SU641471A1 - Device for displaying graphic information on crt screen - Google Patents

Description

connected to the output of a sinus generator of a voltage. The drawing shows a block diagram of the proposed device. The device contains an input signal bus 1, registers 2-8, trigger 9, code-constant voltage converters 10 and 11, code-alternating voltage converters 12 and 13, backlight unit 14 sinusoidal voltage generator 15, delay elements 16 and 17 , conversion unit for two 18, phase switch 19, inverter 20, limiter 21, differentiating element 22, adders 23 and 24, phase shifter 25, trigger 26, inverter 27, OR 2B element, And 29 and 30 elements, pulse generator. 31, element OR 32, counter 33, control trigger 34, element AND 35, comparison block 3, outputs 37, 38 and 39.. The device works as follows: when turned on, a sinusoidal voltage from the output of the generator 15 is directly and through the inverter 20 enters the first and second inputs of the switch 19 and through the limiter 21 to the input of the differentiating element 22. At the output of the differentiating element, pulses are formed that coincide in time with the moment transition of a sinusoid through zero. These impulses Directly and through the inverter 27 arrive at the zero and single inputs of the half-period sign of the sinusoid 26, ensuring its switching at each transition of the sinusoidal voltage through zero and also through the OR element 32 is fed to the installation input of the time counter 33. Thus, the counter 33 provides for the counting of time pulses only within one half-cycle of the sinusoid. The trigger of control 34 by the switch of phase 19 is set to the zero state. With the arrival of registers 2-8 and the trigger of the half-time sign, the start of illumination 9 via the input signal bus 1 of the information about the drawn image element, the code-to-voltage voltage converters Id, 11 are transformed the abscissa and ordinate codes of this element are supplied to constant voltages, which, through the adders 23 and 24, go directly to the output signal busses of devices 37, 38 and provide the output of the beam to a predetermined position of the CRT screen. These voltages, which carry information about the values of the coordinate codes, and, consequently, about the durations of transients in the beam deflection channels caused by them, arrive at the outputs of the delay elements 16, 17. The magnitude of the delay. Pulses per element overruns 16 real durations over time. | one processes in the beam deflection channels. Direct drawing of the graphic element on the screen begins only after the end of the brilliance. transient process, therefore, the outputs of elements 16 and 17 are connected to a recalculation unit for two 18, which passes to the output the pulse that came second. The occurrence of such a pulse serves as a signal to start drawing a picture element on the CRT screen and forming its pulse in block 14. At the same time, depending on the code value of the start of the backlight, the trigger state of the half-start sign of the backlight 9 and. The magnitudes of the abscissa codes and ordinates of the image element can add up to two possible situations where the deflecting voltages for drawing a graphic element are formed either from a sinusoidal voltage generated by the block 15 or from its inversion. The first situation occurs when the end of the transient process when the beam is placed at a specified location on the screen coincides in time with a half-period of sinusoidal voltage, opposite in sign to the half-period of the start of the backlight, or with the half-cycle of the sinusoidal voltage of the same Enac as the half-start of the backlight, but with provided that the value of the code for the start of the illumination will be greater than the value of the code established on a given scale in the counter 33. In this case, the control trigger 34 remains in the zero state and the switch and phase 19 passes an unconverted sinusoidal voltage, which is applied to the first inputs of the converters, the code-variable voltage 12 directly and 13 through the phase shifter 25, in which the phase shift of this voltage is carried out in accordance with the code of a class of image elements 8., The second situation occurs when the end of the transient process coincides in time with the half-period of sinusoidal voltage of the same sign as the half-period of the start of the illumination, but provided that and the start of the illumination will be less, or equal to the code that is currently set in the counter 33. In this case, the output of the comparison unit 36 is Vits, the signal that sends the trigger 34 to the unit state through the element 35 and goes to the output of the switch 19 the sinusoidal voltage inverted in block 20. Converters code-variable voltage 12, -13 convert the codes of the projections of the image element into the transient voltages of the corresponding amplitude, which are fed to the inputs of adders 23 and 24. The illumination unit 14 generates a light pulse in accordance with the codes of the beginning and end of the illumination ;. The deviation voltages for drawing the image element from the outputs of the adders and the light pulse from the output of the light block are outputted to the tires of the output signal 37, 38, 39 into a block of a CRT. With the receipt of information about the new picture element, the process of forming deflection stresses for drawing it on the screen of the CRT is repeated.

The proposed device, in comparison with the prototype, makes it possible to reduce the time for the formation of the image element by an average of 20%.

Claims (1)

1. Bezrodny M.S. Basics of building operational output devices information, M., Energii, -1973, pp.101-109. 2, USSR author's certificate W 229028, class a 06 K 15 / 20,02.03.69.