Vertilas showcases InP VCSELs at CIOE 2024 in Shenzhen
- Vertilas GmbH presented its InP-based NIR VCSEL technology at CIOE 2024 in Shenzhen from September 11-13.
- The showcased products included the first 106 Gbps 1310 nm single-mode VCSEL technology and a 1.3 µm 2D VCSEL array for various applications.
- The event highlighted Vertilas's role in advancing VCSEL technology, emphasizing its potential across multiple industries.
Vertilas GmbH showcased its innovative InP-based NIR VCSEL technology at the China International Optoelectronic Exposition (CIOE) 2024, held in Shenzhen from September 11-13, 2024. The company presented a range of applications for its VCSELs, including optical communications, 3D sensing, and gas sensing. Notably, the booth featured the industry's first 106 Gbps 1310 nm single-mode VCSEL technology, which significantly reduces power consumption in optical engines and modules by up to 80% compared to traditional solutions. The event highlighted Vertilas's 1.3 µm 2D VCSEL array designed for 3D sensing applications, which offers high output power and efficiency. This technology enhances the performance of SWIR cameras while improving eye safety and minimizing sunlight distortion. Additionally, the company introduced VCSELs with wavelengths ranging from 1.55 µm to 2 µm, expanding potential applications in various sectors such as automotive, consumer electronics, biometrics, and mobile robotics. For gas sensing applications, Vertilas demonstrated NIR VCSELs capable of detecting a wide array of gases, including H2O, HF, NH3, CH4, CO, CO2, and HCl. This capability is crucial for industries that require precise gas detection and monitoring. The live demonstration of TrieEye's SWIR illumination solution, based on Vertilas's 1.3 µm 2D VCSEL arrays, further showcased the practical applications of their technology. Overall, Vertilas's participation at CIOE 2024 underscores its commitment to advancing VCSEL technology and its applications across multiple industries, positioning the company as a leader in the optoelectronic field.