DE3323750C2 - - Google Patents

Description

When transmitting pure AC signals, e.g. B. an audio signal or a frequency-modulated carrier the DC component is of no importance since there is no DC voltage is reproduced or the transmitted information is given solely by the frequency of the carrier. In the transfer capacitors or transformers can lie as often as required conditions that suppress the DC component. Also one Change in a transmitted DC voltage component has demodulation and playback are of no importance.

On the other hand, there are signals with a DC component, which is crucial for the reproduction and therefore in the over wear may not be falsified or suppressed. A case game for this is the video signal of a television system whose DC voltage position determines the average image brightness. At The periodically transmitted black level must be such a signal cause an image to be displayed in black. The right one  tension is z. B. particularly important in front of the FM modulator in a video recorder because the modulation characteristic, i.e. H. the Allocation of the frequency of the generated image carrier to the ampli values of the video signal must be strictly observed. For video recorders according to the VHS standard z. B. the frequency of the image carrier 3.8 MHz for the sync pulse, 4.1 MHz for the Black level and 4.8 MHz for the white level. If at the record voltage in the FM modulator does not comply with this assignment is the result of playback after FM demodulation a video signal with corrupted amplitude values.

When transmitting or processing in one device the DC component z. B. by capacitive couplings lost or ver by the DC voltage amplifier to be faked. Low-frequency interference voltages (hum) can cause periodic distortions of potential.

To reintroduce the correct DC component So-called clamp circuits are known. With one Circuit is z. B. the video signal during the rear black shoulder with a switch controlled by a clamping pulse set to a fixed voltage value that corresponds to the black value should speak. In this way, the DC voltage level corrected the video signal at the beginning of each line and during the line delay time is maintained. With a signal, with which the line sync pulses are blanked, this terminal during the entire line blanking time of 12 µs. Blanking is a prerequisite for such clamping gap with a periodically recurring constant level, the for a video signal e.g. B. represents the black level.

It is known (DE-OS 21 56 201) in a color television system the luminance signal during the line delay time and during the line return time the color signals in time-compressed form transferred to.

It was also proposed (earlier application P 33 10 890.0), in such a sequential system during the picture runtime to transmit no sync pulses at all playback the sync pulses back from a clock signal gain, e.g. B. from the bit clock of a transmitted simultaneously PCM audio signal.

With such a system, the total line duration is one finally, the return time and the lead time through a single part nalen composite signal filled, and there are none Blanking gaps more available for a clamping of the signal. A such signal can then z. B. only during the vertical return time can be clamped. With such a clamp is ever but the time interval between the clamping times with 20 ms too large. Level errors during the image scrolling time can then no longer be compensated. One in the transmission path A hum of 50 Hz or 100 Hz can occur during a picture in the form of a periodic ver shift of the DC component and thus the middle Cause image brightness.  

The invention relates to a clamping circuit, as by DE-OS 28 28 654 is known for a special sequenti elles signal, as is known from DE-OS 21 56 201.

The invention has for its object a clamp scarf device for such a sequential signal without sufficient de blanking gaps to create a perfect clamping enables.

This task is by the He described in claim 1 finding solved. Advantageous developments of the invention are described in the subclaims.

In the solution according to the invention, they are sequential transmitted partial signals separately in their dead time in which they are not transmitted, clamped and first then merged into the continuous sequential signal puts. The composition is preferably carried out with a Switches that switch the signal path to the output of the Clamp circuit sets, which delivers a partial signal. The this switch  needed for the delivery of the sync pulse train during the Blanking time no additional input when the two Voltage values of the clamping circuits the two voltage values the sync pulses correspond and the switch during Image blanking time is operated with the sync pulse train.

The invention is advantageously applicable to the FM modulator in a video recorder with recording of the described se quantitative signal without blanking gaps and sync pulses during the image scrolling time. Then despite the absence of the Blanking times a correct transmission of the levels for black with the luminance signal and achromatic with the color signal. The composition of the separately clamped signals to the con then there is an immediate signal without blanking gaps in front of the FM modulator. The invention is also applicable when more than two partial signals are transmitted sequentially, e.g. B. the luminance signal, a first color difference signal and a second color difference signal. Then there are several Clamping circuits provided whose output voltages together be set.

