WO2015163791A1 - Device for creating and displaying alpha-numeric and graphical information - Google Patents

Abstract

The invention relates to programmable information display devices. The technical result consists in increasing the volume of information conveyed. A device for forming and displaying alpha-numeric and graphical information contains a power source, a setup unit and light-emitting elements. The setup unit contains a micro-controller or a microprocessor, information input buttons, regulating resistors, and current-amplifying transistors. The light-emitting elements are in the form of an array, the light stream of which is formed within the range of infrared and ultraviolet wavelengths. An image is formed by constantly illuminating the light-emitting elements on the array or by successively switching on and off the light-emitting elements to create the effect of a "news ticker".

Description

 Device for creating and displaying alphanumeric and graphic information

Technical field

 The invention relates to the field of display technology, in particular to programmable information display devices for transmitting informational, advertising and other messages in the form of alphanumeric and graphic information.

State of the art

 A device is known for forming a visual perception of information by means of LEDs, which uses the effect of “afterimage” perceived by the human eye (US 6069595 A, 05/30/2000).

 The disadvantage of this device is the lack of constructive optimization of the elements of the video field, which does not promise to increase the resolution of the displayed information, and, therefore, the required quality of information perception is not provided. In addition, the LEDs used display information in only one color.

This disadvantage is eliminated in another known device in which the light flux control sources are placed more rationally, namely, the design and arrangement of light clusters in the information columns are optimized, the necessary dimensions of the information columns and the distance between them when forming the image video field are determined (RU 2288511 C 1, 27.11 .2006). Due to the ability to image information with the adjustment of its resolution, the enhanced quality of this device is ensured. This device is adopted as the closest analogue (prototype). The disadvantage of this device is the decrease in the efficiency of its use for displaying alphanumeric and graphic information due to the narrow range of wavelengths used to display information, since the light flux is formed only in the light spectrum visible to the human eye, which limits the amount of information transmitted.

Disclosure of invention

 The technical result of the claimed device is to increase the amount of information transmitted by expanding the range of its display by creating a device that provides the formation and display of alphanumeric and graphic information in the wavelength range not directly perceived by the human eye (the formation of light flux, for example, in infrared mode or ultraviolet wavelength range in the first case of 760 nm or more, in the second - 380 nm or less), as well as providing or reading inform tion in a confined space, or its broadcast to a mass audience.

The specified technical result is achieved by the fact that the device for generating and displaying alphanumeric and graphic information in the invisible wavelength range contains a power source, a driver unit and light-emitting elements, while the power source in the form of a constant voltage is connected to the driver unit containing a microcontroller or microprocessor , information input buttons, adjustment resistors and current amplifying transistors through which the driver unit is connected to light-emitting elements made in the form of a matrix, the luminous flux of which is generated in the regime of infrared or ultraviolet wavelengths in the invisible range, while the microcontroller or microprocessor is equipped with memory devices that allow you to create the desired image through the information input buttons by turning on / off the mode for each light-emitting element as in the form of continuous illumination of the formed image on the matrix of light-emitting elements, and their sequential for prison / off, creating the effect of "marquee".

 In addition, the master unit of the device is connected to an external device for storing and displaying information about the image in the form of a personal electronic computer (PC).

 Moreover, the connection of the master unit with an external device for storing and processing information about the image is wired or wireless.

 Wireless communication of the master unit with an external device for storing and processing image information is carried out via the infrared channel.

 In addition, the wireless connection of the master unit with an external device for storing and processing image information is carried out over the air.

 The device can also be integrated into a laptop’s circuitry, while the matrix of light-emitting elements in the form of a display is mounted in the laptop cover from the side opposite to the standard location of the laptop display.

The device can also be integrated into the iPada circuitry, moreover, the matrix of light elements is built into the iPada housing from the side opposite to the iPada user.

