小米电气架构工程师
任职要求
1、本科以上学历,车辆工程、电气工程、自动化、机电一体化、电子与信息工程等相关专业; 2、熟悉电子电气架构开发方法论及流程体系,有汽车或机器人EE架构、网络拓扑或关键零部件产品设计相关经验者优先,有自动驾驶系统设计经验者优先; 3、了解汽车/机器人总线系统(CAN/以太网/EtherCAT)和电子电气系统知识。
工作职责
1、研究机器人电气架构技术趋势,制定技术路线,协助整软硬件和底软的方案开发与系统优化,制定平台化电气架构解决方案; 2、分解整机功能至子系统,定义接口与交付关系,主导设备布局及技术方案发布,完成跨层级交流; 3、建立部门电子电气架构开发流程,编制技术方案并持续优化。
The Role We are looking for an electrical engineer who understands system level power delivery and grounding (could be from vehicles, servers, or such complex systems), interconnect (electrical properties and reliability of wires, fuses, and connectors), and fundamentals of serial communication protocols (CAN, LIN, Ethernet, Bluetooth, DP, etc.) Responsibilities • Electrical engineering design leadership for a variety of electrical components and wire harnesses in Tesla vehicles, both in production and in development • Support the engineers developing 2-d harness and wiring documentation to optimize topology/architecture for best cost/performance • Engineering responsibility throughout all stages: concept, requirements definition, prototype, architecture development, circuitry design, tooling, design validation and optimization in Beta and RC phases, volume tooling and processes for Start of Production and production ramp-up. Life-cycle improvements and cost reductions as needed. • Make design decisions and coordinate with other Tesla parties, for example: Body Controls, Systems Integration, PCBA Design, Materials Engineering, Environmental Testing, Mentor Graphics Integration, Guidance of component selection. • Support of team during Vehicle Durability and Crash Test, Manufacturing Engineering, etc. • Identify and resolve concerns, such as high voltage drop in circuits, high power dissipation, fault current related to fuse characteristics, fuse coordination, reliability concerns on detailed design features and drive the solution progress to remove these concerns through weekly tests, follow ups, upper management deep-dive reviews and cross functional team reviews. • Work closely with Reliability team to ensure proper testing on finished designs (vibe, corrosion, material testing, voltage drop, fuse-blow, EMI, etc.)
1. 感知海外EEA相关的新车型新技术及对标分析; 2. 深度参与新EEA平台技术调研与可行性研究,密切跟踪海外汽车行业 EEA 领域的最新技术规范、标准以及前沿动态,参与规划设计新EEA平台; 3. 负责海外目的国家电气架构相关法规分析,结合现有平台、功能安全需求、信息安全需求等制定合理的电气架构方案; 4. 负责海外车型项目的电气架构方案及变更管理; 5. 海外车型EEA相关问题现场技术支持。
1. 负责智驾诊断数据库的开发和评审; 2. 负责开发和优化智驾诊断方案,支持试制和量产车辆的EOL工作,参与实车问题排查; 3. 负责ADD的基础技术开发和验证工作,对ADD的Basetech开发进行评审,支持测试问题的分析和推进; 4. 从基础技术角度,确立智驾的诊断通讯架构、刷写、OTA、远程诊断等技术方案,并在整车进行实施和持续优化; 5、负责整车EEA架构新技术预研工作。
1, 通过对标、分析和咨询,研究汽车电子技术的趋势和发展方向,引导工程部门制定相关技术路线; 2, 对智能座舱,智能驾驶领域有较深的理解, 有实际的零部件开发经验,对跨域的系统方案有较深的理解; 3, 整车功能和配置进行合理分解并部署到子系统和零部件,定义各层级之间的接口、信号及交互关系; 4, 参与由FO、SO发起的相关功能实现文档评审,从平台化的角度制定电子电气架构的解决方案。制定方案变更及偏离管理规则及流程,以应对项目应用时的方案变更和偏离; 5, 主导每个开发阶段整车网络拓扑方案的制定及发布,跟踪和管控基础技术,功能安全定义,实施和验证; 6, 负责整车产品传递过来的整车产品配置变更评估请求,带领工程部门完成技术可行性, 成本,时间周期等一系列评估工作。 7, 解决在车辆开发周期中电子电气架构相关技术问题。协助完成与供应商的技术交流,进行技术设计复核; 8, 从技术角度出发,参与确立公司电子电气架构平台规划及电子电气架构的开发流程,编制整车电子电气架构技术方案并持续进行优化和升级;