JBD Sets New Benchmark in MicroLED Display Technology with Dramatic Pixel Improvement
SHANGHAI, May 28, 2025 – JBD, a pioneer in MicroLED micro-display technology, has announced a significant breakthrough in the industry by reducing defective pixels in its micro-displays from ≤100 to just ≤3 per panel. This advancement not only meets the quality-control standards set by mature technologies like LCD but also establishes a new benchmark for defective pixel metrics in the MicroLED sector.
Historically, the prevalence of defective pixels has hindered the adoption of consumer-grade augmented reality (AR) devices. JBD’s innovative research has transformed this landscape, yielding a substantial increase in the number of flawless panels. Additionally, the company has addressed the challenge of dark pixels—previously as high as 0.4%—now reduced to a mere 0.03%. This was achieved through robust upgrades and JBD’s proprietary Demura pixel-level luminance compensation, enhancing pixel-brightness uniformity.
The impact of dead and dark pixels on display quality is significant, as they create distracting visual artifacts that degrade user experience. By significantly mitigating these issues, JBD is poised to elevate visual quality for AR near-eye displays.
JBD’s advancements are attributed to a comprehensive approach encompassing technological refinement, process optimization, and rigorous quality control at every manufacturing stage. With increased accuracy from advanced tools and meticulous inspection processes, JBD ensures that its production meets the highest industry standards.
As demand for lightweight AR glasses rises, especially with the integration of AI technologies, JBD’s MicroLED displays are becoming the go-to solution. JBD is dedicated to maintaining its leadership position by investing further in R&D and propelling the MicroLED display industry forward.
For more information on JBD’s cutting-edge technology, visit www.jb-display.com or follow them on LinkedIn and Twitter.
Note: The image is for illustrative purposes only and is not the original image associated with the presented article. Due to copyright reasons, we are unable to use the original images. However, you can still enjoy the accurate and up-to-date content and information provided.
