Where Precision Meets Performance.

At Typhoon HIL we specialize in providing cutting-edge modeling services tailored to meet the dynamic needs of Hardware-in-the-Loop (HIL) testing. Our team expertise lies in creating dynamic and accurate models of complex systems, replicating real-world scenarios with precision. Whether you’re dealing with automotive systems, microgrid components, or industrial machinery, our modeling services ensure that your HIL simulations mirror reality.

Illustration of simulated and physical elements in HIL testing.

Recognizing the uniqueness of each client’s requirements, our team works closely with you to understand your specific needs and creates bespoke models that align perfectly with your testing objectives. To ensure the accuracy and reliability of models is paramount and with our comprehensive validation and verification processes guarantee that the models we develop are not just realistic but also robust, meeting the highest industry standards. We support your team with:

  • Experience modelers who possess in-depth knowledge of diverse industries
  • Cutting-edge technology to stay at the forefront of HIL testing with our use of the latest
  • Advanced tools and methodologies to create accurate and dynamic models
  • Rigorous validation and verification processes ensure the reliability and accuracy of the models before integration into your HIL testing setup
  • Scalable services to meet the unique needs of your project. From individual components to complex integrated systems, we’ve got you covered.
  • We assist your team with seamless integration of models into your HIL environment and provide ongoing support for optimal performance.
  • State-of-the-art software and methodologies to deliver proven results that exceed expectations

Book a modeling consultation, to achieve your testing goals and can revolutionize your HIL testing processes.

Insight | Modeling Flexible Microgrid Architecture

Vijay Bhavaraju from Eaton discusses the technical requirements to model and test a flexible microgrid architecture.