KR20000026900A - Gain control circuit using detection of power level detection of high frequency circuit - Google Patents

Abstract

PURPOSE: A gain control circuit is provided to precisely control a gain of a high frequency circuit by using a variable attenuator. CONSTITUTION: A gain control circuit comprises: a high frequency circuit for amplifying or filtering power of input and output terminals; a power detector for detecting a part of real power of the high frequency circuit; an analog/digital converter for converting a voltage detected from the power detector to a digital value; a storing element for storing the inputted real value and the digital value converted from the analog/digital converter; a processor for processing data read from the storing element; a variable attenuator for controlling gain by variably attenuating an output value amplified or filtered by the high frequency circuit; and an attenuator controller for converting the gain output from the processor to a real control voltage and controlling the variable attenuator.

Description

Gain Control Circuit Using Power Level Detection of High Frequency Circuits

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gain adjustment circuit using power level detection of a radio frequency (RF) circuit, and in particular, according to a call volume in a code division multiple access (CDMA) mobile communication base station. The present invention relates to a circuit for controlling the output power of a high frequency circuit when the power change is severe.

In general, a conventional technique for adjusting the power or gain of a high frequency circuit is to configure a feedback circuit such as an automatic gain control (AGC) loop to compensate for errors. Or store information about the gain of the initial state circuit and control it to the desired gain.

A gain adjustment circuit of a method of compensating for an error by configuring a feedback circuit, which is the case of the former described above, is illustrated in FIG. 1. In this circuit, a high frequency circuit 10 including an amplifier or a filter, a variable attenuator 20, another high frequency circuit 30, a power detector 40, and an attenuator controller 50 are connected in a loop form. By configuring the feedback circuit, the gain is adjusted.

However, in the prior art having such a feedback configuration, although it is possible to maintain a constant power, there is a problem in that gain adjustment for adjusting to a different power level is not easy.

In the latter case, the information on the gain of the initial state circuit is stored and controlled to a desired gain when the state where the initial output power is detected is changed by the surrounding environment or a gain change is caused by deterioration of the device. There is a problem that cannot be compensated.

Accordingly, the present invention has been made to solve the above-described problems, a portion capable of detecting the power of the input stage and the output stage and converting the data into an analog / digital converter, and a memory and a result for storing the same. The purpose of the present invention is to provide a gain adjusting circuit capable of controlling the accurate gain of a high frequency circuit using a variable attenuator capable of controlling the gain.

The above and other objects and novel features of the present invention will become more apparent from the following detailed description of the invention and the accompanying drawings.

1 is a gain adjustment circuit applied to the present invention.

2 is a gain adjustment circuit according to the present invention;

<Description of the symbols for the main parts of the drawings>

10, 30, 100, 120: high frequency circuit 20, 110: variable attenuator

40, 130, 150: power detector 50, 140: attenuator controller

160, 170: Analog-to-digital converter 180: Memory

190: processor

In order to achieve the above object, a preferred embodiment of a gain adjustment circuit using power level detection of a high frequency circuit according to the present invention, which is invented to achieve the above object, is a high frequency circuit that amplifies or filters the power of an input terminal and an output terminal, and the high frequency circuit. A power detector for detecting a part of the actual power of the analog, an analog / digital converter for converting the DC voltage detected by the power detector into a digital value, and a storage device for storing the digital value converted from the analog / digital converter and the actual input level. A processor for reading and processing data from the storage device, a variable attenuator for variably attenuating the output value amplified or filtered by the high frequency circuit, and converting the gain output from the processor into an actual control voltage. Attenuator Control to Control Variable Attenuator It includes.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a configuration diagram of a gain adjustment circuit according to the present invention. Referring to this, the present invention is a high-frequency circuit (100, 120) for amplifying or filtering the power of the input and output stages and the power detector 130, 150 for detecting a part of the actual power of the high-frequency circuit (100, 120) ) And the analog / digital converters 160 and 170 for converting the DC voltage detected by the power detectors 130 and 150 into digital values, and the digital values converted from the analog / digital converters 160 and 170 and actually inputted. And a processor 190 that reads and processes data from the memory device 180 and stores the level, and variably attenuates output values amplified or filtered by the high frequency circuits 100 and 120. And attenuator controller 140 for controlling the variable attenuator 110 after converting the gain output from the processor 190 to an actual control voltage.

In addition, the power detectors 130 and 150 include a power divider for distributing power between an input terminal and an output terminal, and a power level detector for detecting a desired level of power among the distributed powers. The attenuator controller 140 is output from a processor. It consists of a digital / analog converter and a buffer circuit that converts gain power into a real DC voltage.

In the present invention configured as described above, the power detectors 130 and 150 include a power divider and a power level detector to detect a part of the actual power of the high frequency circuit 100 or 120 that amplifies the input high frequency or filters the filter. It converts the detected DC voltage into digital values in the analog / digital converters 160 and 170 and stores them in the memory device 180. In addition, the attenuator controller 140 includes a digital-to-analog converter and a buffer circuit. The variable attenuator 110 may be adjusted after converting the gain output from the processor 190 to an actual control voltage.

After the circuit is manufactured, the signal generator generates a signal for the actual frequency and input level range using a signal generator, applies it to the circuit, and then reads the value of the input analog / digital converter and the actual input level. To the memory.

In the case of the output stage, the gain is changed for all control ranges of the variable attenuator, and the actual output level is measured by using a spectrum analyzer or a power meter and the value read by the output analog / digital converter. The control value of the variable attenuator is stored in the storage device.

After the calibration of the high frequency circuit is performed, it is installed in the real system, and the input power and output power level are measured and compared with the data of the memory device to obtain the gain of the high frequency circuit and the actual power level. Thus, the variable attenuator can be controlled to have a desired power level or gain.

While the invention is susceptible to various modifications and alternative forms, the disclosure thereof has been described with reference to specific embodiments only. It is to be understood, however, that the present invention is not limited to the specific forms referred to in the specification, but rather that the invention is intended to cover all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to include.

In the present application operating as described above, the effects obtained by the representative ones of the disclosed inventions will be briefly described as follows.

The power level for gain control in the service state can be obtained because the gain of the high frequency circuit can be known even in the environment where the power level varies according to the amount of traffic channels, such as when measuring the code division multiple access base station transmit power. It is possible to measure and even compensate for gain variation due to environmental change or deterioration of the device.

Claims (3)

A high frequency circuit that amplifies or filters the power of the input and output stages; A power detector for detecting a part of actual power of the high frequency circuit; An analog / digital converter for converting the DC voltage detected by the power detector into a digital value; A memory device for storing the digital value converted from the analog-to-digital converter and the actual input level; A processor for reading and processing data from the storage device; A variable attenuator for controlling gain by variably attenuating an output value amplified or filtered by the high frequency circuit; And And an attenuator control unit controlling the variable attenuator after converting the gain output from the processor to an actual control voltage. The method of claim 1, wherein the power detector, A power distributor for distributing power between the input and output terminals; And a power level detector for detecting power of a desired level among the distributed powers. The method of claim 1, wherein the attenuator control unit, A digital-to-analog converter for converting gain power output from the processor into a real direct current voltage; A gain adjustment circuit using power level detection of a high frequency circuit, comprising a buffer circuit.