Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Sensorless Rapidly Varying Rotor Speed Control of BLDC Motor through Fast Commutation Error Correction Method
View through CrossRef
The sensorless control of a BLDC (Brushless DC) motor can be challenging due to the rapidly varying rotor speed, which can result in errors in the commutation process. In this context, a fast commutation error correction method is proposed to overcome this issue. The proposed method utilizes an estimation of the rotor position based on the changing voltage when the device is placed in a magnetic field of the motor, which is measured by a Hall effect sensor. The measured voltage is used to calculate the rotor position. To implement the proposed method, a current controlled pulse width modulation (PWM) technique which uses a PID (Proportional Integral Derivative) controller to adjust the commutation angle. The performance of the system is evaluated through simulation and experimental studies, which demonstrate its ability to achieve accurate sensorless control of a BLDC motor, even under rapidly varying rotor speed conditions. Overall, the fast commutation error correction method provides a viable solution for achieving sensorless control of BLDC motors under challenging conditions, such as those encountered in high-speed applications.
Title: Sensorless Rapidly Varying Rotor Speed Control of BLDC Motor through Fast Commutation Error Correction Method
Description:
The sensorless control of a BLDC (Brushless DC) motor can be challenging due to the rapidly varying rotor speed, which can result in errors in the commutation process.
In this context, a fast commutation error correction method is proposed to overcome this issue.
The proposed method utilizes an estimation of the rotor position based on the changing voltage when the device is placed in a magnetic field of the motor, which is measured by a Hall effect sensor.
The measured voltage is used to calculate the rotor position.
To implement the proposed method, a current controlled pulse width modulation (PWM) technique which uses a PID (Proportional Integral Derivative) controller to adjust the commutation angle.
The performance of the system is evaluated through simulation and experimental studies, which demonstrate its ability to achieve accurate sensorless control of a BLDC motor, even under rapidly varying rotor speed conditions.
Overall, the fast commutation error correction method provides a viable solution for achieving sensorless control of BLDC motors under challenging conditions, such as those encountered in high-speed applications.
Related Results
Enhancing Performance of BLDC: An Improved Fast Terminal Slide Mode Control for BLDC Motor Speed Control
Enhancing Performance of BLDC: An Improved Fast Terminal Slide Mode Control for BLDC Motor Speed Control
Abstract
Due to their several merits over brushed DC motors, comprising their superior dynamic characteristics, higher efficiency, a slightly lower noise level, and their u...
Modelització i control d'accionaments elèctrics.
Modelització i control d'accionaments elèctrics.
L'actual situació energètica demanda cada cop més d'aplicacions que redueixin el consum energètic. A nivell d'energia elèctrica, i de la conversió d'aquesta a energia mecànica, els...
Overview of AC Motor Sensorless Algorithms: a Unified Perspective
Overview of AC Motor Sensorless Algorithms: a Unified Perspective
This paper reviews sensorless algorithms for both induction motors and permanent magnet motors using the active flux model, such that any design applicable for non-salient pole ac ...
ANALISIS FINITE ELEMENT PENGARUH LEBAR CELAH UDARA TERHADAP PEFORMA MOTOR INDUKSI SATU FASA
ANALISIS FINITE ELEMENT PENGARUH LEBAR CELAH UDARA TERHADAP PEFORMA MOTOR INDUKSI SATU FASA
Motor induksi merupakan motor listrik yang luas penggunaannya khususnya pada industri. Seringkali industri yang terletak jauh di pedalaman, bila terjadi kerusakan pada motor induks...
SPEED SENSORLESS CONTROL FOR PMSM DRIVES USING EXTENDED KALMAN FILTER
SPEED SENSORLESS CONTROL FOR PMSM DRIVES USING EXTENDED KALMAN FILTER
In this paper, Sensorless Permanent Magnet Synchronous Motor (PMSM) using Extended Kalman Filter (EKF) is presented. The previous PMSM drive uses a sensor to measure the motor’s sp...
Diagnosing of BLDC Motor Faults based on LSSVM Model and Vibration Signal
Diagnosing of BLDC Motor Faults based on LSSVM Model and Vibration Signal
A BLDC motor is commonly used as the driver of an electric vehicle. So that this part becomes a critical component in the electric vehicle system. Any faults in the motor can cause...
Analisis Pengaruh Hubungan PWM Terhadap Kecepatan dan Thrust pada Motor BLDC Menggunakan Metode Regresi Linier Berbasis Python
Analisis Pengaruh Hubungan PWM Terhadap Kecepatan dan Thrust pada Motor BLDC Menggunakan Metode Regresi Linier Berbasis Python
Python merupakan salah satu bahasa pemrograman yang sering digunakan untuk beberapa project robotika, machine learning, artificial intelegent, data scientist dan data analysis. Hal...
Highly-efficient Aerodynamic Design of Rotor with High Performance
Highly-efficient Aerodynamic Design of Rotor with High Performance
To design helicopter rotor efficiently, an adjoint-based and RBF surrogate model coupled method is applied for aerodynamic design of hovering rotor with high aerodynamic performanc...