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Full-Text Articles in Engineering
Fully Analog Laser Driver With Robust Active Feedback Control, John Petrilli
Fully Analog Laser Driver With Robust Active Feedback Control, John Petrilli
Graduate Theses and Dissertations
The objective of this project was to go through a real life engineering development cycle, document and justify the design choices, and use background experience in electronic design and control systems to implement the best design possible. The laser driver implemented in this project is designed for the general use of a large variety of diodes in continuous wave mode, much like off the shelf laser drivers. The design goals included improving upon off the shelf laser drivers by decreasing steady state error, setting time, response time, and overshoot. Many different feedback control systems were evaluated, and a modified PID …
Cubesat Active Thermal Management In Support Of Cooled Electro-Optical Instrumentation For Advanced Atmospheric Observing Missions, Lucas Anderson, Charles Swenson, Ryan Davidson, Arthur J. Mastropietro, Elham Maghsoudi, S. Luong, Stefano Cappucci, I. Mckinley
Cubesat Active Thermal Management In Support Of Cooled Electro-Optical Instrumentation For Advanced Atmospheric Observing Missions, Lucas Anderson, Charles Swenson, Ryan Davidson, Arthur J. Mastropietro, Elham Maghsoudi, S. Luong, Stefano Cappucci, I. Mckinley
Electrical and Computer Engineering Faculty Publications
The need for advanced cooled electro-optical instrumentation in remote observations of the atmosphere is well known and demonstrated by SABER on the TIMED mission. The relatively new use of small satellites in remote earth observing missions as, well as the challenges, are epitomized by the upcoming NOAA EON-IR 12U CubeSat missions. These advanced CubeSat missions, which hope to accomplish scientific objectives on the same scale as larger more traditional satellites, require advanced miniaturized cryocoolers and active methods for thermal management and power control. The active CryoCubeSat project (ACCS) is a demonstration of such a technology. Utilizing Ultrasonic Additive Manufacturing (UAM) …
Belt-Driven Open Source Circuit Mill Using Low-Cost 3-D Printer Components, Shane W. Oberloier, Joshua M. Pearce
Belt-Driven Open Source Circuit Mill Using Low-Cost 3-D Printer Components, Shane W. Oberloier, Joshua M. Pearce
Department of Materials Science and Engineering Publications
Barriers to inventing electronic devices involve challenges of iterating electronic designs due to long lead times for professional circuit board milling or high costs of commercial milling machines. To overcome these barriers, this study provides open source (OS) designs for a low-cost circuit milling machine. First, design modifications for mechanical and electrical subsystems of the OS Distributed 3-D (D3D) Robotics prototyping system are provided. Next, Copper Carve, an OS custom graphical user interface, is developed to enable circuit board milling by implementing backlash and substrate distortion compensation. The performance of the OS D3D circuit mill is then quantified and validated …
Passive Balancing Battery Management System For Cal Poly Racing's Formula Sae Electric Vehicle, Alvin Joseph Ha
Passive Balancing Battery Management System For Cal Poly Racing's Formula Sae Electric Vehicle, Alvin Joseph Ha
Electrical Engineering
This senior project aims to replace the current battery management system (BMS) on Cal Poly’s Formula SAE electric vehicle with a more versatile, advanced, and reliable system. A BMS manages a rechargeable battery by ensuring the battery device operator’s safety, protecting battery cell integrity, prolonging battery lifetime, maintaining functional design requirements, and sending optimal usage information to the application controller. Passive balancing maximizes a battery pack’s capacity by dissipating excess energy through heat to regulate cell state of charge.
Reliability Evaluation And Improvement Based On Operational Failure Rate Of Power Electronics In Islanded Microgrid, Wen Zhong
Theses and Dissertations
With power electronics being widely applied in microgrids, they become a key part in micro-grid and the reliability assessment considering power electronic devices have become a hot research topic, and much work has been done to evaluate the reliability of power electronics in microgrids. However, the impact of operational failure of power electronics on the overall microgrid reliability has not been studied yet.
This thesis has three objectives. The first objective of this thesis is to construct a systematic operational failure rate model of power electronic systems. The power generated from renewable generation units, such as PV arrays or wind …
A Folded Cascode Operational Amplifier With Wide-Swing Current Mirrors And High Icmr, Designed With A 1.2-Micron Silicon-Carbide Process, Austin Gattis
Electrical Engineering Undergraduate Honors Theses
This thesis describes in detail the process of designing, simulating, and creating the layout for a modified folded cascode op-amp, fabricated with silicon carbide MOSFETS. The modifications consist of using a wide-swing current mirror to help deal with output voltage issues stemming from high threshold voltages in the silicon carbide process, as well as using a modification that allows for an increased input common mode range. The folded cascode op-amp uses silicon carbide transistors, as it is intended to be used for high temperature applications, ideally in the 25 C - 300 C range. It is designed to have 25 …