DE3219273C2 - - Google Patents

Description

The invention relates to a chrominance signal Processing circuit according to the preamble of the patent saying 1.

A chrominance signal processing circuit of the above mentioned type is already known (DE-AS 24 55 379). These known chrominance signal processing circuit is used for automatic selection of reception conditions for color distant visual signals according to the PAL or SECAM system. The one for the Structure of the known processing circuit required Circuitry is sometimes considered too high considered.

It is also a chrominance signal processing scarf with automatic switching between the three colors television standards NTSC, PAL and SECAM known (DE-OS 29 43 271), which a variety of known sub-circuits points, which in particular in integrated technology on a Semiconductor bodies are realized. The total required Liche circuitry is also relative high.

The invention is accordingly based on the object Chrominance signal processing circuit of the ge named kind so that with relatively little circuitry effort always a perfect Ver processing of a large number of video signal mixtures speaking a variety of television standards is possible.

The above problem is solved by the in Claim 1 marked measures.

The invention is characterized by the advantage that particularly simple manner, that is, with a particularly low level circuitry effort, a always safe consideration of color television signal mixtures according to a Variety of television standards is guaranteed.

Appropriate developments of the invention result from the subclaims.

The invention is illustrated below with reference to drawings explained in more detail, for example.  

Fig. 1 shows a block diagram of an embodiment of the chrominance signal processing circuit according to the invention.

Fig. 2 shows the invention in a block diagram of a portion of another embodiment in accordance with.

A first embodiment of the chrominance signal processing circuit according to the invention will be explained with reference to FIG. 1. The embodiment of the invention shown in Fig. 1 relates to such a case that the invention is applied to a chrominance signal processing circuit in which the carrier chrominance signals of the color video signal mixtures in the NTSC system and in the PAL system are plural of television standards are processed by a common circuit in a color television receiver.

Referring to FIG. 1, an input terminal 1 is provided to which a color video signal (composite color video signal) of the NTSC or PAL system is supplied. The input to the input color video signal 1 is fed to a bandpass filter 2 , whose center frequency between 3.58 MHz (for the NTSC system) and 4.43 MHz (for the PAL system) is switched by a control signal which corresponds to the control signal Input connection 3 of the filter in question is supplied. The carrier chrominance signal associated with the NTSC or PAL system, which is separated and extracted from the color video signal by the bandpass filter 2 , is supplied to a chrominance signal processing circuit 4 .

An example of the chrominance signal processing circuit 4 will now be explained in detail. The derived from the bandpass filter 2 carrier chrominance signal is supplied to an automatic chrominance signal control amplifier 5 , the output signal of which is fed to a burst key circuit 7 , through which the burst signal is separated from the input signal. This separated burst signal is changed every 1H period (H is the line or horizontal period) between -135 ° and -135 ° in the PAL system. The burst key circuit 7 is supplied with a burst key signal via its input terminal 8 . The burst signal obtained from the burst key circuit 7 is supplied to an automatic chrominance control detector circuit 9 , and the detected output signal generated at a capacitor 6 is supplied to the amplifier 5 to control its gain. The carrier chrominance signal is also supplied by the amplifier 5 to a control amplifier 10 , which also has a color control signal via an input connection 11 , a color control signal via an input connection 12 and a cancellation or a so-called killer voltage from a killer Detector circuit 45 is supplied, which will be described in more detail below.

According to Fig. 1, switch 16, 17 are provided, which are switched in accordance with whether color video signals of the NTSC system or the PAL system is received. When the color video signal of the NTSC system is received, the carrier chrominance signal derived from the control amplifier 10 is output via the switches 16 and 17 to blue and red color difference signal demodulators 18 , 19 , respectively. The output connections 20 and 21 for the blue-color difference signal and for the red-color difference signal are connected to the blue and red color signal demodulators 18 and 19 , respectively.

When the color video signal of the PAL system or the PAL standard is received or received, the carrier chrominance signal output by the control amplifier 10 is sent to a 1H delay line 13 (where H means the line period of the PAL standard), an adder 14 or leads to a subtractor 15 . In this case, the output signal from the delay line 13 is supplied to both the adder 14 and the subtractor 15 . The blue-color difference signal, which is obtained from the adder 14 , is fed to the blue-color signal demodulator 18 via the changeover switch 16 , while the red-color signal, which is derived from the subtractor 15 and whose phase is inverted every 1H period , the red-color signal demodulator 19 is supplied via the switch 17 .

A subcarrier signal generating circuit 22 will now be described. This circuit 22 comprises a voltage-controlled quartz oscillator 23 , which comprises a voltage-controlled oscillator 24 as such, quartz oscillators 25 and 26 for the NTSC standard or for the PAL standard, and a changeover switch 27 which allows switching between the quartz oscillators 25 and 26 . The burst signal derived from the burst switch 7 is fed via a color control phase shifter circuit 30 in the case of the NTSC system to a phase comparator 28 , to which the oscillation signal is also fed from the voltage-controlled oscillator 24 in order to carry out a phase comparison with this oscillation signal . The compared with respect to the phase output signal of the phase comparator is fed to a low-pass filter 29 , the output signal of which is fed to the oscillator 23 in order to control its oscillation frequency.

