随着汽车电动化、智能化程度不断提升,传统汽车低压配电技术已难以满足复杂多变的用电需求。文章提出一种基于场景引擎的汽车低压智能配电技术,通过实时感知车辆状态、用户习惯及环境信息,动态优化配电策略,实现电能的高效分配。文章详细阐述场景引擎的技术原理、系统架构及关键技术,并结合实际应用案例分析该技术的性能优势。研究表明,搭载基于场景引擎的智能配电技术的车辆可降低能耗15%~30%,显著提升电动汽车续航里程及系统可靠性,为未来汽车电气架构演进提供重要参考。

With the continuous advancement of vehicle electrification and intelligence, traditional low-voltage power distribution technology can no longer meet the complex and variable power demands. This paper proposes a scenario engine-based intelligent low-voltage power distribution technology for vehicles. By real-time sensing of vehicle status, user habits, and environmental information, it dynamically optimizes power distribution strategies to achieve efficient energy allocation. The article elaborates on the technical principles, system architecture, and key technologies of the scenario engine, while analyzing its performance advantages through practical application cases. Research shows that vehicles equipped with this intelligent power distribution technology based on the scenario engine can reduce energy consumption by 15%~30%, significantly improving electric vehicle range and system reliability, providing important references for the future evolution of automotive electrical architectures.