KR100424463B1 - Transmitter of a mobile communication terminal equipment and method for cotrolling transmission power therein - Google Patents

Abstract

The present invention relates to a transmission apparatus of a mobile communication system and a power control method of a transmission apparatus, wherein a mobile communication terminal having a plurality of transmission channels and transmitting through one or more channels for any time interval is transmitted for each time interval. Determine one or more channels to be used to determine the digital gain of the identified channel according to the digital gain required for each time period, and determine the reference channel so that power from the digital gain of the reference channel is required for each time period. If less than the transmit power, the power is amplified so that the power of the reference channel is the required transmit power.

Description

TRANSMITTER OF A MOBILE COMMUNICATION TERMINAL EQUIPMENT AND METHOD FOR COTROLLING TRANSMISSION POWER THEREIN}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication terminal of a code division multiple access (CDMA) system, and more particularly, to a transmitter and a power control method of a transmitter of a mobile communication terminal.

In general, the reverse transmission in a CDMA system modulates and spreads voice or image digital data to be transmitted by a mobile communication terminal transmission device, converts and spreads the spread spectrum digital data into analog transmission data, filters the analog amplification signal, and combines the carrier wave with a base station. By sending it.

In the currently commercialized second generation CDMA system, the transmission apparatus of the mobile communication terminal performs reverse transmission through the above process, and the reverse link includes a communication channel and an access channel. In the method of transmitting the entire channel, one channel is allocated for a predetermined time interval, and each channel is separated in time and transmitted. Therefore, the digital gain value, which is the digital gain ratio of each channel during the digital data modulation and spreading, or the analog gain value during the analog amplification, is kept constant.

The reverse transmission process of the CDMA 2000 1x system, which is being commercialized as the next generation of the second generation CDMA system, is the same as the reverse transmission process of the second generation CDMA system, but is different from the second generation CDMA system. There are some differences. First, the channels constituting the reverse link include a pilot channel, a fundamental channel, a supplemental channel 1,2, a dedicated control channel, and a common control channel. It is subdivided and diversified into common control channel, access channel, and enhanced access channel. In the method of transmitting the entire channel, several channels are simultaneously transmitted in parallel with the pilot channel in one time interval. For example, the pilot channel, the designated control channel, and the auxiliary channel 2 are combined to form I-channel data, and one channel selected from the auxiliary channel 1, the common control channel, and the enhanced access channel and the primary channel are added. Combined and transmitted as Q-channel (quadrature-channel) data. 1 illustrates a transmission device of a mobile communication terminal. 1 is a block diagram of a mobile communication terminal transmitting apparatus. As shown in FIG. 1, the transmitting device includes a baseband processor 100, a radio frequency (RF) unit 200, a timer 210, and the like. The baseband processor 100 includes a modulator 110, a digital amplifier 120, a pseudorandom noise (PN) sequence generator 130, a complex multiplier 140, a baseband filter stage 150, and a digital analog modulator 160. And a bandpass filter 170. The radio frequency (RF) unit 200 includes a frequency synthesizer 180, a power amplifier 190, and the like.

Since the transmitting device having the structure described above maps two or more channels together when transmitting I and Q channel data mapping, multiplies different digital gain values by channels to accommodate both the digital gain value and the analog gain value determined by the base station. Do it. In this case, since the total digital gain value is fixed according to the number of inputs of the digital analog converter 160, when two channels are transmitted in one frame, the digital gain of each channel is relative to that in which one channel is transmitted in one frame. To decrease. As a result, waveform distortion occurs during analog conversion of digital data. Therefore, gain supplementation is required by the gain reduced in digital power amplification, and thus gain control of the power amplifier 190 is required. By the way, in the prior art, the gain control in consideration of this is not performed in the transmission apparatus. In addition, the number of channels transmitted may vary according to each time interval, and in some cases, two or more channels may exist in only one portion of one time interval, so proper gain control is required according to each time interval start point. . Moreover, the power value for each channel at the time of transmission is variably determined by the base station in real time and is required by the mobile communication terminal. The transmission apparatus of the mobile communication terminal needs the gain control accordingly.

