This paper presents a novel deadbeat current control approach for Permanent Magnet Synchronous Motors (PMSMs) drives capable of operating at a controller sampling frequency multiple of the power converter switching frequency. The proposed technique permits to achieve a constant switching frequency and an optimal current ripple along with a high current loop bandwidth and robust behaviour to parameter variation. © 2016 IEEE
Servo systems play an important role in industrial automation. A servo system denotes a closed loop ...
© 2017 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
This paper proposes a motor parameter-free predictive current control of synchronous motor drives. I...
This paper presents a novel deadbeat current control approach for Permanent Magnet Synchronous Motor...
This paper presents a novel oversampling deadbeat current control approach for permanent magnet sync...
Abstract When the speed of permanent magnet motor is relatively high, the fundamental frequency of s...
Thanks to the merits of superior dynamic response capability and current tracking performance, the d...
The steady-state error and torque ripple caused by the mismatch or variation of parameters in the de...
This paper analyzes the conventional dq-frame model-based deadbeat predictive current control (DBPCC...
Harmonic-afflicted effects of permanent magnet synchronous machines with high power density are hard...
Thanks to the features of fast dynamic response, excellent static tracking performance, and less com...
The low ratio of sampling frequency to electrical frequency (carrier ratio) is a challenging issue f...
High bandwidth and accuracy of the current control loop are fundamental requisites when a fast torqu...
This paper presents simulation and experimental results obtained with a Dead- Beat predictive curren...
Deadbeat predictive current control (DBPCC) has the characteristic of fast current response, but it ...
Servo systems play an important role in industrial automation. A servo system denotes a closed loop ...
© 2017 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
This paper proposes a motor parameter-free predictive current control of synchronous motor drives. I...
This paper presents a novel deadbeat current control approach for Permanent Magnet Synchronous Motor...
This paper presents a novel oversampling deadbeat current control approach for permanent magnet sync...
Abstract When the speed of permanent magnet motor is relatively high, the fundamental frequency of s...
Thanks to the merits of superior dynamic response capability and current tracking performance, the d...
The steady-state error and torque ripple caused by the mismatch or variation of parameters in the de...
This paper analyzes the conventional dq-frame model-based deadbeat predictive current control (DBPCC...
Harmonic-afflicted effects of permanent magnet synchronous machines with high power density are hard...
Thanks to the features of fast dynamic response, excellent static tracking performance, and less com...
The low ratio of sampling frequency to electrical frequency (carrier ratio) is a challenging issue f...
High bandwidth and accuracy of the current control loop are fundamental requisites when a fast torqu...
This paper presents simulation and experimental results obtained with a Dead- Beat predictive curren...
Deadbeat predictive current control (DBPCC) has the characteristic of fast current response, but it ...
Servo systems play an important role in industrial automation. A servo system denotes a closed loop ...
© 2017 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
This paper proposes a motor parameter-free predictive current control of synchronous motor drives. I...