KR20050095594A - A control solution for transmission power of mobile handset - Google Patents

Abstract

A mobile terminal and method for TDD mode wireless communication systems, comprises an antenna (1), receiving and transmitting radio frequency signals; a front end unit (16), selecting a receiver mode or a transmitter mode according to a control signal, and sampling a signal to be transmitted to generate a sampling signal which is fed back to a baseband unit (16) for calculating the actual transmission power when the mobile ternimal is in the transmitter mode, and a baseband processing unit (16), providing the control signal to the front end unit, providing the signal to be transmitted to the front end unit when the mobile terminal is in the transmitter mode, and generating a power compensation signal to adjust a power of the signal to be transmitted outputted from the front end unit according to the comparison result of the calculated actual transmission power and the expected transmission power.

Description

TECHNICAL FIELD [0001] The present invention relates to a mobile terminal in a TD mode wireless communication system, a method thereof, and a transmission power control device.

The present invention relates to a wireless communication system in a time division duplex (TDD) mode, and more particularly, to an apparatus and a method for controlling transmitter power in a TDD-based wireless communication system.

In a wireless telecommunication system, self-interference generated by the transmitter power of the base station and the transmitter power of the user equipment directly affects system performance. In a practical system, each user terminal transmits data using a minimum level when reaching a predetermined signal-to-interference ratio (SIR) so as to limit the harm to the transmitter power to the telecommunications system.

In order to ensure the communication quality of the system and to maintain the power of the signal to be transmitted at a desired level, it is necessary to compensate for the unintended gain variations observed in the various components of the transmission chain.

Gain calibration is a common means to compensate for unintentional gain variations. However, gain variations can be caused by a variety of reasons, such as aging of components, changes in ambient temperature, changes in air pressure, changes in humidity levels, changes in amplifier saturation, changes in traffic loads, and so on when signals are transmitted. Can cause unexpected gain changes. Therefore, it is impossible to always accurately maintain the transmitter output level at a predetermined level through a calibration process. Once gain variation occurs, the operating point of the telecommunications facility will drift and consequently degrade the communication quality.

Thus, there is a need for a control system based method for performing gain compensation. By comparing the expected output power with the actual output power, it is possible to adjust the overall gain after the various components of the transmission chain and thus compensate for unintended gain variations.

A method of a transmitter power tracking loop (TPTL) is disclosed in US Pat. No. 6,286,994, published September 11, 2001. In this method, the actual output power level is obtained by detecting, sampling, and filtering the actual output power, and then the unintended gain variation is serialized to match the actual output power with the expected and calculated transmit power. After using the complex algorithm of, it is compensated by TPTL.

However, this method is especially used for the base station and is actually very complicated. There is still a difficult problem to be solved in the art regarding a method and apparatus for controlling the transmission power of a mobile terminal without using the existing wireless telecommunications system and more changes therein.

1 shows the structure of a current multiband multimode transceiver.

2 provides a structure of a multiband multimode transceiver proposed in the present invention.

It is therefore a primary object of the present invention to provide an apparatus and method for controlling the transmit power of a wireless telecommunications system in a TDD mode that can efficiently compensate for unintended gain variations in the transmit chain and thus improve system performance. will be.

It is another object of the present invention to provide an apparatus and method for controlling the transmit power of a wireless telecommunications system in a TDD mode that can efficiently compensate for various expected gain variations in the transmit chain to improve the communication quality of the system.

It is yet another object of the present invention to provide an apparatus and method for controlling the transmit power of a wireless telecommunications system in TDD mode, which uses the transceiver hardware of an existing wireless telecommunications system and can implement such features at a very low cost. It is.

In order to achieve the above object, the mobile terminal for the wireless telecommunication system of the TDD mode proposed in the present invention is a transceiver for receiving and transmitting radio frequency (RF) signal, and the receiver mode or transmitter mode according to the control signal A front end unit for selecting and sampling a signal to be transmitted when the mobile terminal is in transmitter mode to generate a sampling signal, and providing the control signal to the front end unit; Provides the signal to be transmitted to the front end unit when is in transmitter mode, and generates a power compensation signal to output the signal to be transmitted from the front end unit in accordance with the sampling signal from the front end unit. It includes a baseband processing unit for adjusting the.

