SU1462410A1 - Device for displaying information - Google Patents

Abstract

The invention relates to computing and automation and can be used in information display devices to obtain a two-dimensional scan of an image along any path. The purpose of the invention is to simplify the device. The goal is achieved by the fact that a light emitting element is inserted into a device for displaying information containing a matrix indicator, a pulse generator and a scanner, a scanner contains three multiplexers, five D-flip-flops and five AND elements, and each cell of the matrix screen contains a light-emitting photothyristor, optically coupled to the light-emitting thyristors of the previous and next cells in the X and Y coordinates. This device reduces the number of buses in the matrix indicator, which is given in th device does not depend on the size of the matrix display. 3 il. (L

Description

one

The invention relates to computing and automation and can be used in information display devices to obtain a two-dimensional scan of the image along any path.

The purpose of the invention is to simplify the device.

Figure 1 shows the structural diagram of the device; 2 shows the optical communications of the elements of the matrix indicator; FIG. 3 is a schematic of a scanning unit.

The device contains light-emitting photo thyristors 1-5, which belong to the first, second, third, fourth and fifth groups respectively and comprise a matrix indicator 6, an optical shutter 7, fiber-optic bundles 8 and 9, a light-emitting element 10, keys 11 - 15, a sweep unit 16 and a pulse generator 47. Optical connections between the light-emitting photo thyristors of the matrix indicator 6 in Fig. 2 are represented as a photo thyristor and an LED. The light emitting transition of each light emitting photo thyristor is associated with five optical outputs 18–22 of light emitting photo thyristors, four of which 18–21 are connected to one of the optical inputs of light emitting photo thyristors located below, above, to the right and to the left of this, fifth fifth output 22 is associated with the output aperture of the matrix indicator 6. Photo-receiving transition of each light

about: to

four

314

This emitting phototransistor is associated with four optical B5: odes 23-26 each of which are connected 1 -;: not correspondingly to the optical output of the upper 18, nor the snow 19, the left 20 and right 2 light emitting photo thyristors, the scan 16 represents reversing SHIFT; a register having shift chains of 1 and 2 bits on both sides and can be: made according to the scheme shown in Fig. 3, which contains a cartoon: ip, g eksor 27 and 28, five D-triggers 29 - 33 and five elements And 34 - 38, the Harmonic module also contains control: 39 input, 39 m information inputs 40 and mule: z-typelexer 42, optical shutter 43 and second control input 44.

The device works as follows.

After switching on the power supply, control signal 39 is supplied with a cool signal which, arriving at the first inputs of the elements AND 34-38, sounds as follows: reading zero signals in all outputs of the scanner 16 ;. Consequently, all the keys are open, i.e. all of the light emitting photothyristors relieve the voltage, which means that none of them emits light. In addition, the zero signal at the input of the block b / sets the trigger 29 into one and the state, and the other triggers into zero and causes the light to emit: the receiving element 10, whose optical signal affects the photoelectric transducer The first c: the first column of matrix matrix b decreases its resistance, and after the zero signal at the input 39 stops, signals from the flip-flop outputs 29 3j appear at the first, third, fourth and fifth outputs of the scanner, respectively. From the single signal at the first output, the switch JI closes, on the anodes of all the light-emitting photosensors 1 a potential bus appears, but because the light from the light-emitting element 10 affected only the light-emitting photothyristor of the first row of the first column, only this the element goes into the excited state (starts to emit light),

Radiation from a light emitting photothyristor

0

simultaneously on four adjacent light-emitting photo-thyristors (Fig. 2): on the second, lying below, fifth, located on top, third, located on the right, and on the fourth, lying tear, preparing each of them for switching to the excited state.

