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Ultimate Power Electronics and Electrical Protection Course
Overview of the Power Electronics Devices
Introduction to this Course Bundle (3:41)
Introduction to Power Electronics (20:14)
Course Files and PDF Slides
A Power Electronic Circuit (6:29)
PN Junction (15:14)
Diodes in Power Electronics (21:40)
Types of Power Diodes (12:51)
Thyristors in Power Electronics (22:37)
Thyristor Mode of Operation (9:07)
Natural and Forced Commutation (16:11)
Types of Thyristors (11:33)
Bipolar Junction Transistor (BJT) (31:16)
Gate Turn-Off Thyristor (GTO) (17:51)
Metal-Oxide-Semiconductor Field-Effect Transistor (MOSFET) (33:13)
Insulated Gate Bipolar Transistor (IGBT) (16:08)
Types of Switches (4:50)
Comparison between Controlled Switches (5:00)
Power Switch Losses (4:58)
Half-Wave Rectifier Circuits - AC/DC Converters
Introduction to Rectifiers (7:12)
Single Phase Half-Wave Uncontrolled Rectifiers – R Load (19:23)
Understanding the Difference between AC and DC Powers (10:41)
Example 1 (8:01)
Ripple Factor of Half-Wave Rectifier (13:47)
Efficiency of Half-Wave Rectifier (8:42)
Form Factor, PIV, and Peak Factor of Half-Wave Rectifier (8:40)
Example 2 (9:38)
Single Phase Half-Wave Uncontrolled Rectifiers – RL Load (30:47)
Example 3 (8:55)
How to Solve Numerical Equations Using Calculator? (6:40)
R-L Load with Freewheeling Diode (13:01)
Example 4 (3:26)
Single Phase Half-Wave Controlled Rectifiers – R Load (17:57)
Example 5 (1:37)
Example 6 (5:09)
Single Phase Half-Wave Controlled Rectifiers – RL Load (18:27)
Example 7 (4:51)
Half-Wave Controlled Rectifiers – RL Load with FWD (28:03)
Example 8 (15:55)
Example 9 (8:39)
Half-Wave Controlled Rectifiers – RLE Load (33:13)
Example 10 (12:21)
Example 11 (6:07)
Full-Wave Rectifier Circuits - AC/DC Converters
Full-Wave Bridge Uncontrolled Rectifier – R Load (32:59)
Example 1 (7:58)
Full-Wave Bridge Uncontrolled Rectifier – RL Load (13:25)
Example 2 (7:56)
Full Wave Center-Tapped Uncontrolled Rectifier (26:14)
Full-Wave Controlled Rectifier – R Load (14:22)
Example 3 (8:07)
Full-Wave Controlled Rectifier – RL Load – Discontinuous Mode (11:21)
Example 4 (5:35)
Full-Wave Controlled Rectifier – RL Load – Continuous Mode (24:33)
Example 5 (10:37)
Example 6 (5:51)
Example 7 (4:48)
Half-Controlled Bridge Rectifier – Type 1 (36:47)
Half-Controlled Bridge Rectifier – Type 2 (18:42)
Example 8 (5:46)
Example 9 (4:52)
Three-Phase Rectifier Circuits - AC/DC Converters
Three-Phase Rectifiers (6:42)
Three-Phase Half-Wave Uncontrolled Rectifier – R Load (37:09)
Equations of Three-Phase Half-Wave Uncontrolled Rectifiers (23:25)
Three-Phase Half-Wave Uncontrolled Rectifiers - HIL (8:35)
Example 1 (10:37)
Three-Phase Mid-Point 6-Pulse Diode Rectifier (28:13)
Multiphase Diode Rectifier (11:15)
Example 2 (12:38)
Example 3 (2:56)
Three-Phase Half-Wave Controlled Rectifier (27:30)
Example 4 (5:47)
Evolution of the Three-Phase Bridge-Wave Uncontrolled Rectifier (24:51)
Three-Phase Bridge-Wave Uncontrolled Rectifier (29:37)
Example 5 (8:14)
Example 6 (12:52)
Example 7 (4:24)
Three-Phase Twelve-Pulse Rectifier (24:44)
Three-Phase Bridge-Wave Fully-Controlled Rectifier - HIL (34:10)
Three-Phase Bridge-Wave Fully-Controlled Rectifier – R Load (9:50)
Example 8 (4:17)
Example 9 (8:36)
Three-Phase Bridge-Wave Half(Semi)-Controlled Rectifier – HIL Load (26:57)
Example 10 (2:24)
Example 11 (11:29)
AC Choppers - AC/AC Converters
Introduction to AC Choppers (2:20)
Definition of AC Chopper (5:14)
Switching Techniques in AC Choppers (5:56)
Applications on AC Choppers (3:10)
Types of AC Choppers (2:26)
AC Chopper with R Load (14:13)
Example 1 on AC Chopper with R Load (5:56)
Example 2 on AC Chopper with R Load (4:00)
AC Chopper with L Load Part 1 (12:47)
AC Chopper with L Load Part 2 (6:12)
Example on AC Chopper with L Load (8:01)
AC Chopper with RL Series Load (19:59)
