KR100978663B1 - Ultra Short-ACC Circuit and TV Tuner - Google Patents

Abstract

The present invention relates to an ultra-AGC circuit and a television tuner, wherein the ultra-AGC circuit of the present invention includes: a power detector for detecting power of an RF broadcast signal and controlling attenuation rate and amplification gain according to the detected power; A variable attenuation unit configured to set an attenuation rate according to the attenuation rate control of the power detector, and attenuate the RF broadcast signal at the set attenuation rate; And a variable amplifier configured to set a gain amplification gain according to the amplification gain control of the power detector, and amplify the RF broadcast signal from the variable attenuator by the set amplification gain.

We propose a television tuner including such an ultra-AGC circuit.

Television Tuners, Ultra-AGC (PRE-AGC), RF-AGC, Distortion

Description

Ultra-Acc circuit and television tuner {PRE-AGC CIRCUIT, AND TELEVISION TUNER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ultra-AGC circuit that can be applied to a television receiver. In particular, the signal gain is automatically adjusted at the ultra-stage before RF-AGC processing, thereby preventing signal distortion in the RF-AGC process by a strong signal. And an ultra-AGC circuit and a television tuner.

In general, it is important for a television receiver to receive a broadcast signal in a place where a broadcast signal is weak, but must also be able to receive a broadcast signal even where a strong broadcast signal is received.

The voltage used by television receivers is usually 5V, but in the future, more and more low voltages are required, which requires a low noise amplifier (LNA) that operates at low power. However, when the low voltage is used, the linear range of the low noise amplifier is reduced, so that the signal is distorted in the environment where a strong broadcast signal is input, causing a problem of screen defects.

The present invention has been proposed in order to solve the above problems of the prior art, the object of which is to adjust the signal gain automatically at the first stage before the RF-AGC processing, the signal distortion in the RF-AGC process by a strong signal To provide an ultra-AGC circuit and a television tuner that can be prevented.

One technical aspect of the present invention for achieving the above object of the present invention, the power detection unit for detecting the power of the RF broadcast signal, and controls the attenuation rate and amplification gain in accordance with the detection power; A variable attenuation unit configured to set an attenuation rate according to the attenuation rate control of the power detector, and attenuate the RF broadcast signal at the set attenuation rate; And a variable amplifier configured to set a gain amplification gain according to the amplification gain control of the power detector, and amplify the RF broadcast signal from the variable attenuator with the set amplification gain.

In one technical aspect of the present invention, the variable amplifier comprises a low noise amplifier for amplifying the RF broadcast signal from the variable attenuator with low noise.

The power detector controls the minimum attenuation rate and the maximum amplification gain when the detection power is lower than a first reference power, and the detection power when the detection power is higher than the first reference power and lower than the second reference power. The attenuation rate is gradually controlled as the power increases, and when the detection power is higher than the second reference power, the amplification gain is gradually controlled as the detection power increases.

In contrast, the power detector controls the minimum attenuation rate and the maximum amplification gain when the detection power is lower than the first reference power, and the detection power is higher than the first reference power and lower than the second reference power. The amplification gain can be controlled to be gradually lowered as the detection power is increased. If the detection power is higher than the second reference power, the attenuation ratio is gradually controlled as the detection power is increased. .

In addition, another technical aspect of the present invention, the power detection unit for detecting the power of the RF broadcast signal, and controls the attenuation rate and amplification gain in accordance with the detection power; A variable attenuation unit configured to set an attenuation rate according to the attenuation rate control of the power detector, and attenuate the RF broadcast signal at the set attenuation rate; A variable amplifier configured to set a gain amplification gain according to the amplification gain control of the power detector, and amplify the RF broadcast signal from the variable attenuator by the set amplification gain; And an amplification gain is automatically set according to the RF-AGC control signal, and an RF-AGC circuit section for amplifying the RF broadcast signal from the variable amplification section with the set amplification gain.

In another technical aspect of the present invention, the variable amplifier comprises a low noise amplifier for amplifying the RF broadcast signal from the variable attenuator with low noise.

