Why to use?
Battery Cell Design and Validation
Digitally validate lithium-ion cells to reduce reliance on physical prototypes and accelerate development cycles.
Electrochemical Performance Analysis
Understand and optimize electrochemical behavior with advanced physics-based models.
System-Level Impact Assessment
Evaluate how cell designs influence overall system performance, reliability, and efficiency.
Material and Component Selection:
Leverage a comprehensive material database to select optimal components for specific design goals.
Key Benefits
1. Digitally Validate Designs – Reduce Prototype Development by 50%
Use detailed geometrical cell specifications for accurate digital validation of lithium-ion cells. Leverage a comprehensive material database and pre-built cell components for rapid model creation.
2. Model Performance Accurately – Gain Electrochemical Insights
Employ a physics-based macro-homogeneous model for in-depth analysis of electrochemical mechanisms. Utilize equivalent RCR circuit models for computationally efficient simulations of cell behavior.
3. Make Data-Driven Decisions – Optimize System Performance
Analyze design decisions and their impact on system efficiency with simulation-driven insights. Balance performance, reliability, and feasibility to make optimal design choices.
