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High-density small-pitch LED screen technology analysis!
Freitag, September 8th, 2023
In recent years, the characteristics of high-definition display, high refresh rate, seamless splicing, good heat dissipation system, convenient and flexible disassembly and assembly, energy saving and environmental protection of small-pitch LED display screens have been well known by the majority of industry users, but, going further, when it comes to small The specific process technology of pitch LED screens is rarely known to the general public, “only knowing one but not the other”. The lack of professional knowledge directly leads to the emergence of blind spots in purchasing.
From a technical point of view, the smaller the pixel pitch of a small-pitch display, the higher the requirements for the LED mounting, assembly, splicing process and structure. This article will analyze the various process technologies of small-pitch LED display screens, so that users can have a more thorough understanding of small-pitch LED products.
Packaging Technology:
Display screens with a density above P2 generally use 1515, 2020, 3528 lights, and the LED pin shape adopts J or L packaging. If the pin is welded sideways, the welding area will reflect light, and the ink color effect will be poor. It is necessary to add a mask to improve the contrast. If the density is further increased, the L or J package cannot meet the application requirements, and the QFN package must be used. The feature of this process is that there are no lateral welding pins, and there is no reflection in the welding area, which makes the color rendering effect very good. In addition, the all-black integrated design is used for compression molding, and the contrast ratio of the screen is increased by 50%, and the image quality of the display application is better than that of the previous display.
Printed circuit board process:
With the trend of high density, 4-layer and 6-layer boards are adopted, printed circuit boards will adopt micro-via and buried hole design, printed circuit pattern wires are fine, micro-holes are narrowed, and mechanical drilling used in processing Hole technology can no longer meet the requirements. The rapid development of laser drilling technology will meet the processing of micro holes.
Printing Technology:
Too much or too little amount of solder paste and printing offset directly affect the welding quality of high-density display lamps. The correct PCB pad design needs to be implemented in the design after communicating with the manufacturer. Whether the opening size of the stencil and the printing parameters are correct or not is directly related to the amount of solder paste printed. Generally, 2020RGB devices use an electropolished laser steel mesh with a thickness of 0.1-0.12mm, and devices below 1010RGB are recommended to use a steel mesh with a thickness of 1.0-0.8. Thickness, opening size increases proportionally to tin amount. The quality of high-density led panel screen outdoor soldering is closely related to solder paste printing, and the use of printing machines with functions such as thickness detection and SPC analysis will play an important role in reliability.
Mounting technology:
The slight deviation of the position of each RGB device of the high-density display will lead to uneven display of the screen, which will inevitably require higher precision of the placement equipment.
Welding process:
Excessive temperature rise in reflow soldering will lead to uneven wetting, which will inevitably lead to device offset during the process of wetting imbalance. Excessive wind circulation can also cause device displacement. Try to choose a reflow soldering machine with a temperature zone above 12, chain speed, temperature rise, circulating wind, etc. as strict control items, that is, to meet the welding reliability requirements, and to reduce or avoid device displacement, and try to control it within the required range. Generally, the range of 2% of the pixel pitch is used as the control value.
Box assembly:
The box body is spliced by different modules, and the flatness of the box body and the gap between the modules directly affect the overall effect of the box body after assembly. Aluminum plate processing boxes and cast aluminum boxes are widely used box types at present, and the flatness can reach within 10 wires. The splicing gap between modules is evaluated by the distance between the nearest pixels of the two modules. If the two pixels are too close to each other, they will be bright Lines, two pixels too far will result in dark lines. Before assembling, it is necessary to measure and calculate the seam of the module, and then select a metal sheet of relative thickness as a jig and insert it in advance for assembly.
Screen assembly:
The assembled cabinet needs to be assembled into a screen before it can display refined pictures and videos. However, the dimensional tolerance of the cabinet itself and the cumulative tolerance of assembly cannot be ignored for the assembly effect of high-density display screens. If the pixel pitch of the nearest device between the cabinets is too large or too small, dark lines and bright lines will be displayed. The problem of dark lines and bright lines is a problem that cannot be ignored in high-density display screens and needs to be solved urgently. Some companies make adjustments by pasting 3m adhesive tape and finely adjusting nuts on the cabinet to achieve the best results.
System card selection:
Bright and dark lines and uniformity and color difference of high-density display screens are the accumulated criticisms of LED device differences, IC current differences, circuit design layout differences, and assembly differences. Some system card companies can reduce bright and dark lines and brightness and chromaticity differences through software correction. all. The brightness and chromaticity correction system launched by Nova has been applied to various high-density display screens and achieved good display effects.