Skip to content

Electrical Engineering

3 Electrical Engineering Courses Bundle |***Free PDF & Hard Copy Certificate Included | Lifetime Access


Course Central

Summary

Price
Save 98%
£19 inc VAT (was £1,299)
Offer ends 24 July 2021
Study method
Online, self-paced
Duration
13 hours
Access to content
Lifetime access
Qualification
No formal qualification
Additional info
  • Tutor is available to students
  • Certificate of completion available and is included in the price

7 students purchased this course

Add to basket or enquire

Overview

***Special Discount - Use code ONLINE10 for extra 10% off ***

This Electrical Engineering 3 courses bundle is designed for professionals who want to thrive in their profession. The course covers all the essential skills and knowledge needed to become specialised in this sector. You will learn real life knowledge and expertise from the industry experts and practitioners from this Electrical Engineering 3 courses bundle.

This Electrical Engineering 3 courses bundle consists of the following courses:

  • Course 1: Electrical Engineering: Power Electronics Masterclass
  • Course 2: Electric Circuits for Electrical Engineering and Electronics
  • Course 3: AC Electric Circuit Analysis for Electrical Engineering

The Electrical Engineering 3 courses bundle starts with the basic knowledge of Electrical Engineering and gradually shares expertise knowledge. In this course you will get a complete idea of Electrical Engineering with key concepts, strategies regarding use of it and in-depth knowledge. The Electrical Engineering 3 courses bundle is completely an online course. You can access this course from any part of the world with just a smart device and the internet.

By the end of this course, you will get complete knowledge and marketable skills. The course also comes with a certificate, which will add extra value to your resume and help you stand out in the job market. In short, Electrical Engineering 3 courses bundle is the perfect course to fast track your career. So, why are you waiting? Enrol this course today!

What you will learn

From the Electrical Engineering: Power Electronics Masterclass you will learn

  • The types and connections of power system loads
  • The power triangle, complex power, and complex power flow
  • Three-phase power analysis
  • Use of per-phase analysis of balanced three-phase systems
  • Fundamentals of Power Engineering

From the Electric Circuits for Electrical Engineering and Electronics you will learn

  • Generator circuit models and their analysis
  • How generators are used in power system analysis
  • The per-unit system and its use in analyzing power systems
  • Electrical transformers circuit models and their analysis
  • Transmission line circuit models including short, medium, and long lines
  • Advanced concepts in Power Engineering

From the AC Electric Circuit Analysis for Electrical Engineering you will learn

  • Power flow (load flow) analysis
  • Calculate the bus admittance matrix of a power system
  • Short circuit analysis of balanced and unbalanced faults
  • Symmetrical Components
  • Advanced concepts in Power Engineering

Why Choose the Electrical Engineering 3 courses bundle?

  • Conducted by industry experts
  • Get Instant E-certificate
  • Fully online, interactive course with Professional voice-over
  • Developed by qualified professionals
  • Self paced learning and laptop, tablet, smartphone friendly
  • Tutor Support

And you will also get these gifts

  • Free PDF Certificate
  • Free Hard Copy Certificate
  • Lifetime Course Access

Course media

Description

Course Curriculum

*** Course 1: Electrical Engineering: Power Electronics Masterclass ***

Course Introduction

  • Electrical Engineering - Welcome to the Course
  • Electrical Engineering - About Your Instructor

Introduction to Rectifiers

  • Electrical Engineering - Section Notes - Rectifiers
  • Electrical Engineering - The Ideal Rectifier
  • Electrical Engineering - Ideal Rectifiers
  • Electrical Engineering - Review of the Diode
  • Electrical Engineering - Diodes

Single-Phase Rectifiers

  • Electrical Engineering - Half-Wave Rectifiers with Resistive Loads
  • Electrical Engineering - Half-Wave Rectifiers with Inductive Loads
  • Electrical Engineering - The Freewheeling Diode
  • Electrical Engineering - Half-Wave Rectifiers with Capacitive Filters
  • Electrical Engineering - Single-Phase Half-Wave Rectifiers
  • Electrical Engineering - Full-Wave Rectifiers with Inductive Loads
  • Electrical Engineering - Full-Wave Rectifiers with Capacitive Filters
  • Electrical Engineering - Single-Phase Full-Wave Rectifiers

