KR20010029146A - Apparatus for controlling power in code division multiple access system - Google Patents

Abstract

PURPOSE: The apparatus for controlling a power of CDMA is provided not to use an HDET(High power DETection) circuit, and not to perform operation of a power amplifier module coupling a part of an output of an IF(Intermediate Frequency) transmitter, so as to decrease an area of a CDMA system, and to decrease a loss of a radio frequency transmission power, then to increase margins of various measurement items. CONSTITUTION: A receive data gain block(101) outputs a gain of a receiving power corresponding to a predetermined transmitting power. An IF receiver(102) receives a gain signal of the receive data gain block(101), and converts the gain signal into a DC value. An IF transmitter(103) receives the DC value(Rx_AGC) from the IF receiver(102), and converts the DC value into a digital signal, then outputs the digital signal. A power amplifier module(104) amplifies the digital signal and outputs a transmission power of an RF(Radio Frequency). A processor(105) outputs a power control signal to the IF transmitter(103) and the IF receiver(102), respectively. The IF transmitter(103) comprises as follows. An ADC(Analog to Digital Converter) converts the DC value received from the IF receiver(102) into the digital signal. A MUX(Multiplexer) multiplexes the digital signal. An AGC(Automatic Gain Controller) receives the output signal of the MUX, and outputs an automatic gain signal of a transmission power.

Description

Power control device of code division multiple access method {APPARATUS FOR CONTROLLING POWER IN CODE DIVISION MULTIPLE ACCESS SYSTEM}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a code division multiple access system (hereinafter, abbreviated as CDMA), and to a power control apparatus of a CDMA system that controls power during transmission using automatic gain upon reception.

In general, in the mobile communication system using the CDMA method, it is necessary to properly control the transmission power of the mobile station due to the attenuation of radio waves due to the multipath fading phenomenon.

In addition, since the strength of the received signal changes in accordance with the distance from the base station, power control for correcting it must also be performed at the same time.

Meanwhile, the mobile station generates a power control signal by measuring the signal power of the received base station and compares it with a reference value, and the generated power control signal is included in a signal transmitted from the mobile station and transmitted to the base station.

Then, the base station extracts the power control signal and adjusts the power of the base station transmission signal using the same.

Power control methods include reverse open loop power control, reverse closed loop power control, and forward power control.

An important consideration in the use of the terminal is automatic gain control (AGC) for power of the terminal during transmission and reception.

In order to proactively cope with changing surrounding conditions, the terminal measures power of the received signal and adjusts the strength of the power of the transmitted signal in consideration of this.

The automatic gain adjustment is performed by using the automatic gain adjustment amplifier and the RF / IF interface provided in the transmitter and the receiver of the terminal, respectively.

Hereinafter, a CDMA power control apparatus according to the prior art will be described with reference to the accompanying drawings.

1 is a block diagram of a CDMA power control apparatus according to the prior art.

That is, the CDMA power control apparatus according to the prior art is a power amplifier (PA) 10 for generating a radio frequency (RF) band power by coupling the output power of the transmission unit (coupling), and the radio frequency band High power detector (HDET) 20 for converting power into DC voltage, and digital signal for each level based on the output DC voltage value of the high voltage detector 20, that is, analog signal to digital signal. It consists of an IF (Intermediate Frequency Transmitter (IFT)) 30 which converts (Analog to Digital Conversion (ADC)) and writes to the estimate of the high voltage detector 20.

The CDMA power control apparatus according to the prior art configured as described above operates as follows.

First, for a high voltage detection (HDET) estimation, which is one of estimation data items of a mobile terminal, a predetermined level is transmitted.

Each transmission of each specific level couples the transmission output power of the output of the power amplifier 10, and then converts the radio frequency band power into a DC voltage using the high voltage detector 20.

Subsequently, the IF transmitter 30 determines the analog-to-digital conversion (ADC) value for each level based on the DC voltage value, and writes it to the high voltage detection estimate.

In the conventional CDMA power detection, power detection is performed by dividing a power range of 11 dBm to 33 dBm into a predetermined period.

The high voltage detection estimate, which is one of estimated data input when the mobile terminal is manufactured, and the value detected when the mobile terminal is connected are compared with each other to determine the output power.

For example, if the estimates of the high voltage detector are 45 and 50, respectively, wherein the 45 estimate is a detected high voltage detection value of 11 dBm transmit output power in the high voltage detection estimate, and the 50 estimate is a detected high voltage detection of 17 dBm transmit output power. Value.

Using this, if the analog-to-digital conversion of the high-voltage detector reaches 47 during a real call, the transmit output power will be between 11dBm and 17dBm.

In this way, the transmission power level is determined by comparing the output power (radio frequency band power) of the power amplifier 10 with the DC value and the value stored in advance by estimation.

However, the CDMA power control device of the prior art using the high voltage detector 20 generates a signal loss of 0.5 dB to 1 dB because the power amplifier 10 must couple radio frequency band power.

In addition, since the high voltage detector 20 is composed of complicated circuits, the high voltage detector 20 occupies a large area and is inefficient.

Disclosure of Invention An object of the present invention is to solve the conventional problems as described above, and to provide a CDMA type power control device that uses an automatic gain upon reception to facilitate output power control of a mobile terminal. have.

