SU919160A1 - Video signal reproducing device - Google Patents

Description

(54) DEVICE FOR SWITCHING THE ALL-IN SIGNAL

Claims (1)

The invention relates to television technology and can be used as part of test centers of television centers for monitoring and measuring parameters of a television video signal. A device for reproducing a video signal on a screen of a video monitoring unit is known, containing a selector in series 1e, the input of which is intended to supply an input video signal, a row counter, whose setup input is connected to the second output of the selector and to the first input of the synchronizer, and the comparison unit to The second input of which is connected to the output of the block for selecting the analyzed line, while the output of the row counter is connected to the first input of the subtractor, the output of the display zone start signal selection block is connected to its second input, the first output of the selector is connected to the second input of the synchronizer, and the switch 1. However, the known device has a low speed due to the adopted in the device of the device of the conversion and recording of the video signal, the limited accuracy of reproduction due to the characteristic errors of the device. memory level caused by partial charge or partial discharge of the storage capacity. The purpose of the invention is to increase the speed while simultaneously having a higher accuracy of reproduction. This goal is achieved in that the device for reproducing a video signal on the screen of a video control unit contains a serially connected selector whose input is intended to supply the input video signal, a line counter whose setup input is connected to the second output of the selector and the first input of the synchronizer, and a code comparison unit , the second input of which is connected to the output of the block for selecting the line to be analyzed, while the output of the row counter is connected to the first input of the subtraction block, to its second input is the connection The output of the display zone start signal selector unit, and the first output of the selector is connected to the second input of the synchronizer, and the switch, serially connected display line row counter, the setup input of which is connected to the first output of the synchronizer, digital-to-analog converter, comparator, the second input of which is connected to the input the selector, the element And, the second input of which is connected to the output of the code comparison unit and the counting input of the counter of rows of the display zone, and the storage unit controlling the input About connected to the second output of the synchronizer and the control input of the switch, the first address input to the output of the switch: and the information output of the storage unit is connected to the input of the video control unit. In addition, a raster element 5 counter is entered into the counting input of which is connected to the third output of the synchronizer by JJ, the setup input is connected to the first output of the selector, and the output. connected to the second address input of the storage unit; the first information input of the switch is connected to the second output of the row counter of the display zone, and the second information input is connected to the output of the subtractor. The drawing shows a structural electrical circuit of the proposed device. The device contains a block 1 for selecting the analyzed line, a block 2 for selecting the signal of the beginning of the display G, a block 3 for subtraction, a switch 4. a video monitor block 5, a synchronizer 6, a selector 7, a counter for 8 lines, a block 9 for comparison of codes, a counter for 10 lines of display zone, the Converter 11, the comparator 12, the element And 13, the storage unit 14 and the counter 15 of the raster elements. The device works in the following way. In the proposed device there is no direct conversion of the analyzed signal into a digital code. The amplitude information on the ray is computed using a comparator 12 with a controlled threshold and a storage unit 14 arranged in the form of a matrix. The dimensions of the matrix are determined as follows: the number of rows is equal to N the number of gradations into which the analyzed signal is quantized, the number of columns is equal to the number of raster elements in the row of the television signal, i.e. the number of samples by which the signal will be represented in the display device. The number of rows of the matrix of the storage unit 14, in turn, is uniquely associated with the number of room values of the threshold. torus 12; each threshold value of the comparator 12 corresponds to its own row of the matrix of the storage unit 14. The combination of the threshold values of the comparator 12 divides the entire dynamic range of the sigpal into N degrees 1 SCH. The threshold 12 of the comparator 12 is controlled by the digital-analog 04 04 converter And and the counter 10 lines of the display area. In the recording mode, the counter code of 10 lines of the display zone is fed to the input of the digital-to-analog converter 11 and the comparator threshold 12 is set to an appropriate level. Inverted code of the counter of 10 lines of the display zone is connected to the first address input of the storage unit 14 via the switch 4, and thus to record prepare the corresponding to the given threshold level of the comparator 12 row of the matrix of the storage unit 14. Changing the threshold of the comparator 12 in the recording mode occurs on a pulse arriving counting input