JEO’s Professional Motor Simulation Solutions
Covering Loss Calculation, Circuit Modeling & Magnet Behavior .
we deliver professional simulation analysis for motors, covering key parameters:
Electrical performance: Induced voltage, load/cogging torque, inductance, flux linkage, & all loss types (iron, coil, magnet).
Core analyses: Permeance calculation, parameter sensitivity testing, equivalent circuit model extraction.
Multi-physics evaluation: Heat generation & temperature distribution, plus mechanical-acoustic performance (eccentricity, stress, vibration, radiated sound).
Specialized assessments: Magnetization/demagnetization behavior, skew effect optimization.
Technical Distinction: Advantages of Simulation Analysis
Innovative, Professional, Focused, Efficient
Comprehensive Multi-Physics Analysis Capability
Covering electrical (induced voltage, torque), thermal (heat generation, temperature distribution), mechanical (stress, vibration) and magnetic (magnetization, demagnetization) performance, realizing all-round simulation of motor operation.
Precise Key Parameter Optimization
Expert in minimizing cogging torque, calculating iron/coil/magnet losses, and extracting equivalent circuit models, ensuring accurate matching of simulation data with actual motor performance.
Professional Specialized Scenario Analysis
Proficient in evaluating skew effects, eccentricity impacts and radiated sound characteristics, addressing complex technical pain points in motor design.
Efficient Parameter Sensitivity Testing
Quickly identify critical factors affecting motor performance through systematic sensitivity analysis, shortening the optimization cycle of motor development.
Customized Simulation Solutions
Tailor simulation plans according to different motor types (e.g., QDD actuators, joint motors) and customer demands, providing targeted technical support for product iteration.
JEO: Covering Motor Basics to Complex Phenomena in Simulation
Professional .Efficient .Focused .
At JEO, our motor simulation analysis transcends basic parameter evaluation—we master both fundamental characteristics (induced voltage, torque, inductance) and complex phenomena (thermal demagnetization, vibration), delivering professional insights through five core strengths: comprehensive multi-physics integration, precise parameter optimization, specialized scenario expertise, efficient sensitivity testing, and tailored solution design. This holistic capability ensures we address every critical aspect of motor performance with unmatched accuracy.
Core Advantages of JEO Humanoid Robot Joint Motor
JEO strain wave gearheads deliver distinct technological advantages compared to traditional gearhead designs. They excel in high - precision, mission - critical applications where performance margins are minimal
Comprehensive Multi-Physics Analysis Capability
Covering electrical (induced voltage, torque), thermal (heat generation, temperature distribution), mechanical (stress, vibration) and magnetic (magnetization, demagnetization) performance, realizing all-round simulation of motor operation.
Precise Key Parameter Optimization
Expert in minimizing cogging torque, calculating iron/coil/magnet losses, and extracting equivalent circuit models, ensuring accurate matching of simulation data with actual motor performance.
Professional Specialized Scenario Analysis
Proficient in evaluating skew effects, eccentricity impacts and radiated sound characteristics, addressing complex technical pain points in motor design.
Efficient Parameter Sensitivity Testing
Quickly identify critical factors affecting motor performance through systematic sensitivity analysis, shortening the optimization cycle of motor development.
Customized Simulation Solutions
Tailor simulation plans according to different motor types (e.g., QDD actuators, joint motors) and customer demands, providing targeted technical support for product iteration.
Integrated with JEO Modular System Components
JEO strain wave gearheads enable seamless integration within the JEO modular drive ecosystem. As a core element of our field - validated modular architecture, these gearheads are engineered with optional output bearings. For applications requiring minimalist design, the bearing - less configuration — leveraging the wave generator, flexspline, and circular spline as core functional elements — facilitates optimized integration into bespoke robotic and automation systems.
Industry-leading torque density and superior adaptability for seamless drive integration. Frameless: Flexible design for diverse setups. High torque density: Powerful, cost-effective. Hollow-shaft: Versatile installation/integration. Lightweight & compact: Space/weight-saving. Low-voltage: 12V–48V, safe/efficient. Optimized copper fill: High torque, dynamic performance. Concentrated coils: Low thermal loss, efficient/durable. Thermally optimized: Reliable under demand. Tailored systems: Weight/space-saving via load analysis. Precise control: Accurate, responsive. Broad compatibility: Adapts to diverse needs.
