New Wireless Sensors for Diagnostics Under Harsh Environments

Award Information
Agency: National Aeronautics and Space Administration
Branch: N/A
Contract: NNX12CA90C
Agency Tracking Number: 104674
Amount: $749,994.00
Phase: Phase II
Program: SBIR
Awards Year: 2012
Solicitation Year: 2010
Solicitation Topic Code: A1.02
Solicitation Number: N/A
Small Business Information
1429 Chaffee Drive, Suite 1, Titusville, FL, 32780-7929
DUNS: 027510537
HUBZone Owned: N
Woman Owned: N
Socially and Economically Disadvantaged: N
Principal Investigator
 William Hanson
 Principal Investigator
 (717) 385-4151
 wph@krystalengineering.com
Business Contact
 Mark Rauchfuss
Title: President/CEO KE and HM
Phone: (480) 239-7914
Email: msr@hoffmanmaterials.com
Research Institution
 Stub
Abstract
High-temperature passive wireless surface acoustic wave (SAW) sensors are highly desirable for improving safety and efficiency in aviation and space vehicles. This proposal addresses the growth and processing of a new class of high temperature material into acceptable SAW wafers, the production of SAW temperature sensors, and the integration of the SAW and thin film antenna (SAWtenna). The project will provide a new, unique material grown in the US (no other US manufacturer is known, produce high temperature, radiation hard, solid state, passive wireless sensors for use in harsh environments. In this project, we will: 1) Develop a crystal material for SAW wafers suitable for high-temperature SAW fabrication. 2) Design orthogonally frequency coded OFC (up to 1000 degrees C) SAW temperature sensors . 3) Integrate the SAW and antenna onto the wafer such that there are no external connections. In Phase I the capability for the production of LGT crystals was established and 2in diameter boules were grown. The crystals were processed into SAW wafers and confirmed to be of excellent quality, as evidenced from SAW parameters extraction. A thin film process using simple metallization demonstrated extended device operation at 700 oC and short-term operation at 800 oC. Phase I demonstrated the feasibility of high-temperature SAW devices, and a clear path in the Phase II effort for 1000 oC device operation. During Phase II, we will explore variations of the metallization and encapsulation, which will extend device life. SAW OFC high temperature sensors, operating in the 915 ISM band, will operate simultaneously over temperature and will be delivered to NASA. Phase II will develop a fully integrated sensor antenna and upscale the crystal growth for 3-4in SAW wafers. Probability for Phase III commercialization of both the wireless SAW sensors and SAW wafers is very high.

* Information listed above is at the time of submission. *

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