Main technical difficulties and solutions based on large-scale LED display systems-EEWORLD

Collect

1. Main technical difficulties

① There are tens of thousands of pixels on a large LED display. As the display area increases, the circuit structure becomes more complex.

② In order to ensure a certain display quality, the frame rate should be above 30 frames per second. For example, for a 512×252 pixel monochrome LED display), the data transmission volume per second is at least 480 KB. For color screens and occasions with high display quality requirements, the data transmission volume will increase by integer multiples.

③ When the LED screen is located outdoors, the communication between the upper and lower computers may be hundreds of meters or even thousands of meters, requiring fast and reliable communication.

2. Solution

In view of the first two technical difficulties mentioned above, some coping strategies should be adopted to use a single CPU system instead of a multi-machine system to control a large LED display system.

①Large-scale LED display screens are composed of universal display modules, which have good versatility and embeddability.

② Using 16-bit parallel bus data transmission method, to display the display module at the corresponding position, the column latch unit on the module can be accurately selected, so that the horizontally cascaded LED display modules can be regarded as a continuous storage unit.

③ Using the DMA controller inside the S3C44BOX to transmit and control data can save the CPU time of reading instructions and decoding when using instructions to transmit data, as well as the software overhead of counting, comparing, jumping, etc. when using instructions to transmit data. This allows data transmission to be completed in continuous read and write operations, improving the speed and efficiency of data transmission.

Keywords：LED Reference address：Main technical difficulties and solutions based on large-scale LED display systems

Previous article：How to choose the right LED driver for low voltage portable device backlight or flash applications
Next article：Choosing the right LED driver power solution for different power LED general lighting applications

Recommended ReadingLatest update time:2024-11-16 15:43

LED lighting circuit and system level optimization analysis

LED lighting: Basic circuit design can be completed in as little as one day Semiconductor manufacturers are also getting involved in the LED lighting business. The power circuit of LED requires a driver IC, and many semiconductor manufacturers have launched a variety of products. As manufacturers compete to

[Power Management]

LED lighting circuit and system level optimization analysis

If the five major technical difficulties of LED lamps are not overcome, MOS tubes will keep burning

　　1. Chip heating 　　This content is mainly for high-voltage driver chips with built-in power modulators. If the current consumed by the chip is 2mA, and a voltage of 300V is applied to the chip, the power consumption of the chip is 0.6W, which will of course cause the chip to heat up. The maximum current of the driver

[Power Management]

Analysis of the advantages, disadvantages and solutions of high-voltage LEDs

　　Since the term high-voltage LED came into being, it is undoubtedly a new type of LED with many advantages. Some people even think that it will make today's "low-voltage LED" fade out of the future LED general lighting market and "high-voltage LED" will dominate the future LED general lighting. Is this really the cas

[Power Management]

Analysis of the advantages, disadvantages and solutions of high-voltage LEDs

51 MCU review: 8*8 LED dot matrix

There are two types, one is low voltage for the columns and high voltage for the rows. We can connect each column to low voltage in turn, and they will light up in turn. Then use the voltage of the row to control the lighting. If the voltage of one row is low, the LED lights of that row will not light up. The second

[Microcontroller]

Design of a large LED screen control system based on MCU+FPGA

introduction If you take a look at the current market, you will find that most small and medium-sized LED display systems use traditional single-chip microcomputers as the main control chip. However, single-chip microcomputers with less internal resources and slower running speeds are difficult to meet the needs of la

[Embedded]

Design of a large LED screen control system based on MCU+FPGA

Mini&Micro-LED TechDays, giving you a glimpse of the innovation trend of the display industry

Mini&Micro-LED TechDays brings together entrepreneurs, R&D and market strategy professionals from LCD, LED and semiconductor industries around the world who are dedicated to researching Mini&Micro-LED technology. It is the largest technology event that provides the latest technology and product displays, technology

[Power Management]

Mini&Micro-LED TechDays, giving you a glimpse of the innovation trend of the display industry

LED lighting driver selection

1. 1 W to 8 W solution Low- power LED general lighting applications from 1 W to 8 W include G13, GU10, PAR16, PAR20, and recessed lights. The input voltage range for these applications is between 90 and 264 V AC, and the constant current output current includes 350 mA and 700 mA. The

[Power Management]

Design Optimization of High Brightness LED Driver

Among the various types of light sources, high-brightness LEDs (light-emitting diodes) are currently growing well and are beginning to replace other types of light sources such as incandescent lamps, halogen lamps, fluorescent lamps, HID xenon lamps, etc. In the past, LEDs were only suitable for instrument lig

[Power Management]

Design Optimization of High Brightness LED Driver

Popular Resources
Popular amplifiers