Application Library
Cable Cross Section
Description: The model is a cross section of a cable/transmission line. Model depth = 1000 mm.In this model and accompanying scripts we demonstrate how to create various cable cross section designs using Excel-VBA and Python 3. Electrical parameters data can be further analyzed. Output data can be saved to PSCAD format.
Software: CABLES
Application Categories: Cables
2 Surface and 2 Volume Conductors with Surface and Volume Grounds
Description: This is a generic model to analyze voltage and electric fields data.In this model we demonstrate a cross section for 'N' surface and volume conductors, where N = 2. Surface and Volume grounds have been assigned alongwith a voltage plot.
Software: ELECTRO
Application Categories: Electric field
5 Wire Ribbon Circuit Parameters
Description: This is an Axi-Symmetric generic transmission line insulator model. In this model we demonstrate a dielectric analysis with the electric field solver on an insulator typically used in the high voltage electric transmission industry. Numerical method used is BEM.
Software: ELECTRO
Application Categories: Electric field
Axis-Symmetric Materials Parametric BEM Results
Description: This is an Axi-Symmetric model along the X-axis.In this model we demonstrate a dielectric materials parametric along with Maxwell force on region calculation. A soild colors voltage 2D contour plot is shown.
Software: ELECTRO
Application Categories: Electric field
Axis-Symmetric Real and Equivalent Charge Density Test
Description: This is an Axi-Symmetric model along the X-axis.The aim of this model is to demonstrate a 2D Plot of Charge Densities in Coulombs per meter squared units. The charge density is plotted in the middle layer of this semi-circular model.
Software: ELECTRO
Application Categories: Electric field
Axis-Symmetric Two Discs Infinitesmally Thin BEM
Description: This is an Axi-Symmetric model along the Y-axis.The aim of this model is to demonstrate a boundary element based simulation of two very thin discs for Force calculation and electric fields. A coloured field lines plot with volt per meter units is shown.
Software: ELECTRO
Application Categories: Electric field
Axis-symmetric Tea Cup Temperature Arrow Plot
Description: This is an Axi-Symmetric model along the Y-axis.This model geometry is without the cup handle. It demonstrates heat transfer in Watts/meter squared with the help of arrow plots in various regions.
Software: KELVIN
Application Categories: Thermal
Axis-symmetric Tea Cup Temperature Plot
Description: This is an Axi-Symmetric model along the Y-axis.This model geometry is without the cup handle. It shows temperature distribution inside a tea cup without handle in degree Celsius.
Software: KELVIN
Application Categories: Thermal
Insulated Cable Q-field arrow plot
Description: This is a 2D model with Length 100 cm.This model geometry is a 2D insulated cable cross section which demonstrates heat transfer in Watts/meter squared with the help of arrow plots in insulator and conductor.
Software: KELVIN
Application Categories: Thermal
Temperature plot at interface
Description: This is a 2D model with Length 1 m.This model geometry is a 2D two materials arrangment. The temperature at the interface of two materials is computed to be 47.4 degree Celsius. This is a good model for thermal studies over material interfaces.
Software: KELVIN
Application Categories: Thermal
Cycloid
Description: This is a 2D model with Length 100 cm.Collector segment is assigned. Beam axis is defined. The model may be further analyzed by introducing external electric and magnetic field sources.
Software: LORENTZ
Application Categories: Particle Trajectory
Multiple Orbits
Description: This is an Axi-Symmetric model along the Y-axis.Volume charge and volume current is applied along with a collector segment. Emitter directions are visible. Beam axis is defined.
Software: LORENTZ
Application Categories: Particle Trajectory
Omega 3kV Monochromator
Description: This is a 2D model with Length 100 cm.Three regions with active voltage are present. Emitter direction is specified. Beam axis is defined.
Software: LORENTZ
Application Categories: Particle Trajectory
Penning Trap
Description: This is a 2D model with Length 100 cm.An E-normal electric field condition is applied to two segments. Voltage boundary conditions are applied to the collector. Emitter direction is specified. Beam axis is defined.
Software: LORENTZ
Application Categories: Particle Trajectory
Pierce Gun
Description: This is a 2D model with Length 6 cm.An E-normal electric field condition is applied to the two extreme segments. Result for total current is plotted.
Software: LORENTZ
Application Categories: Particle Trajectory
RF Quadruple Trap
Description: This is an Axi-Symmetric model along the Y-axis.Emitter direction is specified. Beam axis is defined.Voltage boundary conditions are defined.
