SU830510A1 - Device for displaying vectors on crt screen - Google Patents

Description

The invention relates to automation and computer technology and can be used as a device for displaying graphic information on the basis of an electron-beam tube (CRT) in automated control systems ⁵ .

A device containing a synchronization unit, a pulse generator, a counter and an element And [11.

* 1Q

This device has a large hardware volume and, therefore, low · reliability. The quality of reproduced graphic information is low due to the lack of information regeneration.

Also known is a device for displaying vectors on a CRT screen, comprising a synchronization unit, a counter, registers of initial coordinates and registers of increments of coordinates [2].

This device is designed to operate on a television (raster) indicator, which in itself is very cumbersome, in addition, the functionality of such a device is limited, since it is necessary to have a large length of code combinations to form a sufficient number of image elements.

Closest to the invention is a device for displaying vectors on a CRT screen, containing two registers of initial coordinates, the outputs of which are connected to the inputs of the corresponding two digital-to-analog converters, two registers of coordinate increment codes, a synchronization unit, the first output of which is connected to the CRT modulator, and the second to the first input of the element And, the second input of which is connected to the output of the pulse generator, and the output to the counter input, the first output of the counter is connected to the input of the synchronization block. In the register of initial coordinates and registers of codes of increments of coordinates, from a computer are written: a code that determines the length of the projection of the vector onto one of the coordinate axes X or Y; code of the angle of inclination of the vector to the coordinate axis; the code of the increment sign AX and DU, the code defining the modulation of the beam, the code of the position of the vector within the quadrant.

When the device starts up, the codes are copied from the registers to the corresponding nodes: the vector projection code is the e counter, the vector angle code is the frequency divider, and from the generator through the veil — ¹ til opened by the signal from the zero block, pulses are received, the number of which is set by the code projection vector. The same pulses are fed through the switch to the input of one of the 15 reversible counters, and pulses of a divided frequency are fed to the other reversible counter via a divider, which determines the angle of inclination of the vector to the coordinate axis. The signals from the outputs of the reversible counters are converted in the digital-to-analog converters PAP to the analog voltage, which controls the movement of the CRT beam Sz).

However, when the angle of inclination of the vector to the coordinate axis changes, the linearity of the displayed vectors changes, which depends on the code combination recorded in the frequency divider, i.e. the number of quanta, projections of the vector on the X and Y axis, is generally not the same; for the formation of the vector requires a large amount of source data, the device as a whole has a large number of blocks and internal connections, which negatively affects the reliability of the device.

The focus of the invention is improving display quality by improving linearity.

The circuit is achieved in that the device contains a third 1ΙΑΠ, the input of which is connected to the information output of the counter., Two multipliers, the first inputs of which are connected to the outputs of the corresponding registers of coordinate increment codes, and the second inputs: the output of the third digital-to-analog converter and two analog adders, the first inputs of which are connected to the outputs of the first and second digital-to-analog converters, respectively, the second inputs - to the outputs of the corresponding multipliers, and the outputs are connected to the inputs ^ from lonyayuschey cathode ray tube system. .

The drawing shows a functional diagram of a device for displaying vectors on a CRT screen.

The device contains a CRT with a deflecting system and a modulator 1, the first analog adder 2, the second analog adder 3, the first multiplier 4, 5 the second multiplier 5, the first digital-to-analog converter 6, the second digital-to-analog converter 7, the third nifro-analog converter: transmitter 8, counter 9 , element I '10, pulse generator 11, synchronization block 12, first register 13 of initial coordinates, second register 14 of initial coordinates, first register 15 of codes of increments of initial coordinates, and second register 16 of codes of increments of coordinates.

The device operates as follows.

Upon receipt of the start pulse from the computer to the synchronization unit 12, the latter opens the element * I. 10, and the pulses from the pulse generator 11 are counted by the counter 9. Simultaneously with the start-up import, the codes of the projections of the initial position of the vector (coordinate codes Xm and Un, respectively) with their signs, as well as the increment codes AX ³⁰ and AU, respectively, with their signs, are recorded in the computer in the registers of initial coordinates and in the registers of ²⁵ codes of coordinate increments. Codes Хн and У _{н are} converted by the first digital-to-analog converter 6 and the second digital-to-analog converter 7, respectively, ³⁵ analog signals arriving at the first inputs of analog adders 2 and 3, from the outputs of which, arriving at the inputs of the deflecting CRT system, the beam is output to the starting point.

The increment codes Δ.Χ and ДУ from registers 15 and 16 arrive at the first and second multipliers 4 and 5, respectively. At the same time. the codes from the output of counter 9 are converted by the third digital-to-analog converter 8 into an analog, step voltage, which, being supplied to the second inputs of multipliers 4 and 5, are multiplied with code combinations of increments AX and DO. Thus ⁵⁰ , at the outputs of the multipliers 4 and 5, analog, stepwise beam deviation stresses along the X and Y axes are formed. Moreover, these voltages have one. a large number of steps, regardless of their amplitude and, consequently, on the angle of inclination of the vector, thereby achieving improved, compared with the known, linearity of the displayed vectors.

These voltages are summed in adders 2 and 3 with a voltage corresponding to X _; q and uz, and control the movement of the beam CRT 1.

Since the triggering pulse received by the computer in the synchronization unit 12 generates a modulation signal (illumination of the beam travel), supplied to the CRT modulator 1, when the beam deviates from the point with coordinates Xc and Yc, its trajectory is highlighted.

At the end of the vector formation, the counter 9 generates a blocking signal to the synchronization unit 12, the signal of which immediately locks the CRT 1 and closes the And 10 element, stopping the pulse counting by the counter 9. The generation peak of each vector is repeated with the arrival of a triggering pulse. 20

The proposed device can be used in promising developments.