Light-emitting photothyristors 2, 3, 5 and 4 cannot go into the excited state, since they have been relieved of voltage due to the disconnection of keys 12–15. At the next moment of time, that light-emitting photo- thyristor 2 - 5, at the cathode of which a potential of a common tire appears. For example, if at the next moment a single signal appears at the second output of scanner 16 and disappears from the first output, then the second switch 12 closes, the potential of the common bus appears at the cathodes of all light-emitting photo thyristors 2 and the light-emitting photo thyristor switches to the excited state 2, located below the light-emitting photo thyristor 1 of the first row of the first column, and the key 1 is disconnected, the voltage from all the light waves of photo-thyristors 1 disappears and the light emitting diode 1 of the first column of the first column but ceases illumination, i.e. there is a shift of the light point one cell down. If at the next time point a single signal appears not at the second output of block 16, but at the fifth one, then the light point shifts upward by one cell (Fig. 2). The appearance of a single signal at the third point leads to a shift to the left by one cell, and at the fourth exit - to a shift to the right by the cell. Thus, by controlling the sequence of a single signal at the outputs of the sweep b block, it is possible to shift the light point in one of four directions (down, up, right, left). For example, to shift down, it is necessary that a single signal appear sequentially on the first, second, third, fourth, and fifth outputs of block b, i.e. so that for each pulse from the oscillator 17 it shifts one bit to the left. This mode of operation of the scanner unit 16 is defined by code 00 at its information inputs 40 and 41 (FIG. 3). To shift the light point upward, it is necessary that the single signal successively appear on the first, fifth, fourth, third, second, then again first, etc., i.e. so that the right shift is cycled by one bit. This mode of operation of block 16 is given by code 01 at inputs 40 and 41. To shift the light point to the left, it is necessary that a single signal appear sequentially on the first, third, fifth, second and fourth outputs, then again on the first it.d. . those. for a two-digit shift to the left cyclically, which occurs with code 10 at inputs 40 and 41 of block 16. To shift the light point to the right, a single signal must appear sequentially at the outputs of the first, fourth, second, fifth and third, then again on the first, etc., i.e. so that a two-fold shift occurs cyclically - yes to the right, what happens with code 1 at inputs 40 and 41 of block 16.

Thus, by controlling the code at the inputs 40 and 41 of the scanner 16, it is possible to carry out a two-dimensional sweep of the light point along any path. The light emitter may not be directed to the upper cell of the matrix indicator 6, but to any other cell from which it is necessary to begin scanning the image. If it is necessary to start the scan not from the cell to which Light Emitter 10 is directed, but another one, before starting the scan, the light point in the required cell is driven along any trajectory, while applying a high voltage to control input 44. which the optical shutter is opaque. If during the sweep it is necessary that some parts of the beam path do not light up, then the control input 44 is supplied with a high voltage at those times when the light point moves along the path section that does not need to be lit. At other times, control potential 44 has a zero potential at which the optical shutter is transparent.

The number of electric buses of the matrix indicator in this device does not depend on the size of the matrix

Q 5 0 5

ABOUT

five

indicator. A significant reduction in the electrical pins of the matrix indicator indicates that the device is operating.

Claims (1)

Invention Formula A device for displaying information containing a matrix indicator, a pulse generator, keys, and a scanner, which is different in that, in order to simplify the device, it contains a light-emitting element optical shutter, and the scanner contains three multiplexers, five D-flip-flops and five And elements, the first inputs of which are connected to the outputs of D-flip-flops, the second inputs of the elements And are connected to the input of a radio-emitting element, with the installation input of the first D-flip-flop and the reset inputs of the remaining D-flip-flops and are managers m input device, the multiplexer outputs are connected to the information inputs of D-flip-flops, the first information inputs of the multiplexers are connected to the outputs of the first, second and third D-flip-flops, respectively, the second - with the outputs of the second, fourth and first D-flip-flops, respectively, the third - with the outputs of the fourth , the fifth and first D-flip-flops respectively, and the fourth with the outputs of the third, first, fifth D-flip-flops, respectively, the fifth information inputs of the first and second multiplexers are connected to the fourth outputs O and fifth D-flip-flops, respectively, the sixth information inputs of the first and second multiplexers are connected to the outputs of the fifth and third D-flip-flops, respectively, the seventh information inputs of the first and second multiplexers are connected to the outputs of the third and fifth D-triggers, respectively, eighth information inputs the first and second multiplexers are connected to the outputs of the second and fourth D-flip-flops, respectively, the outputs of the elements And are connected to the control inputs of the keys, the control inputs of the multiplexers are the information inputs of the device, the clock inputs of the D-flip-flops are connected to the output of the pulse generator, the matrix indicator contains five groups of light-emitting photo thyristors. Mr. I Pete Mr. W W h / jll. i liJ HU: ilU.UU.llJ .U.UUUUU -i.U-J Luulk LlJJ-U..l jEU-UUUiZiiUUl .i ± UUll Lh | piiiau..i U-Uau.i | Aimp.j LUaRU.H  , I2ZZIIZI2 A Luulk .l UUl sixteen