PE 101- Basic Power System Analysis
Power electronics in general is used to process and control the flow of electric energy by supplying voltages/currents that are optimally suited for loads. The introduction to power electronics improves your understanding of power electronic systems and applications, semiconductor devices, electromagnetic conversion, rectifiers, and switch mode direct current converters.
The introduction to power electronics training course starts with an overview of power electronics systems and continues with semiconductor devices such as diodes, thyristors, and transistors. Furthermore, an overview of magnetic circuits and electromagnetic conversion is included. Next, you will learn the operation of basic rectifiers, single-phase diode bridges, three-phase full-bridge rectifiers, and concept of inrush current and overvoltages in rectifiers.
Finally, the course covers the operation and analysis of DC-DC switch mode converters including step up converter (boost), step down converter (buck), step up-down converter (buck-boost), and full-bridge DC-DC converters.
The introduction to power electronics is a 2-day course aimed to train:
- Any individual from industry, government, or academia who needs to understand, use, or implement power electronics.
- Any individual with a basic knowledge about the power who needs to design, analyze and control various forms of inverters and converters.
- Electrical engineers who are involved in hardware design.
- Personnel of government agencies related to energy sectors who require a deep understanding of the design, analyze, and control of batteries, converters, and inverters in various applications of wind, solar, and electric grid.
- Faculty members and research engineers from academic centers who need to learn about hardware design of electronic devices.
- Engineers working with storage devices such as batteries and fuel cells.
- Government and state personnel who are involved in developing, adjusting, or passing legislations and policies related to energy conversion systems.
- Government entities related to energy including the personnel of Deputy Assistant Secretary of the Navy-Energy; Air Force Installations, Environment & Logistics; Department of the Navy Energy Program for Security and Independence; Department of the Navy Strategy for Renewable Energy; Marine Corps Expeditionary Energy Office; Office of the Deputy Under Secretary of Defense, Installations and Environment; U.S. Army Office of Energy Initiatives (OEI); and U.S. Energy Information Administration.
- Grant writers working on power and energy related projects who need a brief and quick training about power electronics.
- Utility operators, mostly entry- and mid-level.
- Non-technical personnel of utility companies who need to know the basis of power electronics system, such as in marketing, finance, and executive sectors.
The outline of basic power electronics training is mentioned in the following which can be revised and tailored to the client’s need:
Overview of Power Electronics Systems
- Introduction to power electronics
- Linear electronics
- Application of power electronics
- Power processors
- Power converters
- Interdisciplinary power electronics
- Bipolar junction transistors
- Metal oxide semiconductor field effect transistor (MOSFET)
- Gate-turn off thyristor
- Insulated gate bipolar transistor (IGBT)
- Controllable switches
- Drive circuit
- Snubber circuit
- Idealized device characteristic
Magnetic Circuits and Electromagnetic Conversion
- Electric circuits
- Magnetic circuit theories
- Simulation of electronic circuits
- Time-domain analysis
Operation of Rectifiers
- Overview of rectifier circuits
- Single-phase diode bridges
- Voltage doubler rectifier
- Three-phase full-bridge rectifiers
- Comparison of single-phase and three-phase rectifiers
- Inrush currents
- Line-frequency controlled rectifiers
- Single-phase line frequency-controlled rectifier
- Three-phase frequency-controlled rectifier
- Control of DC-DC converters
- Step down converter (Buck)
- Step up converter (Boost)
- Buck-boost converter
- Cuk converter
- Full-bridge DC-DC converter
- Comparison of DC-DC converters
- Control of DC-DC converters using feedback theory
- Pulse width modulation (PWM)
- Introduction to resonant converters
- Basic resonant converter circuits
- Zero voltage/current switching