Power Electronics Design Curriculum: Difference between revisions
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(Created page with "*Build a modular generator, motorm, transformer of any size and frequency, stackable. Applied to wind, electric power, motors, generators. *Electronic drive for motors *High f...") |
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*Building Nickel-Iron batteries | *Building Nickel-Iron batteries | ||
*Building hydrogen electrolyzers, aluminum extractors, ozone generators, radars, antennas, plasma chemistry drives. | *Building hydrogen electrolyzers, aluminum extractors, ozone generators, radars, antennas, plasma chemistry drives. | ||
*High frequency power systems and inverters for welders, plasma cutters | |||
*Wire drawing and sheathing from aluminum, copper, and steel. | |||
Latest revision as of 17:13, 25 September 2022
- Build a modular generator, motorm, transformer of any size and frequency, stackable. Applied to wind, electric power, motors, generators.
- Electronic drive for motors
- High frequency and low frequency 3D printed motors
- Stackable Transformers of any size. Solid state and wound. Modules from 1W to 100kW.
- 3D printed terminal blocks, motors, and multimachined aluminum
- Power conditioning and algorithms for variable sources such as windmills or other generators.
- Power conditioning from steady-state sources
- Building Nickel-Iron batteries
- Building hydrogen electrolyzers, aluminum extractors, ozone generators, radars, antennas, plasma chemistry drives.
- High frequency power systems and inverters for welders, plasma cutters
- Wire drawing and sheathing from aluminum, copper, and steel.