Software: LORENTZ
Application Categories: Particle Trajectory
Actuator Optimal Configuration
Description: This is a 2D model with length 1 meter.This model demonstrates how to use Parametric and Find Optimal Parametric Result dialog to find the optimal design of an actuator. The optimal actuator configuration will have the best force per area ratio for a given current density.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Current transformer B-field Arrow plot
Description: This is an Axi-Symmetric model along the Y-axis.This model demonstrates how to use Phasor/AC mode at 60.0 Hz frequency. This is a rounded corner geometry. An arrow plot with solid colors is presented for Real B-field in Tesla units.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Helmholtz Coils
Description: This is an Axi-Symmetric model along the Y-axis.This model demonstrates how to use Phasor/AC mode at 60.0 Hz frequency for 2D Coil geometries. An arrow plot with solid colors is presented for Imaginary B-field in Tesla units.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Lenz Law Levitation
Description: This is an Axi-Symmetric model along the Y-axis.This model uses static mode and follows Lenz's Law of Levitation. Plot shows B-field magnitude real values in Tesla units.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Loaded transformer Eddy Current Analysis
Description: This is an Axi-Symmetric model along the Y-axis.This model demonstrates a 50kHZ simulation for the eddy current mode. Plot shows real values of B-field magnitude in Tesla units.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Short Circuit transformer Eddy Current Analysis
Description: This is an Axi-Symmetric model along the Y-axis.This model demonstrates a 50kHZ simulation for the eddy current mode. We are assigning Linear Steel to the outer casing of the transformer. Custom materials have been created and assigned.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
BEM Magnetic Field Lines
Description: This is a 2D model with length of approximately 1 meter.This model demonstrates a Magneto-static simulation for a regular shaped magnet assembly. A real values flux lines plot in tesla units is presented. Solver used is BEM.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Coil Winding Flux Lines with External Load
Description: This is a 2D model with Length 100 mm.This model demonstrates a Magnetic field solution for 100000 Hz. Magnetic flux lines plot for real values with colored lines is presented.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Current transformer Flux Lines Rounded Corners
Description: This is a 2D model with Length 1250 mils.This model demonstrates a Magnetic field solution for static fields. Flux lines plot in Tesla units is presented.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
FEM Magnetic Field Lines
Description: This is a 2D model with length of approximately 1 meter.This model demonstrates a Magneto-static simulation for a regular shaped magnet assembly. A real values flux lines plot in tesla units is presented. Solver used is FEM.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Induction heating camshaft with concentrator
Description: This is a 2D model with Length 1000 mm.This model demonstrates a 60 Hz eddy current solution. A log scale plot of real part of B-field magnitude values in tesla units is presented.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Induction heating camshaft without concentrator
Description: This is a 2D model with Length 1000 mm.This model demonstrates a 60 Hz eddy current solution. A log scale plot of real part of B-field magnitude values in tesla units is presented.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Induction Motor
Description: This is a 2D model with length of 1 meter.This model demonstrates a 60 Hz eddy current solution. Materials involved in this simulation are 1010 Steel & Copper. Three phases and their respective materials are assgined as well.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Lenz Law Levitation
Description: This is an Axi-Symmetric model along the Y-axis.This model uses static mode and follows Lenz's Law of Levitation. Plot shows B-field magnitude real values in Tesla units.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Loaded transformer Eddy current BEM Setup
Description: This is a 2D model with length 0.03175 meters.For this model an eddy current solution is seeked at 60 Hz frequency. Two eddy cuurent windings are defined in this model. BEM is used for solving the model.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Loaded transformer Eddy current FEM Analysis
Description: This is a 2D model with length 0.03175 meters.For this model an eddy current solution is seeked at 60 Hz frequency. Two eddy cuurent windings are defined in this model. FEM is used for solving the model.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Loaded Transformer
Description: This is a 2D model with length 1 meter.This is a magneto static model. Linear lossless steel is used as the outer casing materials. The loading details are mentioned in the output area of the search space.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Motor Field Lines
Description: This is a 2D model with length 1000 mm.This is a magneto static model. Carbon steel and copper are used as materials. Magnetic flux lines plot in gauss units is presented.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Periodic One Quarter Design
Description: This is a 2D model with length 1000 mm.This is a magneto static model. Various materials like specialized steels and samarium cobalt are used. A B-field magnitude plot with gauss units is presented.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Permanent magnet generator
Description: This is a 2D model with length 1000 mm.For this model an eddy current solution is seeked at 60 Hz frequency. Linear Steel and Neodymium 10 MGOe Bonded are used as materials.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Recording head
Description: This is a 2D model with length 1000 mm.For this model an eddy current solution is seeked at 60 Hz frequency. Ferrite material is used and a B-field plot with real values in tesla units is presented.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Solenoid
Description: This is a 2D model with length 1 meter.This is a magneto static model. Specialized steel and air are used as simulation materials. A B-field plot with real values in tesla units is presented.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Speaker B-field arrow plot
Description: This is a 2D model with length 1 meter.This is a magneto static model. Carbon steel and ceramic magnets are used as simulation materials. A B-fields magnitude arrow plot in tesla units is presented.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Stator excited flux lines
Description: This is a 2D model with length 1000 mm.For this model an eddy current solution is seeked at 60 Hz frequency. This is an angular peridoc model with 12 total sections in full model. An imaginary values flux lines plot is presented.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Switched Reluctance Machine
Description: This is a 2D model with length 100 cm.This is a magneto static model. Linear steel is used as simulation material. A volume current source of 100 A is applied.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Various types of windings connected to external load
Description: This is a 2D model with length 100 mm.In this model we are merging every type of winding with an external load. These are mostly transformer winding types. A flux lines plot with tesla units for real values is presented.