 Brief Description of the Drawing

 The matrix of light elements is a display based on LEDs or is a display based on liquid crystals illuminated by LEDs in the infrared or ultraviolet range of wavelengths.

 A device for creating and displaying alphanumeric and graphic information is illustrated by drawings.

 In FIG. 1 is a general view of the device in which all structural elements are compactly placed in a single housing.

 In FIG. 2 device built into the laptop - side view.

Options for implementing the proposal

 A shows a possible form of a matrix of light elements based on LEDs or liquid crystals in the form of a display mounted in a laptop - front view.

 In one of the preferred options (Fig. 1), the device consists of a housing 1, in which a power supply 2 is mounted, which is a constant voltage source of 3 ... 5 V, the unit 3 and a set of light-emitting elements made in the form of a matrix in M rows on K columns of LEDs 4.

In this case, the power supply 2 is electrically connected to the driver unit 3, containing the microcontroller 5, information input buttons 6, the adjustment resistors 7 and the current amplifying transistors 8, through which the driver unit 3 is connected to the matrix of light-emitting elements 4. Master block 3 - (General subject: set unit) is a functional block of an automatic control device that fixes the requirements corresponding to a given control algorithm and the values of the reference quantities.

 The master unit 3, and the matrix of light-emitting elements 4, forming the light flux in the infrared mode in the wavelength range of 760 nm or more or ultraviolet radiation in the wavelength range of 380 nm or less, are fastened to the housing 1 by means of four brackets passing through holes made in the bottom of the housing 1 and the holes along the edges of the board of the driver unit 3. The position of the board of the driver unit 3 relative to the housing 1 and the matrix of light-emitting elements 4 is fixed by bushings. Microcontroller 5 serves to track external input signals and generate control output signals depending on a predetermined algorithm, rows M of the light emitting matrix are connected to one of its ports, and columns K to its other port can be made on the basis of inexpensive Microchip microcontrollers (for example, picl2f629) or ATMEL (e.g. ATtinyl3). Moreover, it is equipped with read-only memory (ROM) (not shown in the figures) and random access memory (RAM) (not shown in the figures), which allow the desired image to be generated by the information input buttons 6 by the on / off mode for each light-emitting element as in the form continuous highlighting of the generated image on the matrix of light-emitting elements, and on their sequential on / off, creating the effect of a "running line".

In the bottom of the housing 1 holes are made through which the information input buttons 6 of the driving unit 3, as well as the on / off switch 9 of the power source 2. In the case of compact arrangement of all structural elements in a single housing 1, the device is equipped with a cover 10 made of translucent material.

 The device can be integrated into the electrical circuit of a laptop 1 1 (FIG. 2, view A) or any other typical mobile device containing a microprocessor, while the matrix of light-emitting elements 4 will be mounted in the cover of the laptop 12 and fixed using the frame 13 from the side opposite to the standard the location of the display 14 of the laptop 11. The display 14 provides the laptop 11 for the standard display of digital, alphanumeric or graphic information electronically. In this case, the display 14 of the laptop 1 1 is fixed with the frame 15. To connect the matrix of light-emitting elements 4 to the electrical circuit of the laptop 11, a switch (not shown in the figures) of the sequence of the operating mode of the matrix of light-emitting elements 4 and display 14. A from the motherboard two parallel cables are output for connecting the matrix of light emitting elements 4 and the display 14 via connectors. The device can also be located on a billboard, the operation of which is ensured by a control signal from a personal computer.

In the case when the device is integrated into the iPada circuitry, the matrix of light emitting elements 4 is located in the iPada case or case, so that information can be read from the side opposite to the iPada user. At the location the matrix of light-emitting elements 4 in the case, the signal from the iPada motherboard is transmitted using a connector.

 The emitting light elements 4 are either LEDs or are a panel based on liquid crystals illuminated by LEDs of the infrared or ultraviolet wavelength ranges.

 A device for generating and displaying in an invisible wavelength range of alphanumeric and graphic information preferably works as follows.

