Add to ORKGThe main goal of this Major Qualifying Project was to design and implement an inrush transient current mitigation technique for high power full-wave bridge rectifiers with capacitive loads. The inrush current was simulated using PSpice V9.1 for both single-phase and three-phase bridge rectifiers. The mitigation was obtained by gradually charging the capacitive load using small pulses of current, before energizing the system. These pulses of current were controlled by an MSP430 microprocessor synchronized with the input source
This thesis reviews plasma technology, pulsed power technology, basic structures of pulsed power gen...
R-MXAS is a revolutionary aerospace architecture for realizing a synthetic aperture imaging radiomet...
Metal halide perovskites (MHP) represent a class of low-cost and versatile ionic semiconductor mater...
This project designs and develops a device capable of assisting rescue workers with visualizing a ro...
The ever-increasing reliance of electronic devices that utilize AC power has increased the amount of...
The purpose of this project was to design and develop a proof of concept Solar Charging Station capa...
Solar energy can be made more widely accessible by creating versatile solar cells that can be implem...
The ever-increasing reliance of electronic devices that utilize AC power has increased the amount of...
The ever-increasing reliance of electronic devices that utilize AC power has increased the amount of...
Piezoelectric sensors are widely used in many bioengineering applications. However, the sensors exhi...
This document presents the Centralized Energy Management System (CEMS), a dynamic fault-tolerant rec...
The goal of this project was to design and build a compensated pulsed alternator, or compulsator, to...
Beyond the 1950s, integrated circuits have been widely used in a number of electronic devices surrou...
Concentrating solar power (CSP) is increasingly considered because it facilitates harvesting a large...
A system for detecting molten aluminum through six (6) inches of resin-bonded sand is presented. It...
This thesis reviews plasma technology, pulsed power technology, basic structures of pulsed power gen...
R-MXAS is a revolutionary aerospace architecture for realizing a synthetic aperture imaging radiomet...
Metal halide perovskites (MHP) represent a class of low-cost and versatile ionic semiconductor mater...
This project designs and develops a device capable of assisting rescue workers with visualizing a ro...
The ever-increasing reliance of electronic devices that utilize AC power has increased the amount of...
The purpose of this project was to design and develop a proof of concept Solar Charging Station capa...
Solar energy can be made more widely accessible by creating versatile solar cells that can be implem...
The ever-increasing reliance of electronic devices that utilize AC power has increased the amount of...
The ever-increasing reliance of electronic devices that utilize AC power has increased the amount of...
Piezoelectric sensors are widely used in many bioengineering applications. However, the sensors exhi...
This document presents the Centralized Energy Management System (CEMS), a dynamic fault-tolerant rec...
The goal of this project was to design and build a compensated pulsed alternator, or compulsator, to...
Beyond the 1950s, integrated circuits have been widely used in a number of electronic devices surrou...
Concentrating solar power (CSP) is increasingly considered because it facilitates harvesting a large...
A system for detecting molten aluminum through six (6) inches of resin-bonded sand is presented. It...
This thesis reviews plasma technology, pulsed power technology, basic structures of pulsed power gen...
R-MXAS is a revolutionary aerospace architecture for realizing a synthetic aperture imaging radiomet...
Metal halide perovskites (MHP) represent a class of low-cost and versatile ionic semiconductor mater...