DE2410535A1 - ELECTRONIC CIRCUIT ARRANGEMENT FOR THE TREATMENT OF COLOR TV SIGNALS - Google Patents

Description

DIPL.-ING. OR KRETZSCHMAR _{2 HAMBURG} ,

AT THE STRAW HOUSE

PATENT LAWYER RUF O4O / 24 67 43

MARGEL DUPOUY - 4612

SAINT CLOUDE / France

Attorney file: 4612

Electronic circuitry for handling color television signals.

(For this application the priority from the French application No. ₀ 73 08 037 of March 7, 1973 is claimed.)

The present invention relates to an electronic circuit arrangement for the treatment of color television video signals, coming from a television camera or other video signal source, the three separate monochromatic Video signals, namely one green, one red and one Blue signal, which are intended to display a color television picture on the screen of a receiving device to create

The video signals from a color television camera can of course be used as they are, but it is desirable to use them for special picture effects To be able to "handle" image signals. In photography and film, for example, one can use the sensitive surfaces overexpose to create "sunlit" effects

ACCOUNTS · DRESDNER BANK, ACCOUNT NO. 9229 371 POST CHECK HAMBURG NO. 193766-208

409837/0850

obtain. In television, similar effects can be achieved by placing certain circles on the television cameras adjusted.

The object of the present invention is to design an electronic circuit arrangement that allows Change the video signals supplied by a properly controlled camera to become fully controllable "Sunlight" effects, but also other effects to obtain. Since the television camera is properly adjusted, you have the normal and that at the same time changed television images

In color television, the overall picture impression arises from the Overlapping of three monochromatic partial images in the primary colors green, red and blue. This goes for everyone on the World operated color television systems.

In accordance with the principle of television per se, each monochromatic sub-picture from the television camera is in the form of an electrical video signal. Thus one has via three video signals g, r, b, each of which represents the green, red or blue sub-image that you get with electronic Means can handle to form three new video signals conforming to the same television standards, but bear one modified image information.

The electronic circuit arrangement according to the invention is characterized in that it is used for logical treatment for each video signal (g, r, b) has a circuit which comprises two comparator stages, to which the video signal at the same time that is fed to the second input of each comparator stage an adjustable reference potential is applied so that the two reference potentials used are closely adjacent to one another are that the two logic voltage values that are obtained at the outputs, the inputs of an "EXCLUSIVE-OR" gate are supplied, and that the output signal of the

2
409837/0850

named "EXCLUSIVE-OR!" - gate and at least one of the Output signals of the mentioned comparator stages to the corresponding one Input of a television receiver »

With the signals obtained in this way, one can see on the screen of a receiver can generate images composed of uniformly colored shapes defined by a line be limited in a different shade. The width of this line can be changed by one of the above Reference voltages supplied to comparator stages are adjusted

Furthermore, the circuit arrangement according to the invention comprises means for interlinking the various logic signals obtained to combine in order to be able to adjust the color of each depicted shape and each line as desired, and to adjust the width of these To be able to enlarge or reduce lines that delimit the uniformly toned shapes mentioned.

For this purpose, the circuit arrangement according to the invention also comprises an "OR" gate, the inputs of which the output signals of the three "EXCLUSIVE OR ^fl gates of the circuits mentioned for processing the video signals g, r, b are fed in such a way that at the output of the mentioned" OR "gate receives a logic signal that is simultaneously linked to all three original video signals, a decoder allowing the output signals of one of the comparator ^{stages of the said circuits for logic signal processing and the signal of said II} OR ^W gate to be combined; and the Circuit arrangement for each output of said decoder comprises three gate circuits for analog signals, these gate circuits being controlled by the corresponding output signal of the decoder, and each of which allows an adjustable DC voltage in the direction of the corresponding green, red or blue Video output of the circuit arrangement according to the invention durchzu permit.

- 3 409837/0850

Further embodiments and advantages of the present invention emerge from the following description based on examples and based on the accompanying drawings. Show it:

Fig. 1 is a schematic representation of a

video signal treated according to the present invention,

2 shows the schematic representation of a circuit according to the invention for treating a Video signal that corresponds to one of the three color video signals g (green), r (red) and b (blue) ,

3 shows the circuit diagram of a preferred embodiment of the circuit arrangement according to the invention, and

FIG. 4 is a circuit diagram of a detail of that shown in FIG shown, circuit arrangement according to the invention.

