the transmission and reception termination unit 14 and monitors the base station at all times to measure the output power, that is, the antenna output.

The control unit 30 performs overall control of the base station transceiver 10, calculates a theoretical value, that is, a reference output using a system gain, and calculates the antenna output measurement level measured by the reference output and the base station inspection unit 20. Compare and correct the base station transmit power.

A method of correcting a base station transmission power in an existing base station having such a structure will be described with reference to the accompanying drawings.

The base station transmit power correction is performed by comparison between the system reference output (Expected Power) calculated by the theoretical value and the final output measurement power measured by the base station inspection unit 20. Here, the reference output calculated by the theoretical value is expressed by Equation 1 below.

Reference Output = -12dB + 10log (IFDA Total Digtal Gain Power / 2135)-Tx_ATTEN + SYSTEM_GAIN

In Equation 1, -12dBm represents power measured when the total digital gain power of the intermediate frequency processor 10 is 2135, and the digital gain power is calculated for each channel in the modem of the channel card. It represents the power value in the digital domain that is actually multiplied.

'2135' indicates the total digital gain power value when the overhead value of the overhead channel is the pilot index = 132, the paging index = 128, and the synchronization index = 92.

The 'Tx_Atten' represents the attenuation level in the transceiver, and the 'System Gain' represents the system gain from the intermediate frequency digital processor 10 stage to the antenna 40 stage, and transmits pilot, synchronization and traffic channels. It is set when setting power and used to represent the code channel when converting a digital signal into an analog signal at a base station. Here, the code channels mean channels separated by Walsh codes. Since the channels separated by Walsh codes are transmitted wirelessly at once through digital analog conversion and power amplification, the power amplifier 13 uses the maximum transmit power of each code. It is divided into channel transmission.

Since the power measured by the base station inspection unit 20 is the power measured at the output terminal of the antenna 40, the difference between the measured power and the reference output is calculated to obtain a final estimated power correction value. Accordingly, by comparing the two powers to determine the level for correction, and applying the level to the system, transmission power correction is possible.

The reference output calculation should add a gain value called system gain. In this case, the system gain may be referred to as an interval offset value from the intermediate frequency processor 11 to the transmission / reception terminal 14 where the base station power measurement is performed by the base station checker 20. The interval offset value is set differently for each base station system shape, that is, for each base station type, for each power amplifier arrangement type, and for each sector shape (Sector or Omni). Accordingly, the base station transmitter must classify and store different data for each base station shape in a database. By the way, when managed separately by the base station shape, the volume of the database becomes large, and the management is difficult.

Moreover, even if the above method is available for storage operation, in order for the operator to set the value according to the shape information, it must be modified either before or during the operation of the system, and there is a possibility of human error. . Therefore, there is a problem that may have a fatal effect on the system due to the wrong transmission power calibration.

Accordingly, an object of the present invention is to provide a method and apparatus for correcting a base station transmit power for maintaining a constant transmit power for stable service.

It is another object of the present invention to provide a method and apparatus for compensating base station transmit power by comparing base station rated power and antenna output measurement levels without using system gain.

It is still another object of the present invention to provide a method and apparatus for calibrating base station transmit power using a rated output level of a power amplifier without using system gain.

The method for achieving the object of the present invention, in a mobile communication system having a base station for transmitting the base station transmit power to the mobile terminal, the base station to correct the base station transmit power to maintain a constant cell coverage Monitoring an output terminal of the base station and measuring an output value of transmission power to be transmitted to the mobile terminal; measuring a base station rated output value at an output terminal of the base station according to a preset condition; And calculating a reference output by comparing the calculated reference output with the output value of the transmission power and correcting the base station transmission power to be transmitted to the mobile terminal.

 And another method for achieving the object of the present invention, in a mobile communication system having a base station for transmitting the base station transmit power to the mobile terminal, the method for the base station to correct the base station transmit power to maintain a constant cell coverage The method may include: measuring an output value of transmission power to be transmitted to the mobile terminal by monitoring an output terminal of the base station; measuring a rated output value of a power amplifier that amplifies the power of a wireless signal according to a preset condition; And calculating a power amplifier reference output by applying the rated output value and the correction parameters, and correcting the base station transmit power by comparing the calculated reference output and the transmit power output value.