Three-Phase Rectifiers

  • Electrical Engineering - Half-Wave Rectifiers with Resistive Loads
  • Electrical Engineering - Full-Wave Rectifiers with Resistive Loads
  • Electrical Engineering - Three-Phase Rectifiers

Rectifier Design Example

  • Electrical Engineering - A Single-Phase Rectifier Design

Introduction to DC-to-DC Converters

  • Electrical Engineering - Section Notes - DC-to-DC Converters
  • Electrical Engineering - The Ideal DC-to-DC Converter
  • Electrical Engineering - Review of the Power BJT and the Power MOSFET
  • Electrical Engineering - The Basic DC Chopper

DC-to-DC Converters3

  • Electrical Engineering - Buck (Step-Down) Converters
  • Electrical Engineering - Boost (Step-Up) Converters
  • Electrical Engineering - Buck/Boost (Step-Down/Up) Converters

Introduction to Inverters

  • Electrical Engineering - Section Notes - Inverters
  • Electrical Engineering - The Ideal Inverter

Single-Phase Inverters

  • Electrical Engineering - Single-Phase Inverters with Resistive Loads

Three-Phase Inverters

  • Electrical Engineering - Three-Phase Inverters with Resistive Loads - Part 1
  • Electrical Engineering - Three-Phase Inverters with Resistive Loads - Part 2

Bonus Section

  • Electrical Engineering - Bonus Lecture

*** Course 2: Electric Circuits for Electrical Engineering and Electronics ***

Course Introduction

  • Electrical Engineering - Welcome to the Course
  • Electrical Engineering - About Your Instructor

Introduction to Electric Circuits and Electronics

  • Electrical Engineering - Definition of the Electric Circuit
  • Electrical Engineering - Electric Charge and Electric Current
  • Electrical Engineering - Alternating Current (AC) vs. Direct Current (DC)
  • Electrical Engineering - Definition of Voltage
  • Electrical Engineering - Electrical Energy and Voltage
  • Electrical Engineering - Definition of Power
  • Electrical Engineering - Introduction to Electric Circuits and Electronics

Sources in Electric Circuits and Electronics

  • Electrical Engineering - Independent Sources
  • Electrical Engineering - Example - Independent Sources
  • Electrical Engineering - Dependent Sources
  • Electrical Engineering - Example - Dependent Sources
  • Electrical Engineering - Electric Circuit Sources

DC Resistive Electric Circuits

  • Electrical Engineering - Ohm's Law
  • Electrical Engineering - Example - Ohm's Law (1 of 2)
  • Electrical Engineering - Example - Ohm's Law (2 of 2)
  • Electrical Engineering - Circuit Terminology
  • Electrical Engineering - Kirchhoff's Current Law (KCL)
  • Electrical Engineering - Example - Kirchhoff's Current Law (KCL)
  • Electrical Engineering - Kirchhoff's Voltage Law (KVL)
  • Electrical Engineering - Example - Kirchhoff's Voltage Law (KVL)
  • Electrical Engineering - Voltage Division
  • Electrical Engineering - Example - Voltage Division
  • Electrical Engineering - Current Division
  • Electrical Engineering - Example - Current Division
  • Electrical Engineering - Series Resistors
  • Electrical Engineering - Example - Series Resistors

Nodal Analysis of DC Resistive Electric Circuits

  • Electrical Engineering - Definition of Nodal Analysis
  • Electrical Engineering - Example - Nodal Analysis with Independent Sources
  • Electrical Engineering - Example - Nodal Analysis with Dependent Sources
  • Electrical Engineering - Nodal Analysis of DC Resistive Electric Circuits

Loop Analysis of DC Resistive Electric Circuits

  • Electrical Engineering - Definition of Loop Analysis
  • Electrical Engineering - Example - Loop Analysis with Independent Sources
  • Electrical Engineering - Example - Loop Analysis with Dependent Sources
  • Electrical Engineering - Loop Analysis of DC Resistive Electric Circuits

Advanced DC Electric Circuit Analysis Techniques

  • Electrical Engineering - Superposition Theorem
  • Electrical Engineering - Example - Superposition Theorem
  • Electrical Engineering - Thévenin's Theorem
  • Electrical Engineering - Example - Thévenin's Theorem (Part 1)
  • Electrical Engineering - Example - Thévenin's Theorem (Part 2)