In order to achieve the above object, the method of the mobile terminal in the wireless telecommunication system of the TDD mode proposed in the present invention comprises the steps of selecting a receiver mode or a transmitter mode, selecting a signal to be transmitted in the main signal and the sampling signal and Transmitting the main signal, and outputting the sampling signal as a feedback signal when the mobile terminal is in a transmitter mode, and generating a power compensation signal to adjust the power of the signal to be transmitted according to the sampling signal It includes.

Further description of the invention will be described below with reference to the accompanying drawings.

TD-SCDMA is a telecommunications system based on the TDD mode, and therefore, a preferred embodiment will be described in detail with reference to the accompanying drawings, taking a mobile terminal of TD-SCDMA as an example.

Comparing the multiband multimode transceiver of the present invention shown in FIG. 2 with the conventional transceiver shown in FIG. 1, the transceiver of the present invention samples the sampling unit as the coupling unit 3 and the coupling switch 21. It further has a switch and a power compensation signal generation module as a TPTCL (transmitter power tracking and control loop) signal generation module 22. A method of operating and connecting with components of an existing transceiver will be described below.

As shown in Fig. 2, the multiband multimode transceiver of the present invention is composed of a transceiver as an antenna 1, a front end unit 6, and a baseband processing unit 16.

The front end unit 6 consists of a switch unit 2, a coupling unit 3, a transmitter module 4 and a receiver module 5.

The baseband processing unit 16 is composed of a transmission baseband processing unit 7, a reception baseband processing unit 8, a control unit 15, and a TPTCL signal generation module 22.

The switch unit 2 consists of a transmitter / receiver mode selection switch 20 and a coupling switch 21, the TPTCL signal generation module 22 comprises an expected power calculation unit 9, an actual power calculation unit 10 ), A comparison unit 11, an addition unit 13, and a DAC unit 14.

In the TDD mode, when the control signal from the control unit 15 indicates the receiver mode or the transmitter mode, the transceiver operates as follows.

1. Wireless signal reception

When the transceiver is in a mode for receiving a radio signal, the transmitter / receiver mode selection switch 20 in the switch unit 2 switches to an antenna 1 connected with the receiving module 5 and receives from the antenna 1. The RF signal to be transmitted is transmitted by the transmitter / receiver mode selection switch 20 to the receiving module 5 and demodulated in the receiving module 5, and then the demodulated signal is received baseband processing in the baseband processing unit 16. Transmitted to unit 8, in which baseband reception and processing can be done.

When the transceiver of the present invention is in the reception mode, the transceiver operates in the same manner as the existing transceiver, and the transmitter composed of the transmission module 4 and the transmission baseband processing unit 7 does not operate at all.

2. Wireless signal transmission

When the transceiver is in a mode for transmitting a radio signal, the transmitter / receiver mode selector switch 20 in the switch unit 2 switches the antenna 1 to be connected to the coupling unit 3, and simultaneously switches 2 The coupling unit 21 in) will be connected to the cuffing unit 3 and the receiving module 5. After being modulated, amplified and filtered by the transmitting module 4, the main signal of the transmitter signal from the transmitting baseband processing unit 7 in the baseband processing unit 16 is transmitted to the transmitter / receiver mode selection switch 20. Is selected from the antenna 1, and a small part of the transmitter signal is input to the receiving module 5 as a coupling signal by the coupling switch 21.

In the receiving module 5, after demodulation, the coupling signal input is transmitted to the receiving baseband processing unit 8 in the baseband processing unit in the baseband processing unit 16.

In the baseband processing unit 16, the signal processed by the receiving baseband processing unit 8 is converted into a signal in the digital domain and then transmitted to the actual power calculation unit 10.

In the actual power calculation unit 10, the actual output power can be calculated according to the digital signal input.

On the other hand, in the expected power calculation unit 9, the expected output power can be calculated according to the transmission baseband processing signal of the digital domain provided by the transmission baseband processing unit 7.

The expected output power calculation and the actual output power calculation are input to the comparison unit 11, in which the expected output power and the actual output power are periodically compared, and an error signal is generated. The error signal may be used to obtain a power comparison signal in the digital domain after being calibrated, such as a TPTL signal, which will be input to the adding unit 13.

In the addition unit 13, the TPC signal from the transmitter power control unit 12 in the transmit baseband processing unit 7 will be combined with the TPTL signal, and the combined signal is input to the DAC unit 14. . After digital / analog conversion in the DAC unit 14, a power compensation signal, such as an analog form of a TPTCL signal, will be obtained, which TAGCL signal is used for AGC (automatic gain control) in the transmission module of the front end unit 6. Can be used to control.