Software: OERSTED
Application Categories: Magnetic field & Eddy Current
Actuator Sample
Description: This is an actuator model for force calculation.The actuator is made of 1010 Steel. It has a current density 2.604E6 A/m^3 assigned to the coil. The final goal of this model is to optimize it parametrically. A parametric run completed model is also available.
Software: AMPERES
Application Categories: Magnetic field
B Field Arrow Plot
Description: This model is a rectangular core sorrunded by a rectangular coil.We have assigned iron and vacuum to the required parts in the model, along with current source of 3000 Amperes. Magnetic fields with arrow plots are presented with tesla units.
Software: AMPERES
Application Categories: Magnetic field
B Field Contour Plot
Description: The model is a 3D sectional cut gear type geometry used in electromechicanical applications. We have assigned 10 permanent magnet volume parts. Special materials are used with specific B-H curves. B-field magnitude over a slicing plain with solid color contour plot and Tesla units is presented
Software: AMPERES
Application Categories: Magnetic field
B Field Profile Plot
Description: The model is a full 3D magnetic clutch used in electromechicanical applications. We have assigned 10 permanent magnet volume parts. Special materials are used with specific B-H curves. A magnetic field profile plot in Tesla units is presented.
Software: AMPERES
Application Categories: Magnetic field
3D B Field Streamlines
Description: This model is a rectangular core sorrunded by a rectangular coil.We have assigned iron to required volume in this model,along with current source of 3000 Amperes. Streamlines for analysis of real part of magnetic field are plotted in tesla units.
Software: AMPERES
Application Categories: Magnetic field
3D Permanent Magnet
Description: This model is a 3D horse shoe magnet and a steel piece. We have assigned permanent magnets to both the magnet and steel piece. Neodymium 45 MGOe Sintered is assigned to the horse shoe magnet.
Software: AMPERES
Application Categories: Magnetic field
3D Switched Reluctance Machine
Description: This model is a motor used to analyse magnetic reluctance.Two coils have been assigned a current source of 100 Amperes without any material. Linear steel is assigned everywhere else to the model.
Software: AMPERES
Application Categories: Magnetic field
3D Bushing Temperature profile
Description: This model is a 270 degree view inside an electric bushing .Copper is used as a conducting material while Porcelain is the insulating material. Steel is used at the starting and ending areas of the bushing. A temperature profile with underlaying materials is presented.
Software: CELSIUS
Application Categories: Thermal
3D Heat Sink
Description: This is a generalized heat sink model. The fins are made of pure aluminium while linear steel is assigned to a transistor type material to represent a transistor. Total power assigned is 12 Watts and a temperature profile plot in solid color is presented.
Software: CELSIUS
Application Categories: Thermal
3D Mug
Description: This model is a hot coffee inside a mug with handle. The material Coffee is a representation of a hot liquid. Porcelain is used as the material for the mug construction. A cross sectional temperature profile encompassing the handle is shown.
Software: CELSIUS
Application Categories: Thermal
3D Resistive heat flow
Description: This is a sample model to determine temperature at interface of two materials. Both materials are thermal conductors with different thermal conductivities. A time domain type thermal source is assigned by the name Room Temperature.
Software: CELSIUS
Application Categories: Thermal
3D Airplane
Description: This is a sample model to simulate the effect of lightning on an airplane.A time domain electric field source is applied with a peak value of 1000 V/m. The source is a standard full wave impulse. Aluminium (pure) is assigned to the airplane body. Electric field graphs for x, y and z directions is plotted along with magnitude value.
