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Computer-Aided Design and Optimization of High Performance Vacuum Electronic Devices
Navy SBIR FY2004.1
| Sol No.: |
Navy SBIR FY2004.1 |
| Topic No.: |
N04-113 |
| Topic Title: |
Computer-Aided Design and Optimization of High Performance Vacuum Electronic Devices |
| Proposal No.: |
N041-113-1 |
| Firm: |
Simulation Technology & Applied Research, Inc.
11520 N. Port Washington Rd.
Suite 101B
Mequon, Wisconsin 53092-3432 |
| Contact: |
John DeFord |
| Phone: |
(262) 240-0291 |
| Web Site: |
www.staarinc.com |
| Abstract: |
High performance vacuum electron devices are widely used radar, communications, sensors, and navigation systems, where they provide an efficient and reliable source of microwave power. For many applications it is extremely important that the device be optimized to provide improvements in efficiency, power, and tolerance insensitivity, which significantly impact system performance, lifetime, reliability, and cost.
Modern stochastic optimization strategies provide a powerful approach to obtaining an optimal design in a variety of disciplines. To be effective in vacuum electronics design, however, appropriate methods must be identified, supporting technology such as adaptive mesh refinement techniques must be improved, and tools must be better integrated.
A prototype design system will be built to address this need and used to study optimization and adaptive mesh refinement methods for application to the CHRISTINE and MICHELLE codes. The system will extend the existing MICHELLE user interface and integrate other existing components to minimize development work, and be applied to the gun and slow-wave circuit of a traveling wave tube.
A successful project will establish the viability of the system architecture and develop technical options for optimization and adaptive mesh refinement that will be valuable for the Navy, and be the focus of future research.
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| Benefits: |
The proposed system will provide a means for developing more highly optimized microwave tubes. Improved tubes will lower the cost of Navy systems including radar, ground or ship-based communications, and satellite systems. U.S. industry will benefit from the improved design capability by being more competitive in the international tube market. |
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