RU2094951C1 - Generator of information sampling pulses for cathode-ray tube screen - Google Patents

Abstract

FIELD: computer engineering, in particular, raster device for information input and display. SUBSTANCE: device has unit, which generates pulses which correspond to position of electron beam on screen of cathode-ray tube, and unit for generation of video signal. In addition device has line even-number detector, unit which delays pulses which correspond to position of beam on screen of cathode-ray tube, and commutator. Output of unit which generates pulses which correspond to position of electron beam on cathode-ray tube screen is connected to first input of commutator, input of line even-number detector and input of unit which delays pulses which correspond to position of electron beam on cathode-ray tube screen. Output of line even-number detector is connected to second input of commutator, which output is connected to output of pulse delay unit and input of unit which generates video signal. EFFECT: increased resolution. 2 cl, 1 dwg

Description

 The invention relates to computer technology and can be used in raster input and display devices with sequential access to information.

 There are various devices that provide image formation on the screen of a cathode ray tube (ed. St. USSR N 768007, CL H 04 N 3/26, 1976). The device generates sweep signals, includes control pulse shapers, signal extraction blocks, a pulse generator, signal conditioning amplifiers.

 This device does not provide the formation of a raster of information sampling on the screen of a cathode ray tube (CRT), since it does not affect the video signal of discrete pulses corresponding to the position of the electron beam on the screen of a CRT.

 Known devices for creating pulses that control the formation of a raster of information sampling on the screen of an electron beam device, including a pulse generation unit corresponding to the position of the electron beam on the CRT screen and a video signal generation unit (Zelenko G.V. Display for a personal computer, magazine "Microprocessor tools and systems ", N 3, 1985, p. 62). This device is taken as a prototype of the invention. It allows the formation of a raster of discretization of information on the screen of a CRT, since there is an effect on the video signal of discrete pulses corresponding to the position of the beam on the screen of a CRT. In this device, the block forming pulses corresponding to the position of the beam on the screen of a CRT (BFIP) includes a clock generator, a frequency divider and a CRT controller with a circuit for generating frame and horizontal sync pulses. The video signal generating unit (BFVS) includes a read-only memory (ROM) of the character generator, a shift register and a control circuit for the visual characteristics of the characters. The BFIP generates a sequence of pulses corresponding to the position of the beam on the CRT screen (shear frequency), which go directly to the BFVS (in the shift register). Under their influence, the information recorded in the shift register from the character generator ROM is converted into a sequential code and fed to a control circuit for the visual characteristics of the characters, where it is converted into video pulses that control the intensity of the electron beam and form a raster of information discretization on the CRT screen. In this case, the raster elements form a rectangular structure. Also, the rectangular structure of the raster is formed in other known devices for its formation.

 Due to the rectangular nature of the raster structure, a low density of samples takes place, since the two-dimensional spectrum of images formed by an electron beam on a CRT screen, as a rule, has the shape of a circle rather than a rectangle. In addition, the low density of samples in a rectangular raster formed by the prototype device complicates the formation and processing of two-dimensional images in solving computer graphics problems.

 The basis of the invention is the solution to the problem of creating such a device for forming a raster of information discretization on a CRT screen, which would increase the density of the raster, as well as simplify the formation and processing of two-dimensional images.

 According to the invention, this problem is solved due to the fact that a pulse parity determiner, a pulse delay unit corresponding to the position of the electron beam are introduced into the pulse generator of information sampling on the CRT screen, including a pulse generation unit corresponding to the position of the electron beam on the CRT screen, and a video signal generation unit on the screen of the CRT and the switch, while the output of the pulse generating unit corresponding to the position of the electron beam on the screen of the CRT is connected to the first input of the switch, input th determinant parity line and the input of pulse delay unit corresponding to the position of the beam on the CRT screen, the output parity of the determinant time connected to the second input switch, whose output is connected to the output pulse delay unit and to the input video signal forming unit. The delay unit of the pulses corresponding to the position of the electron beam on the screen of the CRT can be made in the form of an inverter of pulses; the switch and the pulse inverter, combined by the corresponding inputs and outputs, can be made in the form of a two-input element exclusive OR.