The auxiliary carrier signal (whose frequency is 3.58 MHz for the NTSC and 4.43 MHz for the PAL-standard) is used by the auxiliary carrier signal generating circuit 22 via a 90 ° phase shifter 36 of the blue-Farbdiffe renzsignaldemodulator supplied 18th

When the color difference signal of the NTSC standard is received or received, the subcarrier signal is supplied from the subcarrier signal generation circuit 22 to the red color difference signal demodulator 19 via a changeover switch 32 . When the color video signal of the PAL standard is received, the subcarrier signal is switched in phase to the positive phase, and is inverted in phase every 1H period by the switch 32 and the inverter 31, and then to the red color difference signal demodulator 19 handed out.

The switch 32 is controlled by a bistable flip-flop circuit or flip-flop circuit 33 , which is fed to the horizontal or line pulse of the PAL system at an input terminal 34 via a switch 35 . This switch 35 comes to the recording of the color video signal of the PAL standard in the on state, while it reaches the recording of the color video signal of the NTSC standard in the off state.

The above-mentioned killer detector circuit 45 will now be described in more detail. A phase comparator 37 is supplied with the burst signal from the burst key circuit 7 and the subcarrier signal from the output side of the switching circuit 32 . The phase comparator in question compares the phases of these signals. The comparative output signal emitted by this phase comparator is supplied to a low-pass filter 38 , which consists of a resistor 39 and a capacitor 40 . In this case, the killer voltage derived from the low-pass filter 38 is selected such that when the video signal is both a monochromatic signal and a color signal from the other television system or television standard, the killer voltage is formed by a high-level signal is. In contrast, if the video signal is a color signal of the right system or the right standard, the killer voltage is a low-level signal. This killer voltage is fed to the control amplifier 10 , so that its amplification is controlled by the killer voltage in question. Accordingly, the output signal from the control amplifier 10 will be a low DC voltage which is superimposed on an AC voltage if the video signal is a color signal and if it is a signal of the right system or the right standard. In contrast, the relevant output signal will only be formed by a high DC voltage if the video signal is a monochromatic signal and if a color signal from the other television system or the other television standard is present. The killer voltage is also supplied to the flip-flop 33 . Accordingly, the switching state of the order circuit 32 for recording the PAL system video signal is controlled synchronously by the polarity of the burst signal of the PAL system.

Referring to FIG. 1, a switching control circuit 41 is seen in front, which switches the center frequency of the passband of the bandpass filter 2 and the changeover switches 16, 17, 27 and 35 or during a certain period of time or in terms of switching controls. The switching control circuit 41 is formed so that a vertical synchronizing signal from an input terminal 42 a clock input terminal CK of a reduction by 16 distinguished forming counter 43 supplied to the output signal terminal its clear CL and also a bistable Kippschal processing is supplied to 44th Accordingly, the bistable flip-flop 44 generates a rectangular signal, the period of which corresponds to 32 vertical periods at a duty cycle of 50%. This is derived from the bistable multivibrator 44 or obtained rectangular signal, the center frequency of the pass band of the bandpass filter 2 and the switches 16 , 17 , 27 and 35 accordingly the NTSC and PAL systems every 16 vertical periods in alternating Controlled way.

According to Fig. 1 is a holding control circuit see 46 provided that the system or standard allows to make the carrier chrominance signal a differentiation with respect to, and indeed determined on the basis of the killer detection circuit 45 killer output signal (output voltage). This control circuit holds the center frequency of the passband of the bandpass filter 2 and the Umschaltzu states of the corresponding switch 16 , 17 , 27 and 35 in the state which is in accordance with the television system determined by the distinction. The hold control circuit 46 will be described in detail after standing. A pnp transistor 47 is provided, the collector of which is connected via a resistor 49 to earth or ground, the base of which is connected to the output terminal of the low-pass filter 38 and the emitter via a reverse current blocking diode 48 to a voltage source which emits a certain voltage 55 is closed. The voltage source 55 is made adjustable such that when the video signal is a monochromatic signal or a black and white signal or a color signal of the other system, the transistor 47 in question is not conductive. In contrast, if the video signal is a color signal of the correct television system or the correct television standard, the transistor 47 is switched on or on. According to one example, the ratios are chosen such that in the event that the video signal is a monochromatic or black and white signal or a color signal of the other television system, the base voltage of the transistor 47 has a value of 8 V, while in the case that the video signal is a color signal of the correct television system, the base voltage of transistor 47 is approximately 6 V. The voltage of the voltage source 55 is set to approximately 7.5 V. The collector of transistor 47 is connected via a resistor 56 to the base of a transistor 57 , the emitter of which is connected to earth or ground and the collector of which is connected to the input terminal 42 .

