SU653771A1 - Device for selection of video signal representing predetermined complex shape - Google Patents

Description

the inputs of the OR element of the readout and the element OR of the record are connected respectively to the output of the delay unit for the horizontal scanning period and to the output of the video normalization unit by amplitude, the output of which is also connected to the third input of the first AND control of the recording, to the third input of the OR element of the start of selection. a frame synchronization signal is given, and the output is connected to the asynchronous input of the write shift register via the input pulse edge forming unit, the synchronous input of which is through the second control AND element the record is connected to the second output of the read shift register, the synchronous input of which is connected to the output of the write shift register, to the second input of the second record control AND element and to the second control input of the clock generator a horizontal synchronization signal is given. FIG. 1 is given a structural electrical circuit of the device for selecting a video signal of a given complex figure; in fig. 2 shows a raster section with two figures. The proposed device contains a television sensor 1 (transmitting television camera), the output of which is connected to the first inputs of the first element AND 4 of the recording control and the element 5 of the read control, the second element through serially connected block 2 of video signal amplification , control AND 6 control records, the element OR 7 read, element OR 8 start the selection, the first input of which is given a start signal selection, and the second input is connected to the output of the first element AND 4 recording controls. The second input of the read control element AND 5 is connected to the first output of the input read shift register 9, which is connected to the second input of the first write control element 4 and the first control input of the clock generator 10, the output of which is connected to the first input of the input element OR 11 and to the first input of the element OR 7 reading, the outputs of which are connected respectively to the clock inputs of the entered register 12 of the writing shift and register 9 of the reading shift. And the second inputs of the element OR 7 of the reading and OR gate 11 are connected respectively to recording output unit 3 delays horizontal period and to the output of 2 normalizing the amplitude of the video signal, which output is also connected to a third input of the first AND gate 4, a control record. The frame sync signal is fed to the third input of the OR of the start of the selection, and the output is connected to the asynchronous input of the write shift register 12 via the inputted back edge shaping unit 13, the synchronous input of which is connected to the second output of the read shift register 9 through the second write control element 9 ,, synchronous input of which is connected to the output of the register 12 shift record. To the second input of the second control element 6 and the recording and to the second control input of the generator 10 clock pulses a horizontal synchronization signal is applied. The proposed device works as follows. Let a given figure of a complex shape be a right figure (see Fig. 2). On the falling edge of the frame synchronization signal, which is given by iia the third input of the selection element OR 8, the level of the logical 1 is recorded in the first trigger of the write shift register 12 on the asynchronous input. When scanning line G (see Fig. 2), on which there are no pulses of chords and delayed chords, the device for selecting a video signal of a given figure of a complex shape remains in its original state. After scanning line 1, horizontal synchronization resolves the operation of the second recording control element 6 and the 10 clock pulse generator. The clock pulses from generator 10 through the OR elements 11 of the record and the element OR 7 reads are supplied to the clock inputs of the register 12 of the write offset and the register 9 of the read shift, shifted the logical "1 from the first register 9 of the read shift, carried out the shift of the logical" 1 from the first trigger of the register 12 shift record. The shift is performed until the logical "1" level is reached at the input of the last trigger of the read shift register 9. On the next clock pulse, the logical "1 is rewritten through the second open record control element 6 into the first trigger of the shift register 12, and also writes it into the last trigger of the read shift register 9. The occurrence of the logic level “1 at the output of the last trigger prohibits further generation of retiepaTOpOM 10 clock pulses. When the scanner crosses the figure on line 2 along the leading edge of the chord pulse (chord pulses are shown in Fig. 2 by thickened lines), the OR 11 recording element is fed to the clock input of the register 12 shift of the record, there is a shift of the logical "1" recorded in the first trigger of this register in its second trigger. On the falling edge of the chord pulse, the selection input signal (indicated by a square in Fig. 2) arrives at the first input of the selection start element 8, which again writes the logical level “1” to the first trigger of the recording shift register 12. Since there are no pulses of delayed chords (indicated by ph2 on the dotted line) on line 2, a shift in register 9 of the read register is not happening. After the scanning of line 2 is completed, the line synchronization signal again arrives, which resolves the shift of two logical "1" registers 12 and 9 of the shift until the first (but time) of them appears at the output of the last trigger of the read shift register 9. Thus, the second logical "1, which marks the presence of the impulse of the chord of the selected figure, will be written to the beginning of the scanning of line 3 in the penultimate from the end of the register of the 9 shift readout. Logical "1, which appears first at the input of the last trigger of the read shift register 9, performs the function of the pilot signal, since