Complex drive model of linear synchronous motor with variable load

journal article in Web of Science

en

This paper compares results between real linear synchronous motor and its digital twin. These days, digital twins are very important for developing new machines. Achieving accuracy using the finite element method is possible, but the time consuming does not allow real-time simulations. Digital twin in this paper is based on mathematical model include thermal dependency. Input model parameters are commonly specified in motor datasheet or simply measurable. Real motor is load in different operating points for the for better model quality evaluation. The structure of the control loops has a significant influence on the digital twin response, therefore the design is based on the used motor driver.

This paper compares results between real linear synchronous motor and its digital twin. These days, digital twins are very important for developing new machines. Achieving accuracy using the finite element method is possible, but the time consuming does not allow real-time simulations. Digital twin in this paper is based on mathematical model include thermal dependency. Input model parameters are commonly specified in motor datasheet or simply measurable. Real motor is load in different operating points for the for better model quality evaluation. The structure of the control loops has a significant influence on the digital twin response, therefore the design is based on the used motor driver.

linear synchronous motor, digital twin, thermal analysis, mathematical dynamic model, machine-tool

01.05.2023

1803-1269

March 2023

1

6398–6406

6