Software: CHRONOS
Application Categories: High Frequency/RF
3D Magic Tee
Description: A magic tee (or magic T or hybrid tee) is a hybrid or 3 dB coupler used in microwave systems.Fields solution for 0.3 GHz. Perfect surface conductors are assigned to all surfaces. Wave guide type is rectangular TE 1,0 type. Source is phasor 1 volt.
Software: SINGULA
Application Categories: High Frequency/RF
B-field inside a copper sphere at 300 MHz
Description: This model is basically a scattering problem.Fields solution for 0.3 GHz. Copper is assigned to the sphere. Radiation pattern for magnetic field is presented in Tesla units.
Software: SINGULA
Application Categories: High Frequency/RF
Branch Line Coupler
Description: This is a IEEE MTT model. Z,Y,S parameters are obtained from 0.5 to 10 GHz in steps of 0.5 GHz. Perfect surface conductors are assigned to majority of surfaces. 4 Linesource ports are assigned.
Software: SINGULA
Application Categories: High Frequency/RF
Cassegrain Antenna
Description: In telecommunications and radar, a Cassegrain antenna is a parabolic antenna.Fields solution is seeked at 6000 MHz. The feed and reflector are assigned perfect surface conductors. BEM and iterative solver are used. Fast Fourier Transform method for third order interpolation is applied.
Software: SINGULA
Application Categories: High Frequency/RF
Cavity backed aperture antenna
Description: This is an antenna model whose aperture is backed by a cavity.Fields solution is seeked at 9000 MHz. Segment based conductor is used for antenna pin while perfect surface conductor is used on all other surfaces. Only 1 gap type port is used. Normalized values for magnitude of electric field are presented in decibel units.
Software: SINGULA
Application Categories: High Frequency/RF
Circular Cavity Rectangular Wave Guide
Description: This is a fundamental rectangular wave guide model. Z,Y,S parameters are obtained from 8000 MHz to 15000 MHz in steps of 100 MHz. Perfect surface conductors are assigned to the two ends. Two types of identical waveguide sources are assigned.
Software: SINGULA
Application Categories: High Frequency/RF
Circular Disk two port filter
Description: This model is fundamentally a two port network antenna.This model is based on the paper IEEE MTT 88 Dec page 1639 CircularDiskTwoPortFilter SYZ[2_4GHz]. Dielectric with permittivity 2.4 is assigned. Perfect surface conductors are assigned to majority surfaces. Z,Y,S parameters are obtained from 2 GHz to 4 GHz in steps of 0.1 GHz
Software: SINGULA
Application Categories: High Frequency/RF
Circularly Polarized Horn Antenna
Description: This model is fundamentally a horn antenna.A 2D contour plot on the emitting surface is presented. Air is assigned as the material to the complete volume of antenna. Perfect surface conductor is assigned to the outer surface. Two types of identical waveguide sources are assigned to the bottom surface.
Software: SINGULA
Application Categories: High Frequency/RF
Coaxial Tee Junction
Description: This model is fundamentally a high frequency connector.The model is simulated for Z,Y,S parameters from 10k MHz to 30k MHz in steps of 1000 MHz. Perfect surface conductor is assigned to the outer surface. Three types of waveguide sources are assigned. The s-parameter results graph is presented.
Software: SINGULA
Application Categories: High Frequency/RF
Coaxial Waveguide Source finite Ground
Description: 3D
Software: SINGULA
Application Categories: High Frequency/RF
Coaxial Waveguide Source
Description: This model is fundamentally a chip based antenna.The model is solved in fields mode for 5000 MHz. Perfect surface conductor is assigned to all outer surfaces. Only one waveguide source is assigned. Normalized Electric field magnitude plot is presented.
Software: SINGULA
Application Categories: High Frequency/RF
Complex Tee Junction
Description: This model is a antenna that can be used to either divide or combine power.The model is simulated for Z,Y,S parameters from 500 MHz to 5000 MHz in steps of 250 MHz. Model is assigned a dielectric with relative permittivity 10.2. Six delta voltage sources are applied on the top surface strip conductors. Perfect surface conductors are majorly applied.
Software: SINGULA
Application Categories: High Frequency/RF
Conformal Strip Dielectric Resonator Antenna
Description: This model is an antenna with a conformal strip.The model is solved for fields mode at 3650 MHz. Perfect surface conductor is applied to the base plate and to the minor conformal strip. Two types of delta voltages are defined. A normalized far field radiation pattern for Electric field magnitude is presented.
