Elbit Imaging's Raytron Launches Innovative LWIR Sensor Revolutionizing Thermal Imaging Technology
- Raytron Microelectronics launched the OHLE 3123, an advanced uncooled LWIR sensor using Super Wafer-Level Packaging technology.
- The sensor offers 384 × 288 resolution, low power consumption, and is suitable for various thermal imaging applications.
- Raytron aims to expand market potential by enabling businesses to independently produce thermal imaging modules.
Revolutionizing Thermal Imaging: Raytron Microelectronics Unveils Cutting-Edge LWIR Sensor
Raytron Microelectronics makes a significant leap in the infrared thermal imaging sector with the introduction of the OHLE 3123, an uncooled LWIR sensor that incorporates the groundbreaking Super Wafer-Level Packaging (SWLP) technology. This innovation not only enhances the sensor's manufacturing efficiency but also substantially reduces production costs by eliminating the need for cleanroom environments. The seamless integration with Surface-Mount Technology (SMT²) allows for rapid mass production, positioning Raytron as a formidable player in the competitive landscape of thermal imaging technology.
The OHLE 3123 features impressive specifications, including a resolution of 384 × 288 pixels and a 12 μm pixel pitch. With a noise equivalent temperature difference (NETD) of less than 40 mK and a power consumption of under 65 mW, this sensor is designed to meet the diverse needs of various applications ranging from automotive night vision to industrial temperature monitoring. Its compact and lightweight design, combined with high-quality imaging capabilities, makes it a desirable component for manufacturers aiming to develop advanced thermal imaging modules.
Raytron’s commitment to innovation extends beyond the OHLE 3123. The company is focused on enabling more businesses to independently develop and produce thermal imaging core modules, thereby expanding the market potential for these technologies. The launch of the OHLE 3123 aligns with the growing demand for infrared thermal imaging products, which is driven by declining costs and an increasing range of applications. Raytron's expertise in multi-spectral sensing and AI algorithm development positions it uniquely to deliver OEM thermal camera core modules and infrared sensors on a global scale.
In addition to the sensor launch, Raytron plans to showcase the OHLE 3123 at the LASER World of PHOTONICS 2025 event in Munich, Germany, from June 24 to 27. Attendees will have the opportunity to request samples at Hall A2, booth #372, marking a key moment for the company to demonstrate its technological advancements.
Raytron encourages interested parties seeking OEM partnerships or bulk orders to reach out through their website or via email. With the introduction of the OHLE 3123, Raytron Microelectronics is set to redefine the landscape of thermal imaging technology, paving the way for new opportunities and applications in an evolving industry.
