While imperix controllers are typically programmed with applications built in Simulink or PLECS, imperix also provides direct access to FPGA resources through its FPGA development…
This page presents a practical example of Aurora communication with Plexim simulators, namely the RT-Box 1, RT-Box 2 and RT-Box 3. It provides a ready-to-use…
Debugging an FPGA design can be difficult without clear visibility into the high-speed logic fabric, where signals change at nanosecond scales. Xilinx Integrated Logic Analyzer…
This article provides getting-started instructions for first-time users of the imperix ACG SDK. It focuses on the typical workflow associated with the simulation and automated…
This guide provides an overview of key points to consider when testing power converters in a laboratory environment, covering personnel safety, equipment protection, and the…
All imperix products subject to user programming from the ACG SDK or the CPP SDK require a software license. This concerns the B-Box controllers family…
Imperix products are designed to prioritize safety, giving users the confidence needed to move straight to laboratory testing as soon as possible. This article aims…
This article explores imperix’s portfolio of programmable controllers, highlighting how each device is optimized for specific power-electronics applications. Products presentation All imperix controllers use a…
This note shows a possible control for a grid tied back to back converter. The proposed control implements active damping of the LCL filter.
Switching ripple filters are commonly added to grid-connected voltage source converters (VSCs) to filter out undesirable switching harmonics from the VSC’s output voltage. LCL filters…
End of content
End of content
