SU934541A1 - Information display - Google Patents

Description

(5) DEVICE FOR DISPLAYING INFORMATION

one

The invention relates to automation and computer technology, in particular to information display devices on gas discharge display panels.

A device for displaying information comprising an editing unit, made in the form of a light pen and an address generator, and counters 1 are known.

The disadvantage of the known device is that the operator has to work in terms of interference from high-speed markers corresponding to familiarity, since it is impossible to distinguish the informational glow of cells from the service one.

Claims (2)

The closest in technical essence to the present invention is a device for displaying information containing a code converter connected directly and via the first counter to the first and second inputs of the memory block, the third and fourth inputs of which are connected to the outputs of the input block and the second counter, respectively output through the serially connected character generator, the first and second registers and the first group of coordinate keys to the gas discharge indicator panegram inputs on the X coordinate, coordinate inputs e Which connects to the outputs of the coordinate keys of the second group, the inputs of which are connected to the outputs of the first and second decoders, the inputs of which are connected to the outputs of the second and third counters connected in series, respectively, the clock generator, the output of which is connected to the input of the first register editing, made in the form of a light pen and an address driver, the outputs of the second decoder are connected to the inputs of the character generator 2. A disadvantage of the known device is low reliability of work. This is due to the fact that the panel cells have a large ignition lag time, therefore the delay of the leading edge of the ignition pulse must be greater than the maximum cell ignition hitch time. Since the time to connect the voltage to the cell is limited by the critical frequency of the flicker and there are possible large delays of ignition, that the editing of information will be distorted. The purpose of the invention is to increase the reliability of the device. The goal is achieved by the fact that the device contains a fourth counter, the input of which is connected to the clock generator and the output to the fifth input of the memory unit, the first input of the second register and the third counter, the fragment recording block, the input of which is connected to the light output pen, and the output with the sixth input of the memory unit, and the address driver is connected to the fragment recorder, the first and second inputs of the address generator are connected to the outputs of the second counter and the light pen, and the first and second outputs are connected to the second the second register V to the seventh input of the memory unit, the address driver contains the first trigger, the output of which is connected to the first inputs of the first and second elements AND, the second inputs of which are the inputs of the driver, and the outputs are connected to the first inputs of the third and fourth decoders, the second inputs of which connected to the course of the nth counter. The fragment recording block contains the second and third triggers and the third element I, the output of the second three gers connected to the first input of the third trigger, the output of which is connected to the first input of the third element I, the second input of which is connected to the synchronous input of the third trigger connected to si nhrovhod at the second trigger. FIG. 1 is a block diagram of the device; in fig. 2 - time diagrams of the device operation in the information editing mode; FIG. 3 is a functional diagram of the address mapper; in fig. - functional diagram of b / 1ka fragment recording. The device contains a code converter 1, the first counter 2, the memory block 3, the character generator, the first register 5, the second register 6, the group of coordinate keys 7, the gas discharge display panel 8, the clock frequency generator 9, the second counter TO, the third counter 11, the first decoder 12, the second decoder 13, the fourth counter 1, the second group of coordinate keys 15, input block 16, address driver 17, light pen 18 and fragment recording block 19, third decoder 20, fourth decoder 21, first element 22, second element And 23, the first trigger 2k, n the counter 25, the trigger 26, the third trigger 27 the third element And 28. The device operates as follows. In the initial state, the counters 10, reset to zero, to the memory block 3 from the counters 10 and l4, the address code corresponding to the first familiarity in the first (upper) row is supplied. From block 10 of recording fragments to block 3 of memory, a signal is issued permitting the reading of the information recorded in it. From the output of block 3 of memory to the input of the generator k characters, the code of the first character in the first line arrives. The control inputs of the character generator from the second decoder 13 are given a signal of the first fragment, i.e. column cell familiarity. In the first register 5 and the second register 6 information is not recorded. The input of the first register 5 comes