The television tuner may include: a band pass filter configured to pass an RF broadcast signal of a predetermined frequency band among the RF broadcast signals from the RF-AGC circuit unit; And a frequency converter for converting the RF broadcast signal from the band pass filter into an IF signal.

The power detector controls the minimum attenuation rate and the maximum amplification gain when the detection power is lower than a first reference power, and the detection power when the detection power is higher than the first reference power and lower than the second reference power. The attenuation rate is gradually controlled as the power increases, and when the detection power is higher than the second reference power, the amplification gain is gradually controlled as the detection power increases.

In contrast, the power detector controls the minimum attenuation rate and the maximum amplification gain when the detection power is lower than the first reference power, and the detection power is higher than the first reference power and lower than the second reference power. The amplification gain can be controlled to be gradually lowered as the detection power is increased. If the detection power is higher than the second reference power, the attenuation ratio is gradually controlled as the detection power is increased. .

According to the present invention, before the RF-AGC processing, the signal gain is automatically adjusted at the first stage, thereby preventing the signal distortion in the RF-AGC process by the strong signal.

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

The present invention is not limited to the embodiments described, and the embodiments of the present invention are used to assist in understanding the technical spirit of the present invention. In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

1 is a circuit block diagram of a television tuner including an ultra-AGC circuit according to the present invention.

Referring to FIG. 1, the present invention provides an ultra-AGC circuit and a television tuner, the ultra-AGC circuit detecting power of an RF broadcast signal (SRF), and depending on the detected power, attenuation rate (ATG) and amplification gain. Attenuation rate ATG is set according to the power detection unit 100 for controlling AMG and the attenuation rate control SATG of the power detection unit 100, and the variable attenuation for attenuating the RF broadcast signal at the set attenuation rate ATG. And a gain amplification gain (AMG) according to the amplification gain control (SAMG) of the power detection unit 100, and the RF from the variable attenuation unit 200 is set using the set amplification gain (AMG). A variable amplification unit 300 for amplifying the broadcast signal.

The variable amplifier 300 may include a low noise amplifier (LNA) that amplifies the RF broadcast signal from the variable attenuator 200 with low noise.

The power detector 100 controls the minimum attenuation ratio ATGmin and the maximum amplification gain AMGmax when the detection power is lower than the preset first reference power Pref1, and the detection power is the first reference power ( Higher than Pref1) and lower than the preset second reference power Pref2, the attenuation ratio ATG is gradually controlled according to the increase of the detection power, and the detection power is higher than the second reference power Pref2. As the detection power increases, the amplification gain (AMG) may be gradually controlled to be low.

In contrast, the power detector 100 controls the minimum attenuation ratio ATGmin and the maximum amplification gain AMGmax when the detection power is lower than the preset first reference power Pref1, and the detection power is the first power. When the power level is higher than the reference power Pref1 and lower than the preset second reference power Pref2, the amplification gain AMG may be gradually lowered as the detection power increases, and the detection power is the second reference power. If it is higher than Pref2, the attenuation rate ATG may be gradually controlled as the detection power increases.

In addition, in the television tuner of the present invention, the amplification gain is automatically set according to the ultra-AGC circuit and the RF-AGC control signal (SRF-AGC), and the RF gain from the variable amplifier 300 is set by the set amplification gain. An RF-AGC circuit unit 400 for amplifying a broadcast signal, a band pass filter 500 for passing an RF broadcast signal of a predetermined frequency band among the RF broadcast signals from the RF-AGC circuit unit 400, and the band pass filter And a frequency converter 600 for converting the RF broadcast signal from 500 to an IF signal.

2 is an AGC adjustment level-detection power correlation graph of the television tuner of the present invention.

In FIG. 2, IFG is the IF auto gain of the IF AGC amplifier for automatic gain control (IF AGC) for the IF signal, and RFG is the RF-AGC circuit 400 for automatic gain control (RF AGC) for the RF signal. ) Is the RF auto-adjustment gain, ATG is the auto-adjustment attenuation rate of the variable attenuation unit 200 for ultra-short auto attenuation rate control (PRE-ATT-AGC) for the RF signal, AMG is the ultra-short auto amplification gain adjustment for the RF signal It is the automatic control amplification gain of the variable amplifier 300 for PRE-AMP-AGC.

