Why Choose Ozen Engineering for Electromagnetics Consulting?

At Ozen Engineering, we specialize in electromagnetic technologies, offering consulting services that use Ansys HFSS, Maxwell, SIWave, EMC Plus, and MotorCAD. Our team combines technical expertise with a thorough understanding of electromagnetic design, simulation, and optimization to ensure your projects meet industry standards.

Our solutions include:

  • Electromagnetic Design
    We use Ansys HFSS, Maxwell, and SIWave to simulate electromagnetic fields and high-frequency electromagnetic waves accurately. This helps predict and validate system behavior.

  • EMC and EMI Analysis
    We use Ansys EMC Plus to assess electromagnetic compatibility (EMC) and interference (EMI), helping products meet regulatory standards and perform well in complex electromagnetic environments.

  • Electric Machine Simulation
    We use Ansys Maxwell and MotorCAD to design and analyze electric motors and generators. Our focus is on improving performance, managing heat, and optimizing materials.

  • Workflow Integration
    We integrate Ansys tools with system-level design platforms to improve workflow and conduct sensitivity analysis across automotive, aerospace, consumer electronics, and industrial machinery applications.

How Can We Help?


Contact us to speak with our electromagnetic simulation consultants

  • High-Frequency RF and Antenna Design
    High-Frequency RF and Antenna Design
    Leverage Ansys HFSS to design and analyze high-frequency RF components and antennas, critical for 5G applications. Accurately simulate electromagnetic fields and waves to optimize performance and ensure compliance with global standards in applications like 5G antennas, radar systems, satellite communications, and RF microwave circuits.
  • Signal & Power Integrity, EMI Analysis
    Signal & Power Integrity, EMI Analysis
    Use Ansys SIwave and Ansys EMC Plus for comprehensive signal and power integrity analysis as well as EMI assessments. Ensure high-speed electronic devices meet performance and regulatory standards, crucial for PCB and IC package design, high-speed channels, and power delivery systems.
  • Low-Frequency Electromechanical Design
    Low-Frequency Electromechanical Design
    Utilize Ansys Maxwell and Ansys RMxprt for the design and simulation of low-frequency electromechanical systems. Optimize magnetic flux distribution and reduce eddy current effects in electric motors, transformers, actuators, and sensors.
  • Biomedical Device Simulation
    Biomedical Device Simulation
    Simulate wearable and implantable biomedical devices with Ansys HFSS and Ansys Maxwell. Ensure effective RF charging, dynamic tuning, and signal integrity for devices in body area networks (BAN), including wearable health monitors, RF implants, and medical imaging devices.
  • Power Cable Ampacity
    Power Cable Ampacity
    Optimize power cable installations using Ansys EM and CFD simulations to compute losses, temperature distributions, and ampacity. Avoid overheating and validate designs against NEC, IEEE, and IEC standards for applications like utility tunnels, rooftop installations, and duct-bank designs.
  • Waveguide Component Design
    Waveguide Component Design
    Design waveguide components for telecommunications, radar, and medical imaging using Ansys HFSS. Perform electromagnetic field simulations and optimize material selection to minimize losses in applications such as satellite systems, automotive radar, and terahertz imaging.
  • RF Filter Design
    RF Filter Design
    Automate RF filter design and optimization with Ansys Nuhertz FilterSolutions. Analyze frequency response, impedance matching, and thermal effects to create robust and efficient filter designs for wireless communications, satellite communications, and automotive radar.
  • Pluggable Optical Transceivers and Hosts
    Pluggable Optical Transceivers and Hosts
    Develop and optimize pluggable optical transceivers and hosts with Ansys SIwave and Ansys HFSS. Focus on high-speed line design, modulator RF circuits, and signal integrity for reliable data transmission in long-haul coherent optical links, data centers, and communication links.
  • Power Electronics: DC-DC Converters
    Power Electronics: DC-DC Converters
    Verify and optimize DC-DC converters using Ansys Simplorer and Ansys Maxwell. Conduct EMI/EMC analysis, design decoupling filters, and ensure reliable power integrity in electronic systems for power management in automotive, aerospace, and consumer electronics.
  • PCB and Package: Signal and Power Integrity
    PCB and Package: Signal and Power Integrity
    Analyze and optimize PCB and package designs with Ansys SIwave and Ansys Q3D Extractor. Ensure signal and power integrity, reduce crosstalk, and manage EMI/EMC for high-speed electronic devices, including high-speed PCBs, ceramic/organic packages, DDR, and PCIe.
  • PCI Express Cards
    PCI Express Cards
    Design and verify PCI Express cards using Ansys SIwave and Ansys HFSS. Optimize signal integrity, minimize jitter, and ensure compliance with PCIe standards for high-performance computing in data centers, servers, and workstations.

