SU805292A1 - Device for displaying information on crt screen - Google Patents

Description

The invention relates to automation 1 and computing technology and can be used to display information derived from a computer. A device for displaying information on a CRT screen is known, containing a pulse distributor connected to: a pulse generator connected with a counting word selector, whose inputs are connected to the outputs of the decoders of word codes and characters, and the output to a However known device is characterized by low reliability. The closest in technical essence. The invention is a device containing a first register, the codes of which are connected to the information inputs of the device and the output of a controlled pulse generator, the input of which is connected to the first & shifts of the shift register and the control inputs of the device to the output of the controlled pulse generator and the second input of the shift register, the outputs of which are connected by the first inputs of elements AND of the first group, a counter, the input of which is connected to the output of the frequency divider, and the output is connected to the output of device elements and outputs perzoy group are connected to the inputs of OR elements toa first group, the outputs of which are connected to the input of the SG clone yushih voltages connected through the AND and OR the second HRU; 1py p. CRT deflection system, the output of the first register is connected to a CRT modulator, 2.. The disadvantage of a dvznnogo device is low speed. The purpose of the invention is to increase the speed of the device. The goal is achieved by the fact that the device containing the first register, the inputs of which are connected to the informational inputs of the device and the output of the controlled pulse oscillator, the input of which is connected to the first input of the shift register and the control 3 input of the device, frequency divider, connected to the output of the controlled pulse generator and the second input of the Savigating register, outputs to T (fogo connected with the first inputs of the AND elements of the first group, the counter, the input of which is connected to the output of the frequency divider, and output one - to the output of the device, the outputs of elements AND of the first group are connected to the inputs of the elements OR of the first group, the outputs of which are connected to the inputs of the formers of the deflecting voltages connected via the AND and OR elements of the second group with the deflecting system of the CRT, the output of the first register is connected to the module To torus CRT, introduced elements of the third and fourth groups, the second register, the elements of the third group and the elements of NOT, whose inputs are connected to the outputs of the corresponding elements of the third group, the second inputs of the elements of the second group of connectors enes with the entrance to the output of the first NOT member; the second inputs of elements AND of ne & th group are connected to the inputs and outputs of the second and third elements NOT respectively, the inputs of elements AND of the third group are connected to the outputs of the counter, and the outputs are with the first inputs of elements AND of the fourth group, the second inputs of which are connected to the corresponding outputs of the second register, and the outputs - to the inputs of the elements OR the third group; the inputs of the second register are connected to the information inputs of the device. FIG. 1 is a diagram of the device 2 - a set of possible microes; in fig. polygrams The device contains a controlled generator of 1 pulses, a divider of 2 frequencies, a counter 3, a shift register 4, a formers 5 and a block of deflecting waves, elements OR of the first group, elements 7 and 8 OR of the second 9f 9 AND the second group, elements of pressure, elements And the first group.-ioe py, first register 11, second register I che 12, CRT 13, element 154 AND 15, the right group, elements of the third group, elements 16-16 or the third group, elements. 17-19 NOT. The device diagram also contains the control 20 and informational 21 inputs of the device and the output of 22 devices. Each of the eight micro-polygrams (Fig. 2) corresponds to a three-digit 92 CODE from 000 to -1 11 .. Only four specific micro-polygrams are possible to generate any character. possible. The codes of the four micropigrams needed are entered in the twelve second second register 12 in order of increasing micropigram numbers (see table). The table also shows the twelve-digit illumination codes stored in re: hstr 11. The illumination code simultaneously with the formation of micropigram elements, beginning with the lower bits, is sequentially fed to the CRT modulator 13c of the first register output 11. Divider 2 frequencies into three serves so that the counter of 3 pulses changes its state every three clock cycles, during which one microfigram is formed. So, for each displayed symbol, it is necessary to form four micropigrams of eight possible (the counter of 3 pulses is equal to two). The group of elements I is intended to establish a certain order of the formation of a set of necessary micropigrams, in order of increasing their numbers. This is ensured by the fact that the outputs of the elements I are connected