KR100353855B1 - Method of controlling transmit power level in wireless communication system - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a transmission output level control method in a wireless communication system and a computer readable recording medium having recorded thereon a program for realizing the method.

2. The technical problem to be solved by the invention

The present invention provides a transmission output level control method and a program for realizing the method for detecting a gain according to a transmitter input level and an output level and correcting the gain by a specified regulated output value so that the gain of the transmitter is not excessively adjusted. To provide a computer-readable recording medium for recording.

3. Summary of Solution to Invention

The present invention provides a method for controlling an output level at a transmitting end of a wireless communication system, wherein the transmitter is controlled by a frequency upconverter (UPC) according to an output level control (TPTL) command for controlling a transmission output level to a desired level (set value). Transmit gain is measured by measuring the first parameter values for the input level (Tx_IN_PWR Level), the current transmit front end unit output level (TxFU_PWR Level) fed back from the transmit front end unit (TxFU), and the frequency upconverter transmit output level (Tx_OUT_PWR Level). Adjusting the first step; A second step of measuring a second parameter value for the levels after adjusting the transmission gain so as to know if the transmission gain has been adjusted to a desired value; A third step of comparing whether a transmit front end unit output level (TxFU_PWR Level) of the second parameter values is within an allowable error range of the set value; And a fourth step of notifying the operator of the comparison result in the third step, and adjusting the transmission output level until the desired level (set value) is required by the operator.

4. Important uses of the invention

The present invention is used for transmission output level control and the like.

Description

Method of controlling transmit power level in wireless communication system

The present invention relates to a transmission output level control method in a wireless communication system and a computer-readable recording medium having recorded thereon a program for implementing the method. And a transmission output level control method for controlling the output level to the desired level by maintaining a constant value at a predetermined value regardless of temperature change, voltage change, or radio frequency (RF) signal level change. It is about.

The output level control method in the conventional transmitter simply detects only the transmission output level and adjusts the gain of the transmitter until it reaches a prescribed value. This control method detects only the transmission output level and adjusts the gain. Therefore, even if external conditions such as fluctuations in the transmitter input level change, there is a problem that the gain of the transmitter is excessively increased or decreased in order to match the prescribed transmission output. There was a problem that the characteristics of the deterioration.

The present invention proposed to solve the above problems, the transmission output level for detecting the gain according to the transmitter input level and output level and correcting the gain by the specified specified output value so that the gain of the transmitter is not excessively adjusted It is an object of the present invention to provide a control method and a computer-readable recording medium having recorded thereon a program for realizing the method.

1 is an exemplary configuration diagram of a wireless communication system to which the present invention is applied.

2 is an exemplary configuration diagram of a frequency upconverter (UPC) for transmission output level control according to the present invention.

3 is a flowchart of an embodiment of a method for controlling a transmission output level according to the present invention;

* Explanation of symbols for the main parts of the drawings

10: radio frequency controller (RFC) 20: frequency upconverter (UPC)

30: amplifier (LPA) 40: transmit front end unit (TxFU)

50: transmit antenna (ANT)

In accordance with an aspect of the present invention, there is provided a method for controlling an output level at a transmitting end of a wireless communication system, wherein a frequency is increased in accordance with an output level control (TPTL) command for controlling a transmission output level to a desired level (set value). First parameter values for transmitter input level (Tx_IN_PWR Level), current transmit front end unit output level (TxFU_PWR Level), and frequency upconverter transmit output level (Tx_OUT_PWR Level) fed back from transducer UPC at converter UPC. Measuring a transmission gain by adjusting the transmission gain; A second step of measuring a second parameter value for the levels after adjusting the transmission gain so as to know if the transmission gain has been adjusted to a desired value; A third step of comparing whether a transmit front end unit output level (TxFU_PWR Level) of the second parameter values is within an allowable error range of the set value; And a fourth step of informing the operator of the comparison result in the third step, and adjusting the transmission output level until a desired level (set value) is required at the operator's request.

In addition, the present invention, in order to control the output level at the transmitting end, the frequency up according to the output level control (TPTL) command for controlling the transmission output level to a desired level (set value) in a wireless communication system having a processor First parameter values for transmitter input level (Tx_IN_PWR Level), current transmit front end unit output level (TxFU_PWR Level), and frequency upconverter transmit output level (Tx_OUT_PWR Level) fed back from transducer UPC at converter UPC. A first function of adjusting the transmission gain by measuring a signal; A second function of measuring a second parameter value for the levels after the transmission gain adjustment so as to know if the transmission gain has been adjusted to a desired value; A third function of comparing whether a transmit front end unit output level (TxFU_PWR Level) of the second parameter values is within an allowable error range of the set value; And a program for realizing a fourth function of informing the operator of the comparison result in the third function and adjusting the transmission output level to a desired level (set value) upon the operator's request. Provide a record carrier.