Example on AC Chopper with RL Series Load (7:28)
AC Chopper with RL Parallel Load (24:33)
Example on AC Chopper with RL Parallel Load (5:42)
AC Chopper with Pure Capacitive Load (14:16)
Example on AC Chopper with Pure Capacitive Load (4:22)
AC Chopper Loaded by Heavy Rectifier (5:41)
AC Chopper Loaded by AC Motor with Sinusoidal Back Emf (12:28)
Example on AC Chopper Loaded by AC Motor with Sinusoidal Back Emf (8:17)
Integral Cycle Control (11:03)
Example on Integral Cycle Control (4:17)
DC Choppers - DC/DC Converters
Introduction to DC Choppers (2:10)
Definition and Applications of DC Choppers (4:34)
Step Down DC Chopper with R Load (12:04)
Example on Step Down DC Chopper with R Load (8:28)
Generation of Duty Cycle (9:17)
Switching Techniques (3:07)
Step Down DC Chopper with RLE Load Part 1 (19:21)
Step Down DC Chopper with RLE Load Part 2 (14:46)
Example 1 on Step Down DC Chopper with RLE Load (13:29)
Example 2 on Step Down DC Chopper with RLE Load (2:01)
Step Up DC Chopper with R or RL Load (8:49)
Step Up DC Chopper with RE Load (14:58)
Example on Step Up DC Chopper with RE Load (19:53)
Buck Regulator Part 1 (16:18)
Buck Regulator Part 2 (16:46)
Example on Buck Regulator (3:12)
Boost Regulator (23:06)
Example on Boost Regulator (5:42)
Buck-Boost Converter (17:27)
Example on Buck-Boost Converter (4:34)
Inverters - DC/AC Converters
Introduction to Inverters (2:16)
Definition of Inverter (3:32)
Importance and Applications of Inverters (8:29)
Single Phase Half Bridge R Load (15:28)
Single Phase Half Bridge RL Load (8:12)
Performance Parameters of Inverter (4:49)
Example on Single Phase Half Bridge (10:21)
Single Phase Bridge Inverter R Load (5:40)
Single Phase Bridge Inverter RL Load (6:55)
Example on Single Phase Bridge Inverter (6:08)
Three Phase Inverters and Obtaining The Line Voltages (14:50)
Three Phase Inverters and Obtaining The Phase Voltages (16:57)
Example on Three Phase Inverters (16:09)
Single Pulse Width Modulation (13:19)
Multiple Pulse Width Modulation (12:52)
Example on Multiple Pulse Width Modulation (4:24)
Sinusoidal Pulse Width Modulation (16:28)
Industrial Inverter (3:15)
MATLAB Simulations in Power Electronics
Simulation of Half Wave Controlled Rectifier in MATLAB (25:33)
Simulation of Bridge Controlled Rectifier in MATLAB (16:18)
Simulation of AC Chopper with R and RL Loads (10:46)
Simulation of Buck Regulator in MATLAB (14:05)
Simulation of Boost Regulator in MATLAB (12:11)
Simulation of Buck-Boost Regulator in MATLAB (9:23)
Simulation of Single Phase Half Bridge Inverter in MATLAB (17:30)
Simulation of Single Phase Bridge Inverter (9:54)
Simulation of Three Phase Inverter in MATLAB (17:04)
Basics of Electrical Protection
Introduction to Protection of Electrical Power System (16:41)
Components of Protection System, Trip Circuit and Zones of Protection (22:12)
Primary and Backup Protection (19:15)
Characteristics of Measuring Relay Performance (20:21)
Fault Clearing Time and Time Lag (16:07)
Types of Relays and Electromagnetic Relays (28:20)
Directional Power Relay and It's Applications (25:11)
Overcurrent Protection
Introduction to Overcurrent Protection (16:58)
Settings of Overcurrent Relay and Applications of Overcurrent Relay (16:51)
Overcurrent Relay - Solved Example 1 (5:42)
Overcurrent Relay - Solved Example 2 (10:17)
Distance Protection
Introduction to Distance Protection (6:28)
Construction and Operation of Distance Relay (14:59)
Plain Impedance Relay (12:41)
Operating Characteristics and R-X Diagram of an Impedance Relay (10:37)
Stepped Distance Protection (13:43)
Solved Example 1 on Stepped Distance Protection (13:19)
Solved Example 2 on Stepped Distance Protection (18:23)
Transmission Line Protection and Directional Impedance Relay (32:16)
Modified Impedance-Type Distance Relay (4:23)
Reactance-Type Distance Relay (14:41)
Mho or Admittance Distance Relay (11:18)
