RU2024213C1 - Multiprogram device of tv information transmission - Google Patents

Abstract

FIELD: television technology. SUBSTANCE: multiprogram device of TV information transmission has synchrogenerator; reading control unit, first, second, third units of pulses series formation; first, second, third, fourth switches; address counter; frame synchropulses selector; signal information part selector; recording control unit, memory unit; pulses counter; source code creator; video amplifier; transmitter; generator with automatic frequency adjustment by phase. EFFECT: device increases quality of image by phase distortions decreasing and improves functional capabilities due to increase of image crispness. 1 dwg

Description

 The invention relates to television technology and can be used to transmit over a standard TV channel several static, slowly changing or periodically updated images.

 A known system for transmitting TV signals of symbolic-graphic information containing n sources of TV signals, a synchronizer, a series-connected element And and a clock generator, as well as a generator of a phasing combination of frames and an adder.

 The disadvantages of this system are the limited number of transmitted TV signals (for n> 8, noise immunity decreases sharply); the ability to transmit only two-gradation (symbol-graphic) TV signals; the ability to transmit only TV signals with a single synchronization.

 Closest to the technical nature of the proposed system is a multi-program system for transmitting TV information, containing three switches, three pulse sequence generation units, a clock generator, a pulse counter, a source code generator, a read control unit, a video amplifier and a transmitter.

 The disadvantage of this system is the lack of visibility of the image of the symbolic-graphic information received on the video monitoring devices of the receiver. This is mainly due to a phase shift between the quartz oscillators of the considered system and the clock generators of the TV signal sources, which is visually expressed in violation of the linearity of the vertical lines of the TV image.

 The purpose of the invention is to improve image quality by reducing phase distortion.

 This is achieved by the fact that in a multiprogram device for transmitting television information containing the first, second, third switches, a serially connected clock generator, a read control unit, a pulse counter, a source code generator, a video amplifier, a transmitter, first, second, third pulse sequence generation blocks, outputs which are connected to the second, third and fourth inputs of the video amplifier, the first and second inputs of the pulse forming units are connected respectively to the first and second information outputs of the switches of the same name, a read control unit, the input of which is connected to the second output of the clock generator, the first, second, third outputs of the read control unit are connected to the third inputs of the first, second, third pulse generation units, the first, second, and third outputs of the read control unit are connected to the fourth inputs of the second, third and first blocks of the formation of pulses, and the block forming a sequence of pulses contains a series-connected selector frame clock, recording control unit, memory unit, the second input of the memory unit is connected to the input of the address counter, the output of which is connected to the input of the switch of the same name, the information part of the signal, the output of which is connected to the third input of the memory unit, the input of the frame clock selector, the input of the information selector parts of the signal, the second input of the recording control unit, the input and output of the address counter, the output of the memory unit, are the first, second, third and fourth inputs, respectively, as well as the first and second In addition to the outputs of the pulse sequence forming unit, a fourth switch, a phase-locked loop generator, the input of which is connected to the input of the frame sync selector and the first input of the fourth switch, the first and second outputs of which are connected to the fourth and fifth inputs of the memory block, respectively, the generator output with phase-locked loop is connected to the third input of the fourth switch, the fifth input of which is connected to the second input of the recording control unit, second and fourth inputs of the fourth switch are the fifth and sixth inputs forming unit pulse string and are connected to the outputs of the first and third clock.

 The features that distinguish the proposed device from the prototype allow us to conclude that the criterion of "novelty".

 Analysis of the scientific and technical literature showed that at present there are no technical solutions with the indicated set of features.

 The positive effect of the use of the invention is to increase the visibility of the image by eliminating phase distortion caused by the asynchrony of the clock generator of the multi-channel system and the clock generators of the sources of TV signals.

 The purpose of the invention is achieved by the full set of introduced distinctive features, which in this form are not found in the known technical solutions, which proves the presence of significant differences of the proposed system.

 The drawing shows a structural diagram of a multiprogram device for transmitting TV information.

 The device comprises a clock generator 1, a read control unit 2, a first 3-1, a second 3-2 and a third 3-3 pulse sequence forming units, a first 4-1, a second 4-2, a third 4-3 and a fourth 15, switches, a counter 5 addresses, a selector 6 frame sync pulses, a selector 7 of the information part of the signal, a recording control unit 8, a memory unit 9, a pulse counter 10, a source code driver 11, a video amplifier 12, a transmitter 13, a phase-locked loop oscillator 14.

 The device operates as follows.

 Generator 1 forms a standard set of clock pulses. From the first output of the generator 1, the frame synchronizing pulses are fed to the input of the reading control unit 2. With the arrival of the first frame pulse, the logical “1” level is set at the first output of block 2, and the logical “0” levels are set at the second and third output. The front of the second and third frame pulses at the second and third outputs of block 2, respectively, sets the levels of logical "1", and at the other two outputs - levels of logical "0". With the arrival of the frame synchronizing pulse, the cycle repeats. From the first output of block 2, the signal enters the counter 10 pulses, the counting coefficient of which is equal to n. When n pulses arrive at the input of the counter 10, a signal appears at its output, exciting the source code driver 11, from the output of which the signal is supplied to the second input of the video amplifier 12 and appears in every n-th frame of the full TV signal.

