DE2040966A1 - Color clearing circuit for a PAL color information signal processing circuit - Google Patents

Description

JW / WG

Dipi.-ing. ERICH E. WA 1.THER

iRldor; ΚΛ.ΡΊ! ¹ ^ T: "';;.:>:'.'UZuIc

/ ■ ν-; PHU-4265
Aamelduno vemt 14. ^A ug. 1970

"Color canceling circuit for a PAL color information signal processing circuit".

The fillet relates to a color erasing circuit for a PAL color information signal processing circuit which has an output of a

from an active color subcarrier generator with a %

train signal controlled synchronous color sync signal detector coupled, the half line frequency durchlas transmitting frequency selection circuit contains, with their Output a detection arrangement is coupled, the A color canceling signal can be taken from the output.

From the Dutch patent application

No. 6704808 is a circuit arrangement of the above Kind of known, taking to preserve a color erasure that on receipt of a Schwarz-Veiss signal · cannot be rendered ineffective by undesired signals, except

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the signal of half the line frequency obtained from a burst signal phase detector, the phase change of half the line frequency is detected, at the same time a signal from a such a detector which detects a mean phase is obtained in the detection arrangement. These both detected signals are combined in a coincidence circuit and converted into a color cancellation signal.

The invention aims to provide a color erasure

To create circuit that is simpler and yet offers practically the same advantages as this known color erasing circuit.

According to the invention, a color erasing circuit of the type mentioned at the outset has the characteristic that the detection arrangement has a minimum signal amplitude detector contains.

The invention is based on the knowledge that in Schwarz-Veiss reception the undesired signals that result in a signal with half the line frequency at the output of the color sync signal detector are harmonics of the line frequency that lie on both sides of the color subcarrier «generator frequency and thereby emit this from the color sync signal detector Signal with half the line frequency can change in amplitude according to a sine function. From this sine function, the frequency corresponds to the difference between the auxiliary carrier generator frequency and a frequency that is in the middle between the frequencies of two on both sides of the auxiliary color

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carrier generator frequency lying harmonics of the line frequency of the received signal. The falls between The frequency of these harmonics does not coincide exactly with the color subcarrier generator frequency, i.e. the color subcarrier generator frequency is not accurate in the middle between two successive harmonics of the line frequency, a signal is created with the. ■■ half the line frequency, the amplitude of which, as already mentioned above, is sinusoidal and therefore periodically twice becomes zero per period of the sine. By detecting this change in amplitude, referred to below as a beat it can therefore be determined that the signal obtained with half the line frequency is not from a received color television signal but from a black and white signal originates. In order to detect this beat, the invention provides a detection of the minimum Signal amplitude of the signal with half the line frequency is a very reliable color removal criterion. Just the presence a signal with half the line frequency, the said beat at the output of the color sync signal detector does not have, then leaves the latter in an arrangement provided with this circuit arrangement switch for color signal processing.

The invention is based on the drawing,

which contains only one figure and for the sake of clarity the details not important for understanding the invention are omitted, explained in more detail.

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-k-

The figure is a simplified block diagram of a color television receiver with an inventive Color cancellation circuit.

In the figure, a part 1 has an input 3 to which a received signal can be fed. in the Part 1 finds high frequency and intermediate frequency amplification, Demodulation and splitting of the received signal take place. A luminance appears at an output 5 of part 1 signal Y and when receiving a color TV signal appears at an output 7 a modulated by the color information Far bhil fs carrier Chr.

The luminance signal Y is from the output

5 of part 1 to an input 9 of an image reproduction part 11 fed.

In the case of color TV reception, this will be

modulated color subcarrier signal from output 7 of part 1 an input 13 of a chrominance signal amplifier 15 fed. An output 17 of the chrominance signal amplifier 15 is at an input 19 of a demodulation », and Matrix circuit 21. The demodulation and matrix circuit 21 receives signals in processing a color television the modulated color auxiliary carrier and gives on three outputs Color difference signals from the three inputs 29, 3I and 33 of the image reproducing part 11 can be supplied.

For synchronous demodulation of the color aid

carrier signal in the demodulation and matrix circuit 21 are two inputs 35 and 37 of the same reference signals

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fed from outputs 39 and 41 of a color subcarrier generator43 originate.

The color subcarrier generator 43 is from

active type that emits a signal even if no color information is received in the input 3 of part 1 Signal is present.

