Device testing, characterization, and modeling services for power electronics design automation.
Comprehensive device testing and characterization services including electrical and thermal analysis to enable accurate design automation and optimization for power electronics systems.
Comprehensive testing of semiconductor devices including switching characteristics, switching losses, on-state resistance, gate charge, and electrical performance validation under various operating conditions. Our testing covers wide-bandgap devices (SiC/GaN) and traditional semiconductors (IGBT/MOSFET).
Thermal performance testing and validation including thermal resistance measurements (Rth), junction temperature analysis, thermal impedance, and reliability assessment. We provide detailed thermal models for accurate thermal management in power electronics systems.
Device characterization under various operating conditions and mission profiles to ensure reliable performance in real-world applications. This includes temperature cycling, power cycling, and lifetime estimation.
Advanced device modeling capabilities including ANN (Artificial Neural Network) modeling and compatibility with current market models for seamless integration into existing design workflows.
Artificial Neural Network-based models for accurate device behavior prediction and simulation. Our ANN models offer high accuracy, computational efficiency, and can capture complex nonlinear device characteristics including switching losses, thermal behavior, and dynamic responses.
Piecewise Linear Circuit Element Simulator (PLCES) compatible models for power electronics simulation. Our models are optimized for fast simulation while maintaining accuracy for design automation workflows.
Industry-standard Spice models compatible with popular simulation tools. Our models include comprehensive device parameters and are validated against experimental data for accurate circuit-level simulations.
MATLAB/Simulink compatible models for system-level simulation and control design. Our models integrate seamlessly with MATLAB toolchains and support co-simulation with other modeling frameworks.
Comprehensive model validation against experimental data to ensure accuracy across operating conditions. Our models are continuously updated and validated to maintain high fidelity with measured device behavior.
Custom model development services tailored to your specific requirements. We can develop models for proprietary devices or adapt existing models to match your design automation needs.
We provide comprehensive device testing, characterization, and modeling services to support your power electronics design projects. Our expertise includes wide-bandgap devices (SiC/GaN), traditional semiconductors, and passive components.
