System Thermal Simulation
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3D Model Visualization and Analysis
Thermal simulation results visually represent temperature distributions, fluid flow patterns, and pressure variations, enhancing communication efficiency across teams and stakeholders by translating complex thermal dynamics into intuitive visual insights. -
Seamless 3D CAD Software Integration
Software is fully integrated with 3D CAD, allowing for easy 3D model modification and fast thermal simulation iteration. -
Optimization of Designs
By iterating, the optimized design for thermal performance can be found. It can save time in making and testing multiple prototypes.
Characterization
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Semiconductor Dynamic Parameter Testing
Adhere to IEC 60747-8 & IEC 60747-9 for Semiconductor devices power switching loss calculation and characterization. -
Key parameters testing
- Turn-on characteristics - Dynamic current and voltage
- Turn-off characteristics - Switching characteristics
- Reverse recovery
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Support Package: TO-263-3, TO-263-7, HybridPACK , etc., TO-263-7, D2-PAK, PQFN
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SSCB & Pyrofuse Characterization
Adhere to IEC 60947-1 and IEC 60898-3 for characterization of SSCB and pyrofuses in DC systems. -
Key parameters testing
- Short circuit breaking capacity characterization (up to 50kA)
- Efficiency & power loss characteristics - Thermal characteristics
- Thermal trip curves - Cable inductance effects
- DC Protective device selectivity
TM
WE DELIVER
WORLDWIDE
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Application-Oriented Power Conversion Topology
Utilize advanced topologies and control for a high efficiency rate, surpassing 98% across the 10% to 100% load range, making it highly adaptable to diverse application requirements. -
Embedded Control and Modulation Design
Implement an intelligent embedded control and modulation system featuring a fanless design, which creates a silent operating environment, enhances reliability, and reduces maintenance needs. -
Remote Monitoring
Utilize a cloud-based monitoring system for remote control and monitoring.
System data can be accessed anytime and anywhere.
Magnetic Components Design and Optimization
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Advanced Material & Structural Design
Support automatic simulation and selection across core materials and winding structures, enabling low-loss and high-consistency design for inductors/transformers. -
Automated Performance-Based Screening
Efficiently identify optimal designs by evaluating electrical performance across multiple objectives. -
Miniaturization & Space Efficiency
Evaluate size and space utilization, providing data support for thermal analysis, supporting miniaturized designs ideal for EV chargers, and other demanding applications.