The present invention is to control the output level going to the antenna to a desired level, and detects the gain according to the input level and output level of the transmitter, and the output level of the transmitter to the external conditions, that is, environmental and temperature changes, voltage fluctuations, RF signal The gain of the transmitter can be adjusted by the specified output value through the command TPTL for keeping it constant at the specified value irrespective of a change in the level or the like.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an exemplary configuration diagram of a wireless communication system to which the present invention is applied, and illustrates a structure of a transmitting end of an IMT-2000 system as an example. In the figure, "10" is a radio frequency controller (RFC), "20" is a frequency up converter (UPC), "30" is an amplifier (LPA: linear power amplifier), and "40" is a transmission. A front end unit (TxFU: Tx front end unit) and "50" represent a transmission antenna (ANT), respectively.

As shown in FIG. 1, in the IMT-2000 transmitter, the digital I and Q signals output from the modem are converted into an intermediate frequency (IF) analog signal by a digital / analog converter (D / C converter), and the analog The IF signal (transmitter input level; Tx_IN_PWR Level) is converted to a radio frequency (RF) signal (upconverted signal, Tx_OUT_PWR Level) by a frequency upconverter (UPC) 20 that converts an intermediate low frequency signal to a high frequency. Is delivered to an amplifier (LPA) 30. At this time, the amplifier (LPA) 30 amplifies a low signal level above a predetermined level and transmits it to the transmission front end unit (TxFU) 40, and the coupler 41 of the transmission front end unit (TxFU) 40 is unnecessary. Blocks the signal and sends only the necessary signal to the transmitting antenna (ANT) 50, and attenuates this signal (preferably 40 dB) to feed back to the detector of the frequency up-converter 20 (TxFU_PWR Level) ). This is to allow the transmitter to adjust the gain of the transmitter when the transmitter detects the transmit front end unit output level (TxFU_PWR Level).

However, conventionally, the up and down of the transmitter output level is adjusted using only the transmission front end unit output level (TxFU_PWR Level) fed back from the transmission front end apparatus (TxFU) 40.

However, in the present invention, the frequency upconverter (UPC) is maintained as shown in FIG. 2 in order to maintain the output level of the transmitter at a predetermined value regardless of external conditions, that is, environment and temperature change, voltage change, RF signal level, and the like. Transmitter input level (transmission IF input level) (Tx_IN_PWR) in addition to the existing instrument 2 (22) measuring the transmit front end unit output level (TxFU_PWR Level) fed back from the transmit front end device (TxFU) 40 to Instrument 1 (21) for measuring the level and the instrument 3 (23) for measuring the up-converted signal (frequency up-converter transmission output level) (Tx_OUT_PWR Level).

The radio frequency controller (RFC) 10 is responsible for the control, operation and maintenance functions of the frequency upconverter (UPC) 20, and collects alarms of the amplifier (LPA) 30.

Now, the method for controlling the output level going to the antenna to the desired level will be described in more detail.

For the sake of understanding, the process of measuring the transmit front end unit output level (TxFU_PWR Level) fed back from the transmit front end device (TxFU) 40 will be described.

In order to control the output level going to the antenna to a desired level, the transmit front end unit (TxFU) 40 feeds back the linearly amplified signal through the coupler 41. At this time, the instrument 2 (22) of the frequency up-converter (UPC) 20 detects the strength of the fed back signal, and corrects the attenuation level of the coupler 41. This is because the coupler 41 attenuates and feeds back the measured signal, preferably 40 dB. The frequency upconverter (UPC) 20 then reports the detected signal level to the radio frequency controller (RFC) 10.

Briefly looking at the control process of the present invention, after the operator monitors, the TPTL command (transmitter output level is constantly set to a predetermined value regardless of external conditions such as environmental and temperature changes, voltage variations, RF signal levels, etc. Control command) to the radio frequency controller (RFC) 10, the radio frequency controller (RFC) 10 receives the TPTL command and transmits it to the frequency upconverter (UPC) 20. At this time, the UPC 20 transmits a transmitter input level (transmission IF input level) Tx_IN_PWR Level through the measuring device 1 21 according to the TPTL command, and transmits a transmitting front end device TxFU through the measuring device 2 22. The transmit front end unit output level (TxFU_PWR Level) fed back from) 40 and the upconverted signal (frequency upconverter transmit output level) (Tx_OUT_PWR Level) are measured and stored in the memory.