from a generator of k characters graphic code of the first fragment of the first familiarity of the first line. The excitation potential from the second group of coordinate keys 15 is fed to the first vertical bus corresponding to the space between the characters. There are no signals to the installation inputs of the second register 6 with the driver 17. With the arrival of the next pulse, the graphic code of the first fragment is written to the first register 5 from the clock generator 9, the counter 1 goes to the next state, which causes the sign code displayed in the first familiarity of the second line to appear at the output of block 3 of the memory. The character generator converts this code to the graphic code of the first fragment of the first familiarity of the second line, With the arrival of the next pulse from the 9 clock frequency generator, information written in the first register 5j of the upward shift and the graphic code of the first fragment in the second line is written. Conversion of other newer fragments of the first column of familiarity is carried out similarly. When all the graphic codes of the first fragments of all lines are written in the first register 5, which corresponds to the filling of the counter 1, the contents of the first register 5 are rewritten into the second register 6. The counter and the first register 5 are reset. The third counter 11 is set to the next state, which corresponds to the feeding of the exciting potential to the second vertical bus. The first character fragments in the first column of the familiarity light up. A code corresponding to the second familiarity fragment is supplied to the character generator. Conversion of the first character codes in all lines to the graphic codes of the second fragments is similar to the first. After all the graphic codes of the second fragments are written into the first register, they are rewritten in parallel code into the second register 6, Counter 11 is set to the next state, the code of which corresponds to the third vertical bus initiation, and the second fragments are slaughtered. Similarly, the remaining fragments are ignited when characters are displayed in all lines. When the last ones are displayed: familiarity fragments, a space code between the characters is fed to the character C generator and the first register 5 is filled with codes corresponding to the space. After rewriting these codes into the second register 6, the panels form spaces between the characters, the second counter 10 is set to the state corresponding to the second familiarity, and the third counter 11 returns to its original state. With the following pulses from the clock generator 9, the first register 5 it is filled with graphic codes of the first fragments of the next column of the familiarity. The second and all subsequent columns of familiarity are displayed similarly to the first. Information is stored in the memory block in accordance with the address code from the first counter 2 through the code converter 1. Information is generated at a frequency of 5060 Hz. Information is edited using a light pen 18. When the button on the light relay 18 is pressed, the elements of the second register 6 connected to the first line at the moment t (fig 2) go to control the signal from the address generator 17 and all cells of the first fragment of the first row are lit. In all other lines, the fragments involved in the display of information are reproduced. At the moment tr- defined by the code of the fourth counter I, the address builder 17 generates a pulse embedding the elements of the second register 6 connected to the first line. The service fragment in the first line goes out at the moment of tc-, in the remaining lines the informational fragments are displayed until the moment of time. The moment t С-, when the service fragment should go out, is selected from the condition of reliable ignition of the fragment cells. The time t, t must be greater than the maximum cell lag time. When the following vertical tires are connected, the service fragment is reproduced sequentially in all familiarities of the first line. At this time, the address code of the first line is output from the address maker 17. When the sweep passes through all the vertical busbars of the panel, the second counter 10 is reset and places the address former 17 in the next state, the code of the second row is output. The service fragment reproduces in the second line, in all the remaining informational fragments are displayed. Similarly, the service fragment is displayed in all other columns. The address code of the familiarity is formed by a second counter 10. The output signal from the light pen 18 is when the output of the counter 10 contains the code of the familiarity column to which it is directed. The pulses from the clock generator 9 and the fourth counter I are synchronizing the operation of the device. At the instants of time corresponding to the rear of the pulse front from counter I, tp, t t, C, counter 11 is switched, i.e. connection of the next vertical bus of the discharge display panel 8. Pulses from the light pen 18 correspond to tg, to the informational tr — to the service one, in the fragment, t. the time interval tg, t this fragment does not burn. At times t, tj, t, the signals from the output of the counter 14 in block 19 