Simscape Battery


Simscape Battery

Design and simulate battery and energy storage systems

Battery Cells

Model electrothermal behavior in battery cells. Include charge dynamics, aging, thermal, and heat transfer effects. Parameterize cells based on manufacturer data sheets.

Battery Packs

Generate Simscape battery pack models using MATLAB commands. Define pack architecture, model heat transfer, visualize layout, and customize model fidelity.

Cooling Plates

Model cooling plates with customizable fluid paths and thermal connections to the battery pack. Explore cell-to-cell temperature variation and measure cooling efficiency.

Battery Management

Develop algorithms for state of charge (SOC) and state of health (SOH) estimation, cell balancing, and thermal management. Generate code for use in embedded controllers.

Virtual Testing

Verify system behavior under conditions that cannot be easily tested with hardware prototypes. Run sets of tests in parallel on a multicore workstation or a cluster.

Model Deployment

Convert your Simscape model to C code to test control algorithms. Run HIL tests on dSPACE®, Speedgoat, OPAL-RT, and other real-time systems before performing physical tests.

Simscape Platform

Test integration of electrical, thermal, mechanical, hydraulic, and pneumatic systems in a single environment. Identify integration issues and optimize system-level performance.

MATLAB and Simulink

Use MATLAB to automate tasks such as model assembly, testing, and data post-processing. Use Simulink to integrate control algorithms and hardware design in a single environment.

From Research To Production

Use Simscape models to refine requirements, design control systems, test embedded controllers, and support in-service operation as a digital twin.

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