Software: SINGULA
Application Categories: High Frequency/RF
Conical Waveguide Horn Antenna
Description: This model is fundamentally a conical geometry.The model is solved for fields mode at 12500 MHz. All external surfaces are applied perfect surface conductors. One TE (1,1) type of circular waveguide is source is applied at the base of the antenna. A magnetic frill is assigned while a 3D electric field radiation pattern is presented.
Software: SINGULA
Application Categories: High Frequency/RF
Coplanar Stripline Band Stop Filter
Description: This model is basically an antenna filter. The model is simulated for Z,Y,S parameters from 500 MHz to 5000 MHz in steps of 100 MHz. Perfect surface conductors are mostly assigned on the conducting strips and their source surfaces. Four types of delta voltage are assigned.
Software: SINGULA
Application Categories: High Frequency/RF
Coupled feed circular patch antenna
Description: This model is basically a patch on a dielectric substrate.The model is simulated for fields mode for 3500 MHz. Perfect surface conductors are applied to the antenna conducting strips and it's base plate. Delta voltage is applied and a normalized electric field radiation pattern is presented.
Software: SINGULA
Application Categories: High Frequency/RF
Current density on airplane
Description: This is a fundamental airplane model. The model is simulated for fields mode at 200 MHz. Perfect volume conductor is assigned to the entire volume of the model. Real part of current density with Amperes/meter units is presented.
Software: SINGULA
Application Categories: High Frequency/RF
Dielectric Loaded Lossy Cavity
Description: This model is basically a cube inside cube geometry.The model is solved with Eigenmode with lowest frequency of 5 GHz. The total number of resonant frequencies are 10. Perfect surface conductor is applied to the entire exterior surface.
Software: SINGULA
Application Categories: High Frequency/RF
Dielectric Slab Gaussian Beam
Description: This model is fundamentally a dielectric wall. The model is solved in fields mode for 300 MHz. A gaussian beam is passed through the center of the wall and real values of electric field are plotted in volt/meter units.
Software: SINGULA
Application Categories: High Frequency/RF
Dipole Antenna Radiation pattern
Description: This is a fundamental dipole antenna model.The model is solved in fields mode for 300 MHz. It contains only two segments, both of which are assigned perfect segment conductor along with a gap delta voltage source. A 3D radiation pattern with normalized electric field is presented.
Software: SINGULA
Application Categories: High Frequency/RF
Disk Patch Antenna Coaxial Feed
Description: This model is fundamentally a patch antenna.The model is set for Z,Y,S parameters from 2000 MHz to 3000 MHz in steps of 40 MHz. Perfect volume and surface conductors are assigned to required parts. The feeds are coaxial type.
Software: SINGULA
Application Categories: High Frequency/RF
Disk Patch Antenna Dual Wire Feed
Description: This model is fundamentally a patch antenna.The model is solved in fields mode for 2700 MHz. The feeds are wire type. Perfect volume and surface conductors are assigned to required parts. Lumped resistances are defined. A 3D radiation pattern with normalized electric field is presented.
Software: SINGULA
Application Categories: High Frequency/RF
Helical Antenna on Disk
Description: The model is fundamentally a helix type geometry.The model is solved in fields mode for 300 MHz. Perfect surface and perfect line conductors are defined. Delta voltage is defined. The model is set to solve with boundary element method.
Software: SINGULA
Application Categories: High Frequency/RF
Helix with Reflection Plate
Description: The model is fundamentally a helix type geometry.The model is solved in fields mode for 300 MHz. Perfect surface and perfect line conductors are defined. Delta voltage is defined. A normalized electric field radiation pattern in dB units is presented.
Software: SINGULA
Application Categories: High Frequency/RF
L probe antenna
Description: The model is fundamentally a L shaped feed/probe waveguide. The model is solved in fields mode for 3500 MHz. Perfect surface and volume conductors are defined. One coaxial type waveguide source is defined with TM (0,0) mode. A normalized electric field radiation pattern in dB units is presented.
Software: SINGULA
Application Categories: High Frequency/RF
Luneberg Lens
Description: This model is fundamentally a spherically anti-symmetric gradient index lens.The model is solved in fields mode for 5 GHz. Various levels of permittivities are defined. Perfect surface conductors are assigned to the required parts. A TE(1,1) type of waveguide source is assigned and a normalized electric field radiation pattern in dB units is presented.
Software: SINGULA
Application Categories: High Frequency/RF
Microstrip radial stub
Description: This model is fundamentally a microwave stub.The model is basically based on IEEE MTT 97 Mar page 334. The model is set for Z,Y,S parameters from 1 GHz to 22 GHz in steps of 0.5 GHz. Perfect surface conductors are assigned to the required parts. Delta voltages are assigned to the microstrip in positive and negative directions on X-axis
Software: SINGULA
Application Categories: High Frequency/RF
Parabolic antenna with feed
Description: This model is fundamentally a dish type antenna. The model is solved in fields mode for 35000 MHz. Perfect surface conductors are assigned to the required parts. A TE(1,1) type of waveguide source is assigned and a normalized electric field radiation pattern in dB units is presented.
