Our solutions support you in developing and testing power electronics controllers for industrial applications, such as production machines, power plant generators, robotics, and transportation. Typical applications include active front ends (AFE) that supply the common DC bus of the drive system and connect it bidirectionally to the power grid, and high-performance drives with high switching frequencies.
Electric motors for industrial drive applications come in many different variants. Depending on the application, they differ in size and precision as well as in the drive power to be provided. In addition to the electric motor, industrial electric drives typically include inverters and rotary encoders, which also exist in numerous variants. Developing control algorithms for these machines is becoming increasingly complex for several reasons: Ever more fast-switching components are being used, regenerative capability is required, and parallel as well as interleaved structures are being used. The testing effort on the way to market maturity is also considerable for these machines, as the various possible combinations must be tested extensively in advance. However, since it is not possible to set up every combination in the real world, virtualization is key for efficient testing. In addition to the increased test coverage, virtualization also allows manufacturers to easily reproduce their tests and to test all kinds of situations, including those that might be too dangerous to test in the real world.
Another important approach in the development and testing of industrial drives is the use of digital twins. Their integration into the test setup facilitates the simulation of entire systems instead of individual components, which is crucial when developing very large systems, such as printing machines, with hundreds of electric drives or systems that are difficult to maintain like wind power generators or large mining equipment. For testing, less relevant functions of these systems can be represented by digital twins.
dSPACE has years of experience in meeting the special requirements of electric drives, which makes us a highly flexible and reliable partner, offering the most comprehensive solution portfolio for e-drive development and validation. You can use our cutting-edge hardware and software solutions for a wide range of industrial applications – from production machines and power plant generators to robotics and transportation. Benefit from the many advantages of our powerful FPGA-based hardware solutions, including:
We also provide preconfigured models for a wide range of electric components. With ASM Electric Components, we offer real-time models for electric drive simulation. Our dSPACE XSG Electric Component Models allow for FPGA-based simulation of electric components that require high dynamics and precision. With our Electrical Power Systems Simulation (EPSS) Package, you can easily simulate power electronics circuits developed with Simscape Electrical™ (Specialized Power Systems) in real time.
Our dSPACE Engineering Services can give you turn-key solutions tailored to your individual requirements for a wide range of systems – from individual actuators to complete production machines.
We offer comprehensive hardware-in-the-loop (HIL) systems for testing controller algorithms of industrial drive controls. Learn more about typical applications and the benefits of our solution portfolio.RCP Tests for Industrial Drive Controllers
Our rapid control prototyping (RCP) systems provide flexible solutions for developing and validating controller algorithms of industrial drive controls. Learn more about the benefits our solutions portfolio has to offer.HIL Tests for the Power Equipment of Electric Trains
Electric trains are characterized by a broad range of components and systems, including a considerable amount of electric drives and other power equipment components. Learn how to test controllers for grid interfaces, electric drives, and power electronics with our dSPACE solutions.RCP Systems for Robotic Motion Controllers
Using our rapid control prototyping (RCP) systems, you can easily develop and validate functions for robotic motion controllers in a real environment. Learn more about the benefits our solutions portfolio has to offer.
The Vienna University of Technology (TU Wien) and Siemens worked on a new kind of test bench for high-speed train pantographs to transfer parts of the usual test runs to the lab. On board with them: tools from dSPACE.
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