Simscape Battery

Simscape Battery is software for modeling and simulating battery systems. It provides parameterized models of battery cells and design tools, enabling you to tune battery cell behavior, run virtual tests of pack architectures, design battery management systems, and evaluate system behavior across normal and fault conditions.

Battery Pack Model Builder is an interactive design tool that lets you evaluate different battery pack architectures, automates the creation of simulation models matching your desired pack topology, and includes cooling plate connections for evaluating electrical and thermal responses.

Yes, Simscape Battery models can include heat transfer in battery packs, design cooling plates with customizable fluid paths and thermal connections, explore cell-to-cell temperature variation, and measure cooling efficiency.

Simscape Battery enables you to develop algorithms for state of charge (SOC) and state of health (SOH) estimation, cell balancing, and thermal management, and generate code for use in embedded controllers.

Yes, you can convert your Simscape Battery model to C code to test control algorithms, run hardware-in-the-loop (HIL) tests on dSPACE, Speedgoat, and other real-time systems, and generate readable and efficient C/C++ code.

You can model electrochemical behavior in individual battery cells including charge dynamics, hysteresis, aging, and thermal effects, then generate complete battery pack models using MATLAB commands with customizable architecture, heat transfer, and model fidelity.

Yes, using Simscape Battery you can verify system behavior under conditions that cannot be easily tested with hardware prototypes and run sets of tests in parallel on a multicore workstation or a cluster.

Simscape Battery is part of the Simscape platform, allowing you to test integration of electrical, thermal, mechanical, hydraulic, and pneumatic systems in a single environment to identify integration issues and optimize system-level performance.