What you'll learn:
- Understand definition of power electronics
- Realize different applications of power electronics
- Know different types of converters
- Know different categories of power electronic devices
- Understand different losses associated with power electronics
- Difference between ideal and practical switch
- Understand different factors when selecting the power electronic device
- Understand how diode works
- Understand the diode V-I Characteristics
- Learn about different types of diodes
- Learn how a thyristor works
- Understand thyristor V-I characteristics
- Understand different operating states of thyristor
- Know the latching and holding current of thyristor
- Understand different types of thyristor
- Learn how fully controlled switch works
- Understand different types of fully controlled switches
- Understand why GTO is the king of power electronics
- Understand how rectifier works
- Learn Different Types of Rectifiers for Single Phase
- Learn about Half Wave Rectifier R load for both controlled and uncontrolled
- Learn about Half Wave Rectifier R-L load for both controlled and uncontrolled
- Learn about Half Wave Rectifier R-L load for both controlled and uncontrolled with Free wheeling Diode
- Understand the Usage of Freewheeling Diode
- Understand the Principle of Firing angle
- Understand the Biphase Rectifier
- Understand the fully , half controlled and uncontrolled Bridge Rectifier
- Understand the Performance Parameters for Rectifier Circuit
- Learn about the Power Factor
- Learn about the Firing Circuit UJT
- Understand the Protection of Power Electronic devices Against Over-current,Over-Voltage and Transient state.
- Understand the Series and Parallel Diodes
- Learn the Isolation of Firing Circuit using Pulse Transformer
- Learn the Isolation of Firing Circuit using OptoCoupler
- Understand the definition of AC chopper
- Analyze the AC chopper R load circuit
- Learn the AC chopper L load circuit
- Analyze the AC chopper R-L series load circuit
- Understand the AC chopper R-L parallel load circuit
- Analyze the AC chopper Capacitive load circuit
- Understand the integral cycle control
- Learn how to use AC chopper in transformer tap changing
- Learn the applications and disadvantages of AC choppers
- Analyze the AC chopper loaded by AC Motor
- Definition of DC choppers
- Applications of DC choppers
- Understand step down DC chopper with R-load.
- Generation of duty cycle
- Step down DC chopper with R-L-E load
- Step up DC chopper R or R-L load
- Step up DC chopper with RE load
- Buck regulator
- Boost regulator
- Buck-boost regulator
- Definition of inverter
- Importance and applications of inverters
- Analysis of single phase half bridge R-load
- Analysis of single phase half bridge RL-load.
- Performance parameters of an inverter
- Analysis of single phase bridge R-load
- Analysis of single phase bridge RL-load.
- Understand the three phase inverters and obtaining the line voltages and phase voltages.
- Single pulse width modulation
- Multiple pulse width modulation
- Industrial inverters
- Sinusoidal pulse width modulation
- simulation using MATLAB of single-phase half wave controlled rectifier
- simulation using MATLAB of single-phase bridge controlled rectifier
- simulation using MATLAB of single-phase AC chopper with R and RL load
- simulation using MATLAB of DC-DC converter as a buck regulator
- simulation using MATLAB of boost regulator
- simulation using MATLAB of buck-boost regulator
- simulation using MATLAB of single-phase half-bridge inverter
- simulation using MATLAB of single-phase bridge inverter
- simulation using MATLAB of three Phase Inverter
- Overview on the PLC hardware configuration
- Overview on types of inputs and outputs in PLC
- Advantages of using PLC over classic control
- Overview on different PLC programming languages
- Discuss the important symbols in PLC
- Definition of PLC scan cycle
- Usage of markers in PLC
- Understand types of timers and counters in PLC and how to use them
- Do tasks in batch simulator
- Do tasks in silo simulator
- Do tasks in door simulator
- Do tasks in I/O simulator
- Different components of the electrical protection system
- Zones of protection of electrical systems
- Trip circuit of electrical system
- Primary and backup protection
- Characteristics of measuring the relay performance
- Fault clearing time and time lag in electrical protection
- Different types of relays
- Directional power relay and its applications
- Definition of overcurrent protection
- Settings and applications of overcurrent protection
- Distance protection in electrical systems
- Construction and operation of a distance relay
- Plain impedance relay
- Operating characteristics and R-X diagram of an impedance relay
- Stepped distance protection
- Transmission line protection and directional impedance relay
- Modified impedance-type distance relay
- Reactance-type distance relay
- Mho or admittance distance relay
- Principle of operation and selection of low voltage circuit breakers
- Principle of operation of earth leakage circuit breaker or residual current CB
- Selection of medium voltage circuit breakers
- Types of low voltage and high voltage fuses
- Types of differential protection
- Current balance differential protection
- Voltage balanced differential protection
- Percentage differential current relay
"Ultimate 2023 Power Electronics, Electrical Protection, and LogixPro Bundle for Electrical Engineering"
The only bundle with everything you need to know about rectifiers, AC choppers, DC choppers, inverters, electrical protection, and the PLC simulator (LogixPro).
First Course "Complete Rectifiers Course for Electrical Engineering"
Throughout the course, you will learn:
Definition of power electronics circuit and its application.