Claims (3)

(54) DEVICE FOR DISPLAYING VECTORS ON SCREEN OF ELECTRON BEAM. 33 dinatny axes X or Y; the code of the tic of the vector to the coordinate axis; the code of the increment sign LH and the remote control, the code defining the modulation of the beam, the position code of the vector within the quadrant. When the device is started, the codes are copied from the registers to the corresponding nodes: the vector projection code - E counter, the code of the slope of the vector - into 1 frequency, and from the generator through the valve, opened by a signal from the allocation unit zero, pulses are received, the number of which is given by the projection code of the vector. The same pulses through the switch enter the input of one of the reversible counters, and the other reversible counter through the divider pulses the divided frequency, which determines the angle of inclination of the vector to the coordinate axis. The signals from the outputs of the reverse meters are converted into digital-analogue D / A converters to analog voltage that controls the movement of a CRT fsj beam. However, when the angle of inclination of the vector to the coordinate axis changes, the linearity of the reflected vectors changes, which depends on the code combination recorded in the frequency divider, i.e. the number of quanta, the projections of the vector: on the X-axis and Y, in the general case is not the same; to form a vector, a large amount of raw data is required, the device in r, the scrap has a large number of blocks to internal connections, which negatively affects the reliability of the device. The invention is an improvement in display quality by improving linearity. The goal is achieved by the fact that the device contains a third DAC, whose input is connected to the information output of the counter, two multipliers, the first inputs of which are connected to the outputs of the respective registers of the coordinate increment codes, and the second inputs — with the output of the third digital-analog converter and two analog adders, the first the inputs of which are connected to the outputs of the first and second D1L |) analog-to-analog converters, respectively, the second inputs to the outputs of the corresponding 1 multiplying multipliers, and the outputs are connected to the inputs from Lawn guide ray tube system. The drawing shows a functional diagram of the device for displaying vectors on a CRT screen, 04. The device contains a CRT with a deflection system and modulus Torr 1, first tax su 5mator 2, second analog adder 3, first multiplier 4, second multiplier 5, the first digital-to-analog converter 6, the second analog-to-new converter 7, the third digital audio converter 8, the counter 9, element 10, the generator of 11 pulses, synchronization unit 12, the first register of 13 initial coordinates, the second register of 14 initial coordinates, the first regist p 15 codes of increments of initial coordinates, and the second register of 16 codes of increments of coordinates. The device works as follows. Upon receipt of a start-up pulse from a computer at block 12, synchronization 1; opens the element; - And .10, and the impulses from the generator 11 impumses are counted by the counter 9. Simultaneously with the triggering image, the projection codes of the initial position of the vector (coordinate codes X and Y, respectively) are recorded from the computer into the registers of the initial coordinates and the computers with their own signs, as well as the increment codes DH and L, respectively, with their own characters. The Xc and Y codes are converted by the first digital-to-threshold converter 6 and the second digital-to-analog conversion. We are 7, respectively, js analog signals to the first inputs of analog adders 2 and 3, from the outputs of which are fed to the inputs of a deflecting CRT system, output T beam to the starting point . The codes for rotation of D.X. and DU from the pei of the IS-Rrove 15 and 16 are sent to the first and second multipliers 4 and 5. At the same time, the codes from the output of counter 9 are converted by a third digital-to-analog converter 8 to analog, step voltage, which, arriving at the second inputs of multipliers 4 and 5, are multiplied with the code combinations of the increments L.X. and D.C. Thus, at the outputs of multipliers 4 and 5, analog, stepwise beam deflection voltages are generated along the axes X and Y. Moreover, these voltages have the same. A new number of steps, regardless of their amplitude and, consequently, on the angle of inclination of the vector, which achieves an improved, in comparison with the known, linearity of the displayed vectors. These voltages are summed in adders 2 and 3 with a voltage corresponding to X, C and Y, and control the movement of the CRT beam 1. Since the trigger pulse, the next HR computer in block 12 of synchronization 1 forms a modulation signal beam), supplied by the CRT modulator 1, when the beam deviates from the point with coordinates Хц and У, its trajectory is recalculated. After the vector formation is completed, the counter 9 issues a blocking signal to the synchronization unit 12, the signal of which immediately locks the CRT 1 and snarls element and 10, stopping pulse counting by counter 9. The cycle of formation of each vector is repeated with p the trigger pulse. The proposed device can be used in promising developments. The invention The device for displaying vectors on the screen of a cathode ray tube, containing two registers of initial coordinates, the outputs of which are connected to the inputs of the corresponding two digital-to-analog converters, D | tube, and the second output with the first input of the element I, the second input of which is connected to the output of the pulse generator, and the output to the input of the counter, the first output of the counter is connected to A synchronization unit, characterized in that, in order to improve the display quality by improving linearity, the device contains a third qi) channel converter, whose input is connected to the information output of the counter, two multipliers, the first inputs of which are connected to the outputs of the coordinate increment codes , and the second inputs - with the output of the third digital-to-analog converter, and two analog adders, whose output inputs are connected to the outputs of the first and second digital-analog converter accordingly, the second inputs are to the outputs of the respective multipliers, and the outputs are connected to the inputs of the deflection system of the e-beam path ... Sources of information taken into account in examination 1, ABiopcKoe certificate of the USSR No. 268514, kp, 00157/22, 1970. 2. USSR author's certificate number 411476, cl. G06 K 15 / 2C, 1974. 3. USSR author's certificate number 414607, cl. G06 K 15/20, 1974 (prototype). ISI A one