Software: SINGULA
Application Categories: High Frequency/RF
Parallel coupled line band pass filter
Description: This model is fundamentally an antenna filter. The model is set for Z,Y,S parameters from 2000 MHz to 3000 MHz in steps of 200 MHz. There is a loss tangent defined for the dielectric. Perfect surface conductors are assigned to the required surfaces. Two types of delta voltage sources are assigned on the X-axis direction.
Software: SINGULA
Application Categories: High Frequency/RF
Patch Array Antenna
Description: This model is fundamentally an array antenna. The model is solved in fields mode for 6000 MHz. Perfect surface conductors are assigned to all exterior surfaces. Each array is assigned a coaxial type TM (0,0) mode waveguide source.
Software: SINGULA
Application Categories: High Frequency/RF
Quarter monopole antenna delta gap source
Description: This model is fundamentally an antenna with quarter wavelength. The model is solved in fields mode for 1000 MHz. Perfect surface and segment conductors are assigned to the required parts. Delta voltage source is assigned. A normalized electric field radiation pattern in dB units is presented.
Software: SINGULA
Application Categories: High Frequency/RF
RCS Bistatic analysis
Description: This is a test model to demonstrate Bistatic RCS analysis.The model is solved in fields mode for 0.15 GHz. Perfect surface conductor is assigned to the external surface of the model. Imaginary value of surface current density in Amperes/meter unit is presented.
Software: SINGULA
Application Categories: High Frequency/RF
Rectangular horn antenna with Dish
Description: This model is a fundamental rectangular horn design with a reflecting dish.The model is set in fields mode for 3.0 GHz. Perfect surface conductor is assigned to the external surface of the model except the feed surface. A TE(1,0) type of waveguide source is assigned.
Software: SINGULA
Application Categories: High Frequency/RF
Rectangular Tee Junction
Description: 3D
Software: SINGULA
Application Categories: High Frequency/RF
Shielded Microstrip Single Stub Filter
Description: This model is a microstrip antenna filter with shielding on top.The model is set for Z,Y,S parameters from 1 GHz to 4 GHz in steps of 0.1 GHz. Perfect surface conductor is assigned to all external surfaces including dielectric areas. Two delta voltage sources are assigned.
Software: SINGULA
Application Categories: High Frequency/RF
Slot Arrays on waveguides
Description: This is an array type waveguide model. The model is solved in fields mode for 10368 MHz. Perfect surface conductor is assigned to all external surfaces. Three type of waveguide sources are defined on the bottom for each row. A normalized electric field radiation pattern in dB units is presented.
Software: SINGULA
Application Categories: High Frequency/RF
Slotted band stop filter
Description: This model is a filter type antenna. The model is solved in fields mode for 5000 MHz. Perfect surface conductor is assigned to required parts/strips. Four delta voltage sources are assigned in the X-axis direction. A 3D radiation pattern is presented.
Software: SINGULA
Application Categories: High Frequency/RF
Two dipoles with sphere
Description: In this model one dipole is insdie the sphere while other is outside.The model is solved in fields mode for 300 MHz. A normalized electric field radiation pattern in dB units is presented. The sphere is assigned a perfect volume conductor. One dipole is assigned perfect surface conductor while the other is assigned a perfect volume conductor.
Software: SINGULA
Application Categories: High Frequency/RF
Waveguide reflector 90 with Magic Tee junction
Description: This model is a hybrid or 3 dB coupler used in microwave systems. The model is solved in fields mode for 10000 MHz. Perfect surface conductor is assigned to all external surfaces. Four rectangular waveguide sources of TE (1,0) type are assigned. Imaginary part of electric field values in volt/meter units on specific planes are presented.
Software: SINGULA
Application Categories: High Frequency/RF
Wilkinson power divider
Description: This model is a wilkinson power divider. The model is set for Z,Y,S parameters from 1000 MHz to 7000 MHz in steps of 300 MHz. One perfect surface conductor is aasigned while another surface conductor with specific thickness and conductivity is assigned. Three types of delta voltage sources are assigned.
Software: SINGULA
Application Categories: High Frequency/RF
Capacitance Matrix
Description: This is a sample model to compute capacitance matrix with four conductors. The model geometry consists of two rings and two discs. All of them have been designated as electric conductors. Capacitances between each other are computed and presented.