The present invention relates to the treatment of video signals, from a color television imaging device, such as a color television camera.

The video signal such as the signal g (green) supplied from a television camera has a course such as it is shown in FIG. In this illustration, the instantaneous voltage U of the video signal is plotted on the ordinate, which represents the luminosity of the point under consideration in an analogous manner. The abscissa represents the time axis T. dar (in the 625-line television standard, a complete Line 64 microseconds).

4 -

409837/0850

This signal is fed to the input g of the circuit arrangement according to the invention, which is shown in FIG. 2 and comprises three identical circles for the treatment of the signals g (green), r (red) and b (blue), a single one of these circles in FIG Fig. 2 is shown, namely the circle for the signal g (green), as shown in FIG. This circuit comprises two comparator stages C1 and 02, the positive input of which is connected to the input line of the signal g, and the negative input of which is connected via a potentiometer PI, P2 to a circuit for generating a reference voltage Ui, b3W _e U2. According to the present invention, the reference voltages U1 and U2 are closely spaced and can be set by means of the potentiometers P1, P2 mentioned. The comparator stages 01, 02 generate two logical output signals V1, or ₀ V2, which are applied to the input of an "EXICDUSIV-OR ^ gate with the designation G1. Thus, the circuit shown in FIG. 2 generates three logical signals V1, V2 and GV, as shown in Fig. 1. In operation, each comparator stage outputs the logic voltage value "1 ^M when the potential of the video signal g is higher than the potential."; of the reference signal U1, or. U2 is, as well as the logic voltage ^{value 11} O ", when the potential of the video signal g is lower than the reference potential U1 or · U2.

For the parts of the video signal g where the potential is lower than the Beaugspotentiale U1 and Ü2, the two comparator stages 01 and 02 emit the logic voltage values "0 ^M , and for the parts of the video signal g where the potential is higher than the potentials the reference signals U1 and U2, both comparator stages, 01 and 02, output the logic voltage value ^"I 1".

For the parts of the video signal g whose potential lies between the potentials U1 and U2, one of the comparator stages outputs the logical voltage value ^M 1 ", and the other the voltage ^{value M} 0 ^tt , by executing the logical ^(l EXCLUSIVE: iT-OD: ER ^H logic function is obtained at the output

- 5 -409837/0850

of the gate G1 the logic voltage value "1" for all parts of the video signal g whose potential is between the two reference potentials U1 and U2, and the logic voltage value "O" for all other parts of the video signal g.

The circuit of FIG. 2 has as one input for analog voltages and three outputs for logic signals. The output voltages V1 and V2 have the logic voltage value "0" if the potential of g is lower than the reference potentials U1 and U2, and the logic voltage ^{value M} 1 "in the other case. This defines the zones of the image for which the green -Level is above an adjustable threshold, these zones are bounded by a narrow strip, the width of which can be adjusted by influencing the difference between U1 and U2. If U1 and U2 are very close together, this strip is very narrow, and the signals V1 and V2 are practically identical and it does not matter whether one uses one or the other signal to feed it to the receiver. In the embodiment shown in FIG.

In the simplest case, when the video signal g corresponds to a simple green shape, the invention allows Circuitry to convert this shape into a green spot of uniform tint, that of a lighter or lighter darker stripe is limited. The width of this strip can be adjusted by changing the reference voltage U1 will.

In the simplest embodiment of the invention Circuit arrangement, the three video signals g (green), r (red), b (blue) from a television camera in a circle, as shown in Fig. 2, treated.

In Fig «, 3 is a preferred embodiment of the invention Circuit arrangement shown in which the received at the outputs of a circuit shown in FIG logical signals of a subsequent logical handling

- 6 409337/0850

by logical linking functions. This circuit arrangement has a circle for each of the video signals g, r, b of a television camera, as shown in FIG. These circuits include the comparator stages 01 to 06, to which the video signals g, r, b and the reference voltages UR1 to UR6 are fed. The comparator stages 01 to 06 deliver logical output signals VV, R, R ¹ and B, B ¹ , which are fed to the inputs of the "EXCLUSIVE OR ^ gates with the designations G1, G2 and G3. The logical output signals of gates ^ 1, G2 and G3> which are designated by Gv, Gr and Gb, are fed to the inputs of an "OR" gate GT, which carries out the logical operation Gv + Gr + Gb "Gt (Boolean algebra)". The output signal Gt of the gate GT and the Signals V, R, B of the comparator stages C1, C3 and 05 are fed to the corresponding inputs A, B, C, D of a decoder D1, which allows these signals to be linked it is sold under the trade designation "744-2" in the series "TTL74 ·" This decoder is in the form of an integrated circuit and comprises four input lines A, B, C, D and ten output lines 0-9 (See Fig. 3.) The decoder obeys the i Logical links shown in the following table:

