DE3933951A1 - Television receiver with videotext decoder - uses switch controlled by vertical deflection circuit to deliver digital data - Google Patents

Abstract

The television receiver has an antenna (1) and a tuner (2) delivering a FBAS signal to the input (3) of a comb filter (4). The colour carrier (c) is decoded at output (6) and passed to colour handling stage (8). The luminance signal (Y) is decoded at output (5). A switch (12) is controlled by the vertical depletion circuit (11), and passing litter, FBAS signal or luminance component (Y) to luminance handling stage (7). The colour/luminance are then passed to tape (10) or display tube (9) as required. In particular, the filter for the luminance signal (Y) is switched off during the presence of video text signals. Pref. the filter (4) is a low pass comb filter to extract colour carrier (c). USE - TV sets with video text decoders.

Description

The invention relates to a television set with a Vi deotext decoder according to the preamble of claim 1. Unter Teletext is generally the transmission of digital signals for optional display or recording of characters understood. These signals are preferably used during several blank lines of the vertical blanking interval. The like systems are also under other names such as Teletext or Antiope known. Under TV set it will understood every device with which television broadcast signals or a CVBS signal, RGB signals or luminance signal and ink carriers are processed separately. The invention is particularly applicable in television receivers and video recorders corder.

In televisions such. B. television receivers and videore corder with improved image reproduction, e.g. B. with S-VHS, are used for the separation of luminance signal and color Comb filters increasingly used. Such, before comb filters, which are preferably adaptive, have the advantage that that in one signal only the frequencies of the other Signal suppressed, the bandwidth of each Signal less affected and crosstalk reduced is gert.  

It has been shown that when using such a comb filters the video fed by the path of the luminance signal textdecoder no longer worked properly, even though the Pass bandwidth of the comb filter and the rest of the circuit with about 4 to 5 MHz for the digital teletext signal was right. The teletext information could no longer be entered displayed wall-free on a screen.

The invention has for its object with simple Circuit means ensure that the teletext decoder even when using a filter to separate luminance signal and ink carrier, in particular a comb filter works wall-free.

This object is achieved by the inven in claim 1 solved. Advantageous developments of the invention are specified in the subclaims.

The invention is based on the following knowledge. The way of Luminance signals behind the filter to which the teletext decoder is connected, has one for the Teletext sufficient bandwidth. Due to the effect of the comb However, ters within the range of luminance signals suppressed the frequencies at which the spectral of the modulated ink carrier. They suppressed Frequency ranges, however, coincide with sideband frequency sequences of the modulated digital teletext signal. By the suppression of the frequencies required for the luminance gnal itself because of the accumulation of spectral components Even numbering of the line frequency is not disadvantageous the teletext signal, however, so impaired that a perfect decoding in the teletext decoder is no longer possible is. The filter can, however, be used during the duration of the Vi deotext signals for the luminance signal ineffective control be ert without disadvantages. On the one hand  is a luminance signal for the image during this time playback not available. On the other hand, this takes place No picture playback due to the rewind blanking.

The filter for the luminance signal can be switched off done in different ways. In the simplest case the filter is bridged, d. H. with a switch the on corridor directly with the output for the luminance signal connected. It is also possible to get inside the filter intervene and there the suppression of the frequencies of the Switch off color carrier in the luminance signal, if one Intervention in the internal circuit of the filter is possible. Another possibility is the luminance si gnal at the first output, which of the frequencies of the color is exempt from adding the ink carrier again. Then the luminance signal at the first output is practical again the same as the luminance signal at the CVBS input. The Invention is also applicable when the filter is not a comb Filter is formed, but only a low pass frequency selective evaluation of the luminance signal and a parallel-fed bandpass filter for frequency-selective off evaluation of the color carrier. This solution is in particular also applicable to MESECAM (middle east SECAM) because at SECAM because of the frequency modulation of the color carrier written comb filter can not be used.

