Introduction: Innovision’s New Full-Color Micro-LED Microdisplay Chip
Innovision has recently introduced a mass-production-ready monolithic full-color XGA Micro-LED microdisplay chip. Based on Innovision’s proprietary WLVSP™ (Wafer-Level Vertical Stacking Pixel) platform, the chip vertically integrates RGB compound materials with a silicon-based CMOS backplane. This latest full-color microdisplay chip, leveraging Innovision’s advanced VSP technology, represents a significant breakthrough in display uniformity and brightness.
Achieving Unmatched Brightness with VSP Technology
The new VSP monolithic full-color Micro-LED microdisplay chip delivers peak brightness exceeding 500,000 nits, positioning it as the brightest and highest-performing full-color Micro-LED microdisplay chip available today. Innovision has not only achieved exceptional technical performance at the chip level but is also dedicated to optimizing the chip’s system-level performance for applications where power consumption and heat dissipation are critical, such as in wearable devices.
By employing optical collimation to enhance light coupling efficiency, Innovision’s VSP series products can more than double the brightness in optical systems and waveguides compared to current solutions.
Overcoming Challenges in Full-Color Micro-LED Microdisplay Technology
Creating a full-color display on a single chip remains the ultimate challenge in Micro-LED microdisplay technology, requiring substantial investments from leading chip manufacturers worldwide. Traditional color solutions, such as prism-based and quantum dot-based methods, face significant limitations. Innovision’s VSP full-color microdisplay chip marks a pivotal development in the industry, accelerating the global commercialization of full-color Micro-LED microdisplays.
Path to Mass Production and Industry Collaboration
Innovision plans to begin mass production of its monolithic full-color microdisplay chip by 2025. The company is actively seeking partnerships with upstream and downstream collaborators to drive the large-scale adoption of Micro-LED microdisplay chips in various end-user applications.

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