respectively to the same inputs of the elec. 14-14, cops 1412 AND, the image of fourteen. - I49 I. The other inputs of the reproducibility of the elements of these elements 14-14., 2I from the corresponding outputs of the register 12, the codes of microplicrams necessary to form only the displayed character. The output of each of the first elements of the 14 AND triad is associated with the corresponding inputs of the element 16 OR. Depending on the state of the first discharge code of the formed micro-polygram, the outputs of the formers 5 and 5 of the deflecting voltages can be through certain elements 9 - 94 AND and the corresponding elements 7 and 8 OR are connected either to the system of deviations along the X coordinate or to the system deviations along the coordinate U of the CRT 13, namely: if the state of the first digit of the micropigram code is, then the output of the imaging unit 5 is connected to the deviation system of the coordinate U of the CRT 13, if O is connected to the deviation system of the coordinate X of the CRT 13. And the control elements 92 and 9 and impl It is called directly from the output of element 16 OR, and the control of elements 9 and 9 AND was carried out through element 17 NOT. Such switching of the formers 5 is possible in a result of the fact that the eight possible micropigrams (Fig. 2) are four pairs of micropigrams with deflection voltages that are symmetrical about the X and Y axes. Signals from the outputs of elements 162, 16 OR, directly and through elements 18 and 19, DO NOT control elements 10 AND, thereby setting the shape of the deflecting voltage at the outputs of the deflecting voltage formers for the micropoligram being formed. The signals O or at the outputs of elements 16 and 16/5 OR are formed depending on the state of the second and third bits of the code of the generated micro-polygram stored in the receiving register 12. Other inputs of the elements 10-1O are connected to certain outputs of the shifting three-bit. One register 4 with the goal of defining a specific sequence of formation of the elements of a micropigram. In the initial state, the O1O code is entered into a three-bit shift register 4 with feedback. A frequency divider by three serves to counter 3 pulses to change its state every three clock cycles, during which one micro-program is formed. The device works as follows. The Start signal. From input 20, the pulse generator 1 starts and sets the OU code in shift register 4. The first pulse from pulse generator 1 shifts the register code to the right by one bit, i.e. the shift register will be code 001. This k corresponds to the state of register 4, that a high level of voltage corresponding to one will be only on the third output of register 4 and will be connected to the second inputs of elements 10, 104, 105 - "UvI. Since, in the initial state, the two-way counter 3 is in the OO state, the high potential is removed from only the ample element 15 I, which ensures the formation of the first of the four necessary for the given symbol, a micropigram, whose code is stored in the first three bits of the twelve-bit register 12. So, for example, when forming a symbol (see table), codes of the second, third, and seventh micro-oligrams will be written into the receiving register 12. In the first three bits of register 12, the 1OO code corresponding to the microplot number 2 will be recorded. Thus, the state of the second and third bits of the code of the second micropigram O will turn on the unit 1 output of the shift register 4 on the first operation cycle of the device and 6 OR to the summing input of the imaging unit 5 and through elements 10, AND and OR - to the summing input of the imaging generator 5 The second pulse from the output of the pulse generator 1 pulses the bit by one bit to the right in register 4, i.e. code 4 will be written in register 4 100. This one corresponds to the state of register 4, that a high voltage level will be only at its first output and will be connected to the second inputs of elements 10 to 107. As the multi-polygram number 2 is being formed, then a single output of register 4 will appear connected at the second clock to the subtracting input of the raiser 5 l through e-S, I-Ty 64 OR. On the third cycle, the unit output of register 4 will be connected to the subtraction of the input of shaper 5 through the elements 10 3 and 6 / j OR. Since the first digit of the code of a micropigram with the number 2-1, during its formation the shaper 5 is connected via element 9 and element 8 OR to the deviation system of the Y coordinate, and the shaper 5.2 is connected to the deviation system of the X coordinate through the element 9 AND Element 7 OR. Thus, for symbol 1, in three cycles, i.e., in time, the first of the four micropigrams required will be formed. The next pulse from the output of the pulse generator 1 through the frequency divider 2 will change the state of the counter 3 by one (10). This corresponds to the fact that a high potential is removed from the output of element 15 I, m, e. The following registers of the 12 registers of the 12 bits in which the micropigram number 3 is written for the P symbol are controlled by the circuit. After three more cycles, the following three bits of the second register 12, in which the code of the micro- label numbered 6 is written, after another three cycles - the next three bits

