DE1268192B - PAL decoder circuit - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

Number:
File number:
Registration date:
Display day:

H04n

German KL: 21 al - 34/31

1268192
P 12 68 192.4-31
March 7, 1967
May 16, 1968

In a PAL color television receiver, it is known to have a delay device in the color channel to be provided for a line duration and an electrical averaging over color signals of two over time consecutive lines.

In a known circuit of this type, the so-called "transit time demodulator", the delay line is located by way of the modulated color carrier, and there are an adding stage and a subtracting stage intended. Each of these stages are the ίο The color carrier sequence just received and the color carrier sequence delayed by one line are supplied. In In these two stages, the quadrature-modulated color carrier is then split into two color carrier-frequency signals corresponding to both modulation axes. The color subcarrier frequency signal at However, the output of the subtraction stage has a different polarity from line to line, so that the polarity of a reference carrier used to demodulate this signal is switched line-frequency by 180 ° must become.

The invention is based on the object of avoiding this disadvantage.

The invention consists in a PAL decoder circuit in which, using one in the color channel lying delay line for a line duration the modulated color carriers of two in time successive lines are added in an adding stage and subtracted in a subtracting stage, from the output voltages of which the color signals for controlling the picture tube are derived, that a double-pole changeover switch is provided in a manner known per se in the color carrier path, its both outputs in push-pull alternating line by line to one of the undelayed color carrier sequence and an input terminal leading the color carrier sequence delayed by the line duration can be switched over, and that these two outputs are each connected to inputs of the adding stage and the subtracting stage are.

An advantage of the invention is that switching the phase of the reference carrier for the Output voltages of the adding stage and subtracting stage is not necessary. This is due to the fact that the adding stage and the subtracting stage receive a color carrier of constant PAL switching status at each input. Another advantage consists in the fact that, if necessary, a PAL color carrier at one or the other output of the switch constant switching state can be taken. Such a color carrier is one NTSC color carrier equivalent, so that the invention-PAL decoder circuit

Applicant:

Telefunken

Patentverwertungsgesellschaft mb H.,
7900 Ulm, Elisabethenstr. 3

Named as inventor:

Dr. Walter Bruch, 3000 Hanover

appropriate receiver can serve as standards converter PAL / NTSC. Such a receiver can also be easily convert for signals of the SECAM or NIR system. The switch would be on a SECAM signal the two different color signals transmitted one after the other line by line to the supply both outputs separately or, in the case of an NIR signal at one output, always the quadrature-modulated signal Color carrier and at the other output constantly the reference carrier of constant phase.

The invention is explained in more detail below with reference to the drawing using an exemplary embodiment.

F i g. 1 shows a block diagram of the invention, and

Fig. 2 is the block diagram of Fig. 1 with circuit details shown.

In Fig. 1, the PAL color carrier sequence, which alternately line by line the color carrier F (first PAL switching state) and the complex conjugate color carrier F ⁺ (second PAL switching state) is from a terminal 1, once directly and once via a delay line 2 for a line duration is fed to the inputs of a line-frequency switch 3. The outputs 4 and 5 of the line-frequency switch 3 are each connected to the first and second inputs of an adder 6 and a subtracter 7, the outputs of which are connected to demodulators 8, 9 which deliver video-frequency color signals RY and BY to output terminals 15, 16. The demodulators 8, 9 are fed by a reference carrier oscillator 11 with a reference carrier with the frequency / ₀ and a phase difference of 90 °. The phase difference is brought about by a 90 ° phase rotator 12.

The mode of operation of this circuit is as follows: The line-frequency switch 3 is connected to a terminal 13 with a half-line frequency switch

809 549/294

Γ 268

Voltage 14 controlled so that the color carrier sequence F, F, F is constantly at the output 4 and the complex conjugate color carrier sequence F ⁺ , F ⁺ , F ⁺ is constantly at the output S. The color carriers at the outputs 4, 5 therefore have the same PAL switching status. In the adding stage 6 and the subtracting stage 7, a color carrier F and a color carrier F ⁺ are each added and subtracted in a manner known per se. In stages 6, 7, the PAL color carrier is split into two color carrier-frequency signals corresponding to the two modulation axes, which signals are demodulated in demodulators 8, 9. It can be seen that the stages 6, 7 always receive color carriers of the same PAL switching state at all of their inputs, so that it is not necessary to switch the phase of the reference carrier used for demodulation. Rather, the reference carrier is fed to the demodulators 8, 9 with a constant phase.

In Fig. 2, the color carrier sequence F, F ⁺ , F is fed from terminal 1 of the delay line 2 via a transistor amplifier 10. Four diodes 17 to 20 serve as switches 3, which are controlled by two opposing polarity half-line frequency switching voltages 14 a and 14 & as follows: During a line in which a color carrier F is received, the switching meander 14 a controls the non-conductive diode 17 and the diode 19 conductive, while the switching meander 14 & controls the diode 18 to be non-conductive and the diode 20 to be conductive. The diode 20 therefore conducts the color carrier F to the output 4 and the diode 19 the complex conjugate color carrier F ^{+ of} the temporally preceding line to the output 5. During a line in which the color carrier F ^{+ is} received, the switching meander 14 a controls the diode 17 conductive and the diode 19 non-conductive and the switching meander 14 & the diode 18 conductive and the diode 20 non-conductive. The diode 18 conducts the now received color carrier F ⁺ to the output 5 and the diode 17 the color carrier F of the temporally preceding line to the output 4. Two resistors 21, 22 serve as the adder 6, at the connection point of which the color carrier frequency corresponding to the modulation axis that has not been switched is used Signal is picked up. Two resistors 23, 24 together with a transformer with a grounded center tap, which causes a 180 ° phase rotation, serve as the subtraction stage. The color subcarrier frequency signal corresponding to the switched modulation axis, which has the same phase as the color subcarrier frequency signal corresponding to the non-switched modulation axis, but is rotated by 90 ° with respect to this, is taken from the connection point of the resistors 23, 24 and fed to the demodulator 9.

Claims (2)

Patent claims: 1. PAL decoder circuit, in which, using a delay line in the color channel, the modulated color carriers of two consecutive lines are added in an adder stage and subtracted in a subtraction stage, from whose output voltages the color signals for controlling the picture tube are derived characterized in that a double-pole changeover switch (3) is provided in a manner known per se in the color carrier path, the two outputs (4, S) of which alternate in push-pull to one the undelayed color carrier sequence (F, F ⁺ , F ...) and one the line duration delayed color carrier sequence (F ⁺ , F, F ⁺ ) leading input terminal can be switched, and that these two outputs (4, 5) are each connected to inputs of the adder (6) and the subtracter (7). 2. PAL decoder circuit according to claim 1, characterized in that the adding stage (6) and / or the subtraction stage (7) from a series connection of two resistors (21, 22; 23, 24) consists, the ends of which are connected to the outputs (4, 5) of the switch (3) and their connection point represents the output of the adding stage (6) or subtracting stage (7). Documents considered: German Auslegeschrift No. 1173 934; "Funkschau", 1964, no. 23, p. 629. 1 sheet of drawings 809 549/294 5.68 © Bundesdruckerei Berlin