Another output 45 of the color subcarrier

generator 43 is connected to an input 47 of a synchronous j

Burst signal detector 49 for supplying a reference signal to the same. A signal input 51 of the color sync signal detector 49 is connected to an output 53 of a gate circuit 55, of which an input 57 is connected to the output 7 of the part 1. The gate circuit 57 also has an input 59 to which a signal is fed which periodically opens the T switch-off 55 in that part of the line return where in the signal coming from the output 7 of part 1 to the input 57, a color sync signal "(burst is present). This color sync signal is then through the gate 55 and the output 53 thereof routed to the input 51 dee synchronous Farbeynchronsignaldetektore k9.

The color-synchronous event detector 49 has an output 61 at which a modulated color- synchronous signal arises when the color distance is received, since an etron component contains a control input 63 of the color auxiliary generator 43. ■ - '

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Furthermore, when receiving a PAL

Color television signal in which the phase of the color sync signal changes from line to line, at the output 61 of the color sync signal detector k9 an alternating current component with half the line frequency, which is fed to an input 65 of a filter circuit 67.

An output 69 of the filter circuit

is with an input 71 of a detection arrangement connected, according to the invention, a minimum signal amplitude detector contains. An output 75 of the detection arrangement 73 is provided with a color cancellation signal input 77 de »chrominance signal amplifier 15 connected. The chrominance signal amplifier 15 must through the color erasing signal at input 77 with black-and-white signal reception or if the color television signal is too weak locked and if a sufficiently strong color television signal is received be opened.

The detection arrangement 73 includes a

first diode with its anode connected to input 71 and a second diode 81 with its anode connected to output 75. 01 cathodes of diodes 79 and 81 are connected to one another and to a resistor 83 and a capacitor 85. The resistor 83, on the other hand, is connected to a negative voltage -E ₁ and the capacitor 85 is on the other hand to ground ("left. The anode of the" wide diode 01 is w * it "r over" r "in" η Wisfcr State S? * »« In · positive · Spsjuwne ♦ ··. Uni Ober »in ·» lMUl «iMi» tor 89 at

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Ground.

The mode of operation of the circuit arrangement is, insofar as this is necessary for understanding the invention of Meaning is explained in more detail.

When receiving a color television signal on the

Input 3 of part 1 is present at output 7 of part T, among other things, a color sync signal, which is sent via the gate circuit 55 to the signal input 51 of the synchronous color sync *

Signal detector 49 is forwarded.

When receiving a PAL signal in which the The phase of the color sync signal changes from line to line, arises at the output 61 of the color sync signal demodulator 49 and at the input 65 of the filter circuit 69 a synchronous demodulated color sync signal. For this demodulated color burst, the component with half the line frequency is filtered through the filter circuit 67 selected and, if necessary, to input 71 of the

Detection arrangement 73 forwarded to a greater extent. In the \

Case of receiving a sufficiently strong - .PAL - coloring -. television signal is the amplitude of the voltage with the tile half the line frequency at the input 71 of the detection arrangement 73 practically constant. About the diode 79 is the capacitor 85 to a practically constant DC voltage charged. This DC voltage becomes the positive supply voltage via the resistor 87 + Eg conductive diode 81 at output 75 of the detection device 73 forwards and unlocks the chrominance

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Signal amplifier 15

When receiving a black and white television

signals is produced at the input 51 of the color sync signal detector k9, a scattered signal which is let through by the gate circuit 55 and which contains some harmonics of the line frequency. If the frequency of each of these harmonics is sufficiently different from that of the color auxiliary

^ carrier generator kj , the phase locked loop of the output ^ 5 of this generator k3 via the color sync signal detector k $ to the control signal output 63 of the generator ^ 3 does not work. This generator ^ 3 is then not regulated and gives a signal with its own frequency f, which lies somewhere between two harmonics nf. And (n + f) f. Of the line frequency f. The synchronous color subcarrier detector k9 then emits a signal at its output which consists of a signal with the frequency (n + 1) f. - f and a signal with the frequency f - nf.

ψ is compiled. A signal composed in this way can be regarded as a signal with half a line frequency (■ Jf,), the amplitude of which changes sinusoidally with a frequency equal to (n + ■ $ ") f, - f, here referred to as the beat frequency pass the filter circuit 67 if it is within the bandwidth of the same, ie if the sinusoidal amplitude fluctuations are not too fast Without the special detection circuit arrangement according to the invention, the receiver could in the case of an amplitude detection of this signal

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assume its color receiving state, which is undesirable.

