SU960871A1 - Device for reading graphic data - Google Patents

Description

The invention relates to automation and computer technology and can be used in information retrieval systems as a means of reading information for entering it into a digital computer or for transmission to a display device.

A device for reading graphic information containing an electron-optical converter connected to the deviation unit, a memory unit ₀₎ connected to the line and frame counters, a decoder connected to the clock counter and the OR element, a trigger connected to the And element, a generator pulses, triggers, AND elements, and OR and delay elements [1].

The disadvantage of this device is its lack of reliability, since the decision on the availability of information is decided by a single report. twenty

It is also known a device for reading graphic information containing a first switch, the inputs of which are connected respectively with the outputs of the first Ж second · triggers and with the output of the pulse generator, the first output of the switch is connected to the first input of the line counter, and the second output is connected to the first inputs of the element NOT, the counter clocks, the third trigger, the first OR element and the first signal conditioner, the first AND element, the inputs of which are connected respectively with the output of the first trigger and with the output of the element NOT, the first input q of the first trigger is connected to the output of the electron-optical converter, with the first inputs of the counter!> the video pulse counter, the second element · OR, the memory unit and the second input of the first signal conditioning instrument, and the second input of the first trigger is connected to the second inputs of the clock counter, video pulse counter, the first OR element and the third trigger and with the output of the third OR element, a decoder connected to the outputs of the counter, clock and video pulse counter, the decoder outputs are connected respectively

IS with the inputs of the fourth OR element and with the second input of the third OR element, the output of the first OR element is connected to the input of the first delay element, the fifth OR element / inputs of which are connected to the outputs of the first and second delay elements, the fourth trigger, the inputs of which are connected respectively to the outputs of the second and the fifth OR element, and the output is connected to the input of the second signal conditioner, an electron-optical converter connected to the outputs of the deviation unit and to the output of the second signal conditioner, the sixth element OR, the first input of which is the first input of the device, and the second input is connected to the output of the second AND element, with the second input of the line counter and with the first, the input of the frame counter, and the output of the sixth OR element is connected to the first input of the second trigger, the second input of the second trigger is the second input of the device, the first input of the second AND element is connected to the first input of the frame counter, and the second input is connected to the first input of the line counter, with the second inputs of the frame counter and the second OR element and with the input of the second delay element, sec the second input of the memory block is connected to the output of the fourth OR element and to the second input <Ym of the third OR element, the third input of the memory block is connected to the second output of the line counter, the fourth input is connected to the output of the frame counter and the first input of the deviation block, and the output of the memory block is the output of the device, the output of the first signal conditioner is connected to the third input of the second OR element [2).

The disadvantage of this device is the limitation of speed due to loss of time for returning the beam of the electron-optical converter for re-monitoring the presence of the image element, wife.

The purpose of the invention is to increase the speed of the device.

This goal is achieved by the fact that an adder, a code generator and a second switch are introduced into the device, the first and second inputs of which are connected to the outputs of the code generator, the third input with the output of the third trigger, the fourth input of the second switch is connected to the output of the first element And, and the output with the first input of the adder, the second input of the adder is connected to the second output of the row counter, and the output of the adder with its zero state, which appears on sets by reading in

960871 4 _ dinen about the second input of the deviation block.

The drawing shows a functional diagram of the device.

The device contains an OR element 1, • 2 pulse generator, trigger 3, 4 clock counter, 5 video pulse counter, trigger 6, switch 7, element I 8, decoder 9, element 10, counter 11 lines, element NOT 12, element OR 13 , frame counter 14, OR element 15, adder 16, switch 17, trigger 18, OR element 19, memory unit 20, code generator 21, signal generator 22, delay element 23, deviation unit 24, deviation signal generating unit 25, element 27 delays, OR elements 28 and 29, trigger '' 30, shaper 31 signals, electron-optical conversion Spruce 32. , inputs 33 and 34 of the device, output 35 of the device.

The device operates as follows.

In the initial state, all triggers and counters are in

The enable signal, input 34 of the device, trigger 6 control state 1. Since the trigger 3 is in state O, the pulses from the output of the generator 2 are supplied through the switch 7 to the counter 11 lines. The filling pulses of the counter 11 are fed to the input of the counter 14 forming frames and through the element OR 29 set the blanking trigger 30 to state 1. As a result, a signal appears on the output of the shaper 31, which, upon entering the modulator of the electron-optical converter 32, extinguishes the beam. The same overflow pulses pass through the delay element 27, which produces a delay for the time of the return beam, and through the OR element 28 set the extinguishing trigger 20 to state O. The beam is again illuminated. In this way, the beam is suppressed during the return stroke. The increasing codes from the output of the line forming counter 11 enter the adder 16, but since the gate pulses from the output of the And 8 element do not pass into the multiplexer 17, it remains closed. To pass the code from the setter 21, and then the code (one zeros) will be output from the switch 17 . Therefore, the output of the adder 16 will pass the counter codes 11 without change. The codes from the outputs of the adder 16 and the counter 14 of the formation of frames are received in the deflection system 24, respectively, in the beam deflection unit 26 but to the hordes and on those X and · in the beam deflection unit 25 along the coordinate Y, which scan the beam of the electron-optical converter 32 . v '

When the beam enters a line or point of graphic information, a video pulse appears at the output of the block. The first video pulse writes the contents of the counters 11 and 14 to the memory unit 20, sets the re-output trigger 3 to state '1', through the OR element 29 sets the trigger 30 to (state '1', and writes to the counter I 5 of the video signals. As a result of the state change the beam is extinguished by the trigger 30. Changing the state of the trigger 3 causes the clock pulses, as a result of switching the switch 7, to stop being sent to the input of the counter 11. And an enable signal arrives at the And 8 'element.

