SU881822A1 - Device for displaying information on crt screen - Google Patents

Description

(54) DEVICE FOR DISPLAYING INFO1AATION ON SCREEN EGKTRONNOUNCULAR TUBE

Claims (2)

The invention relates to automation and computing and can be used in computer output devices and automated control systems that display information on display screens. A device is known that permits a substantial increase in the quality and shortening of the time of image formation, which implements the method of micro-polygram synthesis of images (a variety of polygram images). in which polygrams are composed of a set of elementary figures - micropigrams. Moreover, after the formation of the necessary elements of the micropigram is completed, the electron beam of the electron beam tube (CRT) is forcefully placed at the origin of coordinates, i.e. at the beginning of the formation of any micropigram l. However, the formation of each micropigram makes inefficient use of time equal to At oV. When an image is synthesized from a large number of variable patterns, these inefficient time spent on imaging can be quite significant and amount to N -i DT where H is the regeneration frequency; the number of micropigrams required to form the j-ro symbol; The probability of occurrence of a J symbol in an alphabet with a length of N characters. The closest in technical essence to the present invention is a device comprising a pulse generator, a receiving register, a pulse counter, a micropigram distributor, a backlight unit, a switching unit, diversion voltage drivers, AND, OR elements, an electron beam tube with deflection systems and modulator 1. A disadvantage of the known device is the inefficient time spent on imaging, due to the fact that one is additionally used to return the beam to the origin. t of duration t, although this is sufficient time for K times smaller (k J m L) object of the invention is to increase the operating speed of the device. The goal is achieved by the fact that the device,. containing a generator: pulse torus, whose input is connected to the Start bus, and the output to one of the inputs of the micropigram distributor, the other input of which is connected to the output of the receiving register and to one of the inputs of the backlight unit, the other input of which is connected to one of the inputs of the switching unit and to the output of the micropigram distributor another output of which is connected to the bus End of the symbol, the group of elements I, whose inputs are connected to the corresponding outputs of the pulse counter, the outputs of the second, third and fourth elements And group n They are connected to the corresponding inputs of the switching unit and to the third input of the backlight unit, and the output of the first element AND of the group is connected to the installation inputs of deflecting voltage forwarders, whose inputs are connected to the corresponding outputs of the switching unit, and the outputs to the inputs of the corresponding deflection systems The CRT, the modulator of which is connected to the output of the backlight unit, the input of the receiving register is connected to the bus. The symbol code is additionally entered the pulse distributor, the OR element, the first and second AND elements, and one of the inputs the pulse distributor is connected to the pulse generator output and to the first inputs of the first and second element And one of the outputs of the pulse distributor is connected to the second input of the first element And, the other output to the second input of the second element And, the output of which is connected to the first input an OR element whose output is connected to the input of the pulse counter and to another input of the pulse distributor, and another input is connected to the third input of the micropigram distributor and to the output of the first element whose third input is connected to Exit first AND group. The drawing shows a functional diagram of the proposed device. The device contains a receiver register 1, a pulse generator 2, a micropigram distributor 3, a pulse counter 4, a right pulse distributor 5, elements AND 6–9, a switching unit 10, a backlight unit 11, deflecting voltage drivers 12, 13, electron beam tube 14 with systems of deviation in coordinates X 15 and U 16 and modulator 17, elements AND 18, 19, element OR 20, tires Start 21, Symbol code 22, End of character 23. The device operates as follows. . The Start-up signal from the bus 21 causes the pulse generator 2 to produce a periodic sequence ji of pulses with a period t arriving at the first input of the pulse distributor 5. Under the action of the first pulse, the pulse distributor 5 changes to the state corresponding to the excitation of its first output. Since in the initial state the pulse counter 4 is in the state 00, the signal is removed from the output of the element 6, which, arriving at the installation inputs of the formers 12 and 13, ensures that the CRT beam moves to the origin, i.e. prepares a device for forming the first of the required micropigrams. The second pulse from the output of generator 2, the passage through element 18, connects the first excited output of the distributor of micropigram 3 to switching unit 10, via element OR 20 sets pulse distributor 5 to the initial state, and pulse counter 4 transfers to state O, corresponding to the formation the first element of the micropigram. In this case, the signal is removed from the output of element 7, (since one of its inputs is associated with the single output of the first discharge of counter 4, and the second input