Development of Artifacts and Methodologies for Analysis and Assessment of Shipboard Electrical System Configuration Feasibility and Viability

Abstract

Over a three year period, the program will work on the following tasks:Year One Tasks:1. Incorporate scalable attributes into the S3D blocks that can eventually be tied into physicsbasedequations that allow such explorations as power density vs. switching frequency,voltage dielectric stand-off vs. grounding approach, voltage dielectric stand-off vs. volume,topological features vs. size/weight, etc. (January 2016-March 2016)2. Perform survivability analysis on multiple IPS architectures (March 2016-September2016)3. Develop zonal electrical simulations in MATLAB-SIMULINK and OPAL RT forperformance explorations on multiple IPS architectures (February 2016-June 2016)4. Perform Reliability of Power Analysis on multiple IPS architectures (June 2016-December 2016)5. Perform Size, Weight and Cost analysis on multiple IPS architectures in S3D (February2016-December 2016)- 10 -6. Perform a trade study on no load switches and determine whether custom or commercialapproaches are feasible/viable (March 2016-August 2016)7. Incorporate reliability attributes into S3D blocks and perform reliability analysis (April2016-December 2016)Year One Milestones:1. Populate S3D with behavioral blocks and build up a notional ~Breaker-Less~ architecturein S3D in support of the January 11, 2016 S3D Workshop2. Build up multiple architectures in the S3D environment for exploration, September 20163. Build up OPAL-RT simulation of zonal architectures, March 20164. Survivability, Reliability of Power and Size/Weight/Cost report on multiple IPSarchitectures, December 20165. Report on no load switch trade study, December 2016Year Two Tasks:1. Develop stability attributes for S3D physics-based blocks (May 2016-May 2017)2. Perform stability analysis in S3D environment (May 2017-December 2017)3. Refresh S3D blocks with physics-based blocks and demonstrate size/weight/cost andsurvivability analyses on multiple IPS architectures (January 2017-April 2017)4. Develop hardware demonstrations of MPSST and no load switches in UWM laboratory(January 2017-September 2017)5. Incorporate MPSST and no load switch lessons learned into S3D environment (September2017-December 2017)6. Down select to feasible and most viable architectures (September 2017-December 2017)Year Two Milestones:1. Participate in Roundtable on using S3D environment for Concept Exploration, May 20172. Present S3D workshop on using of physics-based blocks to build IPS architectures,September 20173. Report on feasible IPS architectures, December 2017Year Three Tasks:7. Develop algorithms, optimization functions for SWAP-C analysis (May 2017-May 2018)8. Perform FMEA on feasible IPS architectures (January 2018-April 2018)9. Refresh Survivability, Size/Weight/Cost and Reliability of Power analysis based on FMEAlessons learned (April 2018-September 2018)10. Derive artifacts for performance vs. cost analysis (January 2018-May 2018)11. Automate the synthesis of analysis of sets of IPS configurations (January 2018-May 2018)12. Perform SWAP-C analysis on feasible IPS architectures (June 2018-December 2018)

Document Details

Document Type

DoD Grant Award

Publication Date

Sep 23, 2016

Source ID

N000141613184

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