特斯拉电磁分析与建模实习生 Electromagnetic Analysis and Modeling Intern
任职要求
· Bachelor's degree or above, majored in Electrical Engineering, master’s degree with a specialization in Electromagnetics is preferred. · Solid technical depth in advanced Electromagnetics, deep knowledge of electrical and electronic theory and circuit reading. · Skilled in using simulation software, experienced in using at least one of CST, HFSS, ADS, FEKO. · Willing to learn new technologies and able to work in fast-paced environment. · Proven cross-functional collaboration. · Excellent written and verbal communication skills. Preferred: · Ability to independently complete simulation model simplification and mesh generation. Experienced in using EM mesh modeling software, such as one of Hypermesh, ANSA, Abaqus, NASTRAN…
工作职责
The Role We are seeking a highly motivated and skilled Electromagnetic Analysis and Modeling Intern to join our R&D team in Tesla Shanghai. As an Electromagnetic Analysis and Modeling Intern, you will play a crucial role in the EM design, validation and simulation. The candidate expected to have a good understanding on electromagnetic and RF. The EM simulation and modeling skills are highly appreciated. Responsibilities: · Simplify and meshing the model of the vehicles or components. · Perform EMC and RF simulation for the vehicles and components. · EMC testing for vehicle and component level test in-house. · Collaborate with design teams in all phases of electronic product development for EMC&RF, including prototype, verification and validation. · Review, analyze, and interpret EMC&RF test results. · Testing with EMC&RF equipment, such as spectrum analyzer, vector network analyzer, signal generator, oscilloscopes… · Communicate accordingly to cross functional teams.
1. 负责各类电机的电磁设计工作,包括需求对接、方案评估、详细设计、性能仿真与优化、性能实测和分析、电磁相关问题解决等; 2. 负责各类磁场分析和仿真工作,为相关磁性零部件或传感器的方案设计或结构布局提供指引; 3. 参与电磁相关技术专题的研究和积累。
不仅能参与和体验消费产品的射频硬件打造过程,更能深入参与完整系统的从零开始设计的过程。有机会以射频工程师的角色深度参与每一代无线通信平台从概念到需求、到芯片设计、软硬件和算法协议开发的深耦合开发。不设边界,没有标准和参照,不断追求更先进射频技术的垂直应用落地机会。 1. 射频微波器件评估,元器件参数提取与建模; 2. 射频微波电路仿真设计与调试; 3. 射频微波系统链路预算与器件选型评估,包括SDR,4G/5G和Connectivity系统; 4. 射频微波电路性能分析与调试; 5. 解决射频微波电路的系统干扰问题; 6. 射频微波电路生产测试方案设计与生产导入保障工作; 7. 射频微波电路认证规范测试与调试。
1. 围绕终端天线的关键开发活动,完成需求分析与效率瓶颈定位; 2. 通过算法与工具开发,构建自动化的全栈工具链,形成可标准化、可扩展的提效体系; 3. 建立数据反馈机制,监控分析过程数据,实现迭代优化和扩展应用; 4. 形成技术资产沉淀,标准化推广运作和内部培训。 【课题名称】 天线自动化调优与分析的提效平台优化和应用 【课题内容】 1. 构建一套覆盖天线设计、调优、分析的自动化工具链,解决传统人工操作效率低、经验依赖性强的问题,长期围绕AI提效的理念横向扩展; 2. 研究包括但不限于以下方向:FPC天线自动化调优、有源器件参数自动化配置、场测Log数据智能分析等; 3. 匹配业务开发流程,实现核心算法开发与端到端的自动化Demo(从参数生成到实测验证); 4. 透过试点项目的运作,量化研发提效逻辑,实现地域特色能力扩圈; 5. 透过过程数据分析,挖掘潜在的深层次扩展应用,如识别设计边界,基础规律,数据间的隐含关联性等。
用优美且极致的电磁设计突破边界,为科技产品注入澎湃动力 1. 负责各类电机的电磁设计工作,包括需求对接、方案评估、详细设计、性能仿真与优化、实测性能分析、电磁相关问题解决等; 2. 负责各类磁场分析和仿真工作,为相关磁性零部件或传感器的方案设计或结构布局提供指引; 3. 参与基础性技术研究,包括技术专题研究和积累、新形式电磁产品预研、技术难题攻关等。