Join the Charge. Create the Future.
At Ultraviolette, we're more than a company—we’re a movement. A movement that's pushing the boundaries of what's possible in electric mobility. From engineering India’s Fastest Motorcycle to designing The World’s Most Advanced Electric Scooter, we thrive on innovation, audacity, and the relentless pursuit of performance.
We’re a diverse team of trailblazers, engineers, designers, creatives and visionaries—united by a shared obsession: to craft machines that are not only sustainable but exhilarating. Here, radical design meets intelligent technology, and every line of code or bolt of hardware brings us closer to reshaping the future of mobility.
Our mission is to accelerate the evolution of mobility across the globe - and we’re just getting started.
If you're driven by purpose, inspired by possibility, and ready to build something that truly matters,Ultraviolette is the place where your ambition becomes impact.Let's create the future—together.
Job Summary :
Lead the design and development of advanced Battery Management Systems (BMS) for electric motorcycle battery packs. Drive architecture decisions, circuit design, and validation to ensure safety, reliability, and performance. Collaborate with cross-functional teams and suppliers, optimize BMS algorithms, and stay ahead of battery technology trends to enhance product innovation.
Job Responsibilities :
- Design and develop Battery Management Systems (BMS) for electric motorcycle battery packs, ensuring efficient and reliable operation.
- Collaborate with cross-functional teams, including mechanical engineers, firmware engineers, and system architects, to integrate BMS seamlessly into the overall electric vehicle system.
- Perform detailed circuit design, schematic capture, and PCB layout for BMS modules and associated electronics.
- Conduct testing and validation of BMS prototypes to ensure compliance with safety standards, performance requirements, and regulatory guidelines.
- Analyze battery performance data, including voltage, current, temperature, and state of charge, to optimize BMS algorithms and enhance battery efficiency and lifespan.
- Collaborate with cell suppliers to define battery specifications, conduct cell characterization, and validation.
- Troubleshoot and debug BMS-related issues during development, production, and field operation phases.
- Stay up to date with the latest advancements in BMS technology, battery chemistries, and industry trends, and integrate them into the design process.
Requirements
Job Requirements:
- Bachelor's degree or higher in Electronics Engineering, Electrical Engineering, or a related field.
- Proven experience in the design and development of Battery Management Systems (BMS) for lithium-ion battery packs.
- In-depth knowledge of Circuit Design, Analysis and Simulation
- Proficiency in Simulation, schematic capture, and PCB layout tools.
- Strong understanding of battery characteristics, chemistry, charging algorithms, and safety considerations.
- Experience with battery cell balancing techniques and algorithms.
- Knowledge of relevant industry standards and regulations related to battery technology and electric vehicles.
- Familiarity with embedded systems and firmware development for BMS applications.
- Ability to analyze and interpret battery performance data using relevant software tools.
- Excellent problem-solving skills and attention to detail.
- Effective communication and collaboration skills to work in a cross-functional team environment.
- Strong understanding of electrical and electrochemical principles related to battery systems.
- Proficiency in battery simulation and analysis tools, such as MATLAB or equivalent
- Experience with PCB design tools, such as OrCAD, Cadence, or equivalent
- Proficient in programming languages, such as C, C++, or Python, for embedded systems and data analysis
- Familiarity with design for manufacturing (DFM) and design for assembly (DFA) principles for electronics and battery systems
- Knowledge of safety and failure analysis techniques for battery systems, such as fault tree analysis (FTA) and failure modes and effects analysis (FMEA)
