MICRO-HYBRID is one of the world technology leaders in the field of electronic microsystems. Through extensive research and development investments, a high degree of know-how and a broad network of cooperations, we create components and sensors with the highest precision. Through the further development of technologies and materials as well as technical innovations, we achieve individual solutions with significant added value for our customers. Our extensive application experience in a wide range of industries enables us to offer a unique range of technologies to solve your development tasks. This is why technology companies worldwide choose us as their partner for solving their measuring tasks. Micro-Hybrid is a company of the Micro-Epsilon Group.
Micro-Hybrid Electronic GmbH is one of the world market leaders in the development and production of sophisticated customer-specific electronic solutions.We have been developing and producing innovative microelectronics and infrared sensors for over 25 years. Our customers benefit from unsurpassed solutions for control tasks in difficult environmental conditions. Our portfolio ranges from ceramic substrates and housings for miniaturized electronic modules for sensor control to infrared components and sensors for temperature measurement and gas analysis as well as inertial measurements in railway and rail applications.
This IR CO2 sensor has been specially optimized for the measurement of 5 Vol-% CO2 in cell incubators to manage ideal cell and tissue growth.
The sensor can be placed directly in the incubation chamber to measure the exact cell experienced environment. It determines the CO2 concentration based on its IR absorption.
• Monitoring and measuring
• CO2 concentration in incubators for cell and tissue growth,
• to guarantee regulatory compliance,
• reliable test and process results
Inline NDIR CH4 sensor for measuring combustible and explosive gases such as methane or propane. Designed for various gas measurement applications like environmental monitoring, process control or leak detection, even for hand held gas detection systems.
The sensor can easily be integrated into OEM systems. IR dual beam technology and MEMS based components provide long term stability due to low signal drift.
IR radiation source for NDIR gas analysis and other infrared measurement applications. The high-performance membrane of the MEMS IR emitter is made of nanoamorphous carbon and reaches membrane temperatures up to 850° C. It enables a high and long-term stable radiation performance. The combination of filling gases and optical filters optimizes the emission in the wavelength range from 2.5 to 5.5 µm. The packaging version reflector is suitable for measuring distances from 2 cm.
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