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Design and Testing of Brushless DC Motors in Fan


Affiliations
1 Maharaja Surajmal Institute of Technology, New Delhi 110 058, India

Brushless DC (BLDC) motors have harvested significant attention in various industrial, commercial, and consumer applications owing to their high efficiency, low maintenance, and robust performance characteristics. This paper presents design and testing of an efficient BLDC motor in accordance with IEC 61000-4-11 standard. The detailed analysis of the circuit and PCB design of an efficient BLDC motor is presented. The various kind of test like input characteristics test, Safety test, EMI/EMC test and reliability test are performed to check performance of BLDC fan motor PCB. The designed BLDC fan motor shows excellent performance, with power consumption rising from 3.13 W to 32.49 W and the power factor improving from 0.52 to 0.99 as speed increases. The significant THD reduction from 58.51% to 3.87% highlights superior power quality. These results affirm the motor's suitability for various real-world applications

Keywords

BLDC; IEC61000-4-11; Total Harmonic Distortion; EMI/EMC test; Safety test
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  • Design and Testing of Brushless DC Motors in Fan

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Authors

Richa Gupta
Maharaja Surajmal Institute of Technology, New Delhi 110 058, India

Abstract


Brushless DC (BLDC) motors have harvested significant attention in various industrial, commercial, and consumer applications owing to their high efficiency, low maintenance, and robust performance characteristics. This paper presents design and testing of an efficient BLDC motor in accordance with IEC 61000-4-11 standard. The detailed analysis of the circuit and PCB design of an efficient BLDC motor is presented. The various kind of test like input characteristics test, Safety test, EMI/EMC test and reliability test are performed to check performance of BLDC fan motor PCB. The designed BLDC fan motor shows excellent performance, with power consumption rising from 3.13 W to 32.49 W and the power factor improving from 0.52 to 0.99 as speed increases. The significant THD reduction from 58.51% to 3.87% highlights superior power quality. These results affirm the motor's suitability for various real-world applications

Keywords


BLDC; IEC61000-4-11; Total Harmonic Distortion; EMI/EMC test; Safety test