电池管理对于锂离子电池的安全运行和耐久性至关重要。
Battery management is of paramount importance for lithium ion cells to ensure safe operation and durability.
充电需要以可控的方式进行,通常使用恒定电流/恒定电压曲线。
Charging needs to happen in a controlled way, typically using a constant-current / constant-voltage profile.
此外,还必须确保各个电池单元保持均衡,以避免电池组的容量利用不足。
It is also essential to ensure that individual battery cells are kept in balance to avoid under-utilization of the pack capacity.
在本例中,Simscape®组件模拟单个电池单元的行为,然后复制该电池单元以创建串联工作模式。
In this example, Simscape® components model the behavior of a single battery cell, which is in turn replicated to create a series connection.
采用3-RC + R等效电路描述电现象,通过热质量与热效应相关联,并且假设焦耳效应是唯一的热源。
A 3-RC + R equivalent circuit represents the electrical phenomena, linked in turn to thermal effects via a thermal mass and the assumption of Joule effect being the only source of heat.
此外,Simscape Electronics(TM)组件还提供半导体器件仿真,这些器件负责选择性充放电,从而在充电时实现平衡。
Additionally, Simscape Electronics™ components provide the semiconductor devices responsible for the selective charge bleed that enables the balancing while charging.
由于电流不均匀和非对称的热设计,温度积累不均匀:一端绝缘,另一端自然对流。
Temperature buildup is non-uniform because of the uneven current flow and the non-symmetrical thermal design: insulation on one end and natural convection on the other end.
Stateflow®中实施的监控逻辑策略用以确定充放电时刻和持续时间。
A supervisory logic strategy implemented in Stateflow® establishes the moment and duration of the charging current bleeding.
Stateflow®模块可以通过右击鼠标,选择C/C++代码生成可嵌入的C代码,再构建仿真子系统(需要Embedded Coder(TM))。
The Stateflow® block can generate embeddable C-Code by right-clicking and selecting C/C++ Code -> Build This Subsystem (requires Embedded Coder™).
完整源码及示例下载地址:
http://page5.dfpan.com/fs/3lcje22102916603ee5/
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