SU1125782A1 - Brightness signal channel for secam colour television receiver - Google Patents

Abstract

, THE CHANNEL OF THE BRIGHTNESS SIGNAL OF COLOR OF A SECAM SYSTEM TELEVISION RECEIVER, containing a serially connected luminance signal processing unit, whose input is the input of a full color image signal, and an output amplifier of the luminance signal, the second input of which is connected to the output of a frame dimming generator, and the second the output is connected to the signal input of the color notch filter block,. subcarriers, the first control input of which is connected to the output of the first key, the first input of which is the input of the color difference signal, the first input of the frame damping impulses is the input of frame synchronization pulses, characterized in that enabling the formation of a color burst signal. A second key has been entered in it, the output of which is connected to the VTO control input of the filter block of the color subcarrier notches, the control input is connected to the second The first control input is the first key and (L the output of the frame extinguishing pulse generator, the second input of which is the input of the full color image signal, while the second output of the output amplifier of the luminance signal is the output of the color sync signal).

Description

The invention relates to radio engineering and can be used in color blocks of television (TV) receivers of the SECAM system. The closest to the proposed technical entity is the channel of the luminance signal of the color TV receiver of the SCAM system, which contains a signal processing unit connected in series, the luminance of which input is the input of the full color image signal, and the output amplifier of the strong signal, the second input of which is connected with the output of the personnel extinguishing pulse generator, and the second output is connected to the signal input of the filter unit of the color subnets, the first control input of which is connected to the output of the first key, the first input of which is the input of the DC component of the color difference signal, while the first input of the frame damping frame generator is the input of frame timing sync pulses L The known device is designed to delay the luminance signal, recovering the DC component in it , adjust brightness and contrast, reject the color subcarriers and amplify to the value needed to modulate the kinescope. However, it cannot generate a color burst signal. The purpose of the invention is to provide the possibility of forming a color burst signal. This goal is achieved by the fact that the SECAM system color TV receiver channel of the SECAM system has a serially connected luminance signal processing unit whose input is the input of the full color image signal and the output amplifier of the luminance signal, the second input of which is connected to the frame generator pulses, and the second input is connected to the signal input of a block of filters for rejection of color subcarriers, the first control input of which is connected to the output of the first key, the first input of which is the input of the constant component of the color difference signal, with the first input, the frame and 4-pixel generator being the input of frame synchronization pulses, a second key is entered, the output of which is connected to the second control input of the block, the filters of the rejection of the color subcarriers, the control input is connected to the second input control of the first key and the output of the frame dimming oscillator, the second input of which is the input of the full color image signal, while the second output of the output amplifier of the luminance signal is The output is a color burst signal. FIG. 1 shows a structural electrical circuit diagram of the luminance channel of a color TV receiver of the SECAM system; FIG. 2 - signal plots. The luminance signal channel of the color television receiver of the SECAM system contains a luminance signal processing unit 1 and an output amplifier 2, a generator of 3 frame damping pulses, a block of 4 filters of rejection of color subcarriers, first key 5, second key 6. The device operates as follows. The full color image signal is fed to the input of block 1, in which the luminance signal is delayed relative to the chrominance signal, and the constant is restored in it. component and it is pre-amplified. Next, the luminance signal is applied to the output nipple 2, where it is amplified to the magnitude necessary for modulating the kinescope. At the same time, the chrominance signal is fed to the second input of the generator 3 personnel gpcx pulses, which is filled in the form of a gap multivibrator and is controlled by the first input pulses of the frame synchronization. The chrominance signal is fed to the input of one of the waiting transistors. a multivibrator that opens only for the time of the formed frame extinguishing and myca that coincides in time with the identification pulses located on the frame extinguishing pulse of the image signal. Therefore, at the output of the generator 3 personnel damping pulses, identification pulses are formed (Fig. 2a), which are selected from the chroma signal. These pulses arrive at the second input of the output amplifier 2 of the luminance signal, and through its second output to the signal input of the block 4 of the notch filter of the color subcarriers. Simultaneously, from the generator output 3 personnel extinguishing pulses, a personnel extinguishing impulse is supplied to the inputs of the etching of the first key 5 and the second key 6 (Fig. 2d). In this case, when receiving a color image, neither the first input of the first key 5 receives the component of the color difference signal. Therefore, in series with the first key 5, the block 4 of the filter for rejection of color subcarriers is in an operational state. The second key 6 is switched on at this time in such a way that, in the block 4, successively connected with it, the filter of rejection of the color elevations ,. which is two coupled parallel circuits tuned to i,. 4.02 MG and ij 4.68 MHz, the parallel Loop is switched off, tuned to 1, - 4.02 MHz. As a result, identification pulses arriving at block 4 (Fig. 2a) and having a frequency filling of fg 3.9 MHz are practically not distinguished by it (they have a small amplitude). Pulses with a happy filling of f 4.7 MHz close to the resonance frequency of the filter of rejection of the color subcarriers in block 4 will be allocated to them, i.e. bud:, have a large amplitude (Fig. 2ё). This color burst signal is removed from the signal input of the block of 4 filters for rejecting the colors of the subcarriers for further processing to the identification block. The key 6 may, for example, be performed at a low-frequency transistor operating in a key mode. Thus, the invention permits, instead of using special devices for selective selection of pulsing pulses, to use the signal of rejection of color subcarriers present in all channels of the luminous signal. This allows you to simplify the color TV receiver and reduce its cost.

Lg (Crf

Kt / wc / to a cathodes

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Fig, 1

Fig: 2

Claims (1)

SECAM SYSTEM COLOR BRIGHTNESS SIGNAL CHANNEL, comprising a luminance signal processing unit connected in series, the input of which is the input of the full color image signal, and an output luminance signal amplifier, the second input of which is connected to the output of the frame-suppression generator and the second output is connected to the signal the input of the filter block rejection color subcarriers, the first control input of which is connected to the output of the first key, the first input of which is the input constant of the color-difference signal, while the first input of the frame blanking pulse generator is the input of frame synchronization pulses, characterized in that, in order to enable the formation of a color synchronization signal, a second key is inserted into it, the output of which is connected to the second control input of the color rejection filter block subcarriers, the control input is connected to the second control input of the first key and the output of the frame blanking pulse generator, the second input of which is the input of the full signal In this second output, the second output of the output amplifier of the luminance signal is the color synchronization signal output. >