KR920005776Y1 - Automatic burst gain control circuit - Google Patents

Abstract

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Description

Automatic Burst Gain Control Circuit

1 is a block diagram of the present invention.

2 is a detailed circuit diagram of the IF tuning unit of the present invention.

3 is an IF tuning characteristic curve diagram for explaining the present invention.

* Explanation of symbols for main parts of the drawings

4: IF tuning unit 5: Tuner

9: demodulation unit 10: color burst detector

11: DC amplifier 12: comparator

13: reference voltage 14: micom

D1: varistor diode

The present invention relates to an automatic burst gain control circuit that eliminates burst gain variation of all channels to be tuned, and is applied to video equipment such as a VCR and a TV.

In general, the burst gain deviation among the channel deviations of the tuner is composed of many elements and belongs to the high frequency field, so it is difficult to eliminate the fundamental deviation. Even if the tuner's design eliminates the burst gain variation, An error occurs in the production process of the part or the assembly process, and thus the burst gain deviation is a problem again.

In this way, if a burst gain deviation occurs between the channels, the video signal of the demodulated base band also causes a difference, and the burst gain deviation also directly affects chromaticity so that no color or color saturation ( Such as color saturation).

Therefore, it is inevitably required to eliminate the burst gain variation between channels in the tuner of the video device.

The present invention is to automatically remove the burst gain deviation generated between the channels as described above. Only the burst signal in the demodulated video signal is separated, converted to DC, and amplified by the DC signal until the error voltage generated by comparison with the reference level disappears. The error voltage is fed back to the IF tuning section to eliminate the burst gain deviation.

To this end, in the present invention, a color burst detector and a DC amplifier are installed at the rear end of the demodulator, and a microcomputer is installed which obtains an error voltage by comparing the signal amplified by the DC amplifier with a reference voltage. The varactor diode that is changed is installed in the IF tuning section for the tuner output stage.

Based on the accompanying drawings of the present invention looks at in detail the configuration and effect.

A microcomputer 14 that recognizes channel selection of the key matrix 15 and outputs channel data, a tuner 5 that receives the channel data of the microcom 14 and converts an RF signal into an IF signal, and the tuner 5 In a video device comprising a demodulator 9 for demodulating an IF signal of the video signal into a video signal, a color burst detector for detecting a color burst signal included in the video signal output from the demodulator 9 and converting it into a DC voltage. (10), the DC amplifier 11 for amplifying the DC voltage of the color burst detector 10, and the output voltage of the DC amplifier 11 is compared with the reference voltage 13 and the comparator 12 to obtain an error voltage. It is configured to connect the microcomputer 14 for outputting and the IF tuning unit 4 for changing the resonant frequency in accordance with the error voltage of the micom (14).

In this case, the tuner 5 includes an RF amplifier 1 for amplifying an RF signal input, a mixer 2 for mixing the RF signal amplified by the RF amplifier 1 with a local oscillation signal of a local oscillator 3, and A band pass filter 6 configured to pass an IF signal band of the IF signals of the tuner 5, comprising an IF tuning section 4 for tuning the output signal of the mixer 2 and outputting an IF signal. And an IF amplifier 7 for amplifying the IF signal passed through the band pass filter 6, and an IF detector 8 for detecting the signal amplified by the IF amplifier 7 and outputting it as a video signal. .

As shown in FIG. 2, the IF tuning unit 4 outputs the signal output from the mixer 2 through the condensers C1, C2, C3 and coils L1, L2. In applying to the voltage, the error voltage applied from the comparator 12 of the microcomputer 14 is applied to the varactor diode D1 so that the resonance capacitance of the IF tuning section 4 is changed so that the burst gain is changed. It is configured to reduce the puncha.

It looks at the operation of the present invention configured as described above.

First, when the desired channel is selected in the key matrix 15, the tuner 5 receives the channel data from the microcomputer 14 and creates an IF (intermediate frequency) that is easy to amplify.

That is, the frequency conversion of the RF signal to the IF signal, the frequency of the IF frequency characteristics are not constant for each channel due to various factors or differences in the characteristics of the internal device.

For example, there is a difference in IF characteristics due to the difference in tuner characteristics, which causes a difference in the base band video signal that is demodulated and output from the demodulator 9.

Therefore, it is improved by better gain control (AGC), automatic frequency control (AFC), etc. to improve better selectivity, S / N improvement, frequency characteristics, etc.But there is almost no countermeasure against burst signal, so there is no burst gain between channels. The deviation is not narrowed down.

