Reducing design costs and development times is an ever-increasing challenge. FARADAY, a 3D time-harmonic eddy current field solver from Integrated Engineering Software gives you the advantage you need to meet this challenge head on. Using our innovative Boundary Element Method (BEM), Finite Element Method (FEM) or HYBRID technologies, FARADAY is the only clear choice for applications requiring large open region analysis, exact modeling of boundaries and problems where dealing with small skin depths are critical.
FARADAY is an easy-to-use 3D eddy current field solver for the design and analysis of magnetic equipment and components, including:
MRI
Non-destructive testing systems
Bus bars, charging fixtures
Induction heating coils
Induction motors
Magnetic recording heads
Magnetic shielding
Coils and transformers
Fast and accurate, FARADAY calculates force, torque, displacement current, flux linkage, induced voltage, power and impedance.
Our powerful parametric solvers allow designers to automatically vary and experiment with geometry, materials and sources – reducing the tedious, repetitive task of fine–tuning multiple design parameters.
Reducing design costs and development times is an ever-increasing challenge. FARADAY, a 3D time-harmonic eddy current field solver from Integrated Engineering Software gives you the advantage you need to meet this challenge head on. Using our innovative Boundary Element Method (BEM), Finite Element Method (FEM) or HYBRID technologies, FARADAY is the only clear choice for applications requiring large open region analysis, exact modeling of boundaries and problems where dealing with small skin depths are critical.
FARADAY is an easy-to-use 3D eddy current field solver for the design and analysis of magnetic equipment and components, including:
- MRI
- Non-destructive testing systems
- Bus bars, charging fixtures
- Induction heating coils
- Induction motors
- Magnetic recording heads
- Magnetic shielding
- Coils and transformers
Fast and accurate, FARADAY calculates force, torque, displacement current, flux linkage, induced voltage, power and impedance.
Our powerful parametric solvers allow designers to automatically vary and experiment with geometry, materials and sources – reducing the tedious, repetitive task of fine–tuning multiple design parameters.
