Single Layer Full Pitch Winding — Lesson 3

This lesson covers the principles of stator winding design, focusing on single layer full pitch winding. It explains how to select the number of coils, coil pitch, and how to place different coils in different slots. The lesson also discusses how to calculate the number of turns per phase using Faraday's law of voltage equation. It further elaborates on the process of making coils, inserting them in different slots, and making the connections. The lesson also provides a detailed example of a 24 slot 3 phase 4 pole winding and 24 slot stator core frame. It concludes with a discussion on how to ensure symmetry in end winding distribution.

Video Highlights

00:00 - Introduction to stator winding design
00:30 - Explanation of single layer full pitch winding
11:32 - Explanation of stubbing approach for winding connections
29:29 - Calculating number of turns per phase

Key Takeaways

- Understanding the principles of stator winding design is crucial in electrical engineering.
- The number of coils, coil pitch, and their placement in different slots are key factors in stator winding design.
- Faraday's law of voltage equation is used to calculate the number of turns per phase.
- The stubbing approach is an effective method for making winding connections.
- Ensuring symmetry in end winding distribution is important for the successful placement of the rotor.