In addition, the apparatus for achieving the objects of the present invention, in the base station of the mobile communication system for transmitting the base station transmission power to the mobile terminal, the apparatus for correcting the base station transmission power to maintain a constant cell coverage, the base station output stage And a base station monitoring unit for measuring an output value of transmission power to be transmitted to the mobile terminal, a base station monitoring unit for measuring a base station rated output value according to a preset condition, and transmitting the base station transmission power to the antenna, and the base station. And a control unit configured to calculate a reference output by applying the rated output value and the correction parameters, and to correct the base station transmit power to be transmitted to the mobile terminal by comparing the calculated reference output with the output value of the transmit power.

In addition, an apparatus for achieving the objects of the present invention includes a power amplifier for amplifying a wireless signal, measuring a power amplifier rated output value when the transmission attenuation level, which is one of the correction parameters, is zero; An intermediate frequency digital processor for converting an intermediate frequency signal, measuring an intermediate frequency digital gain power value of one of the correction parameters, and converting the intermediate frequency into a radio signal, and transmitting a transmission attenuation level of one of the correction parameters. The transceiver may further include a transceiver for determining the power amplifier reference output value by applying the correction parameters and the power amplifier rated output value.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying 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.

2 is a block diagram illustrating a base station structure for correcting transmission power according to a first embodiment of the present invention.

As shown in FIG. 2, the base station controls the operations of the transceiver 110, which transmits and receives a signal, the base station inspection unit 120, which monitors the base station transceiver 110, and the base station transceiver 110. The control unit 130 is configured.

The base station transceiver 110 processes the baseband signal as an intermediate frequency signal, processes the baseband signal, and then transmits the base station transmission power as a radio signal to a mobile terminal as a radio signal (hereinafter referred to as RF).

The base station transceiver 110 includes an intermediate frequency digital processor 111 for converting a baseband signal into an intermediate frequency signal, a transceiver 112 for converting the converted intermediate frequency into a wireless signal, and amplifying a transmission power of a radio signal. A power amplifier 13 and a transmission / reception end portion 114 for transmitting the amplified transmission power via the antenna 140.

The intermediate frequency digital processor (IFDA) 111 converts a baseband signal into an intermediate frequency signal and measures a digital gain power value according to the digital gain level at the converted intermediate frequency. The transceiver (TRXA) 112 receives the converted intermediate frequency signal, converts it into a wireless signal, and sets a transmission attenuation level 121 value of the wireless signal to be transmitted to maintain constant cell coverage. The transmission attenuation level value is directly related to the antenna output. The front end unit (FEU) 114 measures the base station rated power. The measured base station rated output value is used as a calibration parameter.

The base station inspection unit 120 is connected to the transmission and reception termination unit 114 to monitor the base station at all times, and outputs the transmission power, that is, the antenna output. The measured antenna output measurement value is used as a correction parameter according to the transmission attenuation level value.

The controller 130 performs overall control of the base station transceiver 111 and compares the measured parameter value of the measured base station rated output value with the measured level value of the antenna output measured by the base station inspector 150 to transmit the base station transmit power. Calibrate The controller 130 controls the transmission attenuation level to maintain a constant cell coverage.

A method of correcting base station transmission power in a base station having such a structure will be described.

The base station according to the first embodiment of the present invention does not use the system gain as a parameter, but uses the antenna rated output value when the transmission attenuation level Tx_Atten in the transceiver 120 is '0'. The antenna output is directly related to the transmission attenuation level value, as shown in Equation 2 below. Equation 2 is an equation for calculating the reference output according to the first embodiment of the present invention.

Expected Power = TPTL Reference Power + 10log (IFDA Digital Gain Power / 2135) -Tx_ATTEN

In Equation 2, 'TPTL Reference Porwer' represents an antenna rated output value when the digital gain (DG) is 2135 and Tx_ATTEN is '0'.

'IFDA Digital Gain Power' represents the intermediate frequency digital gain power value in the digital domain that is actually multiplied by each channel within the modem of the channel card.

'2135' represents the total digital gain power value when the pilot index is 132, the paging index is 128, and the synchronization index is 92 (index value of the overhead channel), and 'Tx_ATTEN' is an attenuation level determined by the transceiver 120. Indicates. A method of calculating a reference output value applying the above Equation 2 and a method of correcting a transmission power at the base station will be described with reference to the accompanying drawings.

3 is a flowchart illustrating an operation for correcting a base station transmit power according to a first embodiment of the present invention. Here, when the base station transmit power correction operation is performed, the transmission attenuation level is 100, the overhead gain power is 2135, and when the transmission attenuation level is '0', the antenna output stage power is 43.5 dBm, and the reference output is calculated.