At the end of the clock pulse (the pulse during which the video pulse appeared), a pulse with a duration equal to the time interval between the pulses of the generator 2, which passes through the And 8 element and arriving at the gate input of the switch 17, appears at the output of the element HE 12 passing the code from the master 21 codes. Since at the initial moment the trigger 18 is in the 'O' state, then through the switch 17 the binary code of the unit passes to the input of the adder 16. Therefore, at the output of the adder 16 there will be a counter code 11 increased by one as a result of addition and, accordingly, the beam will change its location on the screen of the electro-optical converter 32 in the X direction. The first clock pulse after switching the switch 7 appears at the output of the element HE 12 and closes the AND element 8. Thus, the strobe pulse ends and the switch 17 closes. At its output, a zero code appears again, and at the output of the adder 16 there will be a counter code 11 unchanged and the beam will return to the previously passed and read point on the screen of the electron-optical converter 32. At the same time, the first clock. the pulse from the output of the switch 7 is recorded in the counter of 4 cycles, the set - <0 as it appears - will extinguish the signal20 read point30

960871 6 pushes trigger 18 into state Ί and enters signal former 22, and through element OR 19, delay element * 23 and element OR 28 sets blanking trigger 30 to state Ό. As a result, the beam is illuminated. The delay on the element 23 is necessary so that the beam has time to go to a read point on the screen before it lights up.

If at the input 35 of the device a second video pulse, which is a beam, prohibits the shaper 22 from catching a pulse and is written to counter 5, then a signal will appear at the first output of the decoder 9, which, passing through the OR element 13, allows the output of frames from the memory unit 20 to the input 36 of the device, and through the OR element 15 sets the counters 4 and 5 and the trigger 3 and 18 to the initial state. The same signal, passing the OR element 19, the delay element 23 and the OR element 28, sets the trigger 30 to the 'O' state, including, thereby a ray.

If there is no video pulse after the ray is again output to ku, then at the end of the first clock pulse from the output of the switch 7, the signal shaper 22 generates a pulse that passes through the OR element 29 ι and, setting the blanking trigger 30 in. state '1', extinguishes the beam of the electron-optical converter 32. At the same time, a gate pulse appears at the output of the element HE 12, which passes through the element And 8 and again opens the switch 17. Since the trigger 18, which controls the switch, is in state 1, then the output The switch displays the code '-1' (optional binary * unit code) received by the setter 21. As a result of the addition, the counter code 11 appears by the output of the adder 16, reduced by one.

As a result, the beam will change its * position on the screen of block 32. The second one _{(the first} pulse that appeared at the input of the element NOT 12 _l closes the I 8 circuit. The gating pulse ends and the code 17 is again at the output of the switch 17. Investigator _ but at the output of the adder 16 again there will be a code of counter 11 for forming lines without changing, since one of the zero and the beam will return the raster point. At the same time, the second clock pulse is written to the counter of terms equal to * <in a read '7 960671' 4 clock cycles and, as described above, includes a beam of electron-optical conversion The gentleman.

If a video pulse now appears at the output of block 32, it is recorded in the counter 5 of video pulses, and at the second output of the decoder 9, a permission signal for issuing codes from the memory block 20 appears, and the device works as in the first case. If there is no second video pulse, a signal appears on the third output of the decoder 9, which sets the triggers 3,18 and 30 to the Ό * state, but the codes are not output to the device output 35. Thus, the coordinates are output to the device 35 from the memory unit 20 only when one is recorded in the counter 4 and two are counted in the count • of the 5 counters, or in the case when two are recorded in both counters. As a criterion, the requirement is to obtain two video pulses when the ray is re-introduced into a read point on the screen, therefore, the coordinates of the points are issued only when the confirmation of their graphic information is confirmed. When the counters 11 and 14 are filled, a signal appears at the output of the And 15 element, and a read control trigger 6 appears through the OR 1 element. The device may stop reading in the middle of time when output 33 appears.

So; Thus, due to the output of the beam to a neighboring (read) point on the screen during the absence of a clock pulse at the output of the switch, the return to a read location on the screen is performed by a clock pulse, and the device’s speed is increased (since a maximum of two clock pulses are spent on repeated conclusions of the beam, and in the known device four).

The technical and economic effect of the use of the invention is to increase the speed of the device, by reducing the time loss for switching to re-reading points containing graphic elements of the image ··. zheniya.

! 0 of any signal on the fact that

Claims (2)

1.Patent of France No. 2301881, cl. Q About K 11 / OO, publ. 1971. 2. USSR author's certificate for application number 2883038 / 18-24, cl. Q06 Q 11 / GS, 1980.