Thin Film Materials and Devices for Resistive Temperature Sensing Applications
Abstract
Thin films of vanadium oxide (VOx) and hydrogenated amorphous silicon (a-Si:H) are the two dominant material systems used in resistive infrared radiation detectors (microbolometers) for sensing long wave infrared (LWIR) wavelengths in the 8-14 micrometers range. Typical thin films of VOx (x less than 2) currently used in the bolometer industry have a magnitude of temperature coefficient of resistance (TCR) between 2%/K - 3%/K. In contrast, thin films of hydrogenated germanium (SiGe:H) have |TCR| between 3%/K to 4%/K. Devices made from either of these materials have resulted in similar device performance with NETD approximately equal to 25 mK. The performance of the microbolometers is limited by the electronic noise, especially 1/f noise. Therefore, regardless of the choice of bolometer sensing material and read out circuitry, manufacturers are constantly striving to reduce 1/f noise while simultaneously increasing TCR to give better signal to noise ratios in their bolometers and ultimately, better image quality with more thermal information to the end user.
Document Details
- Document Type
- Technical Report
- Publication Date
- May 21, 2015
- Accession Number
- ADA625038
Entities
People
- Hitesh Basantani
Organizations
- Pennsylvania State University