Practical Electrical Machine Design: Theory, & Calculations
Practical Electrical Machine Design: Theory, & Calculations
Published 7/2025
Duration: 3h 53m | .MP4 1920x1080 30 fps(r) | AAC, 44100 Hz, 2ch | 1.38 GB
Genre: eLearning | Language: English
Published 7/2025
Duration: 3h 53m | .MP4 1920x1080 30 fps(r) | AAC, 44100 Hz, 2ch | 1.38 GB
Genre: eLearning | Language: English
For Beginners and UG level College Students
What you'll learn
- Understand the core principles and construction of transformers, including design calculations and performance analysis.
- Apply practical transformer design skills to real-world applications, covering material selection, winding design, and testing procedures.
- Master the design and operation of induction motors, including equivalent circuit modeling, efficiency, and starting performance.
- Develop a solid grasp of synchronous motor design, covering excitation methods, power factor control, and their industrial applications.
Requirements
- A basic understanding of electromagnetics (magnetic circuits, flux, inductance, etc.).
- Fundamental knowledge of AC and DC machines, including their working principles and basic performance characteristics.
- Familiarity with standard electrical engineering terminology and basic circuit analysis concepts.
- An eagerness to learn and apply practical design methods — no advanced design experience required!
Description
This course on Electrical Machine Design offers a comprehensive understanding of design principles and real-world practices used in the electrical industry. It is created by Faisal Shaikh, an Electrical Engineer and Transformer Designer at Meem Transformer. The course is divided into five core areas, covering both theoretical and practical aspects of machine design for real-world applications and engineering success.
We begin with the design of three-phase transformers. You’ll learn to calculate design parameters, choose materials, plan winding configurations, and estimate cooling needs and performance. Next, the course explores the general aspects of rotating electrical machines, including electrical and magnetic loading, output coefficient, and machine sizing.
The third section covers the design of three-phase induction motors. It includes stator and rotor design, winding methods, flux density management, and rotor slot selection. After that, we explore DC machines, focusing on armature design, winding types like lap and wave, pole design, and field system configuration.
The final module is on synchronous machine design, including stator and rotor structure, short-circuit ratio, air-gap length, pole face design, and performance estimation.
This course is perfect for engineering students, recent graduates, and professionals looking to enhance their knowledge and practical design skills in electrical machines and systems.
Who this course is for:
- This course is designed for higher-semester students pursuing a BTech, BE, or BS degree in Electrical Engineering who want to build in-depth skills in electrical machine design. It is ideal for learners aiming to strengthen their understanding of transformers, induction motors, and synchronous motors from both a theoretical and practical perspective. The course will also benefit early-career engineers or diploma holders who wish to expand their design capabilities and gain hands-on knowledge relevant to the electrical industry.
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