SU1275522A2 - Indication device - Google Patents

Abstract

The invention relates to a technique of display systems on gas discharge display panels. The invention makes it possible to increase the accuracy of quality control of the information displayed on the gas-discharge display panel (GUI), which is important in determining the absence or presence of flickers for different display elements, taking into account the variations in the velocities of these display elements. The device contains additionally introduced with respect to the basic invention according to the author. No. 1092556 connection from the output of the photometer 6 to the standard setting block 12, which is made in the form of serially connected integrator 15, analog-to-digital converter (ADC) 16 and read-only memory (ROM) 17. From the output of the photometer 6 optically connected to HIC 2, an electrical signal is taken, in the form of a repeating light signal from a controlled indicator of the ISU cathator element. This signal is converted by the integrator (L into a signal corresponding to the average pc of the luminescence of the display element. 16 11 /

Description

In the ADC 16, this electrical signal is converted into a digital code, which is fed to the address inputs of the ROM 17. Information is stored in the ROM 17 in accordance with Weber-Fechner law. According to this law, with increasing brightness, the differential threshold increases according to a logarithmic law. The value of the differential threshold D D is proportional to the value of the difference in the duration of the light pulses up to the one selected to control the information display element. Therefore, in the ROM 17, the threshold values ID are proportional to & B, i.e. at the output of the ROM 17, threshold values D appear,

selected according to the specific values of the average luminance of the information display element. The code value from the output of block 12 is compared with the value of the resulting difference from the codes from the output of the adder 10. If the difference is greater than the threshold value, then a signal is set at the output of the comparator 11 that permits the clock to pass from the fourth output of the synchronizer 4 through the switch 13 to the counter input 14. Counter 14 records each case of excess of the contrast in time above the threshold value, i.e. each observed flicker of the information display element. 1 il.

The invention relates to a technique of display systems, can be used to create information display devices on gas discharge panels (GUIs), and is an improvement to the device according to the author. St. No. 1092556.

The purpose of the invention is to improve the accuracy of quality control of the displayed information.

The drawing shows a functional diagram of the device.

The device comprises an information input unit 1 connected to the GUI 2, the second inputs of which are connected to the sweep unit 3, controlled by the synchronization unit 4 by the generator 5.

Photometer 6 is installed in the display field of the GUI 2, the output of which is connected through the first switch 7, the first counter 8, the register 9 and the adder 10 connected to the comparator 11, the reference setting unit 12 is connected between the output of the photometer 6 and the second input of the comparator 11, the output of which is connected with the input of the second switch 13 connected to the second counter 14. The standard setting block consists of a series-connected integrator 15, an analog-to-specific converter 1.6 (ADC) and a persistent storage device 17 (ROM). In addition, the output of the first

the counter 8 is connected to the second input of the adder 10, the outputs of the synchronization unit 4 are connected to the second inputs of the first counter 8, the register 9 and the second switch 13, and the output of the generator 5 is connected to the second input of the switch 7.

The device works as follows.

Claims (1)

Information through the information input unit 1 enters the GUI 2 synchronously with the image sweep performed by the scanner unit 3, which is controlled by the pulses of the synchronization unit 4 triggered in turn by the generator 5. Using the optical system of the photometer 6, a controlled indicator element is selected on the GUI 2, which, when excited, causes a pulse of a certain duration to appear at the output of the photometer 6. The pulse from the output of the photometer 6 is fed to the control input of the first switch 7 and allows the passage of high-frequency pulses from the output of the generator 5 to the counting input of the first counter 8. The pulse duration from the output of the photometer 6 is different in each image sweep frame due to the ignition delay time yes indicator element. ; The counter 8, accumulating high-frequency pulses from the generator 5, passing through the first switch 7, measures the excitation duration of the indicator element in each frame of the image sweep. At the end of the image frame, the counter 8 is zeroed by a sync pulse from the second output of the sync unit 4. Before resetting the counter 8, the code from its output is rewritten into the register 9 by the clock from the third output of the synchronization unit 4. Thus, on some inputs of the adder 10 there is a code corresponding to the duration of the light pulse of the selected information display element in the current image sweep frame, and on other inputs there is a code corresponding to the duration of the light pulse of the information display element in the previous sweep frame. At the output of the adder 10, a code is set, the value of which corresponds to the difference in the duration of the light pulses of the selected information display element in the adjacent image sweep frames. From the output of the photometer 6, the voltage level corresponding to the average luminance of the selected information display element is removed through the integrator 15. In the A / D converter 16, this level is converted into a digital code that enters the address inputs of the ROM 17. Information of the ROM 17 is recorded in accordance with the Weber-Fechner law. According to this law, with an increase in average luminance, the value of the differential threshold increases according to a logarithmic law. The value of the change of brightness A B is proportional to the value of the difference of the duration of the light pulses for the selected information display element. Thus, in the ROM 17, the threshold values of Dc are listed, proportional, i.e. At the output of the ROM 17, threshold values of e € appear, selected in accordance with the specific value of the average luminance of the information display element. The code value from the output of the standard specification block 12 is compared by compa-. RATOR 11 with the value of the received difference codes from the output of the adder 10. If the difference is greater than the threshold value, then the output of the comparator 11 is set to allow the clock to pass from the fourth output of the synchronization unit 4 through the switch 13 to the input of the counter 14. The counter 14 records each case of excess contrast in time over the threshold, i.e. each observed flicker of the information display element. The invention of the device for display on the author, St. No. 1092556, characterized in that, in order to increase the accuracy of the quality control of the displayed information, the reference task unit is designed as a series-connected integrator, an analog-digital converter and a permanent storage device connected to the photometer output.