Entrances C (B) D (G1) 0 1 Outputs 3 4th 5 6th 7th 8th 9 A (V) B (R) 0 0 0 1 2 1 1 Λ 1 1 1 1 0 0 0 0 1 0 1 1 1 1 1 1 1 1 1 0 0 0 1 Λ 1 Λ 1 1 1 1 Λ 1 0 1 0 0 1 1 0 0 1 1 1 1 1 1 1 1 1 0 1 1 1 1 0 1 1 1 1 1 0 0 1 0 1 1 Λ 1 1 0 1 1 1 1 1 O 1 0 1 Λ 1 1 1 1 0 1 1 1 0 1 1 0 Λ 1 Λ 1 1 1 1 0 1 1 1 Λ 0 1 Λ 1 Λ 1 1 1 1 1 0 1 0 0 0 1 Λ 1 Λ Λ 1 1 1 1 0 Λ 0 Λ

409837 / 08S0

The other six possible combinations of input signals result in "1" on all outputs. Each output evaluated by a combination of input signals results in the logical voltage value "0". For each of the combinations of input signals shown in the table there is an output, namely a single output which has the logic voltage value "0".

Two logical inverters 11 to 16 in series in each Voltage path switched on play a neutral role in the logic circuit, but allow that through the logical treatment of the signals Gv, Gr and Gb to compensate for the delay caused.

Assuming that the logical voltage ^{value of Gt is fixed at H} 0 ^H , the eight possible combinations of the logical signals V, R and B at the outputs 0 to 7 of the decoder D1 are shown in the table above. By returning the gate GT to normal operation, two additional links evaluated at the outputs 8 and 9 of the decoder are released. Every time one of the outputs has the logic state "O ^H , it follows that all other outputs are in the logic state" 1 ^M. This property is used to the fact that the logic voltage value "0" opens three gate circuits for analog signals, which in turn clear the way to the output of the circuit for three adjustable DC voltages, which represent a predetermined mixture of the three primary colors.

A preferred embodiment of these gate circuits is illustrated in FIG.

The circuit arrangement shown in Fig. 5 includes one Setting circuit that controls the adjustable logical gate circuits forms, and for each output, 0 to 9, of the decoding stage D1 a transistor TO to T9 contains ^ (only the transistors TO, T4 · and T9 are shown here), in a known manner the inverse of the logic level of the corresponding output

- 8 409837/0850

of the decoder D1 and thus represents a simple logic inverter. In addition, the transistors are T0 to T9 connected to a direct current source S. The output of each inverter! TO to T9 is each via three potentiometers, P1, P2 and P3, or a resistor R1, R2, R3 connected to the input of three output amplifiers A1, A2, A3. The different Resistors R1, R2, R3 of the input circuits of the three output amplifiers A1, A2, A3 are for each of these amplifiers in the form of resistors connected in parallel as represented by R1 in Figure 4- for amplifier A1. Each of the various resistors R1 is connected to one of its ends via the potentiometer P1 and the inverters TO to T9 » each of which corresponds to one of the outputs O to 9 of the decoder D1, connected to the direct current source, and with its other end to a common line L which is connected to the input of the amplifier A1. Anyone A single voltage is applied to one of the inputs at the moment. For example, if a voltage Eo is applied to the input, which proceeds from the output 0 of the decoder D1 is applied, then a current io = Eo / R flows in the common branch L. So flows in the common branch L a current that the values

io, i1, i2 .19 by taking the voltages

Eo, Ei, E2 E9 separated by the mentioned potentiometers

sets and applies these voltages only separately and individually. The resistances can also be different. If the common branch is formed by the input of an amplifier whose input impedance is zero or negligibly small compared to the fixed resistors R, and which emits an output voltage that is proportional to the current at the input, this gives the result you are looking for. The output voltage of said amplifier assumes the values Vo, V1, V2 .... V9, the can be adjusted without any reaction to one another.

