DE3434321A1 - Colour television set with a rejection filter arranged in the video-frequency composite colour television signal path - Google Patents

Abstract

Known television sets contain in the composite colour television signal path (3) a rejection filter (9) consisting of a series inductance (18) and two resonators (19, 20) tuned to the intercarrier frequency, which bypass interfering signal components of this frequency from the composite colour television signal path. The series inductance (18) in the rejection filter is dimensioned in such a manner that, together with the capacitance of the output resonator (20), it forms a series resonant circuit tuned to the frequency of the colour subcarrier. The input (22) of the circuit (21) for processing the luminance signals (Y) is connected to the connection (23) of the input resonator (19) to the composite colour television signal path (3). As a result, a further rejection filter called colour subcarrier trap (15) can be omitted in the luminance signal circuit (21). <IMAGE>

Description

Color television set with an im video frequency

Notch filter arranged in composite signal path The invention relates to a Color television set of the type specified in the preamble of the claim.

It is known in television sets such as the television set "IDEAL-Color 3404-3" from ITT-Schaub-Lorenz (publication no. 6611 37 43), behind the output of the video demodulator a blocking filter in the signal path of the composite signal to switch to prevent components of the difference sound carrier formed in the television set get into the circuits for processing the luminance and chrominance signals. The notch filter consists of a series inductance in the FBAS signal path and two on the ends of the series inductance connected resonators that respond to the frequency of the differential sound carrier are tuned and signals with this frequency from the Derive the composite signal path.

The one connecting the notch filter to the output of the picture IF demodulator The series resistance of the blocking filter and its series inductance are dimensioned in such a way that that the notch filter in the tuning range has a relatively high notch attenuation Bandwidth of the blocking frequency reached. The on the locking filter then Have circuits for processing the luminance signal and the chrominance signals a relatively large filter effort, including interfering frequencies to suppress on the associated signal paths.

The invention is based on the object in a color television set of the type specified in the preamble of the claim, the number of filter circuits in the circuits for processing the luminance and chrominance signals to decrease. This object is achieved according to the invention by the characterizing part of the claim specified measures resolved. With these measures, namely the blocking filter in the FBAS signal path without the additional expense of electrical components on the one hand as a notch filter for signals with the frequency of the sound carrier and additionally as a notch filter for the signals with the frequency of the color subcarrier be used. This can cause the so-called color carrier trap in the luminance signal circuit omitted.

The invention is explained below on the basis of an advantageous exemplary embodiment explained in more detail. In the drawings, FIG. 1 shows a simplified block diagram the arrangement of the processing circuits connected downstream of the picture IF demodulator of the luminance and chrominance signals of a composite video signal from a known color television set.

Figure 2 is a simplified block diagram of another arrangement the circuits downstream of the image IF dome modulator for processing the luminance and chrominance signal of a composite signal in a color television set.

FIGS. 3a and 3b are filter diagrams at the outputs of the notch filter of the block diagram shown in FIG.

In Figure 1 is a block diagram of a known arrangement of circuits connected downstream of an 81 ld IF demodulator 1 of a color television set for processing the luminance signal Y and the chrominance signal X one at the output 2 of the picture IF demodulator 1 in the intermediate frequency position generated composite video signal shown in simplified form.

In signal path 3 for the video-frequency composite signal, which is the output 2 of the picture IF demodulator 1 with the input 4 of the luminance signal Y processing Luminance signal circuit 5 and with the input 6 of the chrominance signal X processing Connecting chrominance signal circuit 7 is the output 2 of the picture IF demodulator 1 extending series resistor 8, a blocking filter 9 and an isolating amplifier 10 switched. The chrominance signal circuit 7 contains filter and amplifier circuits, which are summarized in the drawing in a block 11, and a color signal conditioning circuit 12, which includes the color demodulators, not shown, and the color matrix and the control signals for the three beam systems from the chrominance signals Color picture tube 13 generated. The luminance signal circuit 5 includes among others Circuits that are summarized with the circuit block 14 represents are, another notch filter 15, labeled color carrier trap, and a delay line 16. The output of the luminance signal circuit 5 is connected to the second signal input 17 of the color signal conditioning circuit 12 is connected. The second blocking filter 15 of the luminance signal circuit 5 is at the frequency f of the video frequency Color subcarrier for the color signal conditioning circuit 12 matched. The second Blocking filter 15 in the luminance signal circuit 5 prevents interfering signal components the frequency of the color subcarrier to the second signal input 17 of the color signal conditioning circuit 12 arrive.