Different types of switches as uncontrolled switches, semi-controlled, and fully controlled switches such as diodes, thyristors, IGBT, Mosfet, etc.
Types and applications for different switching devices.
Definition of the rectifier.
Different single-phase rectifier circuits and their configurations.
Half wave and full wave rectifier single-phase circuits in uncontrolled, half, and full controlled bridges.
All of these topics are in a step by step lessons with many solved examples.
Second Course "Complete AC Choppers Course for Electrical Engineering"
Throughout the course, you will learn:
AC chopper circuits with R load.
AC chopper circuits with L load, R-L parallel, and series load.
AC chopper with capacitive load.
Integral cycle control of AC chopper with example.
AC chopper in transformer tap changing.
AC chopper loaded by an AC motor with back e.m.f.
Applications and disadvantages of AC choppers.
All of these topics are in a step by step lessons with many solved examples.
Third Course "Complete DC Choppers Course for Electrical Engineering"
Throughout the course, you will learn:
Definition of DC choppers and applications of DC choppers.
Generation of the duty cycle.
Types of circuits used to step up or step down the DC voltage.
Analyze the step-down DC chopper with R and R-L-E load,
Analyze the step-up DC chopper with R, RL, and RE loads.
Analyze a buck regulator, boost regulator, and buck-boost regulator circuits.
Equations to get the minimum values of inductance and capacitance required for those circuits.
All of these topics are in a step by step lessons with many solved examples.
Fourth Course "Complete Inverters Course for Electrical Engineering"
Throughout the course, you will learn:
Definition of the inverter.
Importance and applications of inverters.
Single-phase half-bridge R-load.
Single-phase half-bridge RL-load.
Performance parameters of an inverter.
Single-phase bridge inverter R-load.
Single-phase bridge inverter RL-load.
Three-phase inverters and obtaining the line voltages and phase voltages.
Single pulse width modulation.
Multiple pulse width modulation.
Sinusoidal pulse width modulation.
Fifth Course "Matlab Simulations in Power Electronics"
Throughout the course, you will learn:
The simulation using MATLAB of:
Single-phase half wave controlled rectifier
Single-phase bridge controlled rectifier
Single-phase AC chopper with R and RL load
A DC-DC converter as a buck regulator
Boost regulator
Buck-Boost regulator
Single-phase half-bridge inverter
Single-phase bridge inverter
Three Phase Inverter
Everything about the ETAP program from zero to hero
All of these topics are in a step by step lessons with many solved examples.
Sixth Course "Electrical Protection for Complete Beginners"
Throughout the course, you will learn:
Different components of the electrical protection system
Zones of protection of electrical systems
Trip circuit of electrical system
Primary and backup protection
Characteristics of measuring the relay performance
Fault clearing time and time lag in electrical protection
Different types of relays
Directional power relay and its applications
Definition of overcurrent protection
Settings and applications of overcurrent protection
Distance protection in electrical systems
Construction and operation of a distance relay
Plain impedance relay
Operating characteristics and R-X diagram of an impedance relay
Stepped distance protection
Transmission line protection and directional impedance relay
Modified impedance-type distance relay
Reactance-type distance relay
Mho or admittance distance relay
Types of differential protection
Current balance differential protection
Voltage balanced differential protection
Percentage differential current relay
Principle of operation and selection of low voltage circuit breakers
Principle of operation of earth leakage circuit breaker or residual current CB
Selection of medium voltage circuit breakers
Types of low voltage and high voltage fuses
All of these topics are in a step by step lessons with many solved examples.
Seventh Course "Ultimate Logixpro PLC Simulator Course for Electrical Engineering"
The only course out there which can teach you the basics of PLC programming with fun and awesome simulations
Logixpro program is an interesting and useful simulator for the simulation of different procedures such as moving belts, garage openings, and closing, a mixer that consists of a tank in addition to some pipes of different liquids, and many more!
This program helps learn ladder programming and PLC with an easy and interactive simulation method.
In this course, we will use the Logixpro simulator in which we will write the coding and simulate inside the program to see the effect of our ladder diagram.
Throughout the course, you will:
Understand PLC hardware configuration.
Understand the types of inputs and outputs in PLC.
Understand the advantages of using PLC over classic control.
Differentiate between PLC programming languages.
Learn the definition of the PLC scan cycle.
How to use markers in PLC.
How to use counters and timers.
Do tasks in silo, batch, I/O, and door simulators.
Bonus Gift:
⚡️ You will also get the slides for the Ultimate Power Electronics and Protection bundle for those who are interested in them or having them as a revision for themselves ⚡️
✔️ 42 Pages of Power Electronics New Slides
✔️ 51 Pages of Power Electronics Slides
✔️ 45 Pages of AC Choppers Slides
✔️ 78 Pages of DC Choppers Slides
✔️ 90 Pages of Inverters Slides
✔️ 153 Pages of Electrical Protection Slides
Take this bundle if you've been looking for ONE COURSE BUNDLE with in-depth insight into power electronics, electrical protection, ETAP, and PLC basics.