Gavin Abo Nate Stout Nathan Thomas HydroFly Flywheel.

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Presentation transcript:

Gavin Abo Nate Stout Nathan Thomas HydroFly Flywheel

Hydrofly Two Teams –Flywheel –Fuel Cell Adam Lint Chris Cockrell Daniel Hubbard

Sponsors & Mentors Brian Johnson Herb Hess Satish Samineni

Presentation Outline I. Introduction II. Objectives III. Design Functionality IV. Schedule V. Budget VI. Questions

I. Introduction Why is the project being done? - To correct short voltage sags (a few seconds) to maintain a stable voltage to critical loads. Why is this important? - The shutdown of critical loads due to short voltage sags can be costly.

II. Primary Objective Interface a flywheel to the AMPS with the ability to correct for voltage sags occurring on the AMPS. –Implement the design by Satish Samineni

Secondary Objectives Spin a flywheel Communicate between converters Operate each converter with its own PWM Provide power to AMPS Operation Manual

III. Design Functionality Organizational Chart Block Diagram Overall Circuit Schematic Sub Circuit Schematics Programming Assembled Documentation Specifications

Organizational Chart Operate a sine–triangle PWM scheme Operate a space vector PWM scheme Provide power to AMPS Communicate between converters Program the triangle wave Program the sine wave look up table Spin a flywheel Program the switching times calculation Program a Phase locked loop Program matrix math functions Sag Status Interface a flywheel to AMPS to correct for voltage sags on the system

Block Diagram

Circuit Schematic

Series Transformer Diagram

DC link startup power supply Generates positive DC voltage Generates negative DC voltage

The Programming All code is mathematically verified and interfaced to the DSP Testing still needs to be done.

Assembled

Documentation Completed –Test plan –Poster –Life Cycle Report –Product Reliability Not Completed –Final Report –Operations Manual

Specifications

IV. Schedule

V. Budget

VI. Questions