Simcenter Motorsolve

Siemens AG
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Product overview
Simcenter Motorsolve is an electric machine design software that combines finite element analysis with analytical calculations. It supports various types of machines, including induction, permanent magnet, and switched reluctance motors, providing insights into performance, efficiency, and thermal behavior.
Operating Systems
Windows
Data Storage
 On-Premises Storage
Industry served

 Automotive

 Aerospace

 Robotics & Automation

 Energy

 Defence

 Construction Equipment

 Offshore & Marine

 Education & Research

 Medical/ Healthcare

 Consumer Products

 Consumer Electronics

 Heavy Machineries

 Plastic Products

Rail Industry


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Antenna and Wave Propagation Analysis
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Antenna and Wave Propagation Analysis: Simulation of antenna characteristics and wave propagation to optimize antenna design and placement for various applications
Biomedical Electromagnetics
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Biomedical Electromagnetics: Analysis of electromagnetic fields for biomedical applications, including imaging, therapy, and safety assessments
Circuit and System Simulation Integration
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Circuit and System Simulation Integration: Capability to integrate with circuit simulation tools for co-simulation of electromagnetic behavior within electronic circuits and systems
Cloud-Based Simulation
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Cloud-Based Simulation: Support for performing simulations on cloud infrastructure, offering scalability and remote access to computational resources
Electrostatic and Magnetostatic Simulations
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Electrostatic and Magnetostatic Simulations: Analysis of static electric and magnetic fields, including the study of forces, torques, and field distributions in and around materials
Electromagnetic-Fluid Interaction
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Electromagnetic-Fluid Interaction: Simulations that couple electromagnetic fields with fluid dynamics to study phenomena like magnetohydrodynamics and electrokinetics
EMP and HPEM Analysis
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EMP and HPEM Analysis: Study of electromagnetic pulse (EMP) and high-power electromagnetic (HPEM) phenomena, focusing on their generation, propagation, and effects on systems
EMI/EMC Analysis
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EMI/EMC Analysis: Analysis of electromagnetic interference (EMI) and ensuring electromagnetic compatibility (EMC) in devices and systems to meet regulatory standards
Environmental Effects Modeling
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Environmental Effects Modeling: Simulation of how environmental factors, such as rain, fog, and terrain, affect electromagnetic wave propagation and system performance
Guided Mode Resonance Analysis
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Guided Mode Resonance Analysis: Study of waveguide modes and resonances, particularly in optical waveguides and photonic structures, to design filters and sensors
High-frequency Analysis
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High-frequency Analysis: Simulation of electromagnetic behavior at high frequencies, including RF, microwave, and millimeter-wave applications, for communications and radar systems
Multipactor Analysis
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Multipactor Analysis: Examination of multipactor discharge phenomena, which can occur in vacuum or near-vacuum environments and affect the performance of RF and microwave systems
Nano-optics and Metamaterials Simulation
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Nano-optics and Metamaterials Simulation: Analysis of light-matter interactions at the nanoscale and the behavior of metamaterials with engineered electromagnetic properties
Near-Field and Far-Field Analysis
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Near-Field and Far-Field Analysis: Evaluation of electromagnetic fields in the near-field (close to the source) and far-field (at a distance) regions for antenna and radiation studies
Optical and Photonic Simulations
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Optical and Photonic Simulations: Simulation of light propagation and interaction in optical systems and photonic devices, including lasers, LEDs, and optical fibers
Parametric and Optimization Tools
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Parametric and Optimization Tools: Features for conducting parametric studies and optimization of designs based on electromagnetic performance criteria
Plasma Simulations
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Plasma Simulations: Analysis of electromagnetic interactions with plasmas, relevant in fields like space propulsion, fusion energy, and plasma processing
Power Integrity Analysis
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Power Integrity Analysis: Study of power distribution networks in electronic devices and systems to ensure stable and noise-free power supply
Quantum Electrodynamics (QED) Effects
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Quantum Electrodynamics (QED) Effects: Simulation of quantum electromagnetic phenomena, including photon emission, absorption, and scattering at the quantum level
Radiation Hazard Analysis
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Radiation Hazard Analysis: Assessment of electromagnetic radiation exposure and its potential hazards to human health, for safety evaluations
RFID System Simulation
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RFID System Simulation: Simulation of Radio-Frequency Identification (RFID) systems, including tag, reader, and environmental interactions for optimization
SAR (Specific Absorption Rate) Analysis
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SAR (Specific Absorption Rate) Analysis: Calculation of the rate at which energy is absorbed by the human body when exposed to an electromagnetic field, important for safety evaluations
Scattering and Diffraction Analysis
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Scattering and Diffraction Analysis: Study of how electromagnetic waves scatter or diffract when encountering objects, used in radar cross-section (RCS) and optical analysis
Signal Integrity Analysis
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Signal Integrity Analysis: Examination of signal quality within electronic devices, focusing on minimizing distortion, noise, and data errors
Static and Quasi-static Analysis
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Static and Quasi-static Analysis: Analysis of electromagnetic fields at static or low-frequency conditions, focusing on electrostatics, magnetostatics, and slow-changing fields
Structural-Electromagnetic Interaction
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Structural-Electromagnetic Interaction: Study of the interaction between electromagnetic fields and mechanical structures, including stress and deformation due to electromagnetic forces
Thermal-Electromagnetic Coupling
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Thermal-Electromagnetic Coupling: Simulation of the interaction between electromagnetic fields and thermal effects, important for device cooling and thermal management
Transient Analysis
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Transient Analysis: Analysis of time-varying electromagnetic fields and their transient behavior in response to changes in the electromagnetic environment
Waveguide and Cavity Resonator Analysis
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Waveguide and Cavity Resonator Analysis: Simulation of electromagnetic wave propagation in waveguides and resonance behavior in cavity resonators, important in microwave engineering
Electromagnetic Gear and Motor Design
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Electromagnetic Gear and Motor Design: Specific tools for designing and analyzing electromagnetic gears and motors, focusing on performance, efficiency, and thermal management
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