KR19990002989A - Transmission power control circuit of base station - Google Patents

Abstract

The present invention relates to a transmission power control circuit of a base station for minimizing mutual interference and maintaining uniform call quality by dynamically measuring and adjusting the power of a transmission signal of a forward channel transmitted from a base station of a communication system to a mobile station. The transmission signal of the frequency up-converter amplified by the large power amplifier is coupled by a directional coupler, and then the coupled transmission signal is converted into a DC signal through the detection circuit unit, and then, respectively, to the A / D converter and the comparator. The comparator compares and amplifies the DC signal converted by the detection circuit unit and the signal output from the controller according to the threshold-related control signal of the controller according to the digital signal of the A / D converter. At the base station, the signal is fed to the gain control of the up-converter of the frequency upconverter. To be transmitted to station and to control the songsinho of power for the forward channel.

Description

Transmission power control circuit of base station

The present invention relates to a transmission power control circuit of a base station for minimizing mutual interference and maintaining uniform call quality by dynamically measuring and adjusting power of a transmission signal of a forward channel transmitted from a base station of a communication system to a mobile station. will be.

In general, the need for power control of the transmission / reception signals between the base station and the mobile station solves the near-far interference problem, the bit error rate and the interference problem between the mobile station and the minimum allowable E _{b. To} keep / N _o

That is, the transmission power of the mobile station and the base station should be adjusted to an appropriate level so that the system performance can be maintained even at the lowest possible power level of radiated radio waves.

In the conventional support station, the power control on the transmission signal of the forward channel receives a power measurement report message from the mobile station, compares the frame error rate (FER) of the register with a reference value, determines whether to control power, and then increases or decreases the transmission power of the corresponding channel. Decrease.

At this time, if the FER is greater than the reference value, the power of the current traffic channel is increased, and if the FER is less than the reference value, the power of the current traffic channel is reduced.

It also reduces power if no PMRM (Power Measurement Report Message) is reported from the mobile station for a period of time.

However, the power control of the transmission signal of the forward channel in the conventional base station is difficult to measure the correct transmission power due to mutual interference between the base stations, and thus does not provide uniform call quality because proper power control is not achieved. There was a problem that prevented.

The present invention has been made to solve the above problems, the object of which is to measure and adjust the power of the transmission signal of the forward channel transmitted from the base station to the mobile station by minimizing mutual interference between the base stations and uniform call quality The present invention provides a transmission power control circuit of a base station so as to maintain.

In order to achieve the above object, the transmission power control circuit of the base station of the present invention couples a transmission signal of a frequency upconverter amplified through a large power amplifier by a directional coupler, and then transmits the coupled transmission signal to a detection circuit unit. After converting into a DC signal through the A / D converter and a comparator, respectively, the comparator according to the threshold-related control signal of the control unit according to the digital signal of the A / D converter and the DC signal converted by the detection circuit unit and the control unit It compares and amplifies the signal output from the APC and supplies the DC signal, which is the actual control voltage, to the gain control part of the up-converter of the frequency upconverter so that the power of the transmission signal for the forward channel transmitted from the base station to the mobile station can be controlled. It is characterized by.

1 is a block diagram of a transmission power control circuit of a base station according to the present invention;

* Explanation of symbols for the main parts of the drawings

1 frequency up converter, 2 HPA, 3 directional coupler 4 BPF, 5 detection circuit, 6 A / D converter, 7 controller, 8 comparator

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the power loss control circuit of the base station according to the present invention.