Industry-leading torque density and superior adaptability for seamless drive integration. Frameless: Flexible design for diverse setups. High torque density: Powerful, cost-effective. Hollow-shaft: Versatile installation/integration. Lightweight & compact: Space/weight-saving. Low-voltage: 12V–48V, safe/efficient. Optimized copper fill: High torque, dynamic performance. Concentrated coils: Low thermal loss, efficient/durable. Thermally optimized: Reliable under demand. Tailored systems: Weight/space-saving via load analysis. Precise control: Accurate, responsive. Broad compatibility: Adapts to diverse needs.
YCM-25 Next-Gen Frameless Hollow-Shaft Stator-Rotor Assemblies
Industry-leading torque density and superior adaptability for seamless drive integration. Frameless: Flexible design for diverse setups. High torque density: Powerful, cost-effective. Hollow-shaft: Versatile installation/integration. Lightweight & compact: Space/weight-saving. Low-voltage: 12V–48V, safe/efficient. Optimized copper fill: High torque, dynamic performance. Concentrated coils: Low thermal loss, efficient/durable. Thermally optimized: Reliable under demand. Tailored systems: Weight/space-saving via load analysis. Precise control: Accurate, responsive. Broad compatibility: Adapts to diverse needs.
Industry-leading torque density and superior adaptability for seamless drive integration. Frameless: Flexible design for diverse setups. High torque density: Powerful, cost-effective. Hollow-shaft: Versatile installation/integration. Lightweight & compact: Space/weight-saving. Low-voltage: 12V–48V, safe/efficient. Optimized copper fill: High torque, dynamic performance. Concentrated coils: Low thermal loss, efficient/durable. Thermally optimized: Reliable under demand. Tailored systems: Weight/space-saving via load analysis. Precise control: Accurate, responsive. Broad compatibility: Adapts to diverse needs.
Industry-leading torque density and superior adaptability for seamless drive integration. Frameless: Flexible design for diverse setups. High torque density: Powerful, cost-effective. Hollow-shaft: Versatile installation/integration. Lightweight & compact: Space/weight-saving. Low-voltage: 12V–48V, safe/efficient. Optimized copper fill: High torque, dynamic performance. Concentrated coils: Low thermal loss, efficient/durable. Thermally optimized: Reliable under demand. Tailored systems: Weight/space-saving via load analysis. Precise control: Accurate, responsive. Broad compatibility: Adapts to diverse needs.
Industry-leading torque density and superior adaptability for seamless drive integration. Frameless: Flexible design for diverse setups. High torque density: Powerful, cost-effective. Hollow-shaft: Versatile installation/integration. Lightweight & compact: Space/weight-saving. Low-voltage: 12V–48V, safe/efficient. Optimized copper fill: High torque, dynamic performance. Concentrated coils: Low thermal loss, efficient/durable. Thermally optimized: Reliable under demand. Tailored systems: Weight/space-saving via load analysis. Precise control: Accurate, responsive. Broad compatibility: Adapts to diverse needs.
JEO: Streamlined Motor Simulation – Templates & Rapid Modeling
Leverage our built-in templates to define essential design parameters, including geometry, material specifications, winding configurations, and circuit excitation settings.Model development is completed in minutes, while core performance indicators—such as torque-speed curves and efficiency data—are generated in just seconds.Users also have the flexibility to create custom templates tailored to their specific motor designs.Support for batch processing of parametric calculations streamlines iterative analysis.Our template library covers a full range of motor types, including PMSMs, IMs, SRMs, brushed motors, and universal motors.
Strain Wave Gearhead Technology: The Optimal Choice for Precision - Critical & Reliability - Driven Applications
Strain wave gearheads represent a cutting-edge solution pivotal to high-precision motion control systems. Leveraging the elastic deformation of the flexspline, this technology delivers ultra-precise, backlash-free, and energy-efficient motion transmission — a cornerstone for mission-critical operations.
With a synergy of micron-level precision, space-efficient engineering, and robust reliability, our strain wave gearheads emerge as the go-to solution for rigorous industrial and technological applications. For enterprises pursuing next-level motion control excellence, our gearheads deliver a differentiated blend of performance, longevity, and operational efficiency — engineered to outperform in challenging environments.
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