特斯拉逆变器电子工程师,电驱动系统Drive Inverter Electronic Engineer
任职要求
· BS/MS in Electrical Engineering or the equivalent in experience and evidence of exceptional ability. · Many years of hands-on failure analysis experience in high voltage power electronics and testing. · Proficiency with basic EE tools (Oscilloscopes, Network analyzers, Signal Generators etc.). · Familiar with schematic capture and power converter circuit simulation tools. · Good experience with designing analog/digital circuits,including PCBA schematic and layout, and micro-processors programming. · Good understanding of switching waveforms, semiconductor losses and experience with loss modeling. · Solid understanding of the theory and application of magnetics (inductors, transformers) and capacitors (electrolytic, film and ceramic) used for power conversion. · Excellent communication skills, both in presentations and in writing. · The ability to work in a dynamic, fast-paced and challenging environment. Skills are plus · Experience with high voltage power semiconductor selection (Si/SiC/GaN MOSFET’s, Diodes), gate driver and protection circuit design. · Knowledge in basic control theory, including importance of sensor bandwidths, design of compensation networks. · Awareness of EMC requirements relevant to the design of power converters. · Experience in supervision of PCB layout for minimal stray inductance and capacitance, placement strategies for better manufacturability,power/signal plane definition and EMC optimization. · Knowledge in environmental, reliability, and safety requirements for automotive applications. Working knowledge of Matlab and/or Python. This job application may involve an interview with an interviewer outside of Tesla China. If you complete your application, you agree Tesla provides your application information to overseas interviewers in Tesla, Inc. for recruitment purposes. More details and contact information please seehere. (here hyperlink: https://app.mokahr.com/social-recruitment/tesla/46129#/)
工作职责
The Role Tesla’s Drive Systems Engineering team is seeking an enthusiastic, fast-learning engineer who will be responsible for electrical and physical FA of power devices from traction inverters. They will own engineering tasks to keep our production line running– everything from bringing up new vendors to debugging field failures. They will work alongside a team of experienced engineers while utilizing sophisticated failure analysis tools to identify root causes from design,production, test, and field environments. Tesla provides a rare opportunity to work for a company with promising challenges, great opportunity for broad responsibility, truly beneficial products, and engineering oriented culture. Responsibilities · Hands-on failure analysis of high voltage power devices. · Optical microscopy and CSAM. · Electrical and physical FA including curve tracing and cross-sectioning. · Maintenance of lab tools and consumables. · Design and build custom PCBA, electrical tools, and scripts for testing power semiconductors and power converters. · Characterize power semiconductors and power converters performance. · Collaborate with mechanical, semiconductors and firmware engineering teams to successfully validate and optimize traction inverters.
1.电驱动总成匹配应用相关功能和性能需求收集、分析与实施方案制定; 2.电驱系统(电机、逆变器、减速器等)的台架标定与性能优化,包括扭矩控制、效率标定、热管理策略、NVH调校等,确保系统高效、可靠运行; 3.主导电驱系统与整车控制单元(VCU)的协同标定,优化动力分配策略,提升驾驶性、经济性及动力性表现; 4.参与下一代电驱技术的标定开发,推动电驱系统的高功率密度、轻量化及低能耗目标实现; 5.支持智能化线控底盘技术(线控制动、线控转向)的集成标定,确保与电驱系统的协同控制; 6.策划并执行电驱系统台架及整车标定试验(含高温、高原、高寒“三高”环境测试),分析数据并解决标定和测试过程中的技术问题; 7.对量产及售后问题提供技术支持,主导故障根因分析与改进方案制定; 8.制定电驱系统标定流程、技术规范及工具链建设,推动标定效率提升; 9.指导初级工程师,组织技术培训,引入AI驱动的标定工具(如端到端模型优化、大语言模型辅助决策); 10.标定数据评审、版本管理、需求的闭环认可和数据发布; 11.面向横向产品开发团队的标定数据与测试支持; 12.内部项目的横向组织和协调,制定方案持续推动性能优化,达成产品竞争力目标。
作为从逆变器产品设计到产品制造衔接的桥梁,全面负责项目开展过程中在生产制造端的产品实现,协调研发,供应链,北美团队的资源,确保新项目在上海工厂按计划、高质量、最佳成本落地;需要有很强的系统性思维能力和资源整合能力,需要有强烈的主观能动性、独立思考能力来组织和驱动项目团队成员达成目标,熟悉逆变器产品知识和工艺知识,能够用系统化的方法对潜在风险进行识别和管控; 职责描述: 制造项目管理: 作为制造领域的项目负责人,制定项目开发计划并促成项目按时间计划,按成本,按质量顺利批产; 识别并管控项目风险,协调内外部资源,确保逆变器产线项目的成功落地; 与电驱及全球项目管理团队协作,管理变化及风险;促成项目成功; 遵守公司规章制度,严格按照作业指导书工作,积极查找安全隐患,及时汇报安全隐患和事故,提出安全合理化建议,通过不断改进,创造安全健康的工作环境 生产线设计及规划: 根据电驱及整车产量需求,协同相关职能部门确认长期产能需求,组织并形成产线规划方案,完成项目立项; 负责项目资金申请,以及预算管理和项目相关采购订单和付款审批; 根据产品设计与全球团队协作,设计产品生产流程,规划产线Layout; 与全球制造工程团队协作,编写/支持编写产线的设备技术规范,制定各工艺的参数及验收标准; 组织产线的方案评审,设计评审,FAT及SAT验收;以及批产后的爬坡计划和问题解决; 与产品设计的协同: 组织跨功能团队对新产品/新工艺进行制造可行性分析(DFM/DFA),包括对于产品批量生产的可制造性,质量管控及成本表现等方面的评估; 对于制造可实现性,设计相应实验并形成改进建议,推动在项目早期对产品进行优化和改进; 提升工艺能力,保持对新技术和新工艺的敏感度,能够在早期对工艺进行研究并导入到批量生产,提高制造效率和产品质量。
1、负责户用光储系统(光伏逆变器、PCS、EMS等)控制器算法、系统软件设计,测试验证、评审;参与光储系统课题工作规划,核心功能、技术路线制定; 2、光储系统的相关电力电子控制系统基础理论研究和仿真模型的建立; 3、负责户用储能相关技术规范的设计、制定,形成科学严谨的设计规范、测试验证方案; 4、负责户用储能项目的统筹协调,资源拉通,开发质量管理等工作。
1. 负责高压系统架构设计,包括三电零部件性能设计,技术路线策略,高压架构定义,高压系统属性定义和零部件性能选型; 2. 负责整车高压系统电气架构匹配性、高压系统主电路拓扑、电气参数、及控制算法理论分析与仿真验证及优化; 3. 负责高压系统电气特性仿真, 包括运行电压范围、电压动态、电压纹波、过压/欠压等, 作为高压零部件的系统需求定义输入; 4. 负责整车高压系统EMC需求分析,仿真及测试验证,与整车对接高压部件EMC技术需求,并协调高压部件EMC解决方案; 5. 负责牵头分析和解决高压系统及跨部件耦合的高复杂性EMC问题。