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This paper comprises the design, analysis, experimental verification and field weakening performance study of a brushless direct current (BLDC) motor for a light electric vehicle. The main objective is to design a BLDC motor having a higher value d-axis inductance, which implies an improved performance of field weakening and a higher constant power speed ratio (CPSR) operation. Field weakening operation of surface-mounted permanent magnet (SMPM) BLDC motors requires a large d-axis inductance, which is characteristically low for those motors due to large air gap and PM features. The design phases of the sub-fractional slot-concentrated winding structure with unequal tooth widths include the motivation and the computer aided study which is based on Finite Element Analysis using ANSYS Maxwell. A 24/20 slot-pole SMPM BLDC motor is chosen for prototyping. The designed motor is manufactured and performed at different phase-advanced currents in the field weakening region controlled by a TMS320F28335 digital signal processor. As a result of the experimental work, the feasibility and effectiveness of field weakening for BLDC motors are discussed thoroughly and the contribution of higher winding inductance is verified.

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On regenerative braking capability of BLDC motor

Kıvanç

Üstün

Tosun

et al. 2016

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Design, analysis and implementation of a subfractional slot concentrated winding BLDCM with unequal tooth widths

Senol

Üstün

2011

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Özgür Üstün

An Introduction to Regenerative Braking of Electric Vehicles as Anti-Lock Braking System

Energy Management Method for solar race car design and application

On Field Weakening Performance of a Brushless Direct Current Motor with Higher Winding Inductance: Why Does Design Matter?

On regenerative braking capability of BLDC motor

Design, analysis and implementation of a subfractional slot concentrated winding BLDCM with unequal tooth widths

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