Full-Cycle Motor Development — From Concept to Compliance
We design and optimize advanced electric machines for demanding applications – with a focus on performance, safety, and speed at every stage of development.
Solve Your Electric Motor Development Challenges
Struggling with capacity shortages, missed milestones, or incomplete motor designs? Our end-to-end electric motor engineering services help you accelerate development, meet standards, and avoid costly delays.
❌ Unmet motor performance requirements
❌ Unfulfilled project milestones
❌ Incomplete electromagnetic, thermal designs leading to delays in start of production
❌ Risk of drive loss or system destruction
❌ Misalignment with ISO/DO/IEC standards during certification
❌ Human or computational resource scarcity
Accelerate your roadmap and avoid costly rework with proven engineering practices.
Comprehensive Electric Motor Design and Optimization
🔧 Design & Feasibility
- Requirement engineering, system design & breakdown
- Insulation coordination, clearance/creepage distances
- Feasibility study
- Multi-objective design optimization & design review
- Supplier sourcing, RFI/RFQ management, prototyping
⚡ Electromagnetic Analysis
- PMSM (interior & surface mounted magnets), ASM, DC, Reluctance motor design
- Motor Fingerprint, PSI-I maps calculation
- Cogging torque calculation
- Cold/hot state Back EMF calculations
- Short-circuit current and torque calculation
- Permanent magnet demagnetization studies
♨️ Thermal Modeling
- Lumped Parameter Thermal Network (LPTN) development
- Torque-speed curve calculation (Rated, Peak, S1/S3 curves)
- Efficiency maps creation
- DC, AC, friction, core, magnet, skin effect, proximity effect, eddy current & hysteresis loss analysis
⚙️ Mechanical Analysis
- Modal analysis & NVH simulations (eg in Ansys Workbench)
- System-level stress analysis
🧠 Simulation & Control
- FEM/FEA analysis
- Motor-CAD, Ansys Maxwell 2D & 3D
- Drivetrain & system simulation
- 1D simulations
- Motor control algorithm design (FOC, vector control)
- Model-based software development (MatLab, Simulink, Simscape, Plecs, TargetLink)
- Derating algorithms to protect eDrive and vehicle
- Development of functional safety (FuSA) compliant software functions
✅ Validation & Verification
- Test bench support: Sample A/B/C/D, prototype, and type testing
- Creation of Design Validation Plans
- Compliance for ISO26262, DO160, DO178c, IEC 60034-18
From Power Tools to Aerospace — Scalable, Standards-Aligned Solutions
- 12–48V: power tools, conventional automotive
- 48V: Hybrid electric automotive, marine applications
- 400V: Electric vehicles, rolling stock, machinery & construction
- 800V: eBus & eTruck, racing cars, mining, aviation
- 1200V–2400V: Aerospace, heavy-duty, power energy
- <100kW: Mild hybrids, starters, generators
- 100kW–300kW: EV, BEV, HEV, PHEV, EREV
- 150kW–600kW: Public transport, commercial vehicles and mining vehicles
- 650kW–1MW: Aviation, aerospace
- >1MW: Wind energy, power plant generators
- Alternator starter, starter generator, automotive alternator, range extender
- Central traction drive, axle drives, eAxle
- eVTOL & microliner propulsion
- Industrial machines, mining equipment
- Robotics
- Wind turbine generator, power plant generators
Proven Motor Development Processes and Engineering Excellence
Agile and Certified Development Processes that Deliver Engineering Practices:
- ASPICE
- V-Model
- Kaizen & Lean
- Six Sigma
- Agile, Scrum, Kanban Processes, Sprint Planning
Interdisciplinary Mechanical, System-Level and Project Management Support:
- CAD design, drawing creation of motor components
- System-level modeling & simulation
- Mechanical integration into overall system
- Stress analysis: CAD engineering, FEM calculations
- Project management, product owner, scrum master support
Advanced Engineering Tools and Collaboration Platform for Electric Motor Development
Our powerful tech stack enables fast, precise, and collaborative engineering workflows:
Specialized Simulation Software for Electric Motors
- Ansys Maxwell 2D – FEM-based electromagnetic simulations
- Motor-CAD – Thermal and electromagnetic analysis for e-motor systems
- MATLAB & Simulink – Model-based development, control algorithms, and system simulation
Integrated Collaboration Tools: WiredWhite Platform
- Project-specific workspaces for seamless teamwork
- Kanban boards and task management
- Video conferencing with screen sharing and recording
- Structured document handling and other useful tools
Supporting Standard Software
- Microsoft 365 – Teams, Word, Excel, PowerPoint for communication and documentation
Accelerated Timelines. Certified Designs. Proven Outcomes.
⏱ 30%
faster prototype-to-validation cycle
⚙️ 100%
traceable and transparent working process
🧪 Complete
test support from sample A to type approval
✅ 100%
compliance rate on certified projects
Motor Solutions for Every Business
Sara, Account-ManagerinSOLCOM GmbH
Katharina, Team Lead Rolling Stockemagine GmbH
Martin, Domain Lead Electrical SystemsALSTOM Drives GmbH
Stefanie, Service Delivery Managerinemagine GmbH
Theresa, Proficient Key Account ManagerSOLCOM GmbH
Max, Technical Project Lead E-DrivesNidec Motors & Actuators (Germany) GmbH
Franziska, Principal ConsultantAmoria Bond GmbH
Seán, Chief Executive OfficerGrip Factory Munich GmbH
Let’s Build Your Next Motor
No matter the voltage, power, or application—our expert team delivers precision-engineered motors with test-proven performance.
Partner with Us for Your Next Motor Development Project
Speak directly with our engineers to discover how we can help you design, optimize, and certify electric motors — faster and with full compliance.
Let’s move your ideas forward.