Due to this TPTCL signal, the AGC in the transmission module 4 of the front end unit 6 is separated from the transmission baseband processing unit 7 in the baseband processing unit 16 to compensate for various unintended gain variations in the transmission chain. Will adjust the power of the signal to be transmitted.

As the unintended gain variation is compensated, the modulated, amplified and filtered RF signal by the transmitting module 4 is coupled to the coupling unit 3, the transmitter / receiver mode selector switch 20 and the antenna 1. Will be sent via

As illustrated in the description of the embodiments of the present invention in conjunction with the drawings, the essentials of the present invention are directed to a sampling module wherein the sampling value of the actual transmitter power consists mainly of the coupling unit 3 and the switch unit 2. And that the difference between the actual output power and the expected output power can be obtained by the power determination module mainly consisting of the actual power calculation unit 10 and the comparison unit 11, and the power compensation signal is It can be generated to adjust the level of the actual output power by the power compensation module mainly composed of the adding unit 13 and the transmitter power control unit 12.

The present invention relates to an apparatus and method for controlling transmitter power of a mobile terminal of a TDD mode wireless telecommunications system. When the signal is transmitted, a small portion of the output signal is considered as a coupling signal and fed back to the baseband processing unit 16 via the coupling switch 21. According to the coupling signal, the TPTCL signal generation module 22 in the baseband processing unit 16 generates a TPTCL signal for adjusting the power of the signal to be transmitted, and thus the apparatus and method described in the present invention is a transmission chain. It can effectively compensate for the various unintended gain variations observed in the various components of and improve the performance of the telecommunications system.

In addition, when a TPTCL signal is generated, the TPC signal provided by the transmitting baseband processing unit 7 is also used, so that the apparatus and method described in the present invention are various expected gains observed in various components of the transmission chain. It can effectively compensate for fluctuations and improve the communication quality of the system.

In addition, when a TPTCL signal is generated, the receiving module 5 and the receiving baseband processing unit 8 are used to process the coupling signal, so that the apparatus and method described in the present invention simplify hardware design. It can improve the performance of telecommunication systems and reduce costs.

Of course, although the present invention has been shown and described in connection with a preferred embodiment, those skilled in the art will appreciate that the present invention is applicable to the base station of the TDD mode system rather than to the mobile terminal of the TDD mode system.

While the invention has been shown and described with reference to preferred embodiments, it will be understood that modifications may be made within the spirit and scope of the invention as defined in the claims.

Claims (18)

