SU610319A1 - Tv system - Google Patents

Description

(54) TELEVISION SYSTEM

one

The invention relates to the field of viewing and can be used in mobile, television stations (PTS) in conjunction with a color television camera.

A television system is known that contains a band-pass filter, an add-on unit, a first and second amplitude moduli -ors on the transmitting side, feed a "green (G)" video signal to the first input of a second modular modulator, and its input is connected to the input of the communication channel and the output of the high-pass filter, and on the receiving side the modulator, the first and second band-pass filters, the low-pass filter, the output of which is connected to the output of the communication channel (.

However, the well-known television system has a wide range of frequencies, occupied by compressed sigals R, G, B.

The purpose of the invention is to reduce the frequencies of the frequencies occupied by the transmitted sm.

To do this, in a television system containing a bandpass filter, a complexin unit, a first and a second amplitude modulators on the transmitting side, a first green signal (G), a low-pass filter, whose input is connected to the channel input sf, is fed to the first input of the second amplitude modulator.

ZI and the output of the high-pass filter. & on the receiving side of the modulator, the first and second band-pass filters, the low-pass filter, the output of which is connected to the output of the communication channel, on the transmitted side, the output of the fuzz block is connected to the input of the high-pass filter, the first, second and third inputs of the adder block connected, respectively, to the outputs of the first amplitude modulator, inputted to the sound modulator, to the input of which nodayi audio signals and service communication, and the second amplitude modulator; the output of the inserted row electronic switch is connected to the first turn of the first amplitude modulator, the first and second inputs of which are respectively supplied with the video signals of “red R and“ off ”B, and the second input of the first amplitude modulator is connected to the output of the entered crystal oscillator, to which the entered first and second multiply frequencies are connected, the first output of the first frequency multiplier being connected to the second input of the sound modulator, and the output of the second frequency multiplier connected to the second input ode of the second amplitude modulator, and to the second output of the crystal oscillator is connected the first input of the inputted first synchronous

the detector through serially connected first and second frequency dividers, the output of the first frequency divider connected to the first input of the entered second synchronous detector, and the second inputs of synchronous detectors connected to the output of the bandpass filter, the input of which is connected to the input of the low-pass filter, the output of the second synchronous the detector is connected to the inputs of the input of the envelope detector and the limiter, and the outputs of the first synchronous detector, the limiter and the envelope detector are the corresponding The output of frame sync pulses and commands, horizontal sync pulses and service communication signals, and on the receiving side a crystal oscillator is inputted, the output of which is directly connected to the first inputs of the first input and from the synchronous detectors and through the input frequency multipliers to the first i I will enter the third synchronous child phase and phase locked loop (PLL), and the output of the first frequency multiplier is connected to the first input of the entered fourth synchronous detector, while the second output is quartz The first generator is connected via serially connected first and second frequency dividers to the first Lkhod of the introduced second modulator, with the output of the first frequency divider connected to the first input of the first modulator, while the second and third inputs of the second modulator | 1 are given respectively command signals and personnel sync pulses, and the second and third inputs of the NejBBoro modulator are respectively low-frequency sync pulses and signals of the home link, and the output of the first modulator through the input unit under connected to the input of the second bandpass filter, and the output of the second modulator is connected to the second input of the addition unit, and the output of the second bandpass filter is connected to the output of the low-pass filter and to the input of the band-pass filter, the output of which is connected simultaneously to the input of the crystal oscillator through the phase-locked loop frequencies, to the second inputs of the Third and Fourth Synchronous Detectors, respectively, through the first input of the inserted electronic row switch to the second input of the first synchronous detector, as well as through the input delay line and the second input of the power line switch to the second input of the second synchronous detector, the outputs of the respective four synchronous detectors being the outputs of the video signals R, G, B, audio signals and service communication.

The drawing shows a structural electrical circuit of the proposed device.

The television system contains on the transmitting side a bandpass filter 1, an addition unit 2, a first and a second amplitude modulators 3, 4, and a low-frequency filter 5, the input of which is connected to the input 5, is fed to the first input of the second amplitude modulator 4. channel 6 and the output of the high-pass filter 7; and on the receiving side - modulator 8; the first and second band-pass filters 9, 10, a low-pass filter 11, the output of which is connected to the output of the communication channel 6; on the transmitting side, the output of the addition block 2 is connected to the input of the high-pass filter 7, the first, second and third inputs of the addition block 2 are connected respectively to the outputs of the first amplitude modulator 3, inputted to the sound modulator 12, to the input of which are audio signals and service connection, and the second amplitude modulator 4, and to the first input of the first amplitude modulator 3 is connected the output of the inserted electronic switch of lines 13, on the first and second inputs of which are respectively fed, video The red R and Blue blue bursts, and the output of the input crystal oscillator 14 is connected to the second input of the first amplitude modulator 3, to which the first and second multipliers and frequencies 15, 16 are also connected, the output of the first frequency multiplier 15 is connected to the second the sound modulator L2 input, and the output of the second frequency multiplier 16 is connected to the second input of the second amplitude modulator 4, and the first input of the first synchronous detector 17 connected to the second output of the crystal oscillator 14 is connected connected first and second dividers, or frequencies 18, 19, the output of the first frequency divider 18 is connected to the first input of the entered second synchronous detector 20, and the second inputs of synchronous detector B-4Zr 20 are connected to the output of the Bandpass filter 1, whose input is connected to the input of the filter low frequencies 5; the output of the second synchronous detector 20 is connected to the inputs of the input envelope detector 21 and the limiter 22, with the outputs of the first snychronous detector 17, the limiter 22 and the envelope detector 21 vl.yu1; with the outputs of the frame sync pulses and commands, horizontal sync pulses and service communications; on the receiving side, a crystal oscillator 23 is inputted, the output of which is directly connected to the first inputs of the inputted first and second synchronous detectors 24, 25 and through the inputted first and second frequency multipliers 26, 27 to the first inputs entered; x the third synchronous detector 28 and the phase auto-amplifier unit frequency setting (PLL) 29, and the output of the first frequency multiplier 26 is connected to the first