Here, the gain of the burst is a factor that directly affects chromaticity, and the gain deviation of the burst can cause no color or color saturation in the feed, and the present invention addresses this point. To solve this problem, a varistor diode was added to the IF tuning unit 4 located at the output of the tuner 5.

The varactor diode is a device in which the magnitude of the capacitance changes when a reverse voltage is applied to the diode, and the capacitance changes according to the magnitude of the applied voltage, and the resonance of the IF tuning unit 4 is caused by the capacitance change of the varactor diode. The frequency fr was allowed to change minutely.

Prior art will be described in detail before this.

The IF of all channels is the same, but more accurate tuning is performed in the range of the channel band where information is carried out to remove the influence of adjacent channels or noise in the IF tuning stage, and the tuning frequency is the coil of the IF tuning unit 4. The point is set to (L1) and (L2), and the IF tuning characteristic of the IF tuning unit 4 thus set is always in the position unless it is operated again from the outside.

Therefore, when the signal conditions changed due to internal and external influences, for example, the burst gain could not be compensated when the channel was different.

For example, if a burst level is 0.3V _pp in one channel following the adjusted IF tuning characteristic curve as shown in (a) of Figure 3, we will look at the IF characteristic curve as in (b) of Figure 3 in another channel. As can be seen, the burst level is 0.2V _pp and the IF characteristic curve shows another aspect, resulting in a deviation of the burst gain for each channel.

The present invention reduces the burst gain by reducing it to a certain level so that the burst gain can be made constant for each channel.

At this time, the criterion of the burst level is slightly different for each broadcasting method, but in the case of the PAL method, when the burst level is about 0.28-0.3V _pp , it can be almost normal. (0.28P _{pp in the} standard PAL method) In the PAL method, the 0.28V _pp burst level is converted into a DC value and the amplified value is stored as the reference voltage 13 of the microcomputer 14.

In other words, after converting a standard burst level into DC, the amplified value is stored in the microcomputer 14 as the reference voltage 13. Then, when a channel is selected in the key matrix 15 and a demodulated video signal is output, the burst signal in the output video signal is separated by the color burst detector 10 and converted into DC. The output voltage of the color burst comparator 10 is applied to the DC amplifier 11, amplified, and then applied to the comparator 12 of the microcomputer 14.

Accordingly, an error voltage is generated by comparing the voltage applied from the DC voltage amplifier 11 with the reference voltage 13 originally stored as the standard burst level value in the comparator 12 of the microcomputer 14, and the error voltage at this time is a second value. The selector diode D1 of the IF tuning unit 4 is fed back to the selector diode D1 of the IF tuning unit 4 as shown in FIG. 2 until the error voltage of the comparator 12 becomes "0". To make it the desired level.

On the contrary, even in the case of a signal with a large burst level, the error suppression is generated as described above to change the capacitance of the varactor diode D1 so that the resonance frequency fr is changed so that the error voltage becomes "0". Will be made.

Therefore, the burst gain deviation of all channels is automatically narrowed.

As in the present invention, the present invention automatically eliminates the burst gain variation that occurs between channels, eliminating the difference in the baseband video signal, or eliminating the change in the color signal of the shield, and automatically reducing the burst gain variation. There is.

Claims (3)

A microcomputer 14 which recognizes channel selection of the key matrix 15 and outputs channel data, a tuner 5 which receives the channel data of the microcom 14 and converts an RF signal into an IF signal, and the tuner 5 In a video device comprising a demodulator 9 for demodulating an IF signal of the video signal into a video signal, a color burst detector for detecting a color burst signal included in the video signal output from the demodulator 9 and converting it into a DC voltage. 10 and. The DC amplifier 11 for amplifying the DC voltage of the color burst detector 10 and the microcomputer for outputting an error voltage by comparing the output voltage of the DC amplifier 11 with the reference voltage 13 and the comparator 12 ( 14) and an IF tuning unit (4) for varying the resonant frequency according to the error voltage of the microcomputer (14). 2. The automatic burst gain control circuit according to claim 1, wherein the reference voltage (13) is stored in the microcomputer (14) as a value obtained by converting a standard burst level into a DC voltage and then amplifying it. According to claim 1, IF tuning section 4 is configured to connect the coil (L1) (L2) and the condenser (C3) (C4) for determining the resonant frequency of the IF signal output from the mixer 2, the coil ( Automatic burst gain configured by connecting the selector diode D1 changing the capacitance between L1) and the capacitor C4 so that the error voltage output from the comparator 12 is applied to the selector diode D1. Control circuit.