In the mobile terminal of the TDD wireless communication system, A transceiver for receiving and transmitting radio frequency signals, A front end unit for selecting a receiver mode or a transmitter mode according to the control signal and sampling the signal to be transmitted when the mobile terminal is in the transmitter mode to generate a sampling signal, Provide the control signal to the front end unit, provide the signal to be transmitted to the front end unit when the mobile terminal is in transmitter mode, and generate a power compensation signal to generate the sampling signal from the front end unit A baseband processing unit for adjusting an output of the signal to be transmitted output from the front end unit according to: Mobile terminal. The method of claim 1, The front end unit Switch to the receiver mode or the transmitter mode according to the control signal from the baseband processing unit, and when the switch unit is in the transmitter mode, transmit a main signal of the received signals to be transmitted through the transceiver to A switch unit for outputting the sampling signal of the signal to be transmitted as a feedback signal; A sampling unit for sampling the signal to be transmitted to generate the sampling signal and inputting the sampling signal to the switch unit when the switch unit is in the transmitter mode; Process the signal to be transmitted from the baseband processing unit when the switch unit is in transmitter mode, provide a processed signal to the sampling unit, and supply power of the signal to be transmitted to the power from the baseband processing unit A transmission module adjusting according to a compensation signal, And a receiving module for receiving the sampling signal through the switch unit and providing the sampling signal to the baseband processing unit when the switch unit is switched to the transmitter mode. The method of claim 2, The switch unit comprises a transmitter / receiver mode selection switch for transmitting the main signal from the sampling unit via the transceiver when in the transmitter mode; And a sampling switch for feeding back the sampling signal from the sampling unit to the receiving module when the switch unit is in a transmitter mode. The method according to any one of claims 1 to 3, The baseband processing unit A transmitter baseband processing unit for outputting a signal relating to transmission power and a transmission power control signal; And a power compensation signal generation module for calculating a power comparison signal according to the sampling signal and the signal relating to the transmission power and generating the power calculation signal according to the transmission power control signal and the power comparison signal. The method of claim 4, wherein The power compensation signal generation module An actual power calculation unit for calculating an actual output power according to the sampling signal; A comparison unit for acquiring the power comparison signal according to the actual output power and the signal relating to the transmission power calculated by the actual power calculating unit; And a combining unit for combining the transmit power control signal provided by the transmitting baseband processing unit and the power comparison signal output from the comparing unit to generate the power compensation signal. The method of claim 4, wherein The power compensation signal generation module An actual power calculating unit for calculating an actual output power according to the sampling signal, An expected power calculation unit for calculating an expected output power according to the signal relating to the transmission power provided by the transmission baseband processing unit; A comparing unit for obtaining the power comparison signal according to the actual output power calculated by the actual power calculating unit and the expected output power calculated by the expected power calculating unit; And a combining unit for combining the transmit power control signal provided by the transmitting baseband processing unit and the power comparison signal output from the comparing unit to generate the power compensation signal. The method according to claim 5 or 6, And the comparing unit periodically obtains the power comparison signal in accordance with the signal relating to the actual output power and the transmit power. The method of claim 1, The mobile terminal is applied to a wireless communication system of the TDD mode. A method for a mobile terminal in a TDD mode wireless communication system, Selecting a receiver mode or a transmitter mode when the mobile terminal is in a transmission mode; Separating the signal to be transmitted into a main signal and a sampling signal, transmitting the main signal, and outputting the sampling signal as a feedback signal; Generating a power compensation signal to adjust the power of the signal to be transmitted in accordance with the sampling signal; Way. The method of claim 9, The switch unit selects the receiver mode or the transmitter mode according to the receiver / transmitter mode control signal. The method according to claim 9 or 10, A receiving module receives the sampling signal and outputs the sampling signal as the feedback signal when the mobile terminal is in a transmitter mode. The method according to any one of claims 9 to 11, Adjusting the signal to be transmitted is completed by a receiving baseband processing unit, a transmitting baseband processing unit and a power compensation signal generating module, The receiving baseband processing unit processes the received sampling signal and provides the processed sampling signal to the power compensation signal generation module, The transmission baseband processing unit provides a signal relating to transmission power and a transmission power control signal to the power compensation signal generation module, The power compensation signal generating module calculates a power comparison signal according to the processed sampling signal and the signal relating to the transmission power, and generates the power compensation signal according to the transmission power control signal provided by the transmission baseband processing unit. How to produce. The method of claim 12, The method executed by the power compensation signal generation module Calculating an actual output power according to the processed sampling signal; Obtaining the power comparison signal in accordance with a signal relating to the actual output power and the transmit power from the transmit baseband processing unit; Combining the power comparison signal and the power comparison signal provided by the transmission baseband processing unit to generate the power compensation signal. The method of claim 12, The method executed by the power compensation signal generation module Calculating an actual output power according to the processed sampling signal; Calculating an expected output power according to the signal relating to the transmit power provided by the transmit baseband processing unit; Acquiring the power comparison signal according to the actual output power and the expected output power; Combining the transmit power control signal and the power comparison signal provided by the transmit baseband processing unit, and processing the combined signal to generate the power compensation signal. The method according to claim 13 or 14, Acquiring the power comparison signal in accordance with the actual output power and the signal relating to the transmit power is performed periodically. The method of claim 9, The method is applied to a wireless communication system in a TDD mode. An apparatus for controlling transmit power, A power sampling module for sampling the actual transmission power; A power determination module for comparing the actual output power with an expected output power according to the received power sampling signal; A power compensation module for generating a power compensation signal according to the output signal from the power determination module and compensating for the actual output power; Transmission power control device. A transmitter apparatus in a wireless communication system, Transmission means for transmitting a signal, Sampling the signal power to be transmitted by the transmission means to obtain a sampling signal of the actual transmission power, comparing the expected transmission power with the actual transmission power according to the sampling signal, and comparing the signal to be transmitted by the sampling means. Transmission power adjusting means for adjusting the power according to the comparison result; Transmitter device.