#China #Yantai #OHLE 3123 #Raytron Microelectronics #SWLP Technology

Raytron Microelectronics Introduces OHLE 3123: A Game Changer in Thermal Imaging

In an era where infrared thermal imaging technology is rapidly advancing, Raytron Microelectronics is making significant waves with the introduction of the world's first LWIR (Long-Wave Infrared) thermal sensor that employs Super Wafer-Level Packaging (SWLP) technology, aptly named the OHLE 3123. This revolutionary sensor is set to redefine the landscape of thermal imaging by breaking down technical and financial barriers, making advanced thermal imaging solutions accessible to a broader array of companies.

The Evolution of Thermal Imaging Technology

Thermal imaging has seen a steady decline in costs, enabling applications that were once considered niche to gain traction in mainstream markets. From automotive night vision systems to industrial temperature measurements, the potential of thermal imaging is being realized like never before. However, despite the downward trend in consumer-facing infrared products, the crucial upstream components that form the backbone of these technologies—particularly thermal imaging cores—have largely remained in the hands of a few manufacturers, owing to exorbitant research and development costs and specialized production requirements.

With the launch of the OHLE 3123, Raytron is poised to change that dynamic. By deploying its patented SWLP technology, the company aims to democratize access to thermal imaging capabilities, enabling more businesses to independently develop and manufacture thermal modules.

What is SWLP Technology?

At the heart of the OHLE 3123 lies the innovative SWLP, a dual-layer encapsulation system that significantly diminishes the need for clean room environments during production. This compatibility with SMT (Surface-Mount Technology) allows for rapid mass production, reducing manufacturing costs while ensuring durability against dust and maintaining high yield, crucial attributes for the mass uptake of low-cost infrared sensors.

The OHLE 3123 features a pixel pitch of just 12 µm, offering a resolution of 384 × 288 with an exceptional NETD (Noise Equivalent Temperature Difference) below 40 mK, all while consuming less than 65 mW of power. Its compact and lightweight design means it can easily integrate into various applications, from outdoor night vision and industrial temperature monitoring to security surveillance and automotive night vision systems.

A Launch at LASER World of PHOTONICS 2025

Raytron is set to debut the OHLE 3123 at the LASER World of PHOTONICS 2025, taking place from June 24 to 27 in Munich, Germany. Interested parties can visit booth #372 in Hall A2 to experience this groundbreaking thermal imaging technology first-hand. The event represents an opportunity for Raytron to showcase its commitment to enhancing its technological offerings and creating added value for clients across different sectors.

With a wealth of experience in infrared, microwave, and laser technologies, Raytron is geared towards advancing multispectral detection and developing sophisticated AI algorithms. Their aim is not just to provide thermal camera modules and infrared sensors but to partner with Original Equipment Manufacturers (OEMs) around the world.

Opportunities for Partnerships

For those interested in collaborating with Raytron, the company welcomes partnerships with OEMs and inquiries for bulk purchasing. For more information, potential partners are encouraged to reach out via email at [insert email]. Further insights into their offerings can be found on their official website at [insert website].

As Raytron Microelectronics strides towards expanding the thermal imaging market, the OHLE 3123 stands as a testament to what innovative technology can achieve. With increasing accessibility to advanced thermal imaging solutions, we are likely to witness explosive growth in this industry as it becomes more integrated into everyday applications.