Accordingly, an aspect of the present invention is to provide a transmitter and a method of controlling a transmit power of a transmitter for gain control according to digital gain compensation reduced when simultaneous transmission of a plurality of channels at one time interval.

Another object of the present invention is to provide a transmission field apparatus and a transmission power control method of a transmission apparatus for proper gain control according to the transmission power that changes in real time.

In order to achieve the above object, the present invention includes a plurality of transmission channels, and in the transmission power control method of a mobile communication terminal transmitting through one or more channels for every time interval, one or more channels to be used for transmission for each time interval. Determining a digital gain of the identified channel according to the digital gain required for each time interval, identifying a reference channel among the identified channels, and digitally identifying the identified reference channel. If the power due to the gain is less than the transmission power required for each time period, characterized in that the power amplification step so that the power of the reference channel is the required transmission power.

And a plurality of transmission channels having a plurality of transmission channels and determining a digital gain of a corresponding transmission channel corresponding to each of the plurality of transmission channels in a transmission apparatus of a mobile communication terminal transmitting through one or more channels at arbitrary time intervals. A digital amplifier, a power amplifier for power amplifying and outputting a transmission signal composed of the plurality of transmission channels, and identifying one or more channels to be used for transmission at each time interval and controlling the plurality of digital amplifiers according to the required digital gain. Determining the digital gain, and identifying the reference channel among the identified channels, and controlling the gain of the power amplifier so that the power of the reference channel becomes the required transmission power if the power by the digital gain is smaller than the required transmission power. And a gain controller.

1 is a block diagram of a general mobile communication terminal transmitting apparatus;

2 is a block diagram of a mobile communication terminal transmitting apparatus according to an embodiment of the present invention;

3 is a clock signal timing diagram according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, detailed description of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

The present invention relates to a method having a plurality of transmission channels and controlling a power of a transmission signal in accordance with a transmission power required for each time interval by a mobile communication terminal transmitting through one or more channels for each time interval.

In general, since information on an appropriate transmission power of the mobile communication terminal transmission signal is provided from the base station, an embodiment of the present invention describes a process of controlling the transmission power of the mobile communication terminal according to the transmission power required by the base station. The time period is represented by a frame.

First, a transmission apparatus of a mobile communication terminal according to a third generation CDMA system according to an embodiment of the present invention will be described with reference to FIG. 2 is a block diagram of a mobile communication terminal transmitting apparatus according to an embodiment of the present invention. As shown in FIG. 2, the transmission apparatus according to the embodiment of the present invention includes a baseband processor 100, a radio frequency (RF) unit 200, a timer 240, a gain controller 210, and a frame. It includes a boundary signal generator 220, a wireless hardware interface 230 and the like.

The baseband processor 100 includes a modulator 110, a digital amplifier 120, a PN sequence generator 130, a complex multiplier 140, a baseband filter stage 150, a digital analog modulator 160, a bandpass filter. It comprises a stage 170 and the like. The modulator 110 modulates the digital signal for each channel input to the baseband processor 100 and outputs the digital signal to the digital amplifier 120. The digital amplifier stage 120 is composed of a plurality of digital amplifiers 121, 123, 125, and 127, and each digital amplifier 121, 123, 125, and 127 corresponds to each channel. The maximum gain values of the digital amplifiers 121, 123, 125, and 127 for each channel are determined according to the number of input bits of the digital analog converter 160. In the embodiment of the present invention, the input of the digital-to-analog converter 160 is set to 8 bits. Accordingly, the digital gain values of the digital amplifiers 121, 123, 125, and 127 are 0 to 255. Each of the digital amplifiers 121, 123, 125, and 127 generates a final channel signal by multiplying and outputting corresponding channels by multiplying an appropriate gain value according to the control of the gain controller 210, and the digital gain sum of each channel signal is 255. It is input to the signal complex multiplier 140 output for each channel from the digital amplification stage 120, spreads according to the PN code generated by the PN sequence generator 130, and mapped to I-channel data and Q-channel data. And output to the baseband filter stage 140. The baseband filter stage 150 includes a baseband filter 151 for I-channel data and a baseband filter 153 for Q-channel data, and filters each channel data signal and outputs the digital-to-analog converter 160. do. The digital analog converter 160 converts the input I-channel data and Q-channel data into analog signals for each channel, outputs each channel, and has an 8-bit input. The band pass filter stage 170 filters each channel-specific analog signal input from the digital-to-analog converter 160 by the band pass filters 171 and 173 and outputs the same to the wireless unit 200.