Software: COULOMB
Application Categories: Electric field
Capacitor
Description: This model is a fundamental rectangular capacitor to compute capacitance matrix.A thick plate with relative permittivity = 4 is used. Static voltages are assigned to the top plate and the bottom surface of the bottom plate. The same surfaces are assigned electric conductors.
Software: COULOMB
Application Categories: Electric field
Charged Spheres BCC Lattice
Description: This model is a body-centered cubic lattice.All the 9 spheres are surface charged with 0.1 Coulomb. Electro-static analysis is performed and an electric fields arrow plot is presented with volt/meter values.
Software: COULOMB
Application Categories: Electric field
Conductivity mode FEM sample model
Description: This is a FEM based sample model. We have drawn a copper ring with two probes to it. One of the probes is used for current entry while the other for exit. Voltages are applied at the entry and exit surfaces. A conduction current density arrow plot is presented.
Software: COULOMB
Application Categories: Electric field
Electric Shielding
Description: This model is basically a hollow cylinder inside a cube. The cylinder is assigned zero volts. It acts like an electrostatic shield which attemps to block the electric field penetrating inside and below it.
Software: COULOMB
Application Categories: Electric field
High Voltage Insulator
Description: This is a fundamental porcelain insulator model for electric power transmission/distribution applications.Copper is assigned to the electrodes. The middle electrode is assigned a floating voltage. The model is six times angular periodic and a solid colors voltage plot is presented.
Software: COULOMB
Application Categories: Electric field
High Voltage Test Device
Description: The model is a general arrangement used for high voltage testing inside a Lab.The model is basically a rod and sphere arrangement. This model can also be used to compute electric forces on the sphere surfaces.
Software: COULOMB
Application Categories: Electric field
Insulator with air bubbles
Description: This model represents a 'what-if' scenario of air bubbles traped inside an insulator volume.Copper is assigned to the top and bottom electrodes. Insulating material is assigned in between the electrodes. Material properties of air are assigned to the spheres inside the insulating volume.
Software: COULOMB
Application Categories: Electric field
Lens
Description: This model is an electrostatic lens.The model consists of two parts. The lower part is high voltage while the upper part is low voltage. Electric field is plotted with the help of arrow plots inside the low voltage part.
Software: COULOMB
Application Categories: Electric field
Porus Insulator
Description: This is a IEEE transactions model. A porus dielectric material is placed in between two flat electrodes. Pores are modeled by hollow spheres.
Software: COULOMB
Application Categories: Electric field
Transmission Distribution Tower
Description: This is a power distribution pole model.Aluminum (pure) is assigned to the conducting line parts. A highly specialized material is assigned for insulator. The pole itseld is made of Steel (linear). It has symmetric boundary about X=0 plane.
Software: COULOMB
Application Categories: Electric field
Transmission Lines Tower
Description: This is a power transmission tower model for long distance power trasmission applications.Glass insulators are used. The tower is grounded. Transmission lines are modeled and are ready to be assigned voltage values.
Software: COULOMB
Application Categories: Electric field
Coil interaction with a conducting plate
Description: This is a inductive heating application model.Real and Reactive conductor loss is computed.This is a fundamental model of how a coil interacts with a conducting plate.
Software: INDUCTO
Application Categories: Induction
Electric Vehicle charging coils
Description: This is a sample model for coils of electric vehicles. These coils fundamentally show wireless magnetic power transfer. Real part of B-field magnitude values is presented on a logarithmic scale.
Software: INDUCTO
Application Categories: Induction
Non destructive evaluation
Description: This is a sample model for non destructive testing Convection heating boundary condition is applied. A semi-circular current carrying coil is the key part of this model. This is also a TEAM 15 problem.
Software: INDUCTO
Application Categories: Induction
Three phase coils
Description: These are a fundamental example of three phase coils.Coils are assigned current sources. Model can be used for magnetic, eddy current and induction analysis.
Software: INDUCTO
Application Categories: Induction
Vehicle with wireless charger
Description: This is a sample model for coils of electric vehicles along with the vehicle.Ferrite plate is added in between the coils for better efficiency. Electric vehicle is assigned linear steel material. Current carrying conducting coils are defined.
Software: INDUCTO
Application Categories: Induction
Angular Periodic Disk - Beam plot along axis
Description: This model is Anti-symmetric about the XY plane and 6 times angular periodic about Z axes. Beam axes are set and a negative volatge is applied to the required surfaces.
Software: LORENTZ
Application Categories: Particle Trajectory
Bending Magnet
Description: This is a model in which magnets are used to bend the direction of rays.Linear steel is used and beam axes are set. A static current source of 1000 Amperes is applied. Emitting point is specified.
