DE2406255A1 - SECAM COLOR TV RECEIVER - Google Patents

Description

PHlT. 6749

WIJN / FF / vKAL

20-10-1973

-., - .: PHN- 6749
from the-. Feb 5, 1974

"Secam color television receiver"

The invention "relates to a Secam color television receiver with a clamp level input circuit, one input of which _ at least via at least one correction network with one output a Farbdifferenzsi naldemodulator is DC coupled with which input a switch is connected to during the horizontal retrace times in a color difference signal corrected by the correction network to attach a clamp level.

From the French patent application 2.096.627 a Secam color television receiver of the above type known, the Switch is included in a floating circuit and is used to control the output of the color difference signal denodulator during the horizontal flyback times short-circuit. The use of a floating short-circuit circuit makes it possible for a der.odula-

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.torausgang performs a DC voltage which is practically on the location of the mounted by the Kurzschlusschaltung clamp level compared to the black level of the color difference signal no denodulierten A _r flow has.

The invention now aims to provide a different solution for to create this problem.

A Secam color television receiver of the type mentioned at the beginning Art therefore has the characteristic according to the invention that the Switches, on the other hand, are DC-coupled to a storage capacitor is, der.über a second switch again DC-coupled to an output of the terminal level correction circuit, with the also said input is DC-coupled, while the scarf ter are coupled to an operating signal generator, so that the the former switch the storage capacitor at the end of a horizontal blanking period charges up to the level that then occurs in the color difference signal, while at the beginning of the subsequent horizontal blanking time up to the point in time at which the storage capacitor is charged again via the first-mentioned switch, the storage capacitor forwards its voltage obtained at the end of the previous horizontal + blanking time to the output via the second switch and during the intermediate horizontal trace times the dem The color difference signal supplied to the input is output at the output.

Any existing DC component that changes affects the level at the end of the horizontal retrace time, which Level then practically corresponds to the black level, just as much as all other levels in the signal, so that the resulting level is in the subsequent horizontal retrace time DC voltage level changes always match the DC voltage level of the

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Color difference signal is adjusted.

An embodiment of the invention is shown in the drawings and is described in more detail below. Show it

1 shows a block-schematic representation of an inventive Secam color television receiver,

Fig. 2 is a circuit diagram of a level input circuit for a color television receiver according to the invention.

In Fig. 1, an HF, IF, detection and signal splitting section 1 has an output 3 »at which a color television signal is received a luminance signal Y, an output 5 »at which a chrominance signal CHE, and an output 7 »at which a synchronizing signal S arises.

The luminance signal Y is from output 3 the cathode a display tube 9 is supplied.

The chrominance signal CHR, which alternates line-sequentially one red and one blue modulated in frequency to a subcarrier Contains Farbbsignaldxfferenz component, is from the output 5 ei ^ nem sequential simultaneous converter 11 is supplied, at the output 13 then constantly the frequency-modulated red and at its output 15 the blue color difference signal component is always present. Of the Outputs 13 and 15 are the color difference signal components to a demodulator 17 or 19 supplied, of whose output 21 or 23 the relevant modulated color difference signal to an input 25 or 27 a correction network 29 or J1 is supplied.

The correction network 29 or 31 contains a Hache equalization filter 33 »35» 37 or 39 »41» 43 and an emitter follower or 47 at its output 49 or 51, a corrected color difference signal is obtained.

In this corrected color difference signal occurs as a result

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the effect of the filter 33, 35, 37 or 39 »41» 43 in the beginning of the Horizontal flyback time an aftereffect of the signal at the end of the previous one Horizontal trace time, which is about 8 microseconds has become negligibly small after the start of the line blanking, so that then about two microseconds after the end of the horizontal blanking time a black level that can be used for any clamping circuits is available in the parb difference signal. To in this short time in a clamp circuit that produces a color difference signal with a large Amplitude is supplied, a clamping effect would have to be obtained this clamping circuit can process large charging and discharging currents This can be avoided by keeping the clamping level constant during the entire horizontal blanking or horizontal retrace time so that the duration of the clamping period can be lengthened. This is done with the aid of a clamp level input circuit 53 or 55 »their input 57 or 59 with the output 49 or 51 of the correction network 29 or 31 is connected.

The input 57 or 59 is connected via a first switch 61 or 63 to a storage capacitor 65 or 67, which is again connected a second switch 69 or 71 with an output 73 or 75 of the Clamp level input circuit 53 and 55 is connected. The entrance 57 or 59 is also the output via a third switch 77 or 79 & n 73 and 75 respectively. The switches 6i, 63 are activated with the aid of a signal fed to an input 81 from an output 83 of an operating signal generator 85, the input 87 of which is connected to the synchronizing signal output 7 of part 1 of the receiver, is actuated.

The switches 69, 71, 77, 79 are fed to an input 89 from an output 9I of the operating signal generator 85 originating signal is served.

