Energy Harvesting from Exercise Machines: Buck-Boost Converter Design

Forster, Andrew E

01 March 2017

This report details the design and implementation of a switching DC-DC converter for use in the Energy Harvesting From Exercise Machines (EHFEM) project. It uses a four-switch, buck-boost topology to regulate the wide, 5-60 V output of an elliptical machine to 36 V, suitable as input for a microinverter to reclaim the energy for the electrical grid. Successful implementation reduces heat emissions from electrical energy originally wasted as heat, and facilitates a financial and environmental benefit from reduced net energy consumption.

DC-DC converter

switching converter

four switch buck boost

nonisolated

EHFEM

Power and Energy

Design and Construction of 1800W Modular Multiple Input Single Output Non-isolated DC-DC Converters

Gallardo, Angelo Miguel Asuncion

01 June 2017

This thesis report details the design and construction of non-isolated DC-DC converters to create a Multiple Input Single Output (MISO) converter for combining multiple renewable energy sources into one single output. This MISO uses the four-switch buck-boost topology to output a single 48V from multiple nominal 24V inputs. The MISO converter implements a modular approach to deliver 1800W output power. Each module in the MISO is rated at 600W and they share the output power equally. Hardware results show that the converter produces 1800W of output power from three sources with 96.4% efficiency. Each module also demonstrates equal sharing feature of the MISO converter.

power electronics

power converter

multiple input single output

MISO

non-isolated

DC-DC

four-switch buck-boost

Power and Energy