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Transformers

Engineering Academy

Learn Without Limits: Free Engineering Courses

Rating 4 (6)

Course typeWatch to learn anytime

Duration 257 Min

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Language English

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FREE

Beginner course for learners

Foundational Learning
Access to Study Materials
Self-Paced Learning

Why enroll

Participants join this course to gain a clear and strong understanding of transformer fundamentals in simple language. It helps them understand working principles, losses, and tests, which are very important for exams and interviews. The course also improves problem-solving skills and practical knowledge used in real electrical systems.

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Course content

The course is readily available, allowing learners to start and complete it at their own pace.

Transformers

25 Lectures

257 min

Transformers introduction | Machines | Lec-01
Preview
7 min
Transformers Working principle | Machines | Lec - 02
9 min
Statically induced EMF in Transformer | Types | Machines | Lec-03
11 min
Transformer Construction | Machines | Lec-04
11 min
Types of Transformers | Machines | Lec-05
9 min
Transformer EMF equation | Machines | Lec - 06
16 min
Ideal Transformer | Introduction | Machines | Lec - 07
6 min
Voltage transformation Ratio (K) | Transformers | Machines | Lec - 08
8 min
Transformer Under load | Transformers | Lec - 10
12 min
Transformer Operation with Winding resistance | Transformers | Lec - 11
14 min
Transformer Operation with Leakage flux | Transformers | Lec - 12
13 min
Transformer Equivalent Circuit | Transformers | Lec - 13
21 min
Losses in Transformer | Types | Transformers | Lec - 14
6 min
Copper losses in Transformer | Transformers | Lec - 15
13 min
Iron losses in Transformer | Transformers | Lec - 16
11 min
Stray load losses in Transformer | Copper & Iron | Transformers | Lec - 17
11 min
Dielectric losses in Transformer | Copper & Iron | Transformers | Lec - 18
9 min
Iron losses | V/ f constant | Transformers | Lec - 19
5 min
Hysteresis loss | Numerical | Transformers | Lec - 20
5 min
Iron losses | Constant flux | Transformers | Lec - 21
7 min
Transformers tests | Transformers | Lec - 22
10 min
Open Circuit Test | Transformers | Transformers | Lec - 23
14 min
Short Circuit Test On Transformers | Transformers | Lec - 24
13 min
Short Circuit Test | Examples | Transformers | Transformers | Lec - 25
8 min
Transformers Rating | Transformers | Lec - 26
8 min

Course details

This Transformer course is designed to help learners clearly understand the fundamentals and working of transformers in a simple and easy way. It starts with an introduction and explains the basic working principle and EMF generation in transformers. The course covers construction details and different types of transformers used in practice. Learners will understand the EMF equation, ideal transformer concept, and voltage transformation ratio step by step. The behavior of transformers under load conditions is explained with winding resistance and leakage flux effects. The course gives clear knowledge of the transformer equivalent circuit for performance analysis. All types of losses such as copper, iron, stray, and dielectric losses are explained in detail. Special focus is given to iron losses, hysteresis loss, and numerical problems. Important transformer tests like open-circuit and short-circuit tests are explained with examples. Finally, the course explains transformer rating and practical performance, making it very useful for exams and real-world applications.

Source: Education 4u (Youtube Channel)

Course suitable for

Automotive
Electrical
Engineering & Design
Project Management
Research & Developmnet

Key topics covered

Basic concept of transformers
Importance and applications

Principle of mutual induction
Energy transfer mechanism
EMF generation concept
Types of induced EMF

Core construction
Winding arrangement
Insulation and cooling

Based on construction
Based on application
Based on cooling

Derivation of EMF equation
Significance of EMF equation

Definition of ideal transformer
Assumptions and characteristics

Definition of transformation ratio
Relation between voltage, current, and turns

Load conditions
Effect of load on voltage and current

Effect of winding resistance
Copper losses and voltage drop

Leakage flux concept
Impact on performance

Approximate equivalent circuit
Exact equivalent circuit

Types of losses
Effect on efficiency

Causes of copper losses
Dependence on load

Core losses
Factors affecting iron losses

Causes of stray losses
Relation to copper and iron losses

Insulation losses
Factors influencing dielectric loss

Effect of voltage and frequency
Practical significance

Hysteresis phenomenon
Numerical problems

Flux control concept
Loss behavior

Purpose of transformer testing
Types of tests

Procedure
Determination of iron losses

Procedure
Determination of copper losses

Problem-solving methods
Interpretation of results

kVA rating concept
Factors affecting transformer rating

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