The frequency upconverter (UPC) 20 then adjusts the transmit power level via the gain adjuster 24, and transmits the transmit front end unit output via meter 2 22 to see if the transmit power level has been adjusted to the desired value. Measure the level (TxFU_PWR Level) and adjust it to the desired output level.

Now, the control procedure according to the present invention will be described in more detail with reference to FIG.

3 is a flowchart illustrating a method of controlling a transmission output level according to the present invention.

As shown in FIG. 3, in the transmission output level control method according to the present invention, when a TPTL control function execution command (the TPTL command includes a UPC card number, a path, etc.) is received from an operator (301), The frequency controller (RFC) 10 measures the current transmit IF input level Tx_IN_PWR Level (traffic-free overhead channel state) through the meter 1 (21) before performing the TPTL control function. By measuring the current transmit front end unit output level (TxFU_PWR Level) fed back from the transmit front end device (TxFU) 40 through the measuring unit 3 (23), the current frequency upconverter transmit output level (Tx_OUT_PWR Level) by measuring (302) The measured parameter value (named "parameter 1") is stored in memory (303). At this time, each level measurement value is an average value repeatedly performed.

Thereafter, the frequency up-converter (UPC) 20 adjusts the transmission gain of the transmission front end unit (TxFU) 40 by the gain gain 24 to the change gain (Gain) for the UPC transmission output value (304). This may adjust the transmission gain of the transmit front end unit (TxFU) 40 according to the value of the gain mapping table of the frequency up-converter (UPC) 20 and the value of the temperature mapping table. .

After gain adjustment, the frequency up-converter (UPC) 20 transmits the transmission IF input level Tx_IN_PWR Level after the gain adjustment (measured value) through the measuring device 1 (21), and transmits the transmission front end device through the measuring device 2 (22). Transmit front end unit output level (TxFU_PWR Level) after gain adjustment fed back from (TxFU) 40, and frequency upconverter transmit output level (Tx_OUT_PWR Level) after gain adjustment through meter 3 (23) to re-measure (305) In step 306, it is compared whether the frequency upconverter transmit output level Tx_OUT_PWR Level after gain adjustment among the re-measured parameter values (named "parameter 2") matches the set value according to the TPTL command. Of course, there is an error in the measurement. Preferably, the upper and lower limits of the error range are ± 0.25 dB.

As a result of the comparison, in the same case (preferably when the transmit front end unit output level of the second parameter value is within the allowable error range of the set front end unit TxFU_PWR Level), the frequency upconverter (UPC) transmit parameter 2 value 307 stores the TPTL control function completion message to the radio frequency controller (RFC) 10 (308).

As a result of the comparison, if it is not the same (preferably when the transmit front end unit output level (TxFU_PWR Level) out of the second parameter value is outside the tolerance range of the set value), there is a problem with the equipment (UPC, LPA, TxFU). Since there may be (aging, defects, etc.), the radio frequency controller (RFC) 10 checks the failure state of the frequency up converter (UPC) 20 / amplifier (LPA) 30 (309).

At this time, when the frequency upconverter transmit output level (Tx_OUT_PWR Level) is changed in the light of the fixed transmit IF input level (Tx_IN_PWR Level), the fault state diagnosis function determines that the frequency upconverter (UPC) 20 has a fault, and transmits the IF input. If the level (Tx_IN_PWR Level) and the frequency upconverter transmit output level (Tx_OUT_PWR Level) are normal or there is an error in the transmit front end unit output level (TxFU_PWR Level), the amplifier (LPA) 30 or the transmit front end unit (TxFU) (40). I think there is a disability. At this time, since the output level of the amplifier (LPA) is already known to the radio frequency controller (RFC) 10, it is possible to accurately determine which equipment has a failure.

As a result of the inspection, if there is no failure, the operator is notified of the failure (310), and if the operator wants to repeat it according to the decision of repetition of the operator (311), the command is sent to the frequency upconverter (UPC) 20 with the same control value to increase the transmission gain. Repeat from step 304 to adjust.

As a result of the test, if there is a failure, a failure message (including a failure site) is notified to the operator (312).

The method of the present invention as described above may be implemented as a program and stored in a computer-readable recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.).

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains, and the above-described embodiments and accompanying It is not limited to the drawing.

According to the present invention as described above, the output level of the transmitter can be kept constant at a predetermined value regardless of external conditions, i.e., environment and temperature change, voltage change, RF signal level, etc. There is an effect that can be controlled to the desired level.