it is its control appearance, 1 that the generator 10 clock pulses work and determines the termination of the shift of information on the registers 12 and 9 shift. The pilot signal rewrite and information shift for each horizontal sync signal occurs regardless of the presence of chord and delayed chord pulses and is not mentioned further. When scanning line 3 for the first chord pulse, not belonging to the selected figure, the pilot signal is shifted to the second trigger of the write shift register 12, and on the leading edge of the second chord pulse to the third trigger. On the leading edge of the delayed chord pulse, which from the output of the delay unit 3 through the read OR element 7 enters the clock input of the read shift register 9, a shift occurs, and the logical level "1 from the marked chord pulse on line 2 appears at the output of the last register trigger 9 read shifts. Thereby, the permissive potential is applied to the second input of the read control element 5 and the delayed chord pulse from the output of the delay unit 3 passes to the output of the video signal selection device of a predetermined figure of complex shape. At the same time, the resolving potential is given to the second input of the first control element AND 4 of the recording and when the chord and delayed chord pulses coincide, which are fed to the remaining inputs of the first AND 4 element, the match signal through the selection trigger element 8 is fed to the rear edge forming unit 13. On the falling edge of the coincidence pulse (shown in Fig. 2 by a cross), the logical level "I" is recorded in the first trigger of the shift register 12. After the end of the scanning of the line Z, a shift occurs in the information on the shift registers 12 and 9, and this 1 is recorded in the third from the end trigger of the read shift register 9. When scamming the string, the 4th first pulse will shift the pilot, t to the second trigger of the register 12 shift of the record. The first pulse of the delayed chord shifts the logical "1 to the penultimate trigger of the register 9 read shift. By coincidence of the first pulse of the chord and the delayed chord, the block 13 of the formation of the trailing edge of the pulse does not work, since the second input from the output of the last trigger of the read shift register 9 enters the second input of the first record control element 4. On the leading edge of the second chord pulse, the pilot shifts to the third trigger of the write shift register 12, and on the leading edge of the delayed chord pulse, the logic level "1 appears at the output of the last trigger of the read shift register 9. As described above, on the falling edge of the coincidence of the pulse of the chord and the delayed chord, the recording 1 is written to the first third register of the write shift 12. On the fifth scanning line, the selection process is different in that the first trigger register and the recording 12 shift record logical "1 is repeated twice, since there are two coincidences of the pulses of the current and the delayed chords. On the bth - 9th lines of the scan, the selection of the video signal of the figure occurs similarly and ends with the pulse of the last delayed chord. If necessary, the selection of the video signal of a figure that has several upper branches, use the appropriate number of selection commands that coincide with the first pulses of the chords of the upper branches. In comparison with the known device, the proposed device has a higher resolution, to increase which it is enough to increase the capacity of shift registers 9 and 12, and a higher speed determined only by the switching delay of the read OR element 9 and the last trigger of read shift register 9. In addition, the proposed device is three times smaller in size, which makes it possible to increase the reliability of a quantitative television analyzer and reduce the cost of its manufacture and operating costs. Acquisition formula A device for selecting a video signal of a predetermined complex shape that contains a television sensor, the output of which is connected to the first inputs of the first control element of the recording control and the control element of the read control, the second element of control and control through serially connected amplitude video signaling unit the record, the OR element is read, the element OR of the start of the selection, the first input of which is given a start signal of the selection, and the second input is connected to the output The first record control element, characterized in that, in order to increase the resolution and simplify the device, the second input of the read control AND element is connected to the first output of the input read shift register, which is connected to the second input of the first record control AND element and the first control input clock generator, the output of which is connected to the first input of the entered element OR of the record and to the first input of the element OR of the readout, the outputs of which are connected respectively to the contacts m inputs of the input shift register and the shift register; the second inputs of the OR element and the OR element are respectively connected to the output of the delay unit for the horizontal scanning period and to the output of the video signal normalization by amplitude module, the output of which is also connected to the third input of the first element AND recording control, a frame synchronization signal is sent to the third input of the element OR to start the selection, and the output is connected to the asynchronous input through the input block of the formation of the falling edge of the pulse ohm write shift register, the synchronous input of which is connected to the second output of the read shift register through the second record control AND element, the synchronous input of which is connected to the output of the write shift register, to the second input of the second control element AND to the second input of the clock generator signal line synchronization. Sources of information taken into account during the examination: 1. Application No. 2089998/09, cl. H 04 N 5/00 30.12.74.

Trigger signal