with zero output of the second discharge) K-1 of the following pulses from the output of the pulse generator 2 translates -. pulses 5 in the state corresponding to the excitation of its last (Kl) -ro output, which is connected to one of the inputs of the element And 19. The next pulse (kth) i from the output of the generator 2, the passage through the elements And 19 and OR 20, translates the pulse counter 4 into the next state (10 J, and the pulse distributor returns to the initial state, i.e., the formation of the next element of the micro polygram begins. Another K pulse from the output of the generator 2, another 20 is removed from the output of the OR 20 pulse which translates the pulse counter 4 into the next state about to form (corresponding to the formation of the third element of the micropigram. The following pulse, like the previous two, locks onto the input of counter 4 after time K t. Under the influence of this signal, pulse counter 4 goes into state 00, i.e. In the correction mode, the first pulse from the output of the element 18 goes to the control input of the distributor of micropigrams 3. Under the influence of this signal, the signal from the output of the distributor of micropigs 3, corresponding to the first required micropigram, goes to one input of the switching unit 10. This echivaet connection elements 7-9 and outputs input on formers 12 and 13 so that on the CRT screen 14 is formed essentials mikropoligramma. The formation of a micropigram is carried out during the time of TCP 3to 3. t |. Simultaneously with the formation of the micropolygram, the backlight unit 11 is in operation, which ensures the unlocking of the CRT beam at the time of the formation of only those elements of the micropigram that enter the contour of the displayed symbol. In the correction mode (counter state 00), the correction pulse from the output of the And 6 element arrives at the installation inputs of the formers 12 and 13 and provides for the transfer time t. CRT beam to the origin regardless of what point of familiarity {for example, under the action of failures, it is an eye of the field. Thus, the next necessary micropigram begins its formation from the starting point, despite the fact that there could be errors during the formation of the previous micropigram. Likewise, as and the first, all the necessary micropigrams are formed. After the last micropigram has been formed, the micropigram distributor 2 passes the first of the received pulses from the generator 2 output to the bus 23. This pulse is the pulse of the end of the symbol and prepares the device for generating a new symbol in the new familiarity. Thus, the proposed device provides complete independence in the formation of micropigrams and completely eliminates the impact of failures (errors) in the formation of individual micropigrams on subsequent ones. This ensures high quality of the displayed information. At the same time, in the proposed device, the correction mode is reduced by a factor of K, which, when used to synthesize images of large quality micropigrams with a small number of elements (as, for example, in this device), provides significant savings in the time required for imaging. The invention The device for displaying information on the screen of a cathode ray tube, comprising a pulse generator, the input of which is connected to the Start bus, and the output to one of the inputs of the micropigram distributor, the other input of which is connected to the output of the receiving register and one of the inputs of the backlight unit, the other input which is connected to one of the inputs of the block: switching and to the output of the distributor of micropigrams, the other output of which is connected to the bus End of the symbol, a group of elements AND whose inputs are connected with The current outputs of the pulse counter, the output of the second, third and fourth elements of the AND group are connected to the corresponding inputs of the switching unit and the third input of the backlight unit, and the output of the first AND element of the group is connected to the installation inputs of the deflecting voltage drivers, the inputs of which are connected to the corresponding outputs of the switching unit , and the outputs, to the inputs of the corresponding deflection systems of the cathode ray tube, the modulator of which is connected to the output of the illumination unit, the input of the receiving register is connected to the bus symbol, in order that, in order to improve the speed of the device, it contains a distributor of 788 pulses, an OR element, the first and second elements AND, and one of the inputs of the pulse distributor is connected to the output of the pulse generator and to the primary inputs of the first and second elements And, one of the outputs of the pulse distributor is connected to the second input of the first element AND, the other output to the second input of the second element AND, the output of which is connected to the first input of the OR element, the output of which is connected to the input of the counter pulses and another input of the pulse distributor, and another input pod8 keys to the third input of the distributor micropigram and to the output of the first element And, the third input of which is connected to the output of the first element And group. Sources of information taken into account in the examination 1. USSR author's certificate for application No. 2754676 / 18-24, cl. G 06 K 15/20, 1979. 2. USSR author's certificate for application No. 2674698 / 18-24, cl. G 06 K 15/20, 1978 (prototype).