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Inexpensive Low Noise Fast Switching DC High Voltage Power Supply

Award Information
Agency: Department of Energy
Branch: N/A
Contract: DE-SC0021772
Agency Tracking Number: 0000268040
Amount: $995,092.00
Phase: Phase II
Program: SBIR
Solicitation Topic Code: C52-02b
Solicitation Number: N/A
Timeline
Solicitation Year: 2022
Award Year: 2022
Award Start Date (Proposal Award Date): 2022-08-22
Award End Date (Contract End Date): 2024-08-21
Small Business Information
2900 S MAIN ST
SALT LAKE CITY, UT 84115-3516
United States
DUNS: 013017947
HUBZone Owned: Yes
Woman Owned: Yes
Socially and Economically Disadvantaged: No
Principal Investigator
 Larry Sadwick
 (801) 975-7399
 sadwick@innosystech.com
Business Contact
 Larry Sadwick
Phone: (801) 975-7399
Email: sadwick@innosystech.com
Research Institution
N/A
Abstract

There is a need for glass to metal fritting including for neutron generator applications, however, there is a shortfall in commercial capability for specialized detector fabrication for some nonproliferation needs, such as alpha detection in associated particle neutron generators. For more than a decade, the fabrication process, from creating the assembly to installation had an unacceptable chance of failure. There is a need including Oak Ridge National Lab (ORNL) has a need for glass-metal fritted fiber-optic faceplate assemblies for use with associated particle imaging (API) D-T neutron generators. Solving the glass-metal seal challenge in the above context is part of a larger effort to improve the state-of-the-art in associated particle imaging (API) D-T neutron generators. There is a strong preference to install fiber-optic faceplate assemblies over simpler monolithic glass viewports. Based on InnoSys’ current business of making high performance vacuum electronic devices (VEDs), circuits, and electronics including glass-metal fritted fabrication, assembly and manufacturing, we propose to develop, implement and commercialize a family of highly reliable, robust fiber optic glass to metal seals that can be reproducibly manufactured as vacuum barrier fiber optic coupling to at-atmosphere optical detector instrumentation. To address this problem and opportunity, the approach to be used in this DOE SBIR relies on the use of InnoSys’ core technology which includes glass to metal seals including frit seals of glass to metal that has been developed and matured into products and, as a result, InnoSys has all of the requisite, theoretical knowledge, simulation experience for glass to metal fabrication and sealing and related technical knowledge and capabilities to develop methodologies and approaches supported by fundamental physics and practical engineering to address this SBIR topic on glass to metal fritted fiber optic assemblies for applications specifically for alpha particle detection in neutron generators. Successful design, research, development, simulation, characterization and testing of Proof-of-Feasibility fiber-optic glass-to-metal prototypes that can be reproducibly fabricated as leak-free vacuum barrier fiber optic couplings to at-atmosphere optical detector instrumentation for neutron generator applications. Provided a report summarizing results obtained demonstrating Proof-of-Feasibility of technique/approach and a Phase II plan and roadmap to successful commercialization. Develop successful Phase I Proof-of-Feasibility prototypes into products suitable for neutron generator applications. Optimize performance and reliability. Perform detailed simulations and measurements including temperature profile and thermal stresses occurring during fabrication. In addition to supporting the objective of the Office of Proliferation Detection (PD) within Defense Nuclear Nonproliferation Research and Development (DNN R&D) to reduce the reliance on high-activity commercial and industrial radioactive sources, there are a number of technical, economic, social, and other benefits to the public including fundamental advances in science, higher efficiency/performance and greater national security and also industrial, medical, defense and scientific, industrial heating, radiotherapy, radar, cargo scanning, process heating, imaging systems and integrated gamma ray analysis tools, neutron radiography and non-destructive inspection, plasma and heating applications, particle accelerators, nuclear physics and high energy physics. The general public will especially benefit from increased and enhanced national security capabilities and protection.

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

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