## Design of Armature Winding for 24 Stator Slots, 3-Phase, 50Hz , 4 Poles Induction Motor

For design of each electrical machine’s armature winding, we must first compute the slots per pole, then the slots per pole per phase and finally, the electrical angle between the windings of induction machine.

According to given data,

No. of slots = 24

No. of poles = 4

No. of phases = 3

Frequency = 50 Hz

Calculations,

Each stator slot is covered twice in the above 3-phase (R, Y, and B) machine design.

## Design of Armature Winding for 36 Stator Slots, 3-Phase, 50Hz , 4 Poles Induction Motor

For design of each electrical machine’s armature winding, we must first compute the slots per pole, then the slots per pole per phase and finally, the electrical angle between the windings of induction machine.

According to given data,

No. of slots = 36

No. of poles = 4

No. of phases = 3

Frequency = 50 Hz

Calculations,

Each stator slot is covered twice in the above 3-phase (R, Y, and B) machine design.

## Design of Armature Winding for 72 Stator Slots, 3-Phase, 50Hz , 8 Poles Induction Motor

For design of each electrical machine’s armature winding, we must first compute the slots per pole, then the slots per pole per phase and finally, the electrical angle between the windings of induction machine.

According to given data,

No. of slots = 72

No. of poles = 8

No. of phases = 3

Frequency = 50 Hz

Calculations,

Each stator slot is covered twice in the above 3-phase (R, Y, and B) machine design.

#### Er. Sourabh Deol

Sourabh Deol is a multifaceted professional with expertise in electrical engineering, thumbnail design, blogging, and content writing. He is dedicated to simplifying complex engineering concepts, making them accessible and understandable for a broad audience.