Hereinafter, the operation and effects of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIGS. 1 and 2, an ultra-AGC circuit and a television tuner of the present invention will be described. First, the ultra-AGC circuit of the present invention includes a power detector 100, a variable attenuator 200, and a variable amplifier 300. ).

The power detector 100 detects the power of the RF broadcast signal SRF, controls the attenuation rate ATG of the variable attenuator 200 according to the detected power, and amplifies the variable amplifier 300. Control gain (AMG).

The variable attenuation unit 200 sets the attenuation rate ATG according to the attenuation rate control SATG of the power detector 100, and attenuates the RF broadcast signal at the set attenuation rate ATG.

The variable amplification unit 300 sets a gain amplification gain (AMG) according to the amplification gain control (SAMG) of the power detector 100, and sets the variable attenuation gain (AMG) to the variable attenuation unit 200. Amplify the RF broadcast signal from the

For example, the variable amplifier 300 may be formed of a low noise amplifier (LNA). In this case, the variable amplifier 300 may amplify the RF broadcast signal from the variable attenuator 200 with low noise. I can do it.

Next, the television tuner of the present invention may include the ultra-AGC circuit, the RF-AGC circuit unit 400, the band pass filter 500, and the frequency converter 600.

The RF-AGC circuit unit 400 automatically sets an amplification gain according to the RF-AGC control signal (SRF-AGC), and amplifies the RF broadcast signal from the variable amplifier 300 with the set amplification gain.

The band pass filter 500 passes an RF broadcast signal of a predetermined frequency band among the RF broadcast signals from the RF-AGC circuit unit 400.

The frequency converter 600 converts an RF broadcast signal from the band pass filter 500 into an IF signal.

For example, an operation example of the power detector 100 will be described in detail.

Referring to FIG. 2, the power detector 100 may control the minimum attenuation ratio ATGmin and the maximum amplification gain AMGmax when the detected power is lower than the first reference power Pref1.

The power detector 100 may gradually reduce the ATG according to an increase in the detection power when the detection power is higher than the first reference power Pref1 and lower than the preset second reference power Pref2. Can be greatly controlled.

When the detection power is higher than the second reference power Pref2, the power detector 100 may gradually control the amplification gain AMG to be lowered as the detection power increases.

In contrast, the power detector 100 may control the minimum attenuation ratio ATGmin and the maximum amplification gain AMGmax when the detection power is lower than the preset first reference power Pref1.

In addition, the power detector 100, when the detection power is higher than the first reference power (Pref1) and lower than the predetermined second reference power (Pref2), the amplification gain (AMG) gradually increases as the detection power is increased. Can be controlled low.

In addition, when the detection power is higher than the second reference power Pref2, the power detector 100 may gradually control the attenuation rate ATG as the detection power increases.

Referring to the practical application of the television tuner of the present invention, the RF automatic gain control (RF_AGC) first operates when the signal is strong when the RF automatic gain control (RF_AGC) and the IF automatic gain control (IF_AGC) operate. The level is lowered, and then IF automatic gain control (IF_AGC) is operated to lower the signal level.

In this process, if the control is saturated through the RF automatic gain control (RF_AGC) and IF automatic gain control (IF_AGC), the power detector 100 of the present invention detects the power of the RF broadcast signal, and the variable amplifier 300 The gain of the variable amplification unit 300 is adjusted low by adjusting the amplification gain. Then, when the amplification control of the variable amplification unit 300 is saturated, the power detector 100 adjusts the attenuation rate according to the detection power by adjusting the attenuation rate of the variable attenuation unit 200.

In this case, the signal level at which the power detector 100 operates is the level after the RF automatic gain control RF_AGC is saturated.