Another object is to add an analog-to-digital converter (ADC) and multiplexer (MUX) in the IF transmitter (IFT) without using a high voltage detector (HDET) to reduce the area of the system and facilitate the control of output power.

The CDMA power control apparatus according to the present invention for achieving the above object is a receiving gain block for outputting a gain of the received power corresponding to a predetermined transmission power, and receives the gain signal of the receiving gain block is converted into a DC value An IF receiver, an IF transmitter for receiving a DC value of the IF receiver and outputting a digital signal, a power amplifier module for amplifying the digital signal and outputting radio frequency (RF) transmission power, and each of the IF transmitter and the IF receiver. And a processor for outputting a power control signal.

1 is a block diagram of a CDMA power control apparatus according to the prior art

2 is a configuration diagram of a CDMA power control apparatus according to an embodiment of the present invention;

Explanation of symbols for the main parts of the drawings

101: IF transmitter 102: power amplifier module

103: receive (Rx) gain block 104: IF receiver

105: OP-AMP 106: processor

Hereinafter, a CDMA power control apparatus according to an embodiment of the present invention will be described.

2 is a block diagram of a CDMA power control apparatus according to an embodiment of the present invention.

In other words, the CDMA power control apparatus according to the embodiment of the present invention receives a reception gain block 101 for outputting a gain of a reception power corresponding to a preset transmission power, and receives a gain signal of the reception gain block 101 from a direct current. IF receiver 102 for converting to a value, IF transmitter 103 for receiving a DC value Rx_AGC of the IF receiver 102 and outputting a digital signal, and amplifying the digital signal to transmit radio frequency (RF) to transmit power. It includes a power amplifier module 104 for outputting a, a processor 105 for outputting a power control signal to the IF transmitter 103 and the IF receiver 102, respectively.

Here, the IF transmitter 103 receives an analog DC value Rx_AGC of the IF receiver 102 and converts the digital signal into a digital signal, a multiplier MUX that multiplies the digital signal, and And an automatic gain control unit AGC that receives an output signal of the multiplier MUX and outputs an automatic gain signal of transmission power.

The operation of the CDMA type power control apparatus configured as described above will be described in detail as follows.

That is, the transmission power is based on the reception power, which is expressed as follows.

Average transmit output power (dBm) =-average receive input power (dBm) + offset power.

Here, the offset power is -73 dBm in cellular mobile communication and -76 dBm in personal mobile communication (PCS).

Therefore, in order to measure the HDET value, the received power level corresponding to the preset transmission power level is referred to.

Each of these receive powers is input to the receive gain block 101 and the respective auto gains Rx_AGC are output.

The IF receiver 102 then receives the automatic gain of the received power and converts it to a DC level.

Subsequently, the ADC input terminal of the IF transmitter 103 which receives the DC level of the automatic gain which is the output of the IF receiver 102 converts the automatic gain DC level of the received power into a digital signal.

The multiplier MUX configured in the IF transmitter 103 multiplies each digital signal, and the automatic gain control unit AGC receives the output signal of the multiplier and outputs an automatic gain signal Tx_AGC of transmission power.

The power amplifier module 104 receives the automatic gain signal Tx_AGC of the transmission power and outputs a radio frequency (RF) band transmission power.

For example, when the transmission power is 11 dBm, the reception power is -84 dBm when calculated using the above equation.

That is, -84dBm is input as the received power, and the automatic gain (Rx AGC) at this time is connected to the ADC input terminal of the IF transmitter 103 to input the HDET estimate based on the automatic gain DC value of the received power.

As described above, the CDMA power control apparatus according to the present invention can remove the HDET circuit, thereby reducing the area of the CDMA system.

In addition, the loss of the transmission power of the radio frequency band can be reduced by not performing the operation of the power amplifier module coupling some of the outputs of the IF transmitter.

In addition, since the loss of transmission power is reduced, the margin of various measurement items in the transmitter can be increased.

Claims (5)

A reception gain block for outputting a gain of a reception power corresponding to a preset transmission power, An intermediate frequency (IF) receiver which receives a gain signal of the received gain block and converts it into a DC value; An intermediate frequency (IF) transmitter for receiving a DC value of the intermediate frequency (IF) receiver and outputting a digital signal; A power amplifier module for amplifying the digital signal and outputting radio frequency (RF) band transmission power; And a processor for outputting a power control signal to the intermediate frequency (IF) transmitter and the intermediate frequency (IF) receiver, respectively. The apparatus of claim 1, wherein the intermediate frequency (IF) receiver comprises an automatic gain control amplifier for amplifying the received gain signal. The digital frequency converter of claim 1, wherein the intermediate frequency (IF) transmitter comprises: an analog digital converter for receiving a direct current value, which is an output of the intermediate frequency (IF) receiver, and converting the digital signal into a digital signal, a multiplier for multiplying the digital signal, and the multiplier; And an automatic gain control unit configured to receive an output signal and output an automatic gain signal of a transmission power. The apparatus of claim 1, wherein the DC value of the received gain signal is input to an analog digital converter of the intermediate frequency (IF) transmitter to determine a high voltage detector (HDET) estimate. . The apparatus of claim 1, wherein the intermediate frequency (IF) transmitter receives an output of an operational amplifier that an operation amplifies a power control signal output from the processor.