RU2001128663A - FULL-COLOR LED DISPLAY SYSTEM - Google Patents

Claims (6)

1. A full-color LED display system, characterized by the following features (11) to (15), according to which (11) said system is configured by a screen module to display a multi-color image on a screen on which a plurality of first-color LEDs, second-color LEDs and LEDs of the third color are arranged in a predetermined order, and the data transmission module, which is connected to the screen module through the data transmission means, and which generates a control signal and image data The data is a combination of gradation data for each of the colors of each of the pixels on the screen, (12) the first color gradation control circuits, the second color gradation control circuits and the third color gradation control circuits for each pixel on the screen are installed on the screen module for pulsed inclusion of light-emitting diodes; shift data transfer registers for outputting gradation data to respective first color gradation control circuits, second color gradation control circuits, third color gradation control circuits, and one or a plurality of data distribution circuits for distributing gradation data provided from the data transmission module to the shift registers data transfer, while the gradation control scheme of the first color, the gradation control scheme of the second color, the gradation control scheme of the third color contain: n-bit count snip for counting high-speed pulse train output from the data transmission unit; a register for fixing gradation data issued from the shift register of data transfer, a digital comparator for comparing the value of the n-bit count value from the n-bit counter and the gradation data recorded in the register, and a direct current exciter for switching the current flow to the LED on and off in accordance with the binary output signal of the digital comparator, (13) the data transmission module comprises: a frame memory for temporarily storing image data intended for display by the screen module, means for reading image data from the frame memory and sequentially transmitting image data to the screen module in a predetermined pixel order, means for generating high-speed pulse sequences for the first color, means for generating high-speed pulse sequences for the second color, and means for generating high-speed pulse sequences for the third color to generate high-speed sequences impulses intended for issuance in soo the corresponding first color gradation control circuit, the second color gradation control circuit and the third color gradation control circuit, and means for transmitting to the screen module the corresponding high speed pulse sequences for the corresponding first color, second color and third color, (14) in the screen module, gradation data for of each of the colors of each of their pixels, sequentially output from the data transmission module, respectively, are entered into the register in the gradation control scheme for the corresponding color and in the corresponding pixel, through the shift data transfer register and the data distribution circuit, and the high-speed pulse sequences for the first color, the high-speed pulse sequences for the second color, and the high-speed pulse sequences for the third color, issued from the data transmission module, respectively, are supplied as an input to the counting signal an n-bit counter in the gradation control scheme for the corresponding color, (15) means for generating high-speed sequences and pulses for the first color, second color and third color in the data transmission module, respectively generated at a constant period high-speed pulse trains in an amount of (2 ⁿ⁾ or around that number, wherein the pulse intervals vary in time respectively changing the characteristic of which is mounted, and comprise shape memory a signal for storing digital data in which pulse sequences are expressed as a static structure of a binary waveform, and means for reading data from a memory d I periodic formation at a constant period of high-speed pulse trains by referring to the memory for reading the waveform at a predetermined speed and in a predetermined order, and outputting serial digital data signal binary form structure. 2. The full-color LED display system according to claim 1, characterized in that the means for generating high-speed pulse sequences for the first color, the means for generating high-speed pulse sequences for the second color, and the means for generating high-speed pulse sequences for the third color are replaced by one system means for generating high-speed pulse sequences, which is shared by processing systems for the first color, second color and three rd color, and a data transmission unit transmits high-speed pulse sequence means one system to the display unit. 3. A full-color LED display system, characterized by the following features (21) - (26), according to which (21) said system is configured by a screen module to display a multicolor image on a screen on which a plurality of first-color LEDs, second-color LEDs and LEDs of the third color are arranged in a predetermined order, and the data transmission module, which is connected to the screen module through the data transmission means, and which generates a control signal and image data The data is a combination of gradation data for each of the colors of each of the pixels on the screen, (22) the following are installed on the screen module: one or a plurality of color selection schemes for