The first notch filter 9 in the composite signal path 3 consists of a series inductance 18 and two resonators 19 tuned to the frequency of the differential sound carrier and 20, which are connected to the composite signal path at the ends of the series inductance and signals of the frequency T des interfering with image transmission and reproduction Derive the differential carrier from the FBAS signal path. The filter curve of this notch filter 9 is shown as a diagram in Figure 3a.

In this diagram, the abscissa is the frequency and the ordinate the output voltage of the signals at the output of the notch filter for output signals constant amplitude at the output 2 of the picture IF demodulator 1. From the diagram is to recognize that the notch filter 9 is a bandstop filter with high notch attenuation. the Longitudinal inductance 18 is dimensioned so that this blocking attenuation for a relatively large bandwidth is available.

In the case of the also shown in a block diagram in FIG Circuit arrangement of the picture IF demodulator gate 1 downstream Circuits for processing the luminance signal Y and the chrominance signals X of a composite video signal in a television set is the input 22 of the in this television set used luminance signal circuit 21 between the series resistor 8 and the The input of the blocking filter 9 is connected to the FBAS signal path 3. With the in figure 1, the circuit blocks of FIG. 2 correspond to the circuit blocks shown are denoted by the same reference numerals. The resonators 19 and 20 of the notch filter 9 are in turn matched to the frequency T of the differential sound carrier of the television set and derive signals of this frequency from composite signal path 3. The inductance value the series inductance 18 is, however, dimensioned so that it is matched by the output side Resonator 20 of the blocking filter 9 formed capacitance forms a series resonant circuit, to the frequency fhF of the video-frequency color subcarrier for the color signal processing circuit 12 is matched. This occurs at connection 23 of the input-side resonator 19 of the notch filter to the FBAS signal path 3 is not just one caused by the resonator 19 Attenuation pole of the filter at the frequency fT of the differential sound carrier, but also a second pole of attenuation at the frequency fhF of the video-frequency color subcarrier, as shown in the diagram of Figure 3b. In Figure 3b is on the abscissa the frequency and, in the ordinate, the amplitude of the signals at connection 23 of the input side Resonator 19 of the notch filter 9 to the FBAS signal path 3 of the one shown in FIG Circuit arrangements shown when the output signals at output 2 of the picture IF demodulator 1 have a constant amplitude. This allows in the luminance signal circuit 21 connected to this port 23 is closed, the second notch filter 15 are omitted, the color subcarrier trap on the frequency fhF of the color subcarrier is matched. The luminance signal circuit 21 shown in FIG The arrangement thus has a much simpler circuit structure than that Luminance signal circuit 5 of the known arrangement shown in FIG.

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Claims (1)

Color television sets for reproducing in a composite video signal contained color television pictures - with a arranged in the video-frequency composite signal path Notch filter that is tuned to the frequency of the differential sound carrier and that from a series resistance connected to the FBAS signal path on the input side, one Also in the FBAS signal path switched series inductance and two to the Ends of the series inductance connected, signals of the frequency of the differential sound carrier dissipating resonators - with a chrominance signal circuit connected downstream of the notch filter - and with a luminance circuit processing the luminance signal, d a d u r c h gek e n n n z ei c h ne t, - that the luminance signal circuit (21) on the connection point (23) of the series resistance (8) with the series inductance (18) of the blocking filter (19) is connected - and that the inductance value of the series inductance is dimensioned so that the series resonant circuit that the series inductance with the output Resonator (20) of the notch filter (19) forms on the frequency (f (fhf) of the color subcarrier is matched.