Capacitors and Their Uses in Electric Circuits and Electronics

  • Electrical Engineering - Definition of Capacitors
  • Electrical Engineering - Charge in a Capacitor
  • Electrical Engineering - Current Through a Capacitor
  • Electrical Engineering - Voltage Across a Capacitor
  • Electrical Engineering - Energy Stored in a Capacitor

Inductors and Their Uses in Electric Circuits and Electronics

  • Electrical Engineering - Definition of Inductors
  • Electrical Engineering - Voltage Across an Inductor
  • Electrical Engineering - Current Through an Inductor
  • Electrical Engineering - Energy Stored in an Inductor
  • Electrical Engineering - Series Inductors

First-Order Transient Electric Circuits

  • Electrical Engineering - First-Order Transient Circuits - Introduction
  • Electrical Engineering - Series RC Circuits

Bonus Section

  • Electrical Engineering - Bonus Lecture

*** Course 3: AC Electric Circuit Analysis for Electrical Engineering ***

Course Introduction

  • Electrical Engineering - Welcome to the Course
  • Electrical Engineering - About Your Instructor
  • Electrical Engineering - Outline and Objectives

AC Steady-State Electric Circuit Analysis

  • Electrical Engineering - Sinusoids and Their Components
  • Electrical Engineering - Definition of Phasors
  • Electrical Engineering - Voltage-Current Relationship for Resistors
  • Electrical Engineering - Voltage-Current Relationship for Capacitors
  • Electrical Engineering - Voltage-Current Relationship for Inductors

Power in AC Circuits

  • Electrical Engineering - Instantaneous Power
  • Electrical Engineering - Example - Instantaneous Power
  • Electrical Engineering - Average Power
  • Electrical Engineering - Example - Average Power
  • Electrical Engineering - Root-Mean-Square (RMS) Value of Sinusoids
  • Electrical Engineering - Example - RMS Values
  • Electrical Engineering - Average Power in Terms of RMS Values
  • Electrical Engineering - Definition of Power Factor
  • Electrical Engineering - Example - Power Factor Calculation
  • Electrical Engineering - Complex Power
  • Electrical Engineering - Example - Complex Power

Course Wrap-Up

  • Electrical Engineering - Bonus Lecture

Certification

By the successful completion of your course, you will get an instant e-certificate. Our courses are fully updated with industry knowledge and skills that aim at making you an expert in the field. The hard copy of the certificate is also available and can be sent to your address. The delivery charge is applicable which will be £4.99. All the certificates have no expiry dates but to stay updated and valued certificates are recommended to be renewed every year.

Who is this course for?

  • Anybody with an interest in learning about electrical, electronics, or computer engineering. This is an introductory course, no prior engineering experience is required

Requirements

  • Basic knowledge of semiconductor devices
  • Basic understanding of electronic circuit analysis
  • Basic knowledge of algebra

Career path

This training course will lead you to many different career opportunities, here are few prospects:

  • Electrical Engineer Beginner Level - £34,978 per annum
  • Electrical Engineer Expert Level - £41,9350 per annum
  • Senior Electrical Engineer - £60,000 per annum

Questions and answers

Currently there are no Q&As for this course. Be the first to ask a question.

Reviews

Currently there are no reviews for this course. Be the first to leave a review.

FAQs

What does study method mean?

Study method describes the format in which the course will be delivered. At reed.co.uk courses are delivered in a number of ways, including online courses, where the course content can be accessed online remotely, and classroom courses, where courses are delivered in person at a classroom venue.

What are CPD hours/points?

CPD stands for Continuing Professional Development. If you work in certain professions or for certain companies, your employer may require you to complete a number of CPD hours or points, per year. You can find a range of CPD courses on reed.co.uk, many of which can be completed online.

What is a ‘regulated qualification’?

A regulated qualification is delivered by a learning institution which is regulated by a government body. In England, the government body which regulates courses is Ofqual. Ofqual regulated qualifications sit on the Regulated Qualifications Framework (RQF), which can help students understand how different qualifications in different fields compare to each other. The framework also helps students to understand what qualifications they need to progress towards a higher learning goal, such as a university degree or equivalent higher education award.

What is an ‘endorsed’ course?

An endorsed course is a skills based course which has been checked over and approved by an independent awarding body. Endorsed courses are not regulated so do not result in a qualification - however, the student can usually purchase a certificate showing the awarding body’s logo if they wish. Certain awarding bodies - such as Quality Licence Scheme and TQUK - have developed endorsement schemes as a way to help students select the best skills based courses for them.