Ph3Motor Functions Developer (m/f/d) | 100% | Cham, Switzerland /h3 pJob Summary: To strengthen our eBike development team in Cham, Switzerland, we are seeking a Motor Functions Developer to commence immediately or by agreement. In this role, you will be responsible for the design, development, and validation of motor‑related application and functions that define system behavior and rider experience. The position focuses on application logic, functional behavior, and system interaction rather than low‑level motor control algorithm development. You will apply deep software expertise combined with strong physical system understanding to create robust, well‑validated motor functions across bench, system, and bike levels. Internally, you will work closely with Ride Control, System Engineering, Software and Quality teams. Externally, you will have a chance to collaborate with motor suppliers on application and integration topics. /p h3How You’ll Make a Difference /h3 h3Motor Functions Development /h3 ul liDevelop and own motor application functions (assist and torque behaviour, functional limits and protections, derating and thermal strategies, system‑dependent motor behaviour, determining and setting right gear, etc.) /li liTranslate rider experience goals and system requirements into clear, testable functions /li liOwn motor functions across the full development lifecycle (concept → implementation → calibration → validation) /li /ul h3Advanced Modeling, Simulation /h3 ul liAnalyze system and motor behavior to design and validate robust functions /li liUse data from testing to evaluate interactions, limits, and improvements /li /ul h3Application‑Level Software Development /h3 ul liDevelop and implement motor functions /li liWork confidently and independently in C, C++, knowledge of Zephyr OS is a plus /li liDebug multi‑layer behavior across software, hardware, and system boundaries /li /ul h3Testing, Validation Field Support /h3 ul liHelp to define and execute application‑level test cases for motor functions /li liSupport bench, system, and bike‑level testing activities /li liAnalyze issues using data‑driven methods and physical system understanding /li /ul h3Cross‑Functional Supplier Collaboration /h3 ul liAct as a technical expert for motor application and function topics /li liAlign functional behaviors within mechanical, electrical, and system constraints /li liContinuously improve development, validation, and release processes /li liGo out, ride, observe system behavior, and feed insights back into development /li /ul h3What You’ll Need To Win /h3 h3Education Experience /h3 ul liBachelor’s, Master’s degree in Mechatronics, Electrical Engineering, Mechanical Engineering, Systems Engineering, or similar /li li3+ years of relevant experience in application development, system functions, or embedded systems (seniority implied by tool expectations) /li /ul h3Required Technical Expertise /h3 ul liExpert level proficiency in: Python, MATLAB, Simulink, C /li liExperience with modern programming languages such as: C++17 and up, Rust, Zig /li liKnowledge of Zephyr OS is a plus /li liStrong understanding of physical systems and their behavior /li liProven experience developing application‑level embedded software /li liConfident handling of:ul liCAN communication, protocols, and diagnostic tools /li liGit version control /li liDebugging across system boundaries /li liStrong system thinker with a structured, analytical mindset /li liComfortable bridging physical behavior, software logic, and real‑world testing /li liAble to work independently on complex topics and drive them to completion /li liClear and effective communicator in cross‑functional, international teams /li /ul /li /ul h3Language Mobility /h3 ul liExcellent English skills (written and spoken), German is a plus /li liWillingness to travel occasionally (approx. 10%) /li /ul h3Nice to Haves /h3 ul liExperience with eBike, automotive, or electrified drive systems /li liExperience supporting products into series production /li liFamiliarity with system identification or model‑based development (Control theory) /li liPassion for cycling /li /ul /p #J-18808-Ljbffr