 The on / off switch 9 of the power supply 2, which is a constant voltage source, is turned on and the board of the driver unit 3 is mounted, into which the microcontroller 5 is mounted, the input of which through the adjustment resistors 7, amplifying the current transistors 8 and information input buttons 6, supply energizing and control signals . The microcontroller 5, forms by means of the information input buttons 6 by means of ROM and RAM the desired image by setting the on / off mode for each light-emitting element, for example, an LED in accordance with the desired image. And command signals are given both for constant illumination of the generated image on the matrix of light emitting elements 4, and for sequential switching on / off of subsequent columns K of the matrix of light emitting elements 4 and switching on / off of previous columns, thereby creating a creeping line effect and ensuring repeatability and speed display image output to the matrix of light emitting elements 4.

Control signals from part of the output contacts microcontroller 5, by the number of columns corresponding to the number of columns K of the matrix of light-emitting elements 4, through resistors 7 and current-amplifying transistors 8 are fed to a common bus (not shown in the figures) parallel connecting the anodes of light-emitting elements, for example, LEDs of the corresponding column. The rest of the output contacts of the microcontroller 5 through the adjustment resistors 7 is connected to the buses, in parallel connecting the cathodes of the light-emitting elements (LEDs) of the corresponding M-lines (not shown in the figure). Formed using the claimed structural elements of the device and its operation, the light flux in the infrared mode in the wavelength range of 760 nm or more or ultraviolet radiation in the wavelength range of 380 nm or less allows you to increase the amount of transmitted and displayed information.

 In the case when the device is embedded in a laptop or other mobile device, the formation and display of information is carried out similarly to the described preferred option.

 Thus, through the use of the claimed device, which provides the ability to generate and display alphanumeric and graphical information with its help, in the invisible wavelength range, the amount of transmitted information in the spectrum of invisible radiation is significantly increased and information is read in a limited space, and its transmission to mass target audience.

Claims

Claim  1. A device for generating and displaying alphanumeric and graphic information containing a power source, a driver unit and light emitting elements, characterized in that the power source in the form of a constant voltage is connected to a driver unit containing a microcontroller or microprocessor, information input buttons and adjustment resistors and current-amplifying transistors through which the driver unit is connected to light-emitting elements made in the form of a matrix, the light flux of which is formed in infrared mode x or ultraviolet wavelengths, while the microcontroller or microprocessor is equipped with memory devices that allow you to create the desired image using the information input buttons by turning on / off for each light-emitting element, both in the form of constant illumination of the generated image on the matrix of light-emitting elements, and for their sequential inclusion on / off, creating a creeping line effect.  2. The device according to claim 1, characterized in that the driver unit is connected to an external device for storing and displaying information about the image in the form of a personal electronic computer (PC). 3. The device according to claim 1, characterized in that the communication of the driver unit with an external device for storing and processing image information is wired or wireless. 4. The device according to claim 1, characterized in that the wireless communication of the driver unit with an external device for storing and processing image information is carried out via the infrared channel. 5. The device according to claim 1, characterized in that the wireless communication of the driver unit with an external device for storing and processing information about the image is carried out over the air.  6. The device according to claim 1 to 5, characterized in that it is integrated into the laptop circuitry, while the matrix of light-emitting elements in the form of a display is mounted in the laptop cover from the side opposite to the standard location of the laptop display.  7. The device according to claim 1 to 5, characterized in that it is integrated into the iPada circuitry, the matrix of light emitting elements being integrated into the iPada housing from the side opposite to the iPada user.  8. The device according to claim 1 to 5, characterized in that the matrix of light-emitting elements is a display based on LEDs.  9. The device according to claim 1 to 5, characterized in that the matrix of light-emitting elements is a liquid crystal display with backlighting by infrared LEDs in the wavelength range of 760 nm or more or in the ultraviolet wavelength range in the wavelength range of 380 nm or less.