in which the code of micropolygram is recorded with number 7.

Thus, during the time of 121 dal CHMBcyia on the screen of a CRT 13, only the necessary four micro polygrams (2, 3, 6, 7) of eight possible ones will be formed. Simultaneously with their formation, the CRT modulator 13 receives the illumination code (see table), according to which only those elements of micropigrams that make up the outline of the P symbol are highlighted,

The thirteenth pulse from the generator 1. Pulses, received through the divider 2

the frequency to the input of counter 3, is an overflow pulse, which from output 22 prepares the device to generate a new symbol on a new familiarity.

Similarly, aa time 12-tc Bce Russian characters a are formed in accordance with the code of the micro-polygram and the code of the light. 4 Avita and Arabic numerals. In addition, during the same time, almost all Latin alphabet letters and a number of symbols can be formed. OTCHOOOOOOOOOOOON OGCHO- | NOOO N -ON, OOOCHCHO O- | 0000. O o-I o o o o o o o o o o o o o o o-NGNOtO oO-1-n OOOOO OOTCHQOOOO r-tr- {r- ir, OOOOO - -OOOO.CHO OOOgnOOOO “N tN GNNnOOOOoo.NgCHgNgNgN X with X f with X 00 with f I- X soy soo: ( CYj Ш Ш I-. Сгш Ь: с: 5; ссос ОООООООО t ОООООО гноОООО С1О ° 0Н о - о о о о, O, -1. Гн о о о о о iH ООО ОО-О О Гч. XXX with CТГМЮ ,;}. CM o - “- eh

tchsmso 1lsog-so-a gNtNt-ngch He ... CMCOrj io r-f .CDh-COO OH gN H And PM CS | CM

O O O O O O O O O O O O O O O O O O O O O O O O O o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o o -1- gcooo - - 1- - fireproofing company OOOOOO OOOO- “LLCOO, OtnOO about rt rh about o gN about T-1 o N gN Ch gN OooO. OO-O - (Ogchopotcho (xg-x "x xhoooohsooooh.h. () Uv5} sosOn ((YaE deOD} C 2" gChmsMso.T | YUCHOGSM G t1 "1GOGOG aOSYO1ChS SO YU0 C4OJCMOjC JCMCOCOCOC

o o o o o Q o o o o o t o o o o o gn gn g- (n o c h o n r O o n n OOgO. and t-1 - o o o o - oo-cDCDyu tasM s005O COCOCO 3380 F O Pm y; i a invention of the Device for displaying information on the screen of a cathode-ray tube, containing the first register, whose inputs are connected to the information inputs of the device and the output of the controlled pulse generator, the input of which is connected to the first input of the shift register and the control input of the device, frequency divider whose input is connected to the output of the controlled pulse generator and the second input of the shifter The register whose outputs are connected to the first inputs of elements AND of the first group, the counter whose input is connected to the output of the frequency target, and the output to the output of the device, the outputs of elements AND of the first group are connected to the inputs of the elements OR of the first group whose outputs are connected to the inputs of the formers of the deviation The voltages connected by AND and OR elements of the second group with the deflecting system of the CRT, the output of the first register is connected to the module CR, CRT, characterized by the fact that, in order to increase the speed of the device, in These are elements AND 2 of the third and fourth groups, the second register are the elements of OR of the third group and the elements are NOT, the inputs of which are connected to the outputs of the corresponding elements OR of the third group, the second inputs of the elements AND of the second group are connected to the input n of the first element NOT, the second inputs elements AND of the first group are connected to the inputs and outputs of the second and third elements, respectively, the inputs of the elements AND of the third group are connected to the outputs of the counter, and the INPUTS to the first inputs of the elements AND of the fourth group, the second inputs of which are connected to the corresponding outputs of the second register, and the outputs to the inputs of the elements OR of the third group, the inputs of the second register connected to the information inputs of the device. Sources of information taken into account in the examination 1. The author's certificate of the USSR -№ 586480, cl. Q 06 K 15/20, 1977. 2. USSR author's certificate in application no. 2587974/24, cl. G, About K 15 / 2O, 06.OZ.78 (arotype).

Claims (1)

Claim A device for displaying information on the screen of a cathode ray tube containing a first register, the inputs of which are connected to the information inputs of the device and the output of the controlled pulse generator, the input of which is connected to the first input of the shift register and the control input of the device, a frequency divider, the input of which is connected to the output of the controlled pulse generator and the second input of the shift register, the outputs of which are connected to the first inputs of the elements AND of the first group, a counter, the input of which is connected to the output d frequency amplifier, and the output is to the output of the device, the outputs of the AND elements of the first group are connected to the inputs of the OR elements of the first group, the outputs of which are connected to the inputs of the shaper of the deflecting voltages, connected through the elements of the AND and OR of the second group with the deflecting CRT system, the output of the first register is connected to CRT modulator, characterized in that, in order to increase the performance of the device, AND elements of the third and fourth groups are entered into it, the second register is the elements of the OR of the third group and the elements are NOT, the inputs of which are connected to the output I will give the corresponding elements OR of the third group, the second inputs of the elements AND of the second group are connected to the input and output of the first element NOT, the second inputs of the elements of the first group are connected to the inputs and outputs of the second and third elements NOT, respectively, the inputs of the elements of the third group are connected to the outputs with the first the inputs of AND elements of the fourth group, the second inputs of which are connected to the corresponding outputs of the second register, and the outputs to the inputs of the OR elements of the third group, the inputs of the second register are connected to information inputs Dames device. counter, and outputs - · No.