The topologies covered will include Linear Halbach, Dual Halbach, Circular Halbach, and Quadrupole Halbach arrangements. Each configuration will be simulated to evaluate the magnetic field distribution and understand its impact on performance.
Join our live session on magnetic levitation (maglev) technology and explore how EMWorks tools integrated with Autodesk Inventor can revolutionize your engineering designs.
Explore how skew angle and air gap variations affect PMSM performance. Using EMWORKS-MotorWizard, we'll model and mitigate torque ripple in Inset PMSMs.
Learn simulating disk magnet governors with EMWorks for Autodesk. Optimize designs, develop strategies, and enhance performance aligned with objectives.
5G wireless communication is essential for handling the surge in data traffic. 5G-mmWave antennas offer significant advantages, enhancing bandwidth for intense data traffic.
In various energy-intensive industries, busbars play a pivotal role in high-power electrical systems, including power distribution, manufacturing, and renewable energy applications.
The surge of electronic systems in modern vehicles mandates a careful examination of Electromagnetic Interference (EMI) and Compatibility (EMC) issues.
Unlock the potential of EMFs in EVs for eco-friendly transportation. Optimize battery performance, ensuring a cleaner, efficient, and responsible future.
Unlock CubeSat potential with HFWorks for antenna design. Transform your approach for efficiency, reliability, and adaptability in diverse space missions.
As power electronics and drive systems continue to evolve, specialized electric machines such as Brushless DC (BLDC) motors have emerged as a notable innovation.
Electric machines with direct drive, operating at low speeds while delivering remarkable torque, are indispensable components in various critical applications.
DDR5 (Double Data Rate 5) technology is the cutting-edge in computer memory, finding applications in high-end desktops, gaming PCs, data centers, and servers.
Explore electromagnetic vibration harvester behavior using EMS, an advanced FEA tool by EMWorks. Assess and optimize design parameters for magnetic levitation systems.
Explore challenges in Wireless Power Transfer (WPT) technology across applications. Learn the importance of overcoming these hurdles for realizing its full potential.
Wearable antennas are becoming increasingly popular in wireless communication systems due to their inconspicuous integration into clothing and accessories.
Explore EMWorks' electromagnetic simulation impact on education and research. Students gain benefits in coursework, research, projects, and competitions.
Wireless biotelemetry advances medical technology, enabling devices like implantable sensors and pacemakers. Remote monitoring aids healthcare without invasive procedures.
Electrical machines drive industry, consuming over 60% of global electricity. Demand for higher efficiency challenges engineers to meet international standards.
Electrification in the aviation sector has received more interest in order to reduce the increasing effect of greenhouse gas emissions on the atmosphere.
Overcome metal crack sensor design challenges using 3D high-frequency electromagnetic virtual prototyping software. Achieve an efficient and reliable sensor design.
Learn to use our EMWorks2D for virtual prototyping of electric bike motors. Evaluate torque, back EMF, and optimize design parameters for enhanced performance.
Transition to zero-prototyping with EMS and EMWorks 2D simulations, demonstrated on a three-cores armored XLPE submarine cable, with focus on key calculations.
Master basics of linear electrical machine modeling, utilizing electromagnetic and Multiphysics simulation for analysis of motor and generator operations.
Explore 0.75kW-1500rpm three-phase induction motor design and analysis using MEC and FEM methods with EMWorks2D software. Compare electromagnetic results step-by-step.
Design Halbach array PM motor with EMWorks2D software. Explore performance parameters like torque, back-EMF, and flux distribution under various operating conditions.
Explore BLDC motor designs (16 and 20 poles) using EMWorks2D software, analyzing various commutation conditions, electromagnetic results, and thermal analysis.
The Modeling and designing of power transformers is a complex and challenging task for engineers worldwide. It includes several inputs and outputs under different conditions.
Die Nachfrage nach Multi-Degrees of Freedom (MDOF) Elektromotoren steigt aufgrund neuer Anwendungen mit großen Neigungswinkeln, höheren Kräften und gleichmäßigeren Flüssen.
The switched reluctance motor (SRM) has various benefits such as a simple and robust structure, high speed operating capabilities, and lower manufacturing costs.
Medical telemetry revolutionized modern medicine by translating and transmitting real-time internal body data. Monitors vital signs like pulse and respiration.
Direct drive electrical machines for wind turbines, ship propulsion, rudder actuators, and cranes rely on large permanent magnets for low speed and high torque.
Learn to simulate Flip-Chip Package interconnects in our webinar. Accurate 3D field and circuit simulations capture data rate, vias, material losses, and ISI effects on system performance.
In this webinar, we will take-you-by-the-hand and walk you through the various steps to create a SolidWorks Motion study with MDOF and couple it to EMS.
Electric generators are crucial for electricity production in power plants, offshore stations, and various sectors like automotive, industry, and agriculture.
In recent years, hyperthermia based on microwaves, has become a mainstream treatment of cancerous cells, especially for breast cancer, due to its proven efficiency, safety, and non-invasiveness; however, it relies heavily on the quality of the applicator antenna
In the IoT realm, miniaturization drives the Internet of Small Things trend, seen in wearables, tiny PCs, cell phones, pharmaceuticals, and fitness devices.
Webinar: Explore eddy current braking principles, major design challenges, and solutions using EMS, our electromechanical virtual prototyping software.
