Qnetic was founded with the mission to enable the transition to clean, sustainable energy. To achieve it, we are developing a high-performance energy storage system for the electric grid, based on new flywheel technology. It delivers ‘energy shifting’ at a lower cost than anything we know about. Compared to lithium-ion batteries, Qnetic has 3x the lifetime, 2x the discharge duration, 0.5x the cost and 0x the degradation.

We’re building something fundamentally different — and we’re looking for people who are driven to solve hard challenges, do meaningful work, and make a real impact on the future of energy.

About the role

The AMB System Engineer is responsible for system-level design and integration of Active Magnetic Bearings (AMB) in Flywheel Energy Storage Systems (FESS). The role focuses on 2 complementary aspects: 1- Simulate, predict and ensure the AMB fiufils its role in term of active guiding of the high speed rotor. 2- A deep understanding of AMB principles to define requirements for suppliers selection.

What you'll do

• Define system-level requirements (Force, operating frequency, speed, energy density, lifetime, losses) using state of the art simulation tools (rotor dynamics, Matlab-simulink co simulation ect.)
• Translate system-level requirements (Force, frequency, speed, energy density, lifetime, losses) into actionable AMB specifications (load capacity, stiffness, bandwidth, redundancy, control interfaces), and define clear technical specifications and interface requirements.
• Participate to technical communication and reviews with AMB suppliers; identify key parameters and hidden risks in supplier solutions (e.g., insufficient stability margins, overstated bandwidth, poor thermal design); avoid black-box dependency and maintain clear understanding of design assumptions and performance limits.
• Participate to system integration of AMB with rotor, motor, control system, and vacuum enclosure; resolve cross-domain coupling issues (rotor dynamics, control stability, structural vibration, thermal management), ensuring optimal system performance.
• Participate in system testing and commissioning; analyze vibration, losses, and stability issues; perform technical root cause analysis and correlation with Simulation models.

Qualifications

• Bachelor’s or Master’s degree in Mechanical or Electrical Engineering; background in rotor dynamics or/and electromagnetics preferred.
• Experience in AMB, electric machines, or high-speed rotating systems; system integration or cross-functional experience preferred.
• Solid understanding of AMB fundamentals (force-current relationship, stiffness, control bandwidth) and rotor dynamics; ability to critically review and challenge supplier documentation (simulation reports, test data); basic modeling skills (FEA/MATLAB/Simulink/C/Python) for independent validation.
• Strong system-level thinking and engineering judgment; able to make decisions under uncertainty; effective communicator with both suppliers and internal teams
• Fluent in both written and spoken Chinese and English; able to use English as a working language for daily communication (including email correspondence with overseas colleagues, conference calls, and receiving foreign visitors).

Personal Attributes

• Excellent communication, coordination, and interpersonal skills with a strong service orientation.
• High sense of responsibility and initiative; able to handle multiple tasks independently.
• Detail-oriented, well-organized, with excellent problem-solving skills and resilience under pressure.
• Proactive and positive personality with a strong team spirit