Claims (6)

In the output level control method at the transmitting end of the wireless communication system, The current fed back from the transmitter input level (Tx_IN_PWR Level) and the transmit front end unit (TxFU) in the frequency upconverter (UPC) according to the output level control (TPTL) command for controlling the transmit power level to the desired level (set value). A first step of adjusting a transmission gain by measuring a first parameter value for a transmit front end unit output level (TxFU_PWR Level) and a frequency upconverter transmit output level (Tx_OUT_PWR Level); A second step of measuring a second parameter value for the levels after adjusting the transmission gain so as to know if the transmission gain has been adjusted to a desired value; A third step of comparing whether a transmit front end unit output level (TxFU_PWR Level) of the second parameter values is within an allowable error range of the set value; And A fourth step of informing the operator of the comparison result in the third step, and adjusting the transmission output level until the desired level (set value) is required by the operator. Transmission output level control method in a wireless communication system comprising a. The method of claim 1, The frequency up converter (UPC), Transmitting front end unit fed back from the transmitting front end device (TxFU) to maintain the transmit power level constant at a defined value regardless of external conditions such as environmental and temperature changes, voltage fluctuations, and changes in radio frequency (RF) signal levels. In addition to the existing first measuring instrument measuring the output level TxFU_PWR Level, a second measuring instrument measuring the transmitter input level Tx_IN_PWR Level and a third measuring instrument measuring the upconverted frequency upconverter transmission output level Tx_OUT_PWR Level. And the first measuring instrument detects the strength of the fed-back signal, and corrects the attenuation level from the transmitting front end apparatus (TxFU). The method of claim 1, Adjusting the transmission gain of the first step, Gain gain for the frequency upconverter (UPC) transmission output value according to a value of a gain mapping table and a temperature mapping table through a gain adjuster in the frequency upconverter (UPC) And controlling the transmission gain of the transmission front end unit (TxFU) as much as possible. The method according to any one of claims 1 to 3, The fourth step, As a result of the comparison in the third step, if the transmit front end unit output level TxFU_PWR Level of the second parameter value is within the allowable error range of the set value, the second parameter in the frequency upconverter (UPC) A fifth step of storing a value in a memory and then reporting a transmission output control completion message to a radio frequency controller (RFC); As a result of the comparison in the third step, if the transmit front end unit output level of the second parameter value (TxFU_PWR Level) is out of the tolerance range of the set value, there may be a problem with the equipment, the radio frequency A sixth step of diagnosing a failure state of each equipment in a controller (RFC); And The radio frequency controller (RFC) notifies the operator of the result of the diagnosis of the failure, and when the operator requests the command to adjust the transmission output level to the frequency up-converter (UPC), the frequency up-converter (UPC) desired the transmission output level 7th step of adjusting the transmission gain until the level (setting value) Transmission output level control method in a wireless communication system comprising a. The method of claim 4, wherein Diagnosis of the failure state of each device of the sixth step, When the frequency upconverter transmit output level (Tx_OUT_PWR Level) is changed in view of the fixed transmitter input level (Tx_IN_PWR Level), the frequency upconverter (UPC) 20 is diagnosed as a failure, and the transmitter input level (Tx_IN_PWR Level) and the frequency upstream If the transducer transmission output level (Tx_OUT_PWR Level) is normal or there is an error in the transmission front end unit output level (TxFU_PWR Level), it is diagnosed that the amplifier LPA or the transmission front end unit TxFU is faulty. Since the output level is already known to the radio frequency controller (RFC), it is possible to accurately diagnose which equipment has failed. In order to control the output level at the transmitting end, in a wireless communication system having a processor, The current fed back from the transmitter input level (Tx_IN_PWR Level) and the transmit front end unit (TxFU) in the frequency upconverter (UPC) according to the output level control (TPTL) command for controlling the transmit power level to the desired level (set value). A first function of adjusting a transmission gain by measuring a first parameter value for a transmit front end unit output level (TxFU_PWR Level), a frequency upconverter transmit output level (Tx_OUT_PWR Level); A second function of measuring a second parameter value for the levels after adjusting the transmission gain so as to know if the transmission gain has been adjusted to a desired value; A third function of comparing whether a transmit front end unit output level (TxFU_PWR Level) of the second parameter values is within an allowable error range of the set value; And A fourth function of notifying the operator of the comparison result in the third function and adjusting the transmission output level until the desired level (set value) is required by the operator; A computer-readable recording medium having recorded thereon a program for realizing this.