RU2054825C1 - Digital device for separation of brightness and color signals in pal and ntsc decoders - Google Patents

Abstract

FIELD: TV devices. SUBSTANCE: device has analog-to-digital converter 1, two delay units 2 and 5, subtracter 3, upper frequency filter 4, tracing band- pass filter 6, frequency detector 7, multiplier 8, differentiating unit 9, control signal generator 10 and unit 11 for generation of combined signal with background of color sub-carrier. EFFECT: decreased distortions of brightness and color signals. 1 dwg

Description

 The invention relates to television and can be used in monitors of analog-to-digital hardware-studio complexes of television broadcasting and in television broadcast receivers.

 A digital device for separating luminance and color signals in a decoder of PAL and NTSC systems is known, which contains an analog-to-digital converter (ADC) in series, the input of which is the input of the full color video signal (PCVS), the first delay unit and subtractor, the output of which is the output of the digital brightness signal , and a high-pass filter (HPF), the input of which is connected to the output of the ADC.

 A disadvantage of the known device is the presence of distortion of the luminance signal resulting from the notch of the spectrum in the area of deviation of the color subcarrier, and distortion of the color signal due to the superposition on the spectrum of the color signal of the spectrum of the luminance signal.

 The aim of the invention is to reduce the distortion of luminance and color signals.

 The drawing shows a structural electrical diagram of a digital device for separating luminance and color signals in decoders of PAL and NTSC systems.

 The device contains an ADC 1, the first 2 and the second 5 delay units, a subtractor 3, an HPF 4, a servo bandpass filter 6, a frequency detector 7, a multiplier 8, a differentiation unit 9, a driver signal driver 10, a complex subcarrier frequency signal generator 11.

 The device operates as follows.

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состоящая из ВЧ-составляющей сигнала яркости Y и сигнала цветности С. Этот сигнал подвергается обработке с помощью следящего полосового фильтра 6, центральная частота которого определяется текущей частотой сигнала цветности, а полоса пропускания скоростью изменения фазы и амплитуды сигнала цветности.PCVS using ADC 1 is converted to digital form, in which all subsequent processing is carried out. Using the low-pass filter 4, a high-frequency (HF) part is extracted from the digital PCVS

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consisting of the RF component of the luminance signal Y and the color signal C. This signal is processed using a tracking bandpass filter 6, the central frequency of which is determined by the current frequency of the color signal, and the passband is the rate of change of phase and amplitude of the color signal.

изменения фазы, где Φ(t) текущая фаза цветовой поднесущей. В результате перемножения с комплексным сигналом частоты покоя цветовой поднесущей сигнал S_вч преобразуется в комплексный сигнал, вещественная и мнимая составляющие в котором представляют собой ортогональные составляющие u(t) и v(t), несущие в совокупности информацию об амплитуде сигнала цветности. В результате дифференцирования эти сигналы преобразуются в сигналы u'(t) и v'(t), несущие информацию о скорости изменения амплитуды.The color signal in PAL and NTSC systems is a color subcarrier modulated in amplitude and phase, while the phase change can be considered as a frequency change according to the law of the derivative of the phase. Therefore, the signal x (t) c ₁ f (t), where c _{1 is a} constant; f (t) the current frequency of the color subcarrier, at the output of the frequency detector 7 is simultaneously information about the change in frequency and speed x (t) c ₁

phase changes, where Φ (t) is the current phase of the color subcarrier. As a result of multiplication with a complex resting frequency signal by a color subcarrier, the S _RF signal is converted to a complex signal, the real and imaginary components of which are the orthogonal components u (t) and v (t), which collectively carry information about the color signal amplitude. As a result of differentiation, these signals are converted into signals u '(t) and v' (t), which carry information about the rate of change of amplitude.

где y_u(t) c₂u'(t)+c₃v'(t).In the driver 10 of the control signal, a conversion is carried out, for example, of the form
Z (t)

where y _u (t) c ₂ u '(t) + c ₃ v' (t).

The resulting signal Z (t) is supplied to the second control input of the servo bandpass filter 6, and the current passband depends on its level. For example, the bandwidth can vary linearly with the signal Z (t), for example, between 0.25 MHz at Z (t) 0 and 1 MHz at Z (t) L _max , where L _{max is the} value corresponding to the maximum phase change and color subcarrier amplitudes in the shortest possible time.

 This shows that the larger the derivative of the phase and amplitude of the color subcarrier, the wider the passband of the servo bandpass filter 6. Thus, the passband of the servo bandpass filter 6 is consistent with the spectral width of the envelope of the color subcarrier.

, в котором в максимальной степени подавлена помеха от сигнала цветности. Таким образом достигается цель изобретения.The signal of the RF component of the PCVS after processing in the servo bandpass filter 6 is a color signal C, in which the interference from the high-frequency component of the brightness signal is suppressed. Subtracting this signal from the PCVS produces a luminance signal

in which interference from the color signal is suppressed to the maximum extent. Thus, the object of the invention is achieved.

Claims (1)

 DIGITAL BRIGHTNESS AND COLOR SIGNALING DIGITAL DEVICE IN PAL AND NTSC SYSTEM DECODERS, containing an analog-to-digital converter (ADC) in series, the input of which is the input of the full color video signal, the first delay unit and the subtractor, the output of which is the output of the brightness signal, the high-pass filter is connected in series frequency (HPF), the input of which is connected to the output of the ADC, and a multiplier, a band-pass filter and a detector, characterized in that the band-pass filter is made tracking, and the detector is a frequency filter, introduced a second delay unit connected between the output of the HPF and the first input of the tracking bandpass filter, the output of which is connected to the second input of the subtractor and is the output of the color signal, the differentiation unit connected in series, the input of which is connected to the output of the multiplier, and the driver of the control signal, the output of which is connected to the second the input of the tracking band-pass filter, the third input of which is connected to the output of the frequency detector, the input of which is connected to the output of the HPF, the generator of the complex signal of the rest frequency color subcarrier input of which is connected to the output high-pass filter, and an output - to a second input of the multiplier.