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Circuit arrangement for converting a according to the pal - a system constructed in a color television signal according to the ntsc - a system constructed signal and vice versa.
Circuit arrangement for converting a according to the pal - a system constructed in a color television signal according to the ntsc - a system constructed signal and vice versa.
1,070,998. Colour television. PHILIPS ELECTRONIC & ASSOCIATED INDUSTRIES Ltd. Sept. 17, 1965 [Sept. 19, 1964], No. 39756/65. Heading H4F. P.A.L. signals are converted to N.T.S.C' signals in a circuit arrangement in which the colour subcarrier wave is applied to a line sequential switch 1 to cause alternate lines to be separated at output terminals 3 and 4, terminal 3 being connected directly to an adder 7 and terminal 4 being connected via a mixer 10 which is also supplied with a local oscillation of twice subcarrier frequency from a source 15. The difference frequency component from the mixer at the original subcarrier frequency has the modulation sequence reversed and is selected by a filter and applied to adder 7 over connection 11. The adder output thus has the same modulation sequence on all lines and constitutes an N.T.S.C. subcarrier. Where it is desired to eliminate subcarrier phase errors by electrically adding successive lines a one-lineduration delay line 8 by-passed by an impedance 8SP1/SP of equivalent loss is included in the signal channel. If an N.T.S.C. signal is applied at the input, the circuit functions to produce a P.A.L. signal. Delay line 8 and impedance 81 are omitted in such case. An N.T.S.C. signal may be passed through the circuit without modification by interrupting the operation of switch 1. Interruption of the switch operation may be controlled automatically by using the absence of a characteristic pulse signal from the P.A.L. signal. Circuit 12 is provided for combining the subcarrier with the luminance signal and processing the composite signal for subsequent use. Where the arrangement is included in a receiver the processing may involve detection of the subcarrier. For this purpose a reference signal of subcarrier frequency is supplied from source 15. Where the arrangement is included in a relay station the processing may involve modulating the composite signal on a carrier for onward transmission. Circuit 12 supplies a synchronizing " burst " signal for control of source 15. Detailed valve and transistor circuits suitable for mixer 10 are described with reference to Figs. 2 and 3 (not shown). In a modified arrangement, Fig. 4 (not shown), the output from terminal 3 from switch 1 is also passed through the mixer 10 so as to equalize the gains in the two paths to adder 7. A second mixer which receives the signal from terminal 2 is also connected to the adderfunctions to cancel the modulation product from the first mixer whereby only the original signal from terminal 3 appears in the adder amplified by the same amount as the modulation product of the signal from terminal 4. Switch 1 is controlled by a waveform 6 having positive and negative excursions of unequal durations T 1 and T 2 so as to prevent the synchronizing " burst " from being passed through mixer 10 where it would be subjected to an undesired phase shift.
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