SU813813A1 - Device for converting television standard in small-frame television systems - Google Patents

Description

(54) DEVICE FOR TRANSFORMING A TELEVISION

Claims (4)

STANDARD analogue-to-digital converter output, and the output to the first input of the code comparison unit and the first input of the buffer storage unit, the second input of which is connected to the output of the analog-digital converter, and the output of the buffer storage unit connected to the fourth input of the storage unit, while the fourth output the counter is connected to the third input of the buffer storage unit and the second input of the code comparison unit, the output of which is connected to the first input of the logic unit, the second and third inputs of which They are connected respectively to the first and second outputs of the clock generator, the input of the fourth counter is designed to supply clock pulses. The drawing shows a structural electrical circuit of a device for converting a television standard. The device contains a small-frame camera 1, an analog-to-digital converter (ADC) 2, a buffer storage unit 3, a storage unit 4, a digital-to-analog converter 5, a video control unit 6, the first and second counters 7 and 8, the sync pulse generator 9, the third and fourth counters 10 and 11, a code comparison block 12 and a logic block 13. The device operates as follows. At the start of operation, the third and fourth counters 10 and 11 are set to zero. During the forward progress of the line scan of the television standard unit 4 is in read mode. At the same time, it is addressed by a counter 8, the input of which receives clock pulses, each of which causes a change in the state of counter 8 by one, i.e., reading from the next cell of block 4. At the same time, the ADC 2 samples of time and the video signal of a small-frame camera 1 is quantized in amplitude, the incoming signal is the input of the AC, P 2. The resulting code from the first output of the A / D converter 2 is transmitted to the first input of block 3 and is stored in one of the cells of the block. 3. At the end of the quantization of the first sample of the video signal from the second output of the A / D converter 2, a sample pulse arrives at the input of counter 10, which translates this counter into the next state. In this case, the counter 10 will address in block 3 the next cell already, into which the amplitude of the next sample of the video signal of a small-frame system will be recorded in digital form. Thus, in block 3, CODES are accumulated that correspond to the amplitudes of the video signal from the image points sequentially scanned by a small-frame television camera, and the counter 10 stores the number corresponding to the number of video signal samples converted into a code. The second input of the logic unit 13 at this time receives a inhibitory signal from the clock generator 9, so the clock pulses from the first input of the logic unit 13 do not pass to its output. The state of counters 8, 7, and 11 does not change. After the end of the direct progress of the horizontal scan of the television standard, at the second output of the generator of clock pulses 9, a clock pulse appears. In this case, unit 4 enters the recording mode, in which its addressing is performed by the counter 7. To the second input of the logic unit 13, a resolution signal is received. If one or several image points were recorded in block 3 during the ending line, then the codes stored in counters 10 and 11 are different from each other, therefore a resolution signal will be received at the third input of logic block 13 from block 12. Thus, both the second and the third inputs of the logic unit 13 receive the enabling signals, and the clock pulses arriving at its first input will pass to the output of the unit 13, and further, to the inputs of the counters 7 and 11. Since unit 4 is in the recording mode, information is overwritten from block 3 to block 4. In this case, first, the code from block 3 of the cell to which it was first recorded during the forward run of the horizontal standard of the television standard is rewritten. The incoming clock pulse transfers counters 7 and 11 to the next state. In this case, the next cell of block 3 is rewritten into the next cell of the block. 4. This happens until the code stored in counter 11 is compared with the code stored in counter 10, i.e., until all the image points recorded in block 3 are recorded during block 4 TV standard. When these codes are compared, a blocking signal appears at the output of block 12, which arrives at the third input of block 13. At the same time, the passage of clock pulses from the first input of block 13 to its output stops. After the end of the flyback reversal of the television standard unit 4 returns to read mode, the counters 10 and 11 are set to zero. The following 3 several image points are recorded in block 3. Thus, as the image is scanned by a small-frame camera, the video signal recorded in block 4 is updated. Block 4 is continuously scanned at a scanning speed corresponding to the broadcasting television standard, and the video signal read from it is displayed during the forward progress of the line scan of the TV standard, therefore no noise is observed on the screen of block 6. The invention is a device for converting a television standard in small-frame television systems, comprising a small-frame television camera, the output of which is connected to the input of an analog-digital converter, and a serially connected storage unit, a digital-analogue converter and a video monitoring unit, as well as first and second counters, each output connected respectively to the first and second inputs of the storage unit, and the clock generator, the first output of which is connected to the input One second counter, and the second output of the clock generator is connected to the third input, respectively, I memorize. unit and the second input of the video monitor unit, characterized in that, in order to extend the functionality, by converting the TV standards with different sweep speeds, the buffer storage unit, the third and fourth counters, the code comparison unit and the logic unit are entered, and the input The third counter is connected to the second output of the analog-digital converter, and the output to the first input of the code comparison unit and the first input of the buffer storage unit, the second input of which is connected to the analog output The output of the buffer storage unit is connected to the fourth input of the storage unit, while the output of the fourth counter is connected to the third input of the buffer storage unit and the second input of the code comparison unit, the output of which is connected to the first input of the logic unit, the second and third inputs which are connected respectively to the first and second outputs of the clock generator, the input of the fourth counter is designed to supply clock pulses. Sources of information taken into account in the examination 1. US patent No. 4057.836, cl. 178 / 6.8 1977 (prototype).