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A horizontal deflection circuit can be used as the operating input signal generator 85 serve, in a simple manner, for example also with the aid of an oscillating circuit that acts as a delay circuit the required signals can be obtained.

The switches are on during the horizontal trace times 61, 63 and 69, 71 open and switches 77 and 79 closed. The color difference signal is forwarded from input 57 to output 73.

During the first time of the horizontal return time, • For example, during 8 microseconds, switches 69 and 71 are active closed and switches 77 and 79 open. The one on the capacitor 65 or 67 existing voltage is then forwarded to output 73 or 75.

During the last part of the horizontal return time for example, during the last two microseconds are the switches 61, 63, 77 and 79 are closed and switches 69 and 71 are open. The storage capacitors 65 and 67 are then charged up to a point that is present in the color difference signal at that moment Sohwarzpegel that in the beginning of the subsequent horizontal return time into the color difference signal appearing at output 73 or 75 is introduced. This creates a color difference signal at the ends get, that during the entire horizontal return time or Horizontal blanking time has a constant black level that Changes in the DC current level of the color difference signal follow and consequently always a correct position in relation to this color difference signal Has. ·

From the outputs 75 and 75 are the color difference signals a matrix circuit 93 is supplied, in which a third

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Color difference signal is made. The three color difference signals are then via the capacitors 95 »97 and 99 to the Kleuimschaltungen 101, 103 or 105 and then the resistance electrodes of the Display tube 9

The clamping circuits 101, 103 »105 are through one of an output 107 of the operating signal generator 85 is operated, which practically during the entire horizontal return or blanking time can occur.

A favorable embodiment of a clamp level input circuit 53, in which the third switch 77 can be omitted, is shown in FIG. 2, in which corresponding parts are indicated with the same reference numerals as in FIG.

The input 57 of the clamp level input circuit is now connected to the second switch 69 via a resistor 107, while the connection of the resistor 107 and the second switch 96 via a DC voltage level correction circuit 10 £, 111, 113 at the entrance of a complementary emitter follower pair 115 »117» 119 »121, the output of which is connected to the output 73 of the clamping level input circuit connected is.

The first switch 61 is also connected to this output 73.

The charging of the storage capacitor 65 to the black level at the end of the horizontal exchange time now takes place via the emitter followers 119, 121 ^ which are controlled by the emitter followers 115, 117. The second switch 69 is then opened and the emitter followers conduct the color difference signal Any shift in the DC voltage level as a result of somewhat unequal base-emitter voltages of transistors 115 ^and 119 can occur

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be corrected by adjusting the resistor 113.

During the following horizontal trace time, the two switches 61 and 6 $ are open and the color difference signal is passed on to output 73.

At the beginning of the following return time is the first « Switch 61 is open and the second switch 69 is closed. Of the Storage capacitor 65 then supplies the emitter follower at the input its voltage, while resistor 107 ensures that the signal at input 57 has almost no influence on the voltage at Input of the emitter follower can exercise.

Although in the example of FIG. "1 a color difference signal control the display tube 9 has been described, it should be evident that a receiver according to the invention is also used for color signal control is usable.

It should be further understood that the expressions horizontal Blanking time and horizontal flyback time are essential for the invention are different.

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Claims (2)

- 8 - PEÜ.6749 20-10-1973 1. Secam color television receiver with a clamp level input circuit, one input of which is coupled with an output of a Parbdifferenzsignaldemodulator via at least one correction network is to which input a switch is coupled to during the horizontal retrace times in one of the correction network to apply a clamp level to the corrected color difference signal, thereby characterized in that the switch (61), on the other hand, is DC-coupled to an S-bank capacitor (65) which is connected via a second switch (69) again with an output (73) of the clamping level correction circuit (53) is DC-coupled, with which said input (57) is also DC-coupled, while the switch (611 69) are coupled to an operating signal generator (85), see above that the first-mentioned switch (61) at the end of a horizontal Ausfastzeit the storage capacitor (65) charges up to the level then occurring in the color difference signal, while at the beginning of the following Horizontal blanking time until the point in time when the storage capacitor is recharged via the first-mentioned switch (61), the storage capacitor (65) its on via the second switch (69) The voltage obtained at the end of the previous horizontal blanking period is passed on to the output and during the intermediate horizontal Delay times the color difference signal fed to the input at the output is delivered. 2. Secam color television receiver according to claim 1, characterized in that the clamping level input circuit contains an emitter follower circuit with a complementary pair of series-connected emitter followers (115 » ¹ ^ 9), of which an input via a resistor (107) tait the input (57) the Elemnrpegeleinbringschaltunjj is connected, with the second switch (69) at another end 409835/071 8 - 9 - ΡΗϊΓ.6749 20-10-1973 of said resistor (67) and an output of the pair of Eaitterfolderpaar with the output (73) of the clay level input circuit and with connected to the former switch (61). J ■ ', H Blank page