Claims (1)

The input of the entered fourth synchronous detector 30, while the second output of the crystal oscillator 23 is connected through the first and second frequency dividers 31, 32 connected in series to the first input of the entered second module: torus 33, and the output of the first frequency divider 31 is connected to the first input of the first modulator 8, with the second and third inputs of the Btoporo modulator 33 being given command signals and personnel sync pulses, respectively, and the second and third inputs of the first modulator 8, respectively, lower case sync pulses and service signals, while the output of the first modulator 8 is connected to the input of the second band-pass filter 10 through the input unit 34, and the output of the second modulator 33 is connected to the second input of the addition unit 34, and the output of the second band-pass filter 10 is connected to the output the low-pass filter P and to the input of the first band-pass filter 9, whose output is simultaneously connected to the input of the crystal oscillator 23 through the phase-locked loop 29, to the second inputs of the third and fourth synchronous detector, respectively 28, 30, through the first input of the inserted electronic switch of rows 35 to the second input of the first synchronous detector 24, as well as through the input of delay line 36 and the second input of the electronic switch of rows 35 to the second input of the second synchronous detector 25, with the outputs of the corresponding four synchronous detectors 24 , 25, 28, 30 are the outputs of the video signals R, B, G, audio signals and service communication. The device works as follows. The signal, signal (G), is fed to the input of the second amplitude modulator 4. The subcarrier frequency for the signal (G) fg is selected. More than twice the high frequency of the signal (G), which allows direct detection of such an amplitude-modulated signal. The video signals R and B are received alternately through an electronic switch 13 to the input of the first amplitude modulator 3. Amplitude-modulated oscillation from the outputs of the first and second amplitude modulators 3, 4 and sound modulator 12 are added in the adder unit 2k, having passed the high-pass filter 7, where the modulating signal R (B) is suppressed, the communication channel 6 is fed to the input of a band-pass filter 9 having a cos; symmetrical amplitude-frequency response near the signal subcarrier (G). The entire mixture of signals passing through the first band-pass filter 9 is fed to the inputs of synchronous detectors 24, 25, 28, 30, where it is compared with the soporic oscillations of the respective acs. V-; . , The input of the first modulator J is supplied from the output of the first divider 3i, & the other input of the first modulator 8 receives the voltage of the clock pulses modulated (in amplitude and voltage double modulated AM-AIM. The first input of the second modulator 33 receives the subcarrier wave from the output of the second frequency divider 32. The other input of the second, frame sync pulses and commands are given to the modulator 33. Teams can be (betrayed between frame sync pulses with a certain pulse code. Temporary multiplexing allows frame sync pulses to be transmitted to one Second subcarrier The selection of a subcarrier frequency allows separation of modulated and modulating signals. From the outputs of the first and second modulators 8, 33, the oscillations are added in an adder unit 34 and are fed to the input of the second band-pass filter 10. The low-pass filter 11 is designed to transmit a constant voltage Pass through the communication channel, a mixture of pulse signals and a constant voltage is fed to the input of the bandpass filter I n of the low pass filter 5, which separate the pulse signals and the constant voltage. From the output of the bandpass filter 1, the pulse signals are fed to the inputs of the first n of the second synchronous detectors 17, 20, where; comparing the & signals with the reference signals from the taps of frequency dividers 19 and 18. As a result, the outputs of the first and second synchronous detectors i7, 20 are separated by a sequence of horizontal pulses, amplitude modulated, and a sequence of sync pulses and commands. Further separation of commands depends on the encoding methods. The reception of horizontal synchronous pulses in the overhead voltage is accomplished by applying an amplitude-modulated sequence of horizontal pulses to the envelope detector 21 and the limiter 22. Testing a prototype of the proposed system showed that, with the required signal-to-noise ratio, the television system allows using one of the cheapest cables type RK-74-4-11; The small size and weight of the system allows it to be used with a reporting camera, which is transported and operated by one operator. Claim of the invention A television system comprising a band passfile, an addition unit, first and second amplitude modulators on the transmitting side, to the first input of the second amplitude module To the torus, the video signal is “green (G)”, a low-pass filter, the input of which is connected to the input of the communication channel and the output of the high-pass filter, and the modulator is used at the receive signal, the first and second band-pass filters The low-pass filter, whose output is connected to the output of the communication channel, is meaning that, in order to reduce the frequency band occupied by the transmitted signals, ia to the transmitting side, the output of the block is connected to the input of the high-pass filter, the first, second and third inputs an addition unit is connected respectively to the outputs of the first amplitude modulator, inputted to the sound modulator, to the input of which audio and service communication signals are fed, and to the second amplitude modulator; At the first input of the first amplitude modulator, the output of the input mechtron row switch is connected, on the first BTOptrfl inputs of which, respectively, the video signals of “red R n” blue B are fed, and the output of the input signal is connected to the second input of the first amplitude modulator