In the present invention as described above, the signal gain is adjusted automatically at the first stage before the RF-AGC processing, so that the signal distortion in the RF-AGC process can be prevented by the strong signal.

1 is a circuit block diagram of a television tuner including an ultra-AGC circuit according to the present invention.

2 is an AGC adjustment level-detection power correlation graph of a television tuner of the present invention.

Explanation of symbols on the main parts of the drawings

100: power detector 200: variable attenuator

300: variable amplifier 400: RF-AGC circuit

500: band pass filter 600: frequency converter

SRF: RF broadcast signal Pref1: first reference power

Pref2: Second Reference Power ATG: Attenuation Rate

ATGmin: Minimum Decay Rate AMG: Amplification Gain

AMGmax: Maximum Amplification Gain

Claims (9)

A power detector for detecting power of the RF broadcast signal and controlling attenuation rate and amplification gain according to the detected power; A variable attenuation unit configured to set an attenuation rate according to the attenuation rate control of the power detector, and attenuate the RF broadcast signal at the set attenuation rate; And A variable amplifying unit configured to set a gain amplification gain according to the amplification gain control of the power detector, and amplify the RF broadcast signal from the variable attenuation unit with the set amplification gain Ultra-AGC circuit comprising a. The method of claim 1, wherein the variable amplifier, Ultra-AGC circuit, characterized in that consisting of a low noise amplifier for amplifying the RF broadcast signal from the variable attenuator with low noise. The method of claim 2, wherein the power detector, When the detection power is lower than the first reference power, the minimum attenuation rate and the maximum amplification gain are controlled. When the detection power is higher than the first reference power and lower than the second reference power, the detection power is increased. And gradually controlling the attenuation rate to be large, and if the detection power is higher than the second reference power, gradually controlling the amplification gain to be lowered as the detection power is increased. The method of claim 2, wherein the power detector 100, When the detection power is lower than the first reference power Pref1, the minimum attenuation factor ATGmin and the maximum amplification gain AMGmax are controlled. The detection power is higher than the first reference power Pref1 and the second preset power is preset. If it is lower than the reference power Pref2, the amplification gain AMG may be gradually controlled to be lowered as the detection power is increased. If the detection power is higher than the second reference power Pref2, the detection power may be increased. And gradually control the attenuation ratio (ATG) accordingly. A power detector for detecting power of the RF broadcast signal and controlling attenuation rate and amplification gain according to the detected power; A variable attenuation unit configured to set an attenuation rate according to the attenuation rate control of the power detector, and attenuate the RF broadcast signal at the set attenuation rate; A variable amplifier configured to set a gain amplification gain according to the amplification gain control of the power detector, and amplify the RF broadcast signal from the variable attenuator by the set amplification gain; And An amplification gain is automatically set according to the RF-AGC control signal, and the RF-AGC circuit unit amplifies the RF broadcast signal from the variable amplifier by the set amplification gain. Television tuner including. The method of claim 5, wherein the variable amplifier, And a low noise amplifier for amplifying the RF broadcast signal from the variable attenuator with low noise. The method of claim 6, wherein the television tuner, A band pass filter for passing an RF broadcast signal of a predetermined frequency band among the RF broadcast signals from the RF-AGC circuit; And A frequency converter for converting an RF broadcast signal from the bandpass filter into an IF signal Television tuner comprising a further. The method of claim 7, wherein the power detector, When the detection power is lower than the first reference power, the minimum attenuation rate and the maximum amplification gain are controlled. When the detection power is higher than the first reference power and lower than the second reference power, the detection power is increased. And gradually controlling the attenuation rate to be large, and if the detection power is higher than the second reference power, gradually controlling the amplification gain to be lowered as the detection power is increased. The method of claim 7, wherein the power detector, When the detection power is lower than the first reference power, the minimum attenuation rate and the maximum amplification gain are controlled. When the detection power is higher than the first reference power and lower than the second reference power, the detection power is increased. The amplification gain can be gradually controlled to a low level, and when the detection power is higher than the second reference power, the television tuner characterized in that to control the attenuation rate gradually as the detection power increases.

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