Electromechanical Design Engineer

About The Position

Requirements

• Bachelor’s degree in Mechatronics, Mechanical Engineering, Electrical Engineering, or a related technical field.
• Three to five years of experience in electromechanical design, advanced prototyping, industrial rotating machinery, or a related engineering environment.
• Hands-on laboratory testing experience combined with production-level 3D mechanical CAD capability.
• Proficiency in SOLIDWORKS 3D modeling and technical drafting.
• Working knowledge of magnetic topologies, winding behavior, thermal constraints, and motor performance considerations.
• Understanding of fits, tolerances, machining limitations, and design for manufacturability principles.
• Ability to operate or support testing using dynamometers, power analyzers, and data acquisition equipment.

Nice To Haves

• experience with structural and thermal FEA preferred.

Responsibilities

• Evaluate next-generation motor architectures, including IPM, SynRM, SRM, and BLDC layouts.
• Develop new motor designs and improve existing platforms for performance, manufacturability, reliability, thermal management, and cost.
• Prototype and assess advanced materials, including high-grade electrical steels and specialized winding techniques.
• Optimize copper fill factors by balancing stator slot geometry with mechanical and manufacturing constraints.
• Integrate feedback devices, including shaft-mounted resolvers, encoders, and thermal sensors.
• Design and optimize motor housing structures, including Powertec double-finned frames, to improve heat rejection.
• Conduct thermal analysis for fluid and air-cooling jacket paths in high power-density applications.
• Analyze rotor dynamics, including centrifugal stresses, critical speeds, and shaft interference fits.
• Evaluate bearing life and select appropriate bearing designs for radial, axial, and insulation-related requirements.
• Apply geometric dimensioning and tolerancing principles to produce accurate 3D CAD models and production drawings.
• Perform dynamometer testing to evaluate motor efficiency, back-EMF, thermal performance, and operating characteristics.
• Correlate laboratory test data with finite element analysis (FEA) predictions and design assumptions.
• Prepare engineering documentation, including drawings, test plans, technical reports, and Bills of Materials (BOMs).
• Support prototype builds, DFMEA reviews, production scaling, and factory floor troubleshooting as needed.