Ansys HFSS

A 3D electromagnetic field solver to design high-frequency and high-speed electronic components. Its FEM, IE, asymptotic and hybrid solvers address RF, microwave, IC, PCB and EMI problems.

  • Solves multi-layer packages
  • 3D layout workflow for PCBs and packages
  • High-frequency electromagnetic solvers
  • IP protection through 3D components

Ansys SIWave

A specialized tool for simulating power and signal integrity as well as EMI analysis of IC/PCB packages. Solve for power delivery systems and high-speed channels in electronic devices.

  • Electrothermal and mechanical analysis
  • IBIS and IBIS-AMI SerDes analysis
  • Virtual compliance
  • Impedance, crosstalk and EMI scanning
  • Automated decoupling capacitor optimization

Ansys Q3D

Ansys Q3D Extractor calculates the parasitic parameter of frequency-dependent resistance, inductance, capacitance and conductance (RLCG) for electronic products.

  • Solid modeling
  • Power/signal integrity analysis
  • Various extraction types
  • Automatic, adaptive mesh refinement

Ansys Maxwell

An electromagnetic field simulation solver for electric machines and electromechanical devices. Solve static, frequency-domain and time-varying electric fields.

  • 2D and 3D electromagnetic FEA
  • Component to system – Reduced-order modeling
  • Advanced electromagnetic material
  • Automatic adaptive meshing
  • Multiphysics analysis

Ansys RMxprt

Specifically engineered to optimize the design and performance of rotating electric machines, accurately calculating currents, torques, power, and efficiency, and employing motor-specific templates alongside analytical formulations and magnetic circuit methods.

  • Induction machines
  • DC motors and generators
  • Adjustable speed motors
  • Single and three-phase motors
  • Brushless DC motors
  • Switched reluctance motors

Ansys EMC Plus

An electromagnetic field simulation solver for electric machines and electromechanical devices. Solve static, frequency-domain and time-varying electric fields.

  • 2D and 3D electromagnetic FEA
  • Component to system – Reduced-order modeling
  • Advanced electromagnetic material
  • Automatic adaptive meshing
  • Multiphysics analysis
  • Slice-only technology

Ansys Charge Plus

3D modeling solution of charging, discharging and charge carrier transport across a wide range of applications, in one streamlined workflow.

  • SpaceClaim’s Direct Modeler UI
  • 3D Particle Transport
  • Surface and Internal Charging
  • ESDs in Air and Dielectrics

Ansys Nuhertz FilterSolutions

Automated RF, microwave and digital filter design, synthesis and optimization in an efficient, straightforward process.

  • Automatic filter synthesis
  • Embedded component databases
  • HFSS integration
  • Widest range of filter topologies

Ansys MotorCAD

A template-based design tool for multiphysics analyses of electric motors across the full torque-speed operating range to optimize EV performance, efficiency and size.

  • Intuitive, template-based setups
  • Built-in electromagnetic, thermal and mechanical solvers
  • Rapid analysis of efficiency maps, torque/speed characteristics and drive cycles
  • Thermal sizing of machines

Ansys Twin Builder

Ansys Twin Builder is a powerful solution for building, validation and deploying simulation-based systems and digital twins:

  • Build, validate, and deploy digital twins
  • Digital twin models integrate real-world data
  • Increase efficiency with digital twins
  • Virtual prototype of a deployed system
  • Advanced asset management with digital twins
  • Ansys systems-level simulation know-how

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