of the recording of fragments are generated by the clock pulses. If an information fragment is displayed in that place of the panel 8 to which the light pen 18 is directed, then the leading edge of the signal at the time t of the block, to the 13 records of fragments, is converted to an excited state. Since at the time of the formation of the clock pulse t t a high potential arrives at the input of the fragment recording unit 19 from the light pen 18, the recording pulse is not output. At the time t2, the falling edge of the pulse from the counter, the fragment recording unit 19 is reset. In the time interval t2.4 of the panel 8, to which the light pen is directed, does not light, there is no impulse at the output of the light pen 18. The fragment recording unit 13 is not triggered, according to IT over the sync pulse La the recording pulse is not generated. If the light pen 18 is directed to the familiarity in which the service fragment is burning, then at time t a pulse from the light pen 18 switches the fragment recording unit to the excited state. A sync pulse is formed in the time interval between the end of the service fragment t with and the moment of connecting the next vertical bus t. Since at the moment t the output potential of the light pen 18 is the Nazc potential, a write pulse is formed in block 19 of fragment recording. At block 3 of the memory, the passing of the address code of the line from counter I is prohibited and resolved from the form of the 1 address. The character code dialed in the input block 16 is recorded at the familiarity address to which the light pen 18 is directed. The falling edge of the write pulse at time tl the address driver 17 is reset. The proposed device makes it possible to edit information with a light pen, which expands its functional capabilities. Compared to information display devices with a light pen, which determine the address of familiarity at the moment of discharge, the reliability of operation of the device is improved, since the damping delay is smaller and more stable than the time of discharge. In this device, there is no distortion of the displayed information due to the introduction of a snippet, since with each information editing the service fragment in the line is displayed only during one frame. Thus, at a regeneration frequency of 50 Hz, the luminance of information symbols is 3 times greater than the luminance of service fragments. Claim 1. Device for displaying information containing code converter, connected directly and through the first counter to the first and second inputs of the memory block, the third and fourth inputs of which are connected to the outputs of the input block and the second counter, respectively, and the output through serially connected character generator , the first and second registers and the first group of coordinate keys - to the inputs of the gas discharge display panel on the X coordinate, the inputs on the coordinate U of which are connected to the outputs of the coordinate x keys of the second group, whose inputs are connected to the outputs of the first and second decoders, the inputs of the latter are connected to the outputs of the second and third counters connected in series, a clock frequency generator, the output of which is connected to the input of the first register, and an editing unit made in the form of a light pen and shaper address, and the outputs of the second decoder. connected to the inputs of the character generator, about t l and h. In order to increase the reliability of the device, it contains a fourth counter, the input of which is connected to the output of the clock frequency generator, and the output to the fifth input of the memory unit, the first input of the second register and the input of the third counter, a fragment recording unit, the input of which is connected to the output of the light pen, and the output is connected to the sixth input of the memory unit, and the address former is connected to the fragment recording unit, the first and second inputs of the address former are connected to the outputs of the second counter and light pen, and the first and second in moves - to the second input of the second register and the seventh entry memory block. 2. The device according to claim 1, of which is that the address driver includes a first trigger, the output of which is connected to the first inputs of the first and second elements. And the second inputs of which are the inputs of the driver, and the outputs are connected to the first 10 inputs of the third and fourth decoders, the second inputs of which are connected to the output of the fifth counter. 3. The device according to claim 1, of which is: I have the fact that the fragment recording block contains the second and third triggers and the third AND element, with the output of the second trigger connected to the first input of the third trigger, the output of which is connected to the first the input of the third element And the second input of the latter is connected to the synchronous input of the third trigger, and the second input of the third trigger is connected to the synchronous input of the second trigger. Sources of information taken into account during the examination 1. Japan patent H 52-50 07, cl. 97 (7), 197. 2. US Patent Vf 397bEE2 class. , 197. (prototype). fug.Z fug. four