MicroLabBox II: Exclusive Package for Universities & Research Labs
- Research and Education
- Rapid Prototyping
- HIL Testing
01:17min
Overview
We are pleased to present the MicroLabBox II, the latest addition to our hardware portfolio, specifically engineered for research and development, e.g. in academic institutions and research laboratories. This compact, high-performance system is engineered for the development and testing of real-time controls, making it an ideal solution for cutting-edge research and hands-on education.
A standout feature for universities is our exclusive academic package, which includes not only the MicroLabBox II hardware but also a suite of comprehensive software. The software bundle supports simulation and real-time testing on dSPACE’s industry-leading control and simulation platforms.
To further support the academic community, we offer a special educational discount, significantly reducing the cost barrier for universities and research labs. This makes it easier than ever to integrate advanced real-time testing capabilities into your curriculum or research projects.
Hosts
Martin Teiner
Product Manager, Real-Time Test & Development Solutions, dSPACE
Tim Förster
Product Manager, Real-Time Test & Development Solutions, dSPACE
FAQ
What environments is the MicroLabBox II designed for?
It is designed primarily for labs in academia and research, supporting real-time control and testing applications.
Which software models are compatible with the MicroLabBox II?
The system supports Simulink models, models adhering to the FMI standard, VHDL models via FPGA, and other simulation types.
What are the hardware connectivity options?
The device comes in two varieties: one with BNC connectors on top and another with Sub-D connectors at the front.
Is there any special offer for universities?
Yes, dSPACE offers a package including comprehensive software licenses along with a special discount targeted at academic institutions.
How does the MicroLabBox II support high-performance applications?
It includes a quad-core processor and a large FPGA capable of step sizes in the nanosecond range, essential for precise, high-speed control and simulation.