The by the filter circuit 6j at the

AC voltage outputted to input 71 of the detection arrangement 73 with changing amplitude is now converted into a DC voltage via the first diode 79 and the detection network with the capacitor & 5 and the resistor 83. Voltage converted with a changing amplitude, which is small when the amplitude of the alternating voltage at the input 71 is small. This is done at a ™ frequency that is twice the beat frequency. Via the diode 81, which is conductive when a minimal signal value occurs, the capacitor 89 at the anode is brought to a potential which deviates only slightly from the mineral value of the signal at the capacitor 85. Di © time constant of the detection network nit must be adapted to the frequency by the diode to detektLexenden signal the resistor 83 and the capacitor 85, and is therefore larger than the period time of half the line frequency, etc.

chosen and is further adjusted to the bandwidth of the filter circuit 67 adapted and for this reason must preferably be less than approximately the period time of a Signals with a frequency corresponding to half the bandwidth of the filter circuit 67. A good value is about a millisecond. The time constant of the detection network rait the resistor 87 and the capacitor 89 determines how long one of the capacitor 89 assumed minimum signal amplitude is recorded.

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This is the minimum beat frequency at which still no unwanted color solution occurs and thus the interference bandwidth of the color erasure system is determined. A a favorable value for this last time constant is about a tenth of a second.

In the absence of a voltage to be detected at input 71 of minimum signal amplitude detection arrangement 73, a voltage drop occurs at resistor 83 as a result of a current flowing through resistor 87 to the diode. To enable good detection of the minimum signal amplitude of a signal occurring at the input, an equalizing bias voltage -E _{1 is} present at the resistor 83 such that the voltage at the connection point of the diodes 79 and 81 is preferably lower than the minimum signal amplitude of a signal to be fed to the input 71. The negative bias voltage -E _{1 also} has a favorable influence on the speed of charge exchange on the capacitor when zero crossings occur in the envelope of the scattered signal that occurs at input 71 when there is black egg reception.

The remaining part of the color cancellation circuit must be designed in such a way that when the above-mentioned beat occurs, the minimum signal amplitude detected at the output 75 of the detection arrangement 73 keeps the chrominance signal amplifier 15 blocked.

Ee will be clear that · it for

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What is essential to the invention is that the detection signal is half the line frequency of the same Synchronous detector is obtained from which a control voltage for the generator is taken | it may also be included in the Circuit arrangement recorded detectors are used.

The color signal voltage obtained from the output of the minimum signal amplitude * detector for the part of the receiver to be switched off or on, which verrabeitenden the color information signal, can also be fed to a point other than the chrominance signal amplifier, such as the demodulation arrangement.

No attention was paid to the amplitude level,

which the signals at different points in the circuit arrangement must have received; it should be evident that this can be done with the help of, for example, amplifiers can be achieved. ■

Although in the above only of color erasure was talked about can of course with the one obtained from the output of the minimum signal amplitude detector Color lock signal also other tasks, such as a white point conversion or switching on or off Filters are operated in certain circles.

Of course, instead of diodes

in the minimum signal detector also other rectifier elements » how, for example, transistors are used. One

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gun «ti go execution oine3 Mj ηΐ uiu.ni i gnalde teldors is auol; oino training, icoboi die zueiie Dj.odo 81 dureli eim-xi Since cj s-T'mi (.teriiborgaiig of a transistor is replaced word ο τι whose "emitter * is connected to ground. The Zuitkonstimte can then in the collector circuit of the zngloicJj as Amplifier-serving transistor aurgenomnien be.

BATH ORIGINAL

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Claims (3)

PATENT CLAIMS ; / Ty Color cancellation circuit for a PAL color information tion signal processing circuit which contains a frequency selection circuit which is coupled to an output of a synchronous chrominance signal detector controlled by an active color subcarrier generator with a reference signal and which allows half the line frequency and to whose output a detection arrangement is coupled whose g Output a color erasing signal can be taken, thereby characterized in that the detection arrangement includes a minimum signal amplitude detector. 2. color erasing circuit according to claim 1, characterized characterized in that the detection arrangement has a Input of the same connected first amplitude detector contains, the detection of which is string constant in size «- order of a millisecond, with an output of the first amplitude detector with a second the first oppositely connected amplitude detector is coupled ", of which second amplitude detector the detection · - time constant is in the order of a tenth of a second. 3. color erasing circuit according to claim 2, characterized characterized in that a resistance of a network determining the time constant of the first amplitude detector a compensation voltage source is connected. BATH ORIGINAL; 1 09 8 10/158 V. J * Read more