SBIR Phase I: Vibration Harvesting for High-Temperature Wireless Sensors

Award Information
Agency:
National Science Foundation
Branch
n/a
Amount:
$149,925.00
Award Year:
2011
Program:
SBIR
Phase:
Phase I
Contract:
1112966
Award Id:
n/a
Agency Tracking Number:
1112966
Solicitation Year:
2010
Solicitation Topic Code:
NM
Solicitation Number:
n/a
Small Business Information
500 Bishop Street, Suite E-3, Atlanta, GA, 30318-4306
Hubzone Owned:
N
Minority Owned:
N
Woman Owned:
N
Duns:
796514763
Principal Investigator:
BrianEnglish
(404) 969-6367
brian.english@engeniusmicro.com
Business Contact:
BrianEnglish
(404) 969-6367
brian.english@engeniusmicro.com
Research Institute:
Stub




Abstract
This Small Business Innovation Research Phase I project investigates the use of environmental vibrations to increase the interrogation distance between wireless sensors and their readers. The utilization of free vibrations, themselves, for increased performance is a paradigm shift away from existing approaches that use vibrations purely for energy harvesting. Using vibrations to avoid material limitations of semiconductors has broad applicability to sensing, control, data storage, and communications. Currently, wireless sensors achieve usable interrogation ranges through the use of electronics and/or batteries, but this approach adversely impacts operating temperature, cost, and reliability of the sensor node. To address these problems, this project investigates continuous and cycled vibrations to increase interrogation distance in passive wireless sensors. This demonstration will be simulated and then experimentally validated using room-temperature devices. Next, the vibration harvester and sensor will be designed for high-temperature operation. Then, an affordable fabrication process will be developed using electronic packaging techniques. Finally, a prototype sensor will be fabricated to harvests ambient vibrations and operate at temperatures in excess of 300°C. If successful, this will identify usable sensor materials and vibration parameters for high-temperature operation at a broad range of wireless interrogation frequencies. The broader impact/commercial potential of this project includes fundamental advances in vibration utilization and wireless sensors and applied advances in high-temperature wireless sensing for condition-based maintenance and structural health monitoring. The broader impact to science and education include a novel advance in existing sensor technology, as well as funding for continued research and education in RF sensors,RF power transfer, and high-temperature fabrication. This project includes fundamental analysis and experimentation that will increase scientific and technological understanding of mixed-signal sources for communications and mechanical frequency behavior at high-temperatures. The broader societal impact and commercial potential of this project will be the ability to remotely monitor high-temperature machinery and processes to increase lifetime and efficiency while reducing operating costs. The technology areas of interest for this project include wireless sensors and condition-based maintenance. The wireless sensor market is expected to grow 50-fold between 2008 and 2012, even with existing temperature limitations, because of 20-80% cost savings over traditional monitoring techniques. This project demonstrates a path to increase this growth by enabling monitoring in a wide range of high-temperature industrial and aerospace applications, such as injection molding, gas turbines, oil drilling, and composite manufacturing, among others.

* information listed above is at the time of submission.

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