SU1005173A1 - Device for displaying information on gas-discharge indication panel - Google Patents

Description

(54) DEVICE FOR DISPLAYING INFORMATION ON A GAS DISCHARGE INDICATOR PANEL

one

The invention relates to computing and can be used in information display devices.

A device for displaying information is known, comprising a gas-discharge display panel (HIP), a clock generator, a row decoder, a column decoder and a threshold element 1.

The disadvantage of this device is the uneven luminescence of the panel due to the inconvenience of the time of ignition.

It is also known a device for displaying information on a GUI, containing its serially connected video signal generator, analog-to-digital converter, storage unit and first comparison unit connected to an encoder connected to a clock generator, and serially connected string counters and a decoder, connected to horizontal GUI tires, and a pulse generator 2.20

The disadvantages of the known device are low accuracy and poor quality of reproduction of multi-gradation images, resulting from the variation of the parameters of the elements of the GUI. Each HIP element has its own ignition time. Consequently, the burning time of each panel element at the same excitation pulse duration is equal to the difference between the excitation pulse duration and ignition duration.

Thus, the brightness of the different elements of the gas discharge panel, and which during the frame receives the same number of exciting pulses of duration m, is obtained by different. In addition, if the variation of the parameters of the elements of the ISU is very large, then the ignition time of some element may be longer than the excitation pulse duration t, then this panel point may not be illuminated, i.e., the information is distorted.

The purpose of the invention is to improve the accuracy and quality of the image due to the stabilization of the gradations of brightness of the elements of the ISU.

Claims (2)