For every n / 3 information inputs of switches 4-1, 4-2, 4-3, full TV signals from independent external sources are received. The inputs of the selectors are information inputs of the pulse train forming units. The pulse decline formed by us on the third output of block 2, the counter 5 addresses changes the code combination at its output. The selector 6 frame synchronizing pulses from the clock coming from the first output of the switch 4-1, the frame signal is allocated, which is fed to the counting input of the recording control unit 8. Upon receipt at the information input of control unit 8 by recording logical “1” from block 2, it is transferred to its output by frame synchronizing pulses acting on its counting input. A similar operation is performed with the rewriting of the logical "0". Thus, an impulse is formed at the output of block 8, which in phase and duration coincides with the frame of the information TV - signal coming from the switch 4-1. The signal from the output of block 8 acts on the input of the memory block 9 and the logic level “1” records a TV signal that goes to the information input of the memory block 9 from the output of the selector 7. Information is read out when the logical “1” acts on the third input of the block 9 memory coming from the third output of the read control unit 2. Read from block 9, the signal is fed to the input of the video amplifier. The second 4-2 and third 4-3 blocks of pulse train formation work in a similar way with the only difference being that the shift at the first and second control inputs of the second 4-2 and third 4-3 blocks relative to the first 4-1 is 120 and 240 ^о, respectively.

 The signals from the outputs of the second 4-2 and third 4-3 blocks are also fed to the inputs of the video amplifier 12, the fifth input of which receives a clock from a quartz clock 1 and a full TV signal is generated at its output, which is fed to the input of the transmitter 13. From the first output the first switch 4-1, the sync mixture of the TV signal, the recording of which is currently being performed, is fed to the input of the generator 14 with phase-locked loop and to the first input of the fourth switch 15, the second input of which receives the sync mixture from the sync generator and 1, and the third and second inputs - the HF clock signal from the output of the generator 14 and the generator 1 output, respectively. The fifth (control) input of the switch 15 receives a signal from the first output of block 2. At the logic level “1” of the control signal, the signals from the input and output of the generator 14 are connected to the output of the switch 15, and at the level of the logical “0” - from the output of the crystal oscillator 1. Therefore, when a TV signal is recorded in the memory unit 9, at its clock input and the clock input, there are pulses that are “tied” to the input information signal, and when read, they are “tied” to the local crystal oscillator 1.

 The use of a prototype system for transmitting several TV programs of symbolic and graphic information with their subsequent display on the VKU revealed a slight decrease in image quality consisting in some violation of the linearity of vertical lines, and as a result, a decrease in the distinguishability of TV symbols and an increase fatigue of operators who are forced to strain their eyesight.

 The introduction into each block of pulse train generation of additional commutators and clock generators with phase-locked loop made it possible to significantly improve the functionality of the known system by increasing the distinguishability of the image to almost the distinguishability of primary programs.

 Thus, the economic effect of introducing the proposed system is to increase the reliability of control of symbolic and graphic information by increasing the visibility of the image and reducing operator fatigue.

Claims (1)

 MULTI-SOFTWARE TELEVISION INFORMATION TRANSMISSION DEVICE, comprising first, second, third switches, sequentially connected clock generator, priority setting unit, readout unit, pulse counter, source code generator, video amplifier, transmitter, first, second, third pulse generation units, the outputs of which are connected to the second, the third and fourth inputs of the video amplifier, the first and second inputs of the pulse forming units are connected respectively to the first and second information outputs of the same name switches, a readout control unit, the input of which is connected to the second output of the clock generator, the first, second, third outputs of the readout control unit are connected to the third inputs of the first, second, third pulse generating units, the first and second outputs of the readout control unit, and the sequence generation unit contains connected frame sync selector, recording permission signal generating unit, memory unit, second input of the memory unit connected to the input of the address counter, the output of which is connected to the input of the switch, the selector of the information part of the signal, the output of which is connected to the third input of the memory block, the fourth input of which is connected to the input of the address counter, the input of the frame sync selector, the input of the selector of the information part of the signal, the second input of the recording permission signal generation block, input and the output of the address counter, the output of the memory unit are respectively the first, second, third and fourth inputs of the pulse forming unit, characterized in that, in order to improve quality image by reducing phase distortion, introduced the fourth switch, a phase-locked oscillator, the input of which is connected to the input of the frame sync selector and the first input of the fourth switch, the first and second outputs of which are connected to the fourth and fifth inputs of the memory block, respectively, the phase-locked oscillator output frequency is connected to the third input of the fourth switch, the fifth input of which is connected to the second input of the recording control unit, the second and fourth inputs of the fourth of the first switch are the fifth and sixth inputs of the pulse forming unit and are connected to the first and third outputs of the clock generator.

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