特斯拉0-2年毕业生-软件集成工程师，电池管理系统

THE ROLE 作为储能超级工厂产品成功下线前的关键工程师角色，储能测试工艺工程师将负责Megapack在装配区域的现场测试工艺管理与技术支持。你将深度参与从测试程序与设备导入、测试流程优化、测试问题分析与闭环，到测试良率持续提升的全过程。该岗位在研发、制造与质量三大职能之间扮演桥梁角色，要求对储能产品设计原理、生产工艺及测试技术有全面的理解。通过科学、系统、高效的测试手段，确保储能系统的性能、安全性与一致性，是储能系统在研发验证、量产导入、质量控制中不可或缺的技术力量。 RESPONSIBILITIES职责描述： 深入理解储能系统在电网、工商业、户用等不同应用场景下的测试需求； 熟悉锂电池、液流电池、超级电容等储能系统的测试原理与流程； 负责PCB电路板的功能测试流程，包括关键参数测试（如电压采集精度、信号传输稳定性、通讯接口功能等）； 参与储能系统核心模块（如BMS、PCS、系统集成）的测试工艺开发与优化； 掌握并应用电气测试、电池测试、热测试、性能测试等常见测试方法； 参与测试程序的开发、调试与优化，具备一定脚本或测试软件的使用经验； 熟练使用测试设备（如NI采集卡、可编程电源、示波器、功率分析仪、高精度万用表、负载设备等）； 熟悉常见通信协议（如CAN、LIN、I2C、以太网、RS232、GPIB）的应用与调试； 负责测试流程中的问题分析与跟踪，推动测试良率的持续提升； 配合跨职能团队（研发、制造、质量）协作，确保产品测试与交付质量。 REQUIREMENTS

面向对象：0-2年内毕业的应届生，包含2025年。 The Role Tesla’s Chassis Controls team is seeking a Software Integration Engineer who will be a systems expert on chassis controls functions and will be responsible for ensuring that new chassis control software features (e.g. autonomous driving/braking) are designed, implemented and validated to achieve Tesla’s standards for safety and customer experience. As a software integration engineer, you are expected to be an expert of your system, have deep understanding of software –hardware dependencies and be able to communicate constraints, risks and mitigations to guide vehicle programs. You will employ sound systems engineering principles to guide a team of engineers through safety critical software development. You may need to wear multiple hats through the life of a program based on your system’s needs from performing fleet data analytics to writing code. You are expected to move projects along at an aggressive pace – keeping track of program milestones and deliverables and pull together the contributions of many teams into a cohesive final product. You will also need to get your hands dirty in the details – dig through source code, root cause issues and propose solutions to complex problems, as well as test prototype firmware implementations in-vehicle at proving grounds around the world. Responsibilities Work with the design and development engineers throughout the engineering organization to ensure systems are designed with appropriate requirements, interfaces and interactions to achieve specific vehicle functions. Develop overall validation strategy for these features and work with validation teams to ensure test coverage and traceability. Work cross-functionally across mechanical, electrical, system architecture, firmware development and firmware validation teams to understand new component-level hardware changes and support them in firmware – both in manufacturing and for customer use – so that they can be seamlessly introduced to our vehicle platforms Develop and execute firmware integration test plans on new hardware components and firmware features to rapidly retire risk from new designs and provide feedback to the development teams. Work with manufacturing and service to ensure the functions are rolled out and functioning properly. This can include development of processes, diagnostic tools and methods, and root-cause diagnosis for product issues Design prototype test setups to integrate new subsystems with simulated and actual vehicle components Lead and participate in functional safety analysis of complex software systems. Develop the safety concept, lead HARA, DFMEAs and guide software design.

面向对象：0-2年内毕业的应届生，包含2025年。 The Role Tesla's Systems Integration Team is seeking an Integration Engineer who will be responsible for ensuring firmware support for new vehicle features and new hardware are designed, implemented and tested to achieve Tesla’s standards for safety and customer experience. The Integration Engineer is expected to move projects along at an aggressive pace – keeping track of program milestones and deliverables and pulling together the contributions of many teams into a cohesive final product. The Integration Engineer is also expected to get their hands dirty in the details of their sub-systems – digging through source code, root causing issues and proposing solutions to complex problems, as well as testing prototype firmware implementations in-vehicle. Drive Systems encompasses all aspects of safe and precise torque production. This includes integration of autopilot features such as adaptive cruise control and automatic emergency braking, smooth and safe application of power to the wheels, hill hold and one pedal driving, thermal management and the overall mapping of drive power request to motor power. The drive systems integration engineer will be responsible for ensuring firmware maturity for new hardware introductions. Responsibilities Work with the design and development engineers throughout the engineering organization to ensure the relevant subsystems are designed with appropriate requirements, interfaces and interactions to achieve specific vehicle functions. Break down new, high-level feature requests into sub-system and component level requirements, and drive the implementation, testing and release of these features against Tesla’s firmware release schedule. Utilize critical analysis of potential failure modes and effects to influence these requirements. Develop overall validation strategy for these features and work with validation teams to ensure automated test coverage is implemented for future firmware releases. Work cross-functionally across mechanical, electrical, system architecture, firmware development and firmware validation teams to understand new component-level hardware changes which are being developed and how to support them in firmware – both in manufacturing and for customer use – so that they can be seamlessly introduced to our vehicle platforms. Develop and execute firmware integration test plans on new hardware components and firmware features to rapidly retire risk from new designs and provide feedback to the development teams to accelerate our aggressive development cycles. Dig into data and source code to identify and debug issues at the system level and propose robust solutions. Work with manufacturing and with service to ensure the function(s) are rolled out and functioning properly. This can include development of processes, diagnostic tools and methods, and root-cause diagnosis for product issues. Collaborate with validation teams to design tests which will validate the functions, interfaces, and interactions of the system. Identify areas of concern, and work with teams to rectify any bugs. Develop prototype test setups to integrate new subsystems with simulated and actual vehicle components. Lead and manage integration of initial prototype systems including bring-up, debug, and engineering test of alpha- and beta-phase prototype vehicles.

The Role Body controls systems integration engineers within the vehicle software organization work side by side with various cross-functional teams to lead the design and development of body controls systems. This role utilizes hardware, software, and system design fundamentals to support product design, vehicle behaviors definition, prototype bring-up, and validation, with a software focus. Body controls integration engineers are responsible for overall functionality and performance of body controls systems throughout product life cycle. Systems this role will be responsible for include doors, trunk, frunk, windows, seating, lighting, mirrors, wipers, heaters, steering wheel controls, and other actuators and sensors. Responsibilities Distill vehicle product requirements into actionable software