Ricardo Romero, PEInstructor
Hi, my name is Ricardo Romero and I am an Electrical Engineer with over ten years of experience in Power Systems. I obtained my Bachelor's and Master's degrees in Electrical Engineering from The University of North Carolina at Charlotte. I am also a licensed Professional Engineer in Power Systems in the states of Arizona, Louisiana, North Carolina, Pennsylvania, South Carolina, and Virginia in the United States. Although my professional experience is mainly in Power Systems, I am also passionate about other topics in Electrical Engineering including Analog Electronics, Control Systems, Digital Design, Digital Signal Processing, Electric Machinery, and Power Electronics.
Learn how to implement protective relay logic and how to build logic schemes of enable/disable switches, permissive tripping, overcurrent blocking, breaker failure, and automatic reclosing. The course consists of 13 lessons in 2h 16m total length.
Learn how substation buses operate and how to implement different protective elements for their protection. Learn to design robust protection schemes to protect these components from faults and abnormal operating conditions. 2h 27m total course length.
Learn how to use symmetrical components - a very important mathematical technique used in power system protection and control for the easier analysis of power system faults. 25 lectures in 2h 48m total course length.
Learn everything about AC electric circuits and electronics, from the basics such as what sinusoids are, all the way to key characteristics of AC circuits such as impedance, admittance, power factor, complex power, and power calculations.
Learn how to simulate any analog or digital electronics device in MATLAB/Simulink, including active low-pass & high-pass filters, audio equalizers, inverting & non-inverting amplifiers, analog-to-digital converters (ADCs), and digital-to-analog converters (DACs).
This course provides a complete overview of one of the main areas of electrical engineering and power engineering: rectifiers, DC-to-DC converters, and inverters. The course includes 25 lectures and 1 exam in 3h 43m total course length.
Learn how to simulate any power electronics device in MATLAB/Simulink, including rectifiers, DC-to-DC converters, and inverters (single-phase and three-phase). Course consists of 4 sections, 30 lectures in 6h 22m total course length.
Learn about power flow analysis and short circuit analysis of balanced and unbalanced faults to further your career in electrical and power engineering. 4 sections, 37 lectures in 5h 48m total course length.
Learn how to simulate power systems in MATLAB/Simulink by building several Simulink power system models for load flow, short circuit, and power stability studies) and analyze the behavior of the system under several conditions.
Learn about generators, transformers, and transmission lines and their use in power system analysis to further your career in electrical and power engineering. 35 lectures in 4h 36m total course length.
Learn the fundamentals of power system analysis: power analysis in single- and three-phase AC circuits, power triangle, complex power, and power flow, delta or wye connected loads and per-phase analysis of balanced loads.
Learn fundamentals of electric circuits and electronics, starting from the basics such as what an electric circuit is, electrical quantities like voltage, current & power, all the way to complex techniques for analyzing electric circuits.