IEEE Access (Jan 2023)
Single Current Sensor-Based Speed Sensorless Vector Controlled PMSM Drive
Abstract
Single current sensor-based speed sensorless vector controlled PMSM (“Permanent Magnet Synchronous Motor”) drive is presented in this paper. Speed, position, and currents are estimated using single current sensor information of 3- $\Phi $ PMSM drive. 2- $\Phi $ currents in the $dq-axes$ are calculated and closed in the loop using $i_{qs}^{\ast }$ and a phase current information obtained from the single current sensor. The proposed method applies to all types of 3- $\Phi $ PMSM; current estimation is independent of machine parameters and inverter switching states. Drive is made speed and position sensorless by estimating using Y-MRAS (Model Reference Adaptive System). Y-MRAS is developed using reference voltages and estimated currents. The speed estimator depends on stator resistance; any variation in it will affect the drive performance. So, stator resistance needs to be estimated online and compensated in the speed estimation technique. Modified P-MRAS technique is used for stator resistance estimation. Here, the drive performance is also validated under stator resistance variation and its compensation. The proposed drive is independent of switching states, integrator terms, and differentiator terms. The single sensor drive reduces the overall cost of the drive and can be implemented into the existing system for sensor condition monitoring and to make the drive fault tolerant against the sensor failure without any extra hardware. The proposed single sensor-based drive is theoretically-modeled and simulated in the MATLAB/SIMULINK platform. The stability of the proposed drive is verified through a stability analysis. It is experimentally validated using a laboratory-developed PMSM drive prototype with a dSPACE-1104 controller board.
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