Testing drive systems virtually
GlobalSpec News Desk | September 25, 2024How will the drive actually behave in the real-life application? For brushless DC motors from FAULHABER, this question can be answered without any hardware whatsoever. Solutions were recently added as virtual modules to a library and can be integrated into modeled applications using the simulation software Simulink. The simulated behavior serves as an indicator for the real-life situation. It takes just a few clicks to "try out" different drives. This makes the development process much easier.
Consider a transport drone used in logistics as an example. Its drives need to meet high dynamic demands to enable precise and responsive control of the flying object. They must respond without perceivable delay, smoothly and with precisely defined force. Motors that drive such high-precision applications therefore have to meet very high expectations.
Saves time and reduces risks
The transport drone is just one of many application examples for which simulation of the drive system during the development phase constitutes a valuable tool. What matters here is not only the behavior of the motor, which can be modeled with reasonable effort based on the data sheet parameters. A complete drive system also requires emulation of the sensor system and control. Realistic emulation of these components helps reduce comprehensive trials with physical drives.
Integrating sensor system and control
By modeling typical influences of various sensor systems, it is possible to simulate a realistic speed characteristic. The drive models can also be used by customers to develop their own controllers for actuating brushless FAULHABER motors. Although this is no substitute for tests on physical motors, this model-based method significantly reduces the time and risks associated with development.
For simulation of a controlled drive system with FAULHABER components, the library provides modules for torque, speed and motion control. Motion controllers of generation 3.0, which include e.g. the models MC 3001, MC 3603 and MC 5005, form the basis. In combination with a motor from the library and a configurable load inertia, the same controller parameters can be determined as those that exist in a physical motion controller. By simulating the complete drive system, it is possible to, for example, establish realistic positioning times, adapt the controller parameters or compare the behavior of the drive when different concepts are applied.
Practical toolbox
The Simulink library has been available online to FAULHABER customers since the beginning of the year. It is intended to supplement existing tools such as the FAULHABER Drive Calculator. It can be used for selecting a drive system as well as for model-based integration into the actual application. Not least, the simulation can also be used for creating a digital twin of the drive and to utilize this twin for advanced features in the context of the internet of things and Industry 4.0.