The three adjustable voltages thus obtained, corresponding to each of the signals from outputs 0 to 7, allow it is to determine the uniform hue of the picture surfaces, and the three adjustable voltages that are applied to the signals corresponding to outputs 8 and 9 make it possible to adjust the color of the strip that delimits the edges of the image.

- 9 -409837/0850

Furthermore, the circuit arrangement according to the invention allows the the first image (input video signals g, r, b) with another image represented by three further signals g1, r1, b1 mix, for example, from another television camera. These three video signals are sent through three gates 20,21,22 for analog signals fed to the same input terminals as the signals from the amplifiers A1, A2, A3 and originate from the decoder D1. A second input of each gate circuit 20,21,22 is known per se Circuit 23 is fed to one of the outputs of the decoder D1 for level adjustment. This circuit allows the following to realize special effects:

In color television, a shade of blue, called "blue for trick effects", is used extensively for the execution of certain trick effects, in particular the insertion of image sections. For this purpose, many color television studios and their facilities are painted in this shade of blue. This special feature can be used to carry out an insertion, ie to transplant the final picture into another picture which comes from some synchronously running video signal source. Indeed, in the table above, for the logic connections of the decoder with the trade name ^M 744-2 ^w , one can see that output 4 is only evaluated for A = O, B = O, G = 1, or in this case for green »0, red = 0, blue = 1, or, in other words, only for image sections or image parts that only contain blue. Thanks to the circuit shown in FIG. 3, it is ensured that the three ^{gate circuits 20, 21, 22 opened by the logic state 11} O ¹¹ release the path for three video signals v1, r1, b1, which represent one colored image from another Camera or any synchronized video signal source. This condition for synchronization is fundamental, but can always be fulfilled in studios that have several video signal sources at their disposal, in that these video signal sources simply work with a single clock generator.

Thus, all the blue parts of the original image become (in the present case the background in this particular shade of blue) by another background from another

10
409837/0850

Video signal source replaced. This way you get a final image in which the image objects treated in the manner described above are within a normal, Actual or drawn image scene move, where image objects or people not treated in this way also move can.

In order to ensure a stable operation, the video input and output signals are to a fixed reference level (clamp or equalization) according to the television technology common procedures, the aim of this operation being to give the various video signals a fixed and to give an exact reference potential.

The present invention expands the range of possibilities for television broadcast designers. The 'bonnenlight' effects are very impressive, and it is possible by means of the circuit arrangement according to the invention, these Control effects very precisely, but outside of these effects there is another interesting option:

You can in fact in one in this particular shade of blue held studio as it is used for color television stations will allow actors to move who wear masks and costumes that are only available in the primary colors green, red and blue and their mixed colors, which consist of two basic color components, are, i.e .:

1. Black - absence of any color

2. Blue - basic color

3. Red - basic color
4-, magenta - red and blue

5. Green - basic color

6. Cyan - blue and green

7. Yellow - green and red

8. White - green and red and blue.

This order is not arbitrary, but corresponds to the ranking for increasing luminosity. So one finds

11
409837/0850

the first eight of the signal combinations listed in the table above. This means that these eight color tones can be replaced by eight other color tones which are absolutely free to choose and adjust, each transition from one color to another being limited by a line of adjustable width. In addition, the color shading of the molds that are present on the originating directly from the camera image are eliminated. Thus, a real picture has been converted into a drawing with uniform coloring.

According to another embodiment, one has for the thirty analog gate circuits, those according to FIG. 3 by resistor networks (Fig. 4-), integrated circuits of the MOST type are used, such as those made by the company N.S.C. sold under the trade name "MM 4-51" Integrated circuit that combines four fast analog switches with a common output in the same housing. Each output signal of the decoder D1 controls the control electrode of one of these components after a suitable adjustment of its level on, and this happens simultaneously for the three video signal paths. Each of these components that practically represents a field effect transistor, which is suitably biased ^, transmits to the drain electrode the Voltage present at the source electrode, whereby the roles of the drain and source electrodes can be interchanged.

In addition to the high price of these components, it has been very difficult to reduce some interference signals during switching operations, due to the relatively high control voltages that are required for the unrestricted working methods are required. However, this solution makes sense. The embodiment shown in FIG represents an arrangement that is simpler, more economical and more efficient at the same time.

The aim of the present invention is at the output of the invention Circuit arrangement to have three signal paths assigned to the primary colors green, red and blue; in Each of these signal paths should have ten separately adjustable

12 409837/0850

Be able to regulate voltage values beforehand, which appear in an order determined as a function of the various combinations of the input video signals g, r, b, _{or the like}

It goes without saying that the present invention is not limited to the illustrated and described embodiments, but that various modifications can be made can be made in the details without departing from the scope of the present invention.