The goal is achieved by having devices for displaying information on a GUI comprising a serially-connected video signal generator, an analog-to-digital converter, a memory unit and a first comparison unit connected to an encoder connected to a clock driver, and a serially connected line counter and a decoder connected to the horizontal buses of the ISU, and a pulse generator, the element OR and the serially connected frequency divider, the element AND, the second comparison block, the block h holders, the first pulse selector of the elements of the ISU, the second pulse selector of the elements of the ISU and the trigger unit, connected to the first comparison unit, to the vertical tires of the ISU, to the delay unit and to the second comparison unit, and the OR element is connected to the AND element, with a divider frequency connected to the pulse generator, with the first selector pulse pulses of the elements of the ISU, with a row counter, with the synchronizer driver, their pulses and with the video signal generator. FIG. 1 is a diagram of an apparatus for displaying information on a GUI; in fig. 2 - time diagram of the device. The device contains a gas-discharge indicator pin 1, video signal generator 2, analog-digital converter 3, memory block 4, first comparison block 5, encoder 6, clock generator 7, counter 8 lines, decoder 9, horizontal bus 10 GUI, vertical tires 11 GUI, generator 12 pulses, element 13 OR, frequency divider 14, element 15 I, second comparison block 16, delay unit 17, first selector 18 for pulses of the elements of the ISU, second selector 19 for combustion pulses of the elements of the ISU, block 20 for flip-flops. A device for displaying information on the GUI operates as follows. Pulses with frequency f m, pJs, where rrt is the number of brightness gradations; T1-. the number of rows of the GUI; k - coefficient; T is the period of frame formation, from the pulse generator 12 is fed to the input of the frequency divider 14 with a division factor equal to k. The first pulse from the output of the frequency divider 14 through the element 13 OR is fed to the input of the counter 8 lines and the decoder 9 connects the first bus 10 GUI for time t, this pulse is also fed to the input of the generator 7 of synchronization pulses and the generator 2 of the video signal. The pulse shaper 7 generates pulses with a period, the encoder 6 encodes them. Thus, in the first unit cycle of the luminance level, the first value of the luminance code is set during the time - The video signal from the video signal generator 2 is fed to the analog-to-digital converter 3. The coded signal, -; l of each point (Xj, V) of the first line of the GUI recorded in the corresponding cell (Xi, Y) of memory block 4, at the time of polling the first row, is fed to the corresponding yj; the signal input of the first comparison unit 5 is compared with the luminance code of the first unit cycle of the luminance level. If the video code exceeds the luminance code, then at the output yj of the first comparison unit 5, a pulse of duration t appears (Fig. 2, plot 1). This pulse is applied to the corresponding input of a block of 20 flip-flops that generate ignition pulses of the elements of the ISU. The leading edge of this pulse at the corresponding output of the trigger unit 20 sets the voltage required to ignite the element, which is fed to the corresponding vertical ISU bus 11, denoted by yj (plot 2). The HIP element having a firing time equal to Tia; if, j, lights up after ijae, j relative to the leading edge of the ignition pulse. At this moment, an avalanche breakdown occurs in the gas and the element is ionized, as a result of which a discharge occurs in the element and the voltage at this output of the trigger unit 20 decreases to the burning potential. The second pulse selector 19 selects a pulse, the leading edge of which coincides with the moment of voltage drop from the ignition voltage to the burning voltage, and the rear front with the moment of the end of the fire (plot 3). The first selector 18 of the pulses of the element of the ISU is a trigger circuit, each of the triggers of which is set to one state by the leading edge of the signal formed by the block 20 of the trigger (plot 4). Block 17 delay delays the leading edge of the incoming signal. The delay time of block 17 is chosen equal to the duration of burning of the elements of the ISU (plot 5). The signal from the output of the delay block 17 is supplied to the control input of the flip-flop block 20 and a zero potential is established at the corresponding output of the flip-flop block 20 (plot 2), as a result of which the discharge in this panel element stops and at this moment the second selector 19 forms the back front pulse ( plot 3). Thus, at the moment of time (tjajKi: + trop) the given (Xy yj) element of the ISU goes out. The signal from each U of the output of the delay unit also goes to the corresponding yj input of the second comparison unit 16, to the control input yj of which is supplied a signal from the yjth output of the first comparison unit 5. The second block 16 compares these signals and a pulse is generated at the output corresponding to yj in the event that the correct operation occurs (X (, Y) of the GUI element, namely, if this panel element was to light up (there is a signal yj on the first comparison unit 5 fire (there is a signal yj at the output of the delay block 17.) Or, if the GUI element was not supposed to light up and did not fire. If all the elements of this GUI line are correctly triggered at the output of element 15, a pulse appears (plot 7), which is through element 13 or pos 8 lines are blunt on the counter, the decoder 9 connects the second row of panel 1. In addition, this pulse also goes to the zeroing inputs of frequency divider 14 and the first selector 18, setting them to their initial state. the elements do not have time to light up, then the pulse from the output of element 15 is absent. In this case, the device is reset and the transition to the next line is carried out by the next pulse from divider 14. First, all elements are simultaneously polled (Y (, Ug, .. . Ur) first After the GUI line arrives at the counter (n + 1) of the control pulse, the decoder 9 reconnects the first GUI line, the next value of the brightness level is set at the output of the driver 7. This process is repeated m times per frame time. The luminosity of each point of the panel is set by the total burning time of a given GUI element, followed by a period and an afterglow time of the phosphor after each excitation pulse. The positive effect is to increase the accuracy and improve the quality of the displayed information by achieving a constant burning time of all elements of the GUI, regardless of the spread of their parameters. Apparatus of the Invention A device for displaying information on a gas discharge display panel comprising a serially connected video signal generator, an analog-digital converter, a memory unit and a first comparison unit connected to an encoder connected to a clock driver, and a serially connected line counter and a decoder connected a horizontal gas discharge indicator panel and a pulse generator, characterized in that, in order to improve the accuracy and quality of due to the stabilization of luminance gradations, an OR element and a serially connected frequency divider, an AND element, a second comparison unit, a delay unit, a first selector of combustion pulses of elements of a gas discharge display panel, a second selector of combustion pulses of elements of a gas discharge display panel, and a trigger block are introduced into the device connected to the first comparison unit, to the vertical tires of the gas-discharge display panel, to the delay unit and to the second comparison unit, and the OR element is connected to the AND element, with A frequency switch connected to the pulse generator, with the first selector of pulse pulses of the elements of the gas-discharge display panel, with a row counter, with the generator of clock pulses and with the video signal generator. Sources of information taken into account in the examination 1. Japanese Patent No. 53-45088, cl. H 04 N 5/56, published. 1972. 2. USSR author's certificate for application number 2670317 / 18-24, cl. G 06 K 15/18, 1979 (prototype).