selecting LEDs of the same color from a set of LEDs of the first color, LEDs of the second color, and LEDs the third color, forming the same pixel on the screen, gradation control circuits designed respectively for each set of first-color LEDs, second-color LEDs and third-color LEDs the ones forming the same pixel on the screen for pulsed switching on of LEDs with the color selected by the color selection scheme, shift data transfer registers for outputting gradation data to gradation control circuits, and one or a plurality of data distribution circuits for distributing gradation data issued from the data transfer module to the shift data transfer registers, the gradation control circuit contains: an n-bit counter for counting high-speed pulse sequences issued from the transfer module register, for recording gradation data issued from the shift register of data transfer, a digital comparator for comparing the value of the n-bit count value from the n-bit counter and the gradation data recorded in the register, and a direct current exciter for switching the current flow on and off LED in accordance with the binary output signal of the digital comparator, while the first color LEDs, second color LEDs and third color LEDs of the same pixel are connected in parallel to the exciter direct current through the selection circuit, (23) the data transmission module contains: a frame memory for temporarily storing image data intended for display by the screen module, means for reading in a predetermined order gradation data of the first color, gradation data of the second color and gradation data of the third color in the composition image data from frame memory and sequentially transmitting image data in a predetermined pixel order to the screen module, high-speed sequence generating means pulses providing generation of high-speed pulse sequences intended for output to the gradation control circuit, and means for transmitting high-speed pulse sequences to the screen module, (24) in the screen module, gradation data for each of the colors of each pixel output from the data transmission module is input to the register in the gradation control scheme for the corresponding pixel through the shift data transfer register and the data distribution scheme, and high-speed follower the pulse numbers issued from the data transmission module are supplied as an input signal to the n-bit counter in the gradation control circuit, (25) the screen module contains means for controlling the color selection circuit synchronously with the image data output from the data transmission module and and driving the LEDs of the first color in accordance with the gradation data of the first color in the period of excitation of the first color, turning on and driving the LEDs of the second color in accordance with the gradation data of the second color in the period of excitation waiting for the second color and turning on and driving the third color LEDs in accordance with the third color gradation data in the third color driving period, the time intervals of the first color driving period, the second color driving period and the third color driving period being set so that they have a short duration of to such an extent that the human organs of vision do not provide a resolution for the inclusion of three colors with a time difference, (26) a means of generating high-speed sequences and pulses is a means for generating in the prescribed manner with a constant period of high-speed pulse sequences in the amount of (2 ⁿ ) or about this number, moreover, the pulse intervals vary in time according to a changing characteristic set separately for each color, and to repeat this in the corresponding excitation period the first color, the excitation period of the second color and the excitation period of the third color, and contains a waveform memory for storing digital data, in which pulse sequences are expressed as a static structure of a binary waveform, and means for reading data from the memory for periodically generating a high-speed pulse sequence by periodically accessing the waveform for reading to the memory at a predetermined speed and in a predetermined order, and issuing sequentially digital data structures of the binary waveform. 4. The full-color LED display system according to any one of claims 1 to 3, characterized in that the structure of the means for generating high-speed pulse sequences in the data transmission module is replaced by means of a functional arithmetic operation designed to periodically generate a constant period of high-speed pulse sequences by performing at high speed functional arithmetic operation according to the program, in which the time until the pulse Pi1 is issued sequentially After issuing the pulse Pi is expressed as a function of i. 5. The full-color LED display system according to claim 4, characterized in that the data transmission module comprises means for changing the characteristics, providing a change in the changing characteristics of high-speed pulse sequences by changing the function programmed for the means of functional arithmetic operations. 6. The full-color LED display system according to claim 1 or 2, characterized in that for a group of LEDs of the same color in a plurality of pixels grouped side by side on the screen, a group of gradation control circuits for the corresponding LEDs are integrated into one integrated circuit, and in the group gradation control schemes one n-bit counter is shared by the corresponding gradation control schemes.