In step 310, the base station converts the baseband signal into an intermediate frequency signal by the intermediate frequency digital processor 111 and measures the intermediate frequency digital gain power value according to the digital gain level. In step 320, the base station converts the intermediate frequency signal into a wireless signal in the transceiver 112, determines a transmission attenuation level of the converted wireless signal, and outputs a wireless signal according to the determined transmission attenuation level. Then, in step 330, the base station amplifies the power of the radio signal output from the amplifier 113 and outputs the amplified radio signal.

In step 340, the base station measures the antenna output through the base station checker 120, and measures the rated output which is the antenna output level when Tx_Atten '0' for each shape. Here, each value of each shape is a value preset in the control unit 130. Then, the base station calculates a reference output value by applying the antenna output measurement value and the base station rated output measurement value to Equation 2 through the control unit 130 according to the transmission attenuation level. That is, in step 350, the base station determines whether there is a call. If there is no call as a result of the check, the reference output is calculated by applying the total intermediate frequency digital gain power value measured in step 355 and then proceeds to step 370. In this case, the intermediate frequency digital gain power is measured as about 2135, and when the measured value '2135' and the set parameter are substituted by Equation (2) and calculated (when Tx_Atten is "10"), Calculated together, you can get a reference output of 33.5dBm.

Expected Power = 43.5dBm-10 + 10log (2135/2135) = 33.5dBm

On the other hand, when there is no call, the base station calculates the reference output by applying the intermediate frequency digital gain power value increased by the digital gain power allocated to the call in the controller 130. At this time, the intermediate frequency digital gain power increases by the digital gain power to which the call is assigned. In this case, if the intermediate frequency gain power is 5000, the reference output of 37.2 dBm as shown in Equation 3 can be obtained by substituting this to Equation 2 together with the set parameter value.

Expected Power = 43.5 dBm-10 + 10 log (5000/2135) = 37.2 dBm

In step 370, the base station corrects the base station transmission power to be transmitted by applying the calculated reference output, and then transmits the corrected base station transmission power to the mobile terminal through the antenna 140.

In the above-described first embodiment of the present invention, a method of correcting the transmission power by using the antenna final output level compared to the transmission attenuation level has been described. A method of correcting transmission power will be described.

4 is a block diagram showing the structure of a base station for correcting the base station transmission power according to the second embodiment of the present invention.

The base station according to the second embodiment of the present invention has the same structure as the base station according to the first embodiment, as shown in FIG. However, unlike the base station according to the first embodiment, the base station according to the second embodiment transmits power through a measuring instrument (not shown) inside the power amplifier 113 instead of measuring the base station rated output at the transmission and reception terminal 114. Measure the amplifier rated power and use it as a calibration parameter.

The output level of the power amplifier 113 is one of the base station RF hardware devices that affect the cell coverage, and has a direct relationship to the transmission attenuation level control inside the transceiver 111 for maintaining constant cell coverage. Therefore, the base station uses the output level of the power amplifier 113 as a correction parameter when the transmission attenuation level is '0'. Equation for calculating the rated output value of the power amplifier 113 is shown, as shown in <Equation 5>.

Power Amplifier Reference Output = Amp Reference Power-Tx_ATTEN

In Equation 5, 'Amp Reference Power' represents a rated output level of the power amplifier 113 stored in the base station database.

The base station transmit power correction operation in the base station according to the second embodiment of the present invention configured as described above will be described with reference to the accompanying drawings.

5 is a flowchart illustrating an operation of correcting a base station transmit power according to a second embodiment of the present invention.

In step 510, the base station converts the baseband signal into an intermediate frequency signal by the intermediate frequency digital processor 111 and measures the intermediate frequency digital gain power value according to the digital gain level. In step 520, the base station converts the intermediate frequency signal into a wireless signal in the transceiver 112, determines a transmission attenuation level of the converted wireless signal, and outputs a wireless signal according to the determined transmission attenuation level. Then, in step 530, the base station amplifies the power of the wireless signal output from the power amplifier 113, receives the output wireless signal and measures the power amplifier rated output through an internal measuring instrument. In step 540, the base station measures the antenna output from the base station checker 120 and outputs an antenna output measurement value.

In step 550, the base station calculates a power amplifier reference output by applying the antenna output measurement values, which are correction parameters, and the rated output measurement value of the power amplifier, according to Equation 5, according to the transmission attenuation level. For example, when the transmit attenuation level is 100 and the transmit attenuation level is "0", when the power amplifier output level is 43 dBm, the power amplifier reference output (Amplifier Expected Power) is calculated as shown in Equation 6 below, where 33 dBm is do.