1 is a block diagram of a transmission power control circuit of a base station according to the present invention. The frequency upconverter 1 converts an intermediate frequency (IF) signal of a forward link of a base station into a transmission frequency signal and outputs the frequency upconverter (1), and the frequency. A high power amplifier (hereinafter referred to as "HPA") 2 which amplifies the power of the transmission signal output from the up converter 1 by a predetermined power, and the power of the transmission signal amplified by the HPA 2. In order to measure the intensity, the directional coupler 3 coupling the transmission signal and the predetermined band of the transmission signal output through the directional coupler 3 are filtered to radiate to the outside through the transmission antenna Ant. A band pass filter (hereinafter referred to as a 'BPF') 4 and a transmission signal coupled by the directional coupler 3 use a Schottky diode element to direct current (DC). Converted to signal Output circuit 5, an analog to digital converter 6 for converting the DC signal converted by the detection circuit 5 into a digital signal, and a CPU (not shown). Transmission signal of a forward channel transmitted from a base station using a digital signal converted by the A / D converter 6 and a digital to analog converter (not shown). The control unit 7 monitors and adjusts the power level of the control unit, and compares and amplifies the DC signal converted by the detection circuit unit 5 and the control signal output from the control unit 7 to obtain a DC signal as an actual control voltage. Comparator 8 outputs to the frequency up-converter (1).

Referring to the operation of the transmission power control circuit of the base station of the present invention configured as described above, first, the directional coupler 3 inserted between the HPA (2) and the BPF (4) is a frequency up converter (output from the HPA (2) ( The transmission signal of 1) is coupled to branch the power of the transmission signal so that the control unit 7 can control and adjust the power level of the transmission signal.

Subsequently, the detection circuit unit 5 receives the transmission signal coupled from the directional coupler 3 and converts it into a DC signal using an element such as a Schottky diode.

In this case, the detection circuit unit 5 may implement a resonance circuit as necessary.

Subsequently, the A / D converter 6 receives the DC signal converted by the detection circuit section 5 and converts it into a digital signal that can be recognized by the CPU of the control section 7.

Then, the CPU of the control unit 7 receives the digital signal of the A / D converter 6 and compares the signal with the lock-up table to obtain a required value. Output to the / A converter.

Accordingly, the D / A converter converts the signal into a DC signal to set a threshold value of the comparator 8.

In this case, when the comparator 8 is not used, the output of the D / A converter is connected to a DC amplifier in the frequency up-converter 1 to directly control gain control.

As described above, the comparator 8 receiving the control signal related to the threshold control from the control unit 7 compares and amplifies the DC signal converted by the detection circuit unit 5 and the signal output from the control unit 7 to actually perform the control. A DC signal, which is a control voltage, is supplied to the gain control unit of the up-converter of the frequency up-converter 1.

The transmission power control circuit of the base station according to the present invention as described above receives a small power signal from the outside and generates a DC signal proportional to the power signal, and the generated DC signals are respectively compared with the A / D converter 6 and the comparator. By inputting (8) and comparing with the value of the lock-up table of the control unit 7 to produce a corresponding control command data value, it is possible to control the power of the transmission signal for the forward channel transmitted from the base station to the mobile station.

As described above, the present invention has the effect of maintaining uniform call quality by minimizing interference from adjacent cells of the base station by dynamically measuring and controlling the power of the transmission signal for the forward channel at the base station. .

Claims (1)

A frequency direction converter 1 for upconverting and outputting an intermediate frequency signal of a forward link of a base station into a transmission frequency signal, and an HPA 2 for amplifying a power of a transmission signal output from the frequency upconverter 1 by a predetermined power; And a directional coupler 3 coupling the transmission signal to measure the power strength of the transmission signal amplified by the HPA 2, and filtering a predetermined band of the transmission signal output through the directional coupler 3. A BPF (4) radiating out through a transmission antenna (Ant), a detection circuit section (5) for converting a transmission signal coupled by the directional coupler (3) into a DC signal using a Schottky diode element, and An A / D converter 6 for converting the DC signal converted by the detection circuit unit 5 into a digital signal, and a CPU D / A converter, and converting the digital signal converted by the A / D converter 6 From the base station The control unit 7 monitors and adjusts the power level of the transmission signal of the forward channel, and the DC signal converted by the detection circuit unit 5 and the control signal output from the control unit 7 are compared and amplified. And a comparator (8) for outputting a DC signal as a control voltage to the frequency up-converter (1).