An embodiment of the invention is based on the drawing explained. It shows

Fig. 1, the signal to be processed without blanking gaps, the part signals and the control signals for the clamping circuit according to the invention and

FIG. 2 shows a block diagram for processing the signals according to FIG. 1.

. The television signal TS shown in Figure 1 contains in each case during extending from t 1 to t 3 extending line period of t 1 - t 2 is a time-compressed color signal C and t 2 - t 3, the luminance signal Y. These two signals are transmitted sequentially and fill the entire line duration of 64 µs. The signal TS does not contain any suitable gap for clamping during the line duration. A system for the transmission of a television signal of this type is described in the earlier application P 33 10 890.0.

Referring to FIG. 2, the color signal C via the clamping circuit with the capacitor 1 and the switch 2 is supplied to the first input of the changeover switch 5. The color signal C is clamped to the voltage value P 1 with the pulse K 1 during its dead time t 2 - t 3 , that is, between two partial signals C. This is the so-called achromatic value of the color signal C and the upper value of the synchronizing pulses S during the vertical blanking time V _A , ie the voltage value of the pulse roof.

The luminance signal Y is clamped with the clamping circuit from the capacitor 3 and the switch 4 by the pulses K 2 during its dead time from t 1 - t 2 to the voltage value P 2 . The voltage value P 2 corresponds to the black value of the luminance signal Y and at the same time the lower voltage value of the syn pulse S during the vertical blanking time V _A. The so-clamped signal is fed to the lower input of the switch 5 . The two signals supplied to the changeover switch 5 therefore have the correct DC voltage position. With the switching voltage Sch , the changeover switch 5 is switched between the outputs of the two clamping circuits 1, 2 and 3, 4 . In each case from t 1 - t 2 , the switching voltage Sch with the duration H _A switches the signal path 9 to the output of the clamping circuit 1, 2 , because this supplies the signal C during this time. During the time t 2 - t 3 , the switching voltage with its duration H switches the signal path 9 to the output of the clamping circuit 3, 4 , because this supplies the luminance signal Y during this time. At the output of the switch 5 , the continuous signal TS then appears with the correct DC voltage position for the partial signals C and Y. This signal is fed to the FM modulator 6 , which supplies an image carrier 8 frequency-modulated with the signal TS at the terminal 7 for video recording.

Although the signal TS has no blanking gaps suitable for clamping during the image run-in time, this signal TS has the correct DC voltage position at the input of the FM modulator 6 for the partial signals C and Y , so that the frequency of the image carrier 8 for the individual amplitude values of the signals C and Y the correct ones, e.g. B. has values prescribed by the VHS standard.

The voltage value P 2 corresponds to the black value of the luminance signal Y. It can be seen that the synchronization pulses S do not extend as usual from the black level to an ultra-black level, but between the black level P 2 and a gray level P 1 , that is to say within the amplitude range of the BA signal. Such a transmission has the advantage that a modulation range is consumed for the synchronizing pulses S , the entire modulation range can be used for the signals C and Y , and thus a better signal-to-noise ratio is achieved. Such a recording with synchronous pulses in the BA area is described in more detail in the earlier patent application P 32 27 374.6.

Claims (4)

1. Clamping circuit for a signal (TS) without sufficient blanking gaps with sequentially transmitted partial signals (C, Y) in particular for a video signal, characterized in that the separate partial signals (C, Y) in separate clamping circuits ( 1, 2; 3rd , 4 ) are clamped to their own voltage value (P 1 or P 2 ) during their dead time (t 2 - t 3 ; t 1 - t 2 ) and then combined to form the signal (TS) . 2. Circuit according to claim 1, characterized in that the channel ( 9 ) leading the continuous signal (TS) with a changeover switch ( 5 ) is in each case connected to the output of the clamping circuit ( 1, 2; 3, 4 ), which is a partial signal (C, Y) returns. 3. A circuit according to claim 2, characterized in that with a television signal the switch ( 5 ) during the vertical blanking time (V _A ) is actuated by the synchronous pulse sequence (Sch) and the two voltage values (P 1 , P 2 ) the two voltage values correspond to the sync pulses (S) . 4. A circuit according to claim 2, characterized in that in the case of a television signal the two voltage values ( P 1 , P 2 ) correspond to the black value of a luminance signal (Y) forming the first partial signal and the achromatic value of a color signal (C) forming the second partial signal .