MIMO, a mainstream antenna tech, excels in wireless communication, outperforming MISO and SIMO systems. Key in deploying 3GPP, 4G, LTE, or 5G technologies.
MIT introduced Resonant Wireless Power Transfer (RWPT) in 2008—a WPT with compensation capacitors in both transmitter and receiver, operating at resonant frequency.
Magnetostriction causes transformer noise and vibration. In a magnetic field, steel extends; when the field is off, it shrinks back, resulting in audible effects.
Defected Ground Structure (DGS), a simplified Electromagnetic Band Gap, enhances passive component frequency response without sacrificing overall size.
Axial flux machines, with a shorter flux path, offer higher power density and 30-40% more torque than radial machines of equal size. They also experience less winding heat.
Miniaturizing antenna arrays causes mutual coupling, leading to crosstalk and distortion, degrading performance and potentially distorting radiation patterns.
MRI, a non-ionizing imaging technique, provides detailed organ and tissue images without x-rays or ionizing radiation, allowing unlimited scans per year.
Step-by-step guide on using HFWorks for efficient electronic product design within power handling limits, emphasizing multi-physics capabilities in SOLIDWORKS.
Explore 5G mmWave filter design challenges at 28GHz. Learn to optimize with HFWorks simulation tool and analyze thermal behavior for efficient solutions.
Electric cars dominate the global market, from design and modeling to simulation and manufacturing. FEA simulates electric motor performance for efficiency.
DQ model is a key tool for permanent magnet machine analysis and control system design. Accurate parameter extraction from the machine is crucial for effective utilization.
DQ model is a key tool for permanent magnet machine analysis and control system design. Accurate parameter extraction from the machine is crucial for effective utilization.
Uncover the role of current phase angle in maximizing torque in permanent magnet machines. Learn analysis techniques in EMWorks2D for enhanced performance insights.
Explore magnetic levitation in EMWorks for innovative, contactless systems. Integrated with SOLIDWORKS, analyze static and electrodynamic levitation in various conditions.
This webinar will show you how HFWorks can be used to evaluate the SAR and thermal effects of MRI scanning on biological human tissues surrounding passive medical implants.
Unveil 5G mmWave antenna design challenges. Explore HFWorks for streamlined, efficient solutions from single elements to array configurations in SolidWorks.
Unlock the world of Rotational Permanent Magnet Couplers (PMC) in this EMS for SOLIDWORKS webinar. Simulate dynamics and electromagnetics for precision.
Accelerate permanent magnet motor design with MotorWizard's template-based FEA. Explore diverse materials and simulations for PMSM and BLDC efficiency.
In this webinar, we will show you how our electromagnetic simulation package can help engineers to design and study their high voltage bushing and insulator systems.
In this webinar we will study how to visualize the fringing of electric fields between parallel conductor plates. EMS for SOLIDWORKS has 3 electric solvers - electrostatic, AC electric and electric conduction.
Explore electric simulation basics with EMS for Inventor in this webinar. Delve into electrostatic and Electric conduction solvers using practical examples.
Discover the power of equivalent circuits in predicting transformer performance. Learn to estimate parameters using AC magnetic analysis in EMS software.
Learn to design and analyze RF and MW heating systems with HFWorks' multiphysics simulation. Explore geometry, material, and power impact effortlessly.
Explore multi-physics modeling with EMS for SolidWorks to analyze busbars in power substations. Study DC and AC conditions, losses, currents, and more.
Discover electromagnetic simulation in Autodesk Inventor with EMS for Inventor. Explore permanent magnet arrays and solenoid actuators for better device design.
Efficiently explore the capacitive, inductive, and thermal properties of three-core sheathed XLPE submarine cables using EMS and EMWorks 2D in SOLIDWORKS.
Optimize induction hardening with EMS for SOLIDWORKS. Study coil designs, temperature, electromagnetic losses, and estimate thermal stresses for better results.
EMS for SOLIDWORKS accurately predicts holding force and magnetic flux distribution in electromagnetic clutches for various applications. Join the webinar to learn more.
Learn electromagnetic simulation in SOLIDWORKS and EMS with permanent magnets. Explore magnetic studies, parametric simulations, and visualize holding forces.
Explore eddy current braking with EMS: set up simulation, couple with SOLIDWORKS Motion, visualize dynamic plots, understand system behavior with field plots.
Optimize magnetic coil design with EMS for SOLIDWORKS. Explore solenoids, speakers, actuators, and more. Achieve accurate simulations and multi-physics insights. Register now!
Discover motor simulation in SOLIDWORKS with EMWORKS products. Explore the impact of air gap length on BLDC and PMSM motor performance. Join the webinar now!
Explore magnetic gear assembly analysis in SOLIDWORKS with EMS. Learn to study torque transmission using parametric analysis. Join the informative webinar!
Join EMWorks for an engaging discussion about the design and simulation of a Differential Mode Wideband Band-pass Filter, Dr. Alex Bost will share how you can use the capabilities of the duo of HFWorks and SOLIDWORKS to have an efficient and successful design cycle.
Join us for an engaging discussion about the design and simulation of a twist waveguide section. During this webinar, Dr. Alex Bost will share with you how you can use the capabilities of the duo HFWorks/SOLIDWORKS to have an efficient and successful design cycle.
By visiting or using this website you agree to the storing of cookies on your device to enhance site navigation, analyze site usage, and assist in our marketing efforts.View cookies details
English (CA)
Deutsch
日本語