The radio unit 200 includes a frequency upstream 180 and a power amplifier 190. The frequency uplinkers 181 and 183 of the frequency upstream stage 180 up-convert the analog signal for each channel to a radio frequency and then synthesize the transmission signal into a power amplifier 190. The power amplifier 190 amplifies and outputs a transmission signal input under the control of the gain control unit 210.

The gain control unit 210 added according to the present invention includes a digital gain controller 211 and a power gain controller 213. The gain control unit 210 controls the gains of the digital amplifier 120 and the power amplifier 190 according to the channel gain information and the transmission power information received from the base station. The channel gain information is a digital gain value of each channel transmitted for each frame, that is, information about a digital gain ratio of each channel. The transmission power information is information on the reference channel and the power value of the reference channel as a reference of the transmission power according to the importance of the information transmitted through each channel, the state of the channel, the state of the subscriber, the service type, and the medium environment. To change.

The digital gain controller 211 controls the gains of the plurality of digital amplifiers 121, 123, 125, and 127 constituting the digital amplifier stage 120 according to the channel gain information. The power gain controller 213 calculates an appropriate gain value of the power amplifier 180 according to the channel gain information and the transmission power information and controls the gain of the power amplifier 190. That is, when the power of the reference channel determined according to the channel gain information is smaller than the reference channel power according to the transmission power information, the transmission signal is controlled to have a reference channel power value according to the transmission power information by controlling the gain value of the power amplifier 190. Amplify.

The transmitting apparatus having the above structure transmits only the basic channel in the first frame, and simultaneously transmits the basic channel and the auxiliary channel in the second frame, and the channel gain information in which the digital gain ratio of the basic channel and the auxiliary channel is 1: 2. When the reference channel is a basic channel and the reference channel power is P, which is the power when the base channel is transmitted alone, and the transmission power information, the gain control process will be described below.

First, according to the gain control of the digital gain controller 211 in the first frame, the digital gain of the basic channel output by the first digital amplifier 121 which is the digital amplifier of the basic channel is referred to as D _F1 . Then, under the control of the power gain controller 211, the power amplifier 190 outputs a transmission signal having an A power gain. In this case, if the power of the entire transmission signal is P, P may be represented by Equation 1 below.

Next, the digital gain of the basic channel signal output by the first digital amplifier 121 according to the gain control of the digital gain controller 211 in the second time interval is referred to as D _F2 . The digital gain of the auxiliary channel signal output by the second digital amplifier 123, which is a digital amplifier of the auxiliary channel, is referred to as D _S2 . At this time, D _F2 and D _S2 may be expressed as Equation 2 and Equation 3 according to the channel gain information.

The power gain controller 211 calculates a gain value A 'of the power amplifier 190 according to the channel gain information and the transmission power information. When the digital gain ratio of the primary channel and the auxiliary channel is 1: 2, the transmission powers P _F2 and P _S2 of each channel are represented by equations (4) and (5).

The total transmit signal power P 'of the second frame may be represented by Equation 6.

to be.

Since the power of the base channel should be maintained at P according to the transmission power information, the following equation 7 is obtained.

Accordingly, the power gain of the power amplifier 190 is calculated to be 3A in the second frame by Equation 7, and the power amplifier 190 receives a transmission signal having a 3A power gain under the control of the power gain controller 211. Output Therefore, the power gain compensation is three times higher than that of the basic channel alone output of the first frame. The control signal output from the power gain control 211 is provided to the power amplifier 190 through the hardware interface 230.