Differential Protection
Introduction to Differential Protection (6:29)
Current Balance Differential Protection (16:18)
Voltage Balanced Differential Protection (8:18)
Percentage Differential Current Relay (18:49)
Solved Example 1 (5:30)
Solved Example 2 (11:06)
Disconnecting Switches
Introduction to Disconnect Switches (21:46)
Requirement of Disconnect Switches (16:04)
Disconnect Switch Ratings - Siemens (7:11)
Circuit Configurations of a Disconnect Switch (5:45)
Switch Throws of a Disconnect Switch (8:31)
Catalog Number of a Disconnect Switch (10:51)
Disconnect Switches for Non-Motor Applications (15:15)
Selection of Non-Fused Disconnect Switch for Motors (17:59)
Selection of a Disconnect Switch for a Combined Load (19:08)
Selection of Non-Fused Disconnect Switch for HVAC System (22:17)
Selection of a Fusible Disconnect Switch for a Motor Load (13:45)
Disconnect Switches for Capacitor Banks (6:43)
Locked-Rotor Indicating Code Letter – NEMA - NEC (7:19)
Circuit Breakers and Fuses
Principle of Operation and Selection of Low Voltage Circuit Breakers (25:50)
Principle of Operation of Earth Leakage Circuit Breaker or Residual Current CB (12:09)
Selection of Medium Voltage Circuit Breakers (15:50)
Types of Low Voltage and High Voltage Fuses (18:46)
Circuit Breaker Trip Curves (16:50)
NEC Sizing for Overcurrent Protection
NEC 210.20 - Overcurrent Protection (27:04)
NEC 430 - Overcurrent Protection - Motors (13:21)
Examples 1 and 2 on Motor Overcurrent Protection (4:26)
NEC 430.32 - Combined Overcurrent Protection and Overload (62:28)
NEC 430.44 – Wye-Delta Motor Overload (37:18)
NEC 430.62 Feeder Overcurrent Protection for Motors (14:54)
NEC 215.3 - Overcurrent Protection – Feeders of a Panel (8:28)
NEC 440 - Air Conditioning Overcurrent Protection (13:43)
ETAP Course
Introduction to ETAP Course (15:16)
Drawing Single Line Diagram in ETAP (11:35)
Adding Ratings to Components in ETAP (21:33)
Load Flow and Types of Buses (5:29)
Load Flow Analysis Using ETAP (19:02)
Load Flow Analysis at Different Loading Categories (8:32)
Short Circuit Analysis Using ETAP (14:09)
Arc Flash Studies (16:03)
Arc Flash Studies Using ETAP Program (17:05)
Transient Stability Using ETAP 18 (23:18)
Definition of Harmonics (22:44)
Harmonic Analysis Using ETAP (22:58)
Harmonic Filter Using ETAP (13:52)
PV System Simulation Using ETAP (24:28)
ETAP Motor Acceleration Analysis - Static Motor Starting (16:33)
ETAP Motor Acceleration Analysis - Dynamic Motor Starting (11:33)
How to add a Starting Method to Motor in ETAP (9:43)
VFD - Variable Frequency Drive Control of Motor in ETAP (9:15)
LogixPro PLC Simulator Course
Introduction to This Course (2:04)
What Is LogixPro? (4:08)
Overview On PLC (33:45)
Important Symbols (5:16)
Normally Opened, Normally Closed And Output Coils In Ladder Diagram (14:16)
Start-Stop Circuit (16:35)
Task 1 In Batch Simulator (11:52)
Task 2 In Batch Simulator (11:29)
Task 1 In Door Simulator (13:15)
Scan Cycle And Markers (9:55)
Task 3 In Batch Simulator Part 1 (14:08)
Task 3 In Batch Simulator Part 2 (10:57)
Task 4 In Batch Simulator Part 1 (12:58)
Task 4 In Batch Simulator Part 2 (9:05)
Latched And Unlatched Output In Ladder Diagram (6:17)
Task 5 In Batch Simulator (15:23)
Task 6 In Batch Simulator Part 1 (13:29)
Task 6 In Batch Simulator Part 2 (12:07)
Timers In PLC (12:21)
Task 2 In I/O Simulator (7:36)
Task 3 In I/O Simulator (9:05)
Task 4 In I/O Simulator (7:52)
Task 7 In Batch Simulator Part 1 (26:38)
Task 7 In Batch Simulator Part 2 (5:59)
Counters In PLC (4:46)
Task 5 In I/O Simulator (14:42)
Task 1 In Silo Simulator (23:01)
Task 6 In I/O Simulator (8:45)
Task 7 In I/O Simulator (8:23)
Task 2 In Door Simulator (12:09)
Task 8 In Batch Simulator Part 1 (25:22)
Task 8 In Batch Simulator Part 2 (11:17)
Task 8 In Batch Simulator Part 1
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