Successful partnerships

The Impedyme CHP 150 is a high-voltage, high-frequency test and emulation system with modular architecture and advanced liquid-air thermal management. Designed for HIL and PHIL applications, it allows for real-time simulation and validation of devices such as inverters, batteries, and grid-connected systems, reproducing realistic operating conditions. With high accuracy, safety, and scalability, it accelerates development and increases product reliability.

The Impedyme PHIL 300 is a high-performance HIL/PHIL test system for high voltage and frequency, with modular architecture and advanced thermal management. It enables real-time emulation of electric motors, drives, power electronics, and automotive systems, ensuring accuracy, safety, and scalability. Ideal for electric motor emulation and controller validation without the need for physical motors, it accelerates development and increases product reliability.

The Impedyme RCP-Box is an innovative modular control platform specifically developed for Rapid Control Prototyping (RCP) in power electronics. Designed for high performance and adaptability, it provides engineers and researchers with a robust tool for validating power converter control techniques in experimental and R&D environments.

The Impedyme RCP-Box is an innovative modular control platform specifically developed for Rapid Control Prototyping (RCP) in power electronics. Designed for high performance and adaptability, it provides engineers and researchers with a robust tool for validating power converter control techniques in experimental and R&D environments.

Software to configure, control and automate HIL and PHIL tests in real time, with full integration with MATLAB/Simulink, dedicated applications (network, motor, battery, impedance) and automation via scripts.

The 4Q Dynamometer Testbench is a high-performance platform for motor emulation and inverter validation. Its 4-quadrant configuration dynamically simulates motoring and generation conditions, enabling realistic real-time testing.

With one machine acting as a DUT and another as a programmable load, the bench faithfully reproduces operating conditions for applications such as wind turbine emulation, electric drive testing, and validation of electric vehicle motors and inverters.

Developing high-performance inverters requires realistic testing from the earliest stages. Impedyme motor emulators replace passive RL loads, enabling faithful simulation of real-world active power, DC power flow, and full component stress conditions.

RCP (Signal Level): Low-power motor emulation to validate controllers with real-time simulation, without physical risk. Simple setup, fast parameter adjustment, and standalone operation with integrated liquid cooling.

CHP (power level): active and programmable emulator for realistic voltage and current testing in inverters, with four-quadrant operation and reliable validation in electrical transmission systems.

By combining RCP and CHP into a unified platform, Impedyme offers full traceability, scalability from concept to production, and accelerated development cycle.

Benefits: Realistic testing, increased accuracy, fast commissioning, and reliable validation of inverter hardware for electric mobility.

The Impedyme Grid Emulator is a regenerative grid simulation and emulation system for advanced HIL and PHIL testing. Ideal for validating renewable energy systems, microgrids, inverters, and grid-connected devices under realistic conditions.

Highlights:

Regenerative emulation: bidirectional power up to 100% capacity, with dynamic power flow.

High density: up to 110 kVA/kW per cabinet, expandable to 550 kVA/kW or configurations above 1.3 MW.

International compliance: tests according to IEEE 1547, UL 1741, IEC 61000-3/4, among others.

Simulation of disturbances: harmonics, voltage sags/swells, flicker and power quality events without external equipment.

Optimized PHIL interface: low latency for testing inverters, relays and closed-loop protection devices.

Flexibility: supporting single-phase, two-phase, three-phase, AC and DC modes.

A scalable, accurate, and versatile platform for R&D and compliance testing in renewable energy and smart grids.