Software: LORENTZ
Application Categories: Particle Trajectory
Coils Lorentz application
Description: A fundamental one fourth model of a coil.Emitter direction is specified and copper is assigned to the coil.
Software: LORENTZ
Application Categories: Particle Trajectory
Cycloid Multiple
Description: This is a cycloid motion model.All beams are plotted with the help of scatter plots. Collector is circular geometry and well defined. Beam axes are defined.
Software: LORENTZ
Application Categories: Particle Trajectory
Cycloid Single
Description: This is a cycloid motion model.Only single beam is plotted. Collector is circular geometry and well defined. Beam axes are defined.
Software: LORENTZ
Application Categories: Particle Trajectory
Einzel Lens.png
Description: This is an electrostatic lens that focuses without changing the energy of the beam.Ground and high voltages are applied. It consists of three sets of cylindrical apertures to which voltages are applied. Beam axes is defined. Results for Beam 1 and 2 are presented.
Software: LORENTZ
Application Categories: Particle Trajectory
HF Quadrupole trap
Description: A quadrupole ion trap is a type of ion trap that uses electric fields to trap charged particles.Majority of the outer body of the model is the collector. Results for Beam 1 are plotted.
Software: LORENTZ
Application Categories: Particle Trajectory
Omega 100kV Monochromator
Description: A monochromator is an optical device that transmits a mechanically selectable narrow band of wavelengths of light or other radiation.Three different voltages are assigned. Emitting point is defined. Majority of the outer body of the model is the collector except the base part. Resulting colored rays are presented.
Software: LORENTZ
Application Categories: Particle Trajectory
Orbit
Description: In this model the beam is orbiting a charged sphere.The surface charge on the sphere is 1e-8 Coulombs. Beam axes is specified from the center of sphere. A plate type collector is modeled and results for 6 beams are presented.
Software: LORENTZ
Application Categories: Particle Trajectory
Penning Trap
Description: A Penning trap is a device for the storage of charged particles using a homogeneous axial magnetic field and an inhomogeneous quadrupole electric field.Starting point of the emitter is specified. Beam axes are specified from the center plane of the model. Required electric voltages are applied.
Software: LORENTZ
Application Categories: Particle Trajectory
Pierce Gun
Description: A Pierce Gun is an idealized case used for establishing some principles for electron gun design.Voltage sources are assigned to respective surfaces. Beam axes are defined. A total of 19 beams are plotted.
Software: LORENTZ
Application Categories: Particle Trajectory
Quadruple Pair
Description: This is a fulll model of double quadrupole.There are 8 magnetic poles which alternate in terms of polarity. They are energized by current carrying coils. AC current of 2000 Amps is applied. Beam axes are defined at the top of the rays.
Software: LORENTZ
Application Categories: Particle Trajectory
Eddy current density inside a cylinder
Description: In this model the cylinder is sorrounded by a current carrying coil.Cylinder is made of Aluminium (pure). AC current source of 1000 Amperes is assigned and model is solved for 100 Hz frequency. Current density results inside the cylinder are presented.
Software: FARADAY
Application Categories: Eddy Current & Magnetic field
Gear
Description: 3D
Software: FARADAY
Application Categories: Eddy Current & Magnetic field
Induction Heating Gear
Description: This model is gear used mostly for heating applications. Copper, Steel (linear) and Steel (Linear,no Eddy Currents) are used as materials. Volume current source of 10 Amperes is applied and model is solved for 60 Hz frequency. A vector potentials real values plot in Weber per meter units is presented.
Software: FARADAY
Application Categories: Eddy Current & Magnetic field
Reed Switch
Description: The reed switch is an electrical switch operated by an applied magnetic field.Neodymium 35 MGOe Sintered and Steel(Linear,no Eddy Currents) are used
Software: FARADAY
Application Categories: Eddy Current & Magnetic field
Variable reluctance sensor
Description: The model is a transducer that measures changes in magnetic reluctance.Neodymium 10 MGOe Bonded is used as the permanent magnet. Steel (linear/lossless) is assigned to the sensor teeth. Various parametric results are graphed along with the flux in Webers.
Software: FARADAY
Application Categories: Eddy Current & Magnetic field
Voice coil motor B-field colored lines
Description: This model is a hard disk read-write actuator arm.1010 Steel and Neodymium 45 MGOe Sintered are assigned to the model. Two permanent magnets each opposite in direction are assigned. Magnetic field magnitude in Gauss units is presented.
Software: FARADAY
Application Categories: Eddy Current & Magnetic field