- patent claims -

- 13 409837/0850

Claims (6)

DIPL.-ING. O. R. KRETZSCHMAR 2 Hamburg ι * ■ · "AT STROH HAUSE 3 * PATENT ADVERTISER RUF ö * o / 2 * 67 * 3 MARCEL DUPOUY
Attorney file: 4612 P AI RELEASED 1 / Electronic circuit arrangement for the treatment of Color television video signals received from a television camera or come from a different video signal source, the three separate monochromatic video signals, namely one green, one red and one Supplies blue signals which are intended to produce a color television picture on the screen of a receiving device, characterized in that it has a circuit for logical treatment for each video signal (g, r and b) has, which comprises two comparator stages (C1, C2), which at the same time the video signal (g, r, b) is fed to the second input of each comparator stage (01, C2) an adjustable reference potential (Ui or U2) is applied, that the two reference potentials (U1, U2) used are closely adjacent to one another, that the two logic voltage values (V1, V2), which are obtained at the outputs, are fed to the inputs of an "EXCLUSIVE-OR" gate (G1), and that the output signal of said "EXCLUSIVE-OR" gate (G1) and at least one of the output signals of the comparator stages (C1, C2) is fed to the corresponding input of a television receiver. 2. Electronic circuit arrangement according to claim 1, characterized in that it further comprises an "OR" gate (GT), at the inputs of which the output signals of the three "EXCLUSIVE OR ^lf gates (G1, G2, G3) of the circles for Treatment of the video signals <5g, r, b,) are applied in such a way that at the output of the said "OR" gate (GT) there is a logical signal which is simultaneous with the original three video signals (g, r, b) is linked. ACCOUNTS: DRESDNER BANK. ACCOUNT NO. 9229371 POST CHECK HAMBURG NO. 193766-2OO 409837/0850 3. Electronic circuit arrangement according to claim 2, characterized in that it comprises a decoder (D1) which allows the output signals of the "EXKLU8IV-0DER" gates (G1, G2, G3) of the said circuits for logical treatment and the output signal of the ¹¹ OR "gate ( GT) to be combined with each other. 4. Electronic circuit arrangement according to claim 3> characterized in that said Decoder (D1) is a decoder circuit with four input lines (A, B, C, D,) and ten output lines (0-9), that the output signals of the "EXCLUSIVE OR" gates (G1, G2, G3) applied to the first three inputs (A, B, C) of the decoder (D1) while the output signal of the "OR" gate (GT) is fed to the fourth input (D) of the decoder (D1) in such a way that the signals fed to the first three inputs make it possible to evaluate one of the outputs (0-7) of the decoder (D1) and the signal applied to the fourth input (D ') allows one of the outputs (8, 9) of the decoder (D1) to be evaluated, and that the decoder (D1) is of a design in which only a single output can be evaluated at the same time. 5> e 'Electronic circuit arrangement according to claim 4-, thereby g ekennz eichnet that they have three gate circuits (A1, A2, A3) for each output of the decoder (D1) Has analog signals generated by the corresponding output signal of the decoder (D1) are controlled, and each of which leads the way to the output of the circuit arrangement released for an adjustable DC voltage 6. Electronic circuit arrangement according to claim 5, characterized g ekennz eichnet that said gate circuits (A1, A2, A3) for analog signals are formed by amplifiers of very low input impedance, which the video output signals (Gs, Rs, Bs) of the circuit arrangement supply that the input of each of the three amplifiers (A1, A2, A3) separately via • inen ^ adjustable resistor (Pi, P2, P3) to one of the outputs 409837/0850 (O to 9) of the decoder (D1) is connected that the various adjustable resistors (P1, P2, P3) and the DC voltage can be selected so that the relevant Amplifier (A1, A2, A3) emits an output signal as soon as one of the outputs (O to 9) of the decoder (D1) has been evaluated » 7 »Electronic circuit arrangement according to claims 5 and 6, thereby marked e. Inet that it has means (20 to 23) for switching that make it possible to connect to the inputs of the three gate circuits (A1, A2, A3) for analog signals any of the output signals of the decoder (D1) and three video signals (g1, r1, bi) from another television camera or to another similar video signal source. 16 409837/0850