Thermal Management for a High Efficiency Power Converter

Our goal is to design and model a thermal management system for a high efficiency power converter. Our system will direct heat away from electrical components and keep the system withing operating temperatures. Additionally the thermal management system with harvest the waste heat to create useful electricity to power the control system.

Deliverables
This project will deliver a working prototype with all relevant calculations and CAD models for future use and development.

Specifications

 * MAKE THIS A TABLE*

Maintain 150 degrees Celsius on electronic components Generate Electricity required to power controllers Dissipate heat from system to atmosphere

Design
Our primary design features an array composed of Thermoelectric Generators (TEGs) to transfer heat away from the electric components on the hot side to the radiator fluid on the cold side. The radiator will then reject the remaining waste heat to the atmosphere.

TEG Array The TEGs will be in *MAYBE, EDIT THIS* direct contact with the tabs of the electronic switches allowing for conduction of heat. The cold side of the TEG will be seperated from the radiator fluid by a very thin *INSULATED* (maybe) sheet to protect the electronics from the working fluid in the radiator while also maintaining some degree of insulation within the TEG itself to maximize the electricity recovered.

Radiator The radiator itself will use *WORKING FLUID* to transport heat from the cold side of the TEGs to a fin array cooled by convection from a fan exposed to atmospheric air.

ELECTRICAL ENGINEERS Our design features STUFF? to manage the electricity supplied to the CONTROLLERS (write stuff please)