counting Single rows 10 display the output code comparing unit 9 zones. This pulse is generated at the output of block 9 of code comparison at the moment when it is at the second input. the comparator 12 receives the video signal of the selected line, the code of which is set at the output of the block 1 for the selection of the analyzed line. The recording process takes N frames. During this time, the threshold of the comparator 12 will sequentially pass through all possible values of the video signal: from N-ro, corresponding to the maximum value, to zero, corresponding to the minimum value. The pulses from the output of the comparator 12 at the moments of coincidence of the signal level in this raster element with the threshold level pass through the element 13 and the signals 1 are recorded in the corresponding cells of the matrix 14 of the storage unit 14. In the remaining cells of the matrix O are stored. Units on the zero field of the matrix form an oscillogram of the video signal. In the read mode, its output is displayed on the screen of the video monitoring unit 5. In this case, the output of the subtraction section 3 is connected to the first address input of the storage unit 14. The code at the output of subtraction unit 3 is determined by the difference in the code of the current line, which is fed to the first input of block 3 by subtracting 8 counts from the output of the counter, and the code fed to its second input from the output of block 2 by selecting the signal of the beginning of the display zone. With the help of block 2 of the selection of the start of the mapping of the zone mapping and block 3, the subtraction of the video signal waveform is set to any place in the frame. The synchronizer 6 and the selector 7 generate the appropriate clocking and control signals. The video signal from the output of the storage unit 14 can be fed to the input of the video monitor unit 5 in parallel with the main signal, and then on the same screen you can observe both the image being studied and the video signal of the analyzed line, which is especially convenient when taking photographs. The unit 1 for selecting the analyzed line and the block 2 for selecting the signal of the beginning of the display zone can be entered into the device, for example, as a set of switches, with the help of which they form binary codes of the corresponding bit. Compared with the known device, the recording time is significantly reduced, since during one time frame, all the amplitude values of the output signal of the analyzed line, which correspond to the same gradation number, are written into the memory block. For example, if the video signal is quantized to 64 gradations, which gives a fairly good display quality, and the duration of the TK frame is 1/25 s, then the recording time will be Tj - 2.56 s, i.e., approximately an order of magnitude less than known This allows you to shorten the cycle of forming a full waveform of the video signal, thereby increasing the efficiency of the device, it is possible to observe and analyze more dynamic processes. The principle of signal quantization and contingency in the proposed device of the level memory unit eliminates typical errors of this circuit due to an incomplete charge or partial discharge of the memory capacity, which increases the accuracy of the signal display. Thus, the proposed device allows to increase the speed and increase the accuracy of the display of signals. The device for reproducing a video signal on the screen of a video control unit, contains a series-connected selector, whose input is intended to supply an input video signal, a line counter, a setup input of which is connected to the second output of the selector and the first input of the synchronizer, and a code comparison unit, the second input of which connected to the output of the block for selecting the line being analyzed, while the output of the row counter is connected to the first input of the subtracted block, the output of the block is connected to its second input selecting the signal of the beginning of the display zone, and the first output of the selector is connected to the second input of the synchronizer, and the switch, characterized in that. that, in order to increase speed while simultaneously increasing the accuracy of reproduction, sequentially connected row counters of the display zone are introduced, the setup input of which is connected to the first output of the transmitter, the digital-analog converter, the comparator, the second input of which is connected to the input of the selector, the I element, the second input of which is connected to the output of the code comparison unit and the counting input of the display line row counter, and the storage unit, the control input of which is connected to the second output of the synchronizer the control input of the switch, the first address input to the output of the switch, and the information output of the storage unit are connected to the input of the video control unit, in addition, a raster elements counter is entered, the counting input of which is connected to the third output of the synchronizer, the setup input is connected to the first output of the selector, and the output connected to the second address input of the storage unit, the first information input of the switch is connected to the second input of the row counter of the display area, and the second information input is connected To the output of the subtraction unit. Sources of information taken into account in the examination of 2655133, cl. And 04 N 7/02, 1. Application for Germany Germany 1978 (prototype).