The invention is based on the drawing using the example of a Comb filter explained. Show in it

Fig. 1 is a block diagram of the invention for a television receiver,

Fig. 2 diagrams for explaining FIGS. 1 and

Fig. 3 shows a modification to FIG. 1.

In Fig. 1, a television broadcast signal received with the antenna 1 is supplied to the tuner 2 . The tuner 2 delivers a composite signal that reaches the input 3 of the comb filter 4 ge. The comb filter 4 provides at a first output 5 the luminance signal Y, which is freed from the color carrier, and at a second output 6, the modulated color carrier C. Y reaches path 7 of the luminance signal and the color carrier C on path 8 , for the processing of the color signals. The stages 7 , 8 provide signals for the replay to a playback device 9 or for recording on a tape 10th The circuit 7 may also include a teletext decoder, which delivers the decoded teletext signals either to the display device 9 or to an externally connected television set.

During the duration of the teletext signal within the vertical blanking gap, a switching pulse S is generated in the vertical deflection circuit 11 by counting the lines or by starting a time window. The switching pulse S controls the scarf ter 12 in the dashed position and switches the input of the circuit 7 from the output 5 to the input 3 of the Kammfil age 4 to. As a result, the luminance signal Y from FBAS reaches path 7 unchanged. The elimination of the frequencies of the color carrier within Y caused by the comb filter 4 then no longer takes place. The text information can now be recorded on the usual luminance signal recording path in the S-VHS video recorder. The teletext decoder receives the signal without any influence on the bandwidth and without eliminating frequencies. The higher frequencies are slightly reduced by the tape recording and playback, but this does not affect the function. In application of the circuit according to Fig. 1 in a video recorder the function of the vertical deflection circuit 11 would be formed by the sync pulse-separating.

Fig. 2 shows the signal structure during the vertical blanking ke for two successive fields. The signal ent contains hatched teletext lines 13 , two test lines 14 and lines 15 with the actual image signal. By evaluating the vertical synchronizing pulse V, the switching pulse S is generated, which extends over the total duration of the teletext lines 13 . The switching pulse S is preferably generated before with a counter that counts the lines at the beginning or end of the vertical synchronizing pulse V.

In Fig. 3 there is no bridging of the comb filter 4 by the switching pulse S. The switching pulse S closes the switch 16 , so that the color carrier C from the output 6, the luminance signal Y from the output 5 , which no longer contains this color carrier, is added. The signal Y at output 5 is thus replenished with regard to the frequencies and thus practically corresponds to the original Y in the composite signal at input 3 . At outputs 5 and 6 , an external Tu ner signal, which is already present in YC components, can be fed.

The teletext decoder, the comb filter and the switching described during the teletext lines can be independent of one another either in the television receiver, in the video recorder or in both devices at the same time. The components 2 , 7 , 8 , 11 are always included both in the television receiver and in the video recorder.

Claims (6)

1. TV with a teletext decoder and a frequency-selective filter ( 4 ) with an input ( 3 ) for the composite signal, a first output ( 5 ) for the luminance signal (Y) and a second output ( 6 ) for the color carrier (C ), the path ( 7 ) of the luminance signal to the input of the teletext decoder being closed, characterized in that the filter ( 4 ) for the luminance signal (Y) by a switching pulse (S) is ineffective for the duration of the teletext signal is controlled. 2. Apparatus according to claim 1, characterized in that the switching pulse (S) actuates a switch ( 12 ) which connects the input ( 3 ) to the first output ( 5 ) ( Fig. 1). 3. Apparatus according to claim 1, characterized in that the switching pulse (S) in the interior of the filter ( 4 ) engages and the suppression of the frequencies of the color carrier (C) switches off in the CVBS signal. 4. Apparatus according to claim 1, characterized in that the switching pulse (S) causes the color carrier (C) at the second output ( 6 ) the luminance signal (Y) at the most output ( 5 ) is added ( Fig. 3). 5. Apparatus according to claim 1, characterized in that the filter is a comb filter ( 4 ). 6. Apparatus according to claim 1, characterized in that the Filters a low-pass filter to obtain the color carrier contains released luminance signals.