ANALYSIS AND DESIGN OF 250 WATTS BRUSHLESS DC MOTORS FOR URBAN ELECTRIC BICYCLES
ANALYSIS AND DESIGN OF 250 WATTS BRUSHLESS DC MOTORS FOR URBAN ELECTRIC BICYCLES Adzhani Zalfa Aliyadin ABSTRACT Electric bicycles have become one of the most popular vehicle modes in recent years. With that, comes a need of a research regarding BLDC motors, as one of the main components in a...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/66613 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | ANALYSIS AND DESIGN OF 250 WATTS BRUSHLESS
DC MOTORS FOR URBAN ELECTRIC BICYCLES
Adzhani Zalfa Aliyadin
ABSTRACT
Electric bicycles have become one of the most popular vehicle modes in
recent years. With that, comes a need of a research regarding BLDC motors, as one
of the main components in a electric bicycle, in order to get the optimal design for
its use in electric bicycles. In this final project, research is carried out focusing on
the winding design of a BLDC motor for electric bicycles. Using a Bafang BLDC
hub motor as a reference motor, which has a 18 slot-20 pole configurations, a
reverse-engineering process is carried out to obtain a more optimal design. An
analysis is done related to the effect of each winding parameter on motor
performance. Based on this analysis and the criteria for e-bike BLDC, three winding
design option is proposed. The design criteria for electric bicycles BLDC are
determined from the needs of the rider, government regulations, and physical
limitations. The winding design that fulfill the criteria and is the easiest to be
implemented is chosen. The proposed design is compared with the reference design
in regard to its performance. Finally, an analysis of the magnetic flux distribution
was carried out for the proposed design. Based on the experiment, it was found that
the proposed design has better performance than the reference design. It was found
that the proposed design has the ability to generate 250 watts of constant power for
a wider speed range, and has higher efficiency.
Keywords—BLDC, electric bicycles, winding design, FEM analysis |
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