SU422126A1 - - Google Patents

Description

one

The invention relates to the field of color television.

A full color television signal consisting of a luminance signal and a chrominance signal is generated in the encoder. Color information is transmitted by modulating the color subcarrier signal. To reduce the visibility of the color subcarrier on the TV screen in the CiEKAM system, the subcarrier phase is switched across lines and fields, and the phase change to the opposite occurs during the horizontal dimming intervals.

In the known encoders of the SECAM system, special complex diode or transistor switches are used to change the phase of the color subcarrier. These switches require precise adjustment of the balance of the amplitudes of the antiphase signals and introduce significant frequency distortions into the switched chroma signal. Therefore, after such a switch, as a rule, an amplitude limiter is suppressed which suppresses the parasitic modulation of the subcarrier signal.

SECAM encoders are also known to prevent the occurrence of system-specific SECAM image distortions caused by interlaced color difference 2

signals. In these encoders, the frequency modulated color subcarrier signal is formed from a double subcarrier frequency signal using a frequency divider twice, usually using a bistable circuit implemented as a trigger or synchronized multivibrator. The phase of the output sigpal divider can randomly take the value O or 180 °. The presence of this uncertainty of the phase of the FM chroma signal at the output of the frequency divider makes it possible to drastically simplify the process of switching the phase of the color and one carrier.

The aim of the invention is to provide phase switching of the ion carrier and increase device reliability.

This is because in the proposed device the output of the coincidence circuit is connected via an electronic switch to the installation inputs of the frequency divider, and a switching signal generator is connected to the control input of the electronic switch.

The drawing shows a block diagram of the proposed device forming a color subcarrier signal.

The device consists of a source / frequency-modulated signal of a double frequency carrier, a divider 2 frequencies two times, a generator 3 of a switching signal, an electronic switch 4, a source of 5 horizontal pulses, a coincidence unit 6 and a generator 7 of a reference frequency carrier. The source / is connected to the counting input of the splitter 2 frequency, and the two installation inputs of this splitter are connected to the outputs of the electronic switch 4. The signal input of the switch 4 is connected to the output of the coincidence unit 6, and the control input of this switch is connected to the output of the generator 3 of the pulse switching signal. One input of the coincidence unit 6 is connected to the source of 5 horizontal frequency pulses, and the second input is connected to the generator of the reference feed frequency (this frequency corresponds to one of the harmonics of the horizontal frequency).

The device works as follows.

During the horizontal damping intervals, radio pulses of the optical subcarrier frequency will appear at the output of block 6 of coincidence. The phase of these radio pulses, coming through switch 4 to one of the two installation inputs of divider 2, identifies the phase of frequency divider 2 at the moment the active part of the line begins. During the active part of the line, there is no signal at the output of block 6 of the Soviadeia. At this time, divider 2 generates a 4M sub-carrier frequency, the phase of which is determined by the initial state of divider 2, i.e. the bodies to which of the installation inputs the preceding reference frequency radio signal arrived. A change in the switching signal generated by oscillator 3 causes a change in the state of switch 4, but the initial state of divider 2 changes and, therefore, the phase of the subnetwork signal 1 at the device output.

Subject invention

A color carrier signal shaping device containing a double feed frequency FM signal source connected to a counting input of a frequency divider and a geyrator of a reference color subcarrier output connected to one of the inputs of a coincidence circuit, the other input of which is connected to a horizontal frequency pulse source characterized by that, in order to ensure the switching of the phase of the subcarrier and increase the reliability of operation, the output of the coupling circuit is connected via an electronic switch to the installation inputs of the frequency divider, electronic switch to control the input switching signal generator is connected.

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