2, the timer 240 provides a timing signal for modulation and assurance of the digital signal for each channel. The frame start signal is provided to the baseband filter stage 150 according to the frame reference signal received from the base station, so that the spread spectrum I, Q data is output in accordance with the frame start time. In addition, according to the present invention, the timer 240 generates a timing signal so that the frame boundary signal generator 220 can generate the frame boundary signal before the clock as long as the I, Q channel data output from the baseband filter stage 150 starts. Supply. The timing diagram according to this is shown in FIG. 3. 3 is a clock signal timing diagram according to an embodiment of the present invention.

The frame boundary signal generator 220 added according to the present invention includes a first frame boundary signal generator 221, a second frame boundary signal generator 223, and an OR gate 225. A frame boundary signal is generated in accordance with the provided timing signal. According to an embodiment of the present invention, the first frame boundary signal generator 221 generates a frame boundary signal indicating a frame boundary time of 20 ms frame, and the second frame boundary signal generator 223 indicates a frame boundary indicating a 5 ms frame boundary time. The signal is generated to allow power gain control of the power amplifier 190 at a proper time.

According to the embodiment of the present invention, each CDMA2000 1x transmission channel is composed of 20 ms frames or 5 ms frames, and transmission through a 5 ms frame may be simultaneously transmitted at any position within the 20 ms frame. That is, when a channel of 20 ms frame is transmitted, a channel of 5 ms frame may exist at 0 to 5 ms time, may exist at 6 ms to 10 ms time, may exist at 11 ms to 15 ms time, and may exist at 16 to 20 ms time. It may be.

In the second frame of the example for the control of the transmission signal power, if the 5 ms auxiliary channel is simultaneously transmitted at 6 ms to 10 ms time of the 20 ms basic channel, the power gain of the power amplifier 190 becomes A at 0 to 5 ms, and 6 m. It becomes 3A at ~ 10ms, and A again at 11 ~ 20ms.

Therefore, the frame signal generator 220 logically connects a signal indicating a 20 ms frame boundary signal and a signal indicating a 5 ms frame boundary signal to an OR gate 235 so that a 5 ms frame transmission occurs during a 20 ms frame transmission. Provide a frame boundary signal before. Accordingly, the power amplifier 190 may adjust the power of the transmission signal with an appropriate gain at an appropriate time. The frame boundary signal output from the frame signal generator 220 is provided to the power amplifier 190 through the hardware interface 230.

In the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be defined by the described embodiments, but should be determined by the equivalent of claims and claims.

As described above, the present invention can appropriately control transmission power by compensating for digital gain reduced when simultaneous transmission of a plurality of channels at one time interval and controlling gain according to transmission power that changes in real time.

Claims (3)

In the transmission power control method of a mobile communication terminal having a plurality of transmission channels, and transmits through one or more channels for any time interval, Identifying at least one channel to be used for transmission at each time interval; Determining a reference channel among the identified channels and amplifying the transmission power of the reference channel when the determined transmission power of the reference channel is smaller than the required transmission power in real time. . In the transmission power control method of a mobile communication terminal having a plurality of transmission channels, and transmits through one or more channels for any time interval, Identifying at least one channel to be used for transmission at each time interval; Determining the digital gain of the identified channel according to the digital gain required for each time period; Identifying a reference channel among the identified channels; If the power obtained by the digital gain of the reference channel is less than the transmission power required for each time interval, the transmission power saving control characterized in that the step of power amplification so that the power of the reference channel is the required transmission power Way. In the transmitting apparatus of the mobile communication terminal having a plurality of transmission channels, and transmits through one or more channels for any time interval, A plurality of digital amplifiers for determining a digital gain of a corresponding transmission channel corresponding to each of the plurality of transmission channels; A power amplifier for amplifying and outputting a transmission signal comprising the plurality of transmission channels; Identifying one or more channels to be used for transmission at each time interval and controlling the plurality of digital amplifiers according to the required digital gain to determine the digital gain, and identifying the reference channel among the identified channels to determine the power required by the digital gain. And a gain controller for controlling the gain of the power amplifier such that the power of the reference channel is the required transmission power when the transmission power is less than the transmission power.