Bo-Kai Huang scite author profile

Bo-Kai Huang

4Publications

1Citation Statement Received

8Citation Statements Given

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Affiliations

National Yunlin University of Science and Technology

Publications

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Multi-Motor Synchronous Control with CANopen

Hung

Lee²,

Huang

et al. 2019

JRNAL

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A Brushless DC (BLDC) motors synchronous control system based on the CANopen (a communication protocol and device profile specification for automatic embedded systems) protocol is proposed in this paper. Multi-motor control is popular in robot or automation system, and the synchronization is an important issue, may be the key issue. The CANopen is a solution, due to Process Data Object (PDO) protocol. A Texas Instruments microcontroller TMS320F28069 is used as master to control six BLDC motors used as slave in this paper. The Master sends synchronization object to slaves' base on the communication profile CAN (Controller Area Network) in Automation (CiA) 301 and the motion control profile CiA402. The system suns at 500 kbits/s and 1 Mbits/s transmission rate by setting PDO. The firmware details in this paper to show six-motor synchronous control.

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A Sensor-less Ultra-high Speed Motor Driver

Hung

Huang

et al. 2017

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Surface Characteristics of Thick, Free-Standing Diamond Film Prepared by Chemical Etching and Rapid Thermal Processing

Huang

2001

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A Sensor-less Ultra-high-Speed Motor Driver

Hung

Huang

et al. 2017

JRNAL

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Ultra-high-speed motors play a very important role in machine tools. A speed-sensor-less ultra-high-speed motor driver is proposed in this paper. Without any speed sensor that is extremely expensive, the proposed driver employing a sensor-less estimation scheme can perform a closed-loop control very accurately and efficiently. The design and implementation of the driver and feedback circuits are detailed in this paper. Experimental results show that the proposed system functions very well.

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Bo-Kai Huang

Multi-Motor Synchronous Control with CANopen

A Sensor-less Ultra-high Speed Motor Driver

Surface Characteristics of Thick, Free-Standing Diamond Film Prepared by Chemical Etching and Rapid Thermal Processing

A Sensor-less Ultra-high-Speed Motor Driver

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