 The implementation of the distinguishing features of the invention leads to a significant technical effect, which consists in the fact that the elements of the raster corresponding to the odd lines of the raster have a time shift with respect to the elements of the raster corresponding to the even lines of the raster. This ensures the formation of the hexagonal structure of the raster on the CRT screen. The density of the raster increases, the formation and processing of two-dimensional images is simplified when solving computer graphics problems. The specified technical effect is achieved by a fairly simple structural means, however, it is of very great importance, significantly improves the device. These circumstances determine, according to the applicant, the proposed technical solution meets the criterion of "inventive step".

 As a block delay pulses corresponding to the position of the electron beam on the screen of a CRT, a logical pulse inverter can be used. As a switch, an electronic key.

 The invention is illustrated in the drawing, which shows a block diagram of the proposed device.

 The pulse generator for sampling information on the CRT screen includes a block 1 for generating pulses corresponding to the position of the electron beam on the CRT screen (BFIP), a block 2 for generating a video signal (BFVS), block 3 line parity determiner (SFN), block 4 delay (KB) pulses corresponding to the position electron beam on a CRT screen, switch 5 (K). The output of block 1 is connected to the first input of the switch 5, the input of block 3 and the output of block 4. The output of block 3 is connected to the second input of the switch 5, the output of which is connected to the output of block 4 and to the input of block 2. In a specific example, block 1 is a set of generator clock pulses, counting circuits and combinational circuits. Block 2 is a combination of shift registers, random access memory and combinational circuits. Block 3 is implemented on the basis of counting and combinational circuits. Block 4 is implemented based on the delay line. However, for pulses of a symmetrical shape, the meander block 4 can be made in the form of a logical pulse inverter. Switch 5 is an electronic key that closes or opens the circuit.

 The device operates as follows.

 Block 1 forms a sequence of pulses corresponding to the position of the electron beam on the screen of a CRT. These pulses arrive at block 4, block 3, and at the first input of switch 5. In addition, signals from the output of block 3, containing information about the parity of the raster line, are received at the second input of switch 5. The output of the switch 5 receives the delayed pulses from block 4. Under the influence of the signal from the output of the block 3, which determines the parity of the line, the pulses from the output of the delay block 4, bypassing the open switch key 5, or from the output of the block 1 of the shaper pulses, bypassing the delay block 4 closed by the switch key 5.

 The pulses from block 1 correspond to even lines of the raster, and the pulses from block 4 are odd. The latter have a time shift with respect to pulses corresponding to even lines of the raster. The magnitude of the shift is determined by block 4. The pulses from the output of the switch 5 or block 4 are sent to block 2, where a video signal is generated that arrives at the CRT. A raster having a hexagonal structure is formed on the CRT screen.

 The device has industrial applicability, since it can be implemented on the existing elemental base of computer technology.

Claims (2)

 1. The pulse generator of sampling information on the screen of the cathode ray tube, comprising a block for generating pulses corresponding to the position of the electron beam on the screen of the cathode ray tube and a block for generating a video signal, characterized in that a line parity determinant, a delay block of pulses corresponding to the position are inserted the electron beam on the screen of the cathode ray tube and the switch, and the output of the block forming pulses corresponding to the position of the electron beam on the screen of the electron a beam tube connected to the first input of the switch, the input of the line parity determinant and the input of the delay unit of pulses corresponding to the position of the electron beam on the screen of the cathode ray tube, the output of the line parity determiner is connected to the second input of the switch, the output of which is connected to the output of the pulse delay unit and with the input of the video signal conditioning unit.  2. The shaper according to claim 1, characterized in that the delay unit of the pulses corresponding to the position of the electron beam on the screen of the cathode ray tube is made in the form of a pulse inverter.