The operation of the circuit arrangement shown in FIG. 1 will now be explained. When a color television receiver (not shown) is turned on to operate in the operating state, the center frequency of the pass band of the bandpass filter 2 and the switches 16 , 17 , 27 and 35 are switched over the certain period of time by the switching control circuit 41 . If the color video signal, for example, of the NTSC system is received, then the transistor 47 in the holding control circuit 46 will be in the conductive state or switched on when the switching state of the NTSC system. Accordingly, the collector voltage of each transistor will take a high value, so that the transistor 57 comes into the on state. As a result, the vertical synchronizing signal, which is supplied to the input terminal 42 , is derived by the transistor 57 and is therefore not supplied to the counter 43 . Accordingly, the bistable multivibrator 44 remains in the stable state at this time. Thus, the color video signal of the NTSC system is processed by the chrominance signal processing circuit 4 . When the color video signal of the PAL system is received, the corresponding operation is carried out.

In the above example, the output of the vertical synchronizing signal to the counter 43 is controlled by the output voltage from the killer detector circuit 45 . However, since the DC voltage level of the output voltage output from the control amplifier 10 is related to the output voltage from the killer detector circuit 45 , it may be possible that the output of the vertical synchronizing signal to the counter 43 is controlled by controlling the output voltage from the control amplifier 10 is used.

If the color video signals of the NTSC system (the pure NTSC system), the PAL system and the Quasi-NTSC system (in which the color subcarrier frequency is 4.43 MHz and thus equal to the color subcarrier frequency of the PAL system) by the common chrominance signal processing circuit are processed ver, it is sufficient that the switching control circuit 41 is constructed in the manner shown in FIG. 2 and that the control signal derived from this control circuit device is used to switch the corresponding circuit parts according to FIG. 1 Taxes.

In the case of FIG. 2, instead of that in FIG . 1 provided bistable multivibrator 44 a ternary counter 50 is provided, at the output terminals 51 , 52 and 53 of which a "1" signal corresponding to the PAL system, the pure NTSC system or the quasi-NTSC system can be removed. The occurring at the output connections 51 , 52 and 53 output signals are used to control the above-mentioned scarf parts.

In the case of the quasi-NTSC system, it is sufficient for the subcarrier frequency of the subcarrier signaling circuit 22 (see FIG. 1) to be chosen to be 4.43 MHz, which frequency is equal to that of the PAL system. In addition, it is sufficient that the changeover switches 16 , 17 , 27 and 35 are switched over to the same states as with respect to the pure NTSC system.

The present invention can be used in such Case to be applied where, as in means America and South America the carrier chrominance signals of the color video signals of the PAL-N system (where the subcarrier frequency is 3.58 MHz) of the PAL-M system (where the subcarrier frequency 3.57 MHz) and the system NTSC (in which the Subcarrier frequency is 3.58 MHz) by the ge common chrominance signal processing circuit are processed.

According to the invention described above, the certain circuit parts by the switch switched, whereby the carrier chrominance signals of the Color video signals from a variety of television standards through the common chrominance signal processing circuit are processed in which the correspond the circuit parts automatically into the states are switched to the system or to the standard of the derived chrominance signal fit.

Claims (6)

1. Chrominance signal processing circuit which may record a variety of video signal mixtures according to a variety of television standards.
with a common circuit part ( 4 ) which is provided jointly for a multiplicity of video signal mixtures,
and with a switchable circuit part ( 18, 19 ) which can be switched by a switching device in such a way that the plurality of video signal mixtures can be processed selectively,
characterized,
that switch control means ( 41 ) is provided which switches the switch means ( 16 , 17 , 27 , 35 ) within a certain period of time, that detector means ( 45 ) is provided which determines the level of a color burst signal which is mixed in each of the plurality of video signal mixtures is included
and that a holding device ( 46 ) is provided which holds the switching device ( 16 , 17 , 27 , 35 ) on to the control by the output signal of the detector device ( 45 ). 2. Chrominance signal processing circuit according to claim 1, characterized in that the detector device ( 45 ) has a low-pass filter ( 39 , 40 ) which has a time constant which is smaller than the specified period of time. 3. Chrominance signal processing circuit according to claim 1, characterized in that the switching control device ( 41 ) has a counter ( 43 ) whose clock input terminal is supplied as a clock signal, a vertical synchronization signal which is contained in each of the plurality of video signal mixes, the counter position of the counter in question corresponds to the specific time period. 4. chrominance signal processing circuit according to claim 3, characterized in that the holding device ( 46 ) contains a circuit connected to the clock input terminal and controlled by the output signal of the detector device ( 45 ) switching circuit. 5. chrominance signal processing circuit according to claim 1, characterized in that the detector device ( 45 ) has a phase detector ( 27 ) in which the phase of the color burst signal is determined in relation to a reference auxiliary carrier signal and which generates an output signal whose level the Ent level of the burst signal speaks. 6. chrominance signal processing circuit according to claim 1, characterized in that the common circuit part contains an amplifier ( 10 ) which amplifies a color signal contained in each of the plurality of color mixtures occurring with a carrier,
that the amplifier in question ( 10 ) is controlled by the output signal from the detector device ( 45 ) such that the amplifier interrupts the carrier color signal in the event that the output signal of the detector device ( 45 ) in question is lower than a certain level,
that the amplifier generates an output signal with a dependent on the level of the output signal of the Detektorein device ( 45 ) DC voltage level
and that the holding device ( 46 ) is controlled by the output signal from the amplifier ( 10 ).