A Bridge Type DC-DC Converter fed BLDC Motor Drive for Household Appliances

Arunkumar, S.; Sundaram, Narayana; Thottungal, Rani; Shreya, A

doi:10.1109/icaeca52838.2021.9675498

Cited by 4 publications

(2 citation statements)

References 6 publications

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“…The field of electronics has undergone a complete transformation in the regulation of DC motor speed due to significant advancements. As a result of these advancements, these drives have gained significant relevance [21], [22]. Speed control is the major feature that is sought in domestic, industrial, and robotics applications of DC motors [23].…”

Section: Introductionmentioning

confidence: 99%

Development of a microcontroller and resistive touchscreen-based speed monitoring and control system for DC motor

Adebisi,

Ogundare,

Erinosho

et al. 2023

IJAAS

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<span>Speed control is a key requirement in direct current (DC) motor applications where accuracy, reliability, flexibility, and safety are of high importance. In this study, a microcontroller and resistive touchscreen-based DC motor speed monitoring and control system were developed. The core components employed in the development of the system include Arduino ATMega328P microcontroller, thin film technology (TFT) resistive touch screen, L293D motor driver, and infrared (IR) sensor module. ATMega328P microcontroller is the brain of the system around which the overall circuit design was modeled. TFT resistive touch screen displays the motor speed and also, enables the users to set a desired speed. L293D motor driver regulates the voltage and current supplied to the motor, and a feedback loop comprising an IR sensor module ensures the maintenance of the motor speed at the desired level. A performance test was conducted on the developed system to ascertain its correct functionality. The developed speed monitoring and control system operated satisfactorily during testing; achieving a speed control in the range of 800 to 3000 rpm. The developed device is useful and can be scaled up for various domestic and industrial applications.</span>

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Section: Introductionmentioning

confidence: 99%

Development of a microcontroller and resistive touchscreen-based speed monitoring and control system for DC motor

Adebisi,

Ogundare,

Erinosho

et al. 2023

IJAAS

View full text Add to dashboard Cite

show abstract

“…Traditional electric machines used in household appliances have many disadvantages; for instance, they have low energy efficiency and a low starting torque, and there is a problem with sparking brushes and the need to replace them. Nowadays, conventional AC and DC motors are being replaced with new solutions [ 9 ]. One of the examples of solutions is Brushless DC Motors, which has become the preferred type of motor in recent years, among others, due to their high efficiency.…”

Section: Introductionmentioning

confidence: 99%

Comparison of the Design of 3-Pole BLDC Actuators/Motors with a Rotor Based on a Single Permanent Magnet

Smółka

Firych‐Nowacka

2022

Sensors

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Permanent Magnet (PM) Brushless Direct Current (BLDC) actuators/motors have many advantages over conventional machines, including high efficiency, easy controllability over a wide range of operating speeds, etc. There are many prototypes for such motors; some of them have a very complicated construction, and this ensures their high efficiency. However, in the case of household appliances, the most important thing is simplicity, and, thus, the lowest price of the design and production. This article presents a comparison of computer models of different design solutions for a small PM BLDC motor that uses a rotor in the form of a single ferrite magnet. The analyses were performed by using the finite element method. This paper presents unique self-defined parts of basic PM BLDC actuators. With their help, various design solutions were compared with the PM BLDC motor used in household appliances. The authors proved that the reference device is the lightest one and has a lower cogging torque compared to other actuators, but also has a slightly lower driving torque.

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A novel power quality-improved high-step-up-gain Luo converter-powered BLDC motor drive with model reference adaptive controller for electric vehicles

Selvaraj,

Thottungal

2024

Electr Eng

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A Bridge Type DC-DC Converter fed BLDC Motor Drive for Household Appliances

Cited by 4 publications

References 6 publications

Development of a microcontroller and resistive touchscreen-based speed monitoring and control system for DC motor

Development of a microcontroller and resistive touchscreen-based speed monitoring and control system for DC motor

Comparison of the Design of 3-Pole BLDC Actuators/Motors with a Rotor Based on a Single Permanent Magnet

A novel power quality-improved high-step-up-gain Luo converter-powered BLDC motor drive with model reference adaptive controller for electric vehicles

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