Amplifier Expected Power = 43dBm-10dB = 33dBm

In step 560, the base station transmits the base station to be transmitted to the mobile station by comparing the calculated power amplifier reference output with the antenna output measurement value measured by the base station checker 120, that is, applying the calculated power amplifier reference output. Calibrate the power. The base station then transmits the corrected base station transmit power to the mobile terminal via the antenna 140.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

As described above, the present invention does not need to manage each base station shape by correcting the base station transmission power using the base station rated power and the power amplifier rated power, thereby reducing the complexity of the database, and improving the accuracy of calculation and convenience of operation. It has an effect.

1 is a block diagram showing a structure of a base station for correcting a conventional transmission power;

2 is a block diagram showing a structure of a base station for correcting transmission power according to the first embodiment of the present invention;

3 is a flowchart illustrating an operation for correcting a base station transmission power according to the first embodiment of the present invention;

4 is a block diagram showing a structure of a base station for correcting a base station transmission power according to a second embodiment of the present invention;

5 is a flowchart illustrating an operation for correction of a base station transmit power according to a second embodiment of the present invention.

Claims (13)

A mobile communication system having a base station transmitting base station transmission power to a mobile terminal, the method of the base station correcting the base station transmission power to maintain a constant cell coverage, Monitoring an output terminal of the base station and measuring an output value of transmission power to be transmitted to the mobile terminal; Measuring a base station rated output value at an output terminal of the base station according to a preset condition; Calculating a reference output by applying the base station rated output value and correction parameters; And comparing the calculated reference output with an output value of the transmit power and correcting the base station transmit power to be transmitted to the mobile terminal. The method of claim 1, The preset condition is a condition in which the transmission attenuation level is zero and the intermediate frequency digital gain power value is set to a total digital gain power value. The method of claim 2, And the reference output is obtained by subtracting a predetermined transmission attenuation level value by adding the base station rated output value and the log value obtained by dividing the digital gain power by the total digital power value. A mobile communication system having a base station transmitting base station transmission power to a mobile terminal, the method of the base station correcting the base station transmission power to maintain a constant cell coverage, Monitoring an output terminal of the base station and measuring an output value of transmission power to be transmitted to the mobile terminal; Measuring a rated output value of a power amplifier that amplifies the power of the wireless signal according to a preset condition; Calculating a power amplifier reference output by applying the rated output value and correction parameters of the power amplifier; And correcting the base station transmit power by comparing the calculated reference output with the transmit power output value. The method of claim 4, wherein The preset condition is a condition in which the transmission attenuation level is zero and the intermediate frequency digital gain power value is set to a total digital gain power value. The method of claim 5, And the power amplifier reference output is obtained by subtracting a predetermined transmission attenuation level value from the power amplifier rated output value. An apparatus for correcting the base station transmit power to maintain a constant cell coverage in a base station of a mobile communication system transmitting base station transmit power to a mobile terminal, A base station monitoring unit for monitoring the base station output terminal and measuring an output value of transmission power to be transmitted to the mobile terminal; A transmission and reception termination unit for measuring a base station rated output value according to a preset condition and transmitting the base station transmission power to the antenna; And a controller configured to calculate a reference output by applying the base station rated output value and the correction parameters, and correct the base station transmit power to be transmitted to the mobile terminal by comparing the calculated reference output with the output value of the transmit power. The device. The method of claim 7, wherein The preset condition is a condition in which the transmission attenuation level, which is one of the correction parameters, is zero, and the intermediate frequency digital gain power value, which is one of the correction parameters, is set to a total digital gain power value. The method of claim 8, And the reference output is obtained by subtracting a predetermined transmission attenuation level value by adding the base station rated output value and the log value obtained by dividing the digital gain power by the total digital power value. The method of claim 7, wherein And a power amplifier for amplifying a wireless signal and measuring a power amplifier rated output value when the transmission attenuation level, which is one of the correction parameters, is zero. The method of claim 10, wherein the control unit, And the power amplifier reference output value is obtained by applying the correction parameters and the power amplifier rated output value. The method of claim 11, And the power amplifier reference output is obtained by subtracting a predetermined transmit attenuation level value from the power amplifier rated output value. The method according to claim 7 or 10, An intermediate frequency digital processing unit for converting a baseband signal into the intermediate frequency signal and measuring an intermediate frequency digital gain power value which is one of the correction parameters; And a transceiver for converting the intermediate frequency into a wireless signal and determining a transmission attenuation level that is one of the correction parameters.