Analysis Software Product List and Ranking from 43 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

Analysis Software Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. 応用計測サービス Saitama//Other construction industries
  2. JIPテクノサイエンス Tokyo//Information and Communications
  3. 日本イーエスアイ Tokyo//others
  4. 4 ジツタ 東京営業所 Tokyo//Information and Communications
  5. 4 ウェーブフロント 本社 Kanagawa//others
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Analysis Software Product ranking

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. General-purpose linear and nonlinear structural analysis system "DIANA" JIPテクノサイエンス
  2. Nice seal Type B, Type D, Type E (strip type) 応用計測サービス
  3. GNSS measurement system "ARUQ" ジツタ 東京営業所
  4. 4 Pressure Meter Testing Device "AUTO LLT2" 応用計測サービス
  5. 5 Forest Measurement System "Assist8" ビィーシステム

Analysis Software Product List

121~135 item / All 775 items

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Analysis Case: Yagi-Uda Antenna Analysis

Analysis Case: Yagi-Uda Antenna Analysis

Estimate electromagnetic waves from a distance using two different methods and compare the results! The shape was modeled in full.

The Yagi-Uda antenna is a directional antenna composed of a waveguide made up of multiple short elements, a long element reflector, and a feed mechanism positioned between them. The electromagnetic waves radiated from the feed mechanism are analyzed using the finite element method, and based on the results, far-field plane waves are estimated. The feed mechanism radiates electromagnetic waves polarized in the Z-axis direction, and the behavior of the electromagnetic waves in the air region surrounding the entire antenna is analyzed using the finite element method. Next, based on those results, the electromagnetic waves in the far field are estimated using two different methods, and the results are compared. The shape is modeled as a full model. [Software Used] ■ PHOTO-WAVEjω *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Scattering Analysis of Plane Waves by a Dielectric Sphere

[Analysis Case] Scattering Analysis of Plane Waves by a Dielectric Sphere

Using the software "PHOTO-WAVEjω"! Analyzing the scattered waves after hitting a sphere using the finite element method.

This is an example of estimating the scattered wave in the far field when a plane wave is incident on a scattering body, using the finite element method. A plane wave polarized in the X-axis direction is incident in the Z-axis direction, and the scattered wave after it hits this sphere is analyzed using the finite element method. Next, based on those results, the scattered wave in the far field is estimated using two different methods, and the results are compared. The shape is modeled in full. 【Software Used】 ■PHOTO-WAVEjω *For more details, please refer to the related links or feel free to contact us.

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[Case Study] Electromagnetic Wave Analysis of Right-Angle Corner in H-Plane Waveguide

[Case Study] Electromagnetic Wave Analysis of Right-Angle Corner in H-Plane Waveguide

Analysis was also conducted in the absence of a metal post! The analysis results at a frequency of 10.13 [GHz] are shown.

We will introduce a case study analyzing the frequency dependence of the reflection rate by placing metal posts that suppress the reflection of electromagnetic waves at 10 GHz. Impedance boundary conditions were set at the exit. The walls of the waveguide and the metal posts were treated as perfect conductors, and the input was provided as the TE10 electric field [V/m]. Additionally, an analysis was conducted for the case without metal posts for comparison. 【Case Overview】 ■ Software Used: PHOTO-WAVEjω ■ Analysis Conditions - Waveguide: WRJ-10 (22.9mm × 10.2mm) - The walls of the waveguide and the metal posts are perfect conductors - The input was provided as the TE10 electric field [V/m] - Impedance boundary conditions were set at the exit *For more details, please refer to the related links or feel free to contact us.

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[Analysis Example] Electromagnetic Wave Analysis Animation Library for Waveguides

[Analysis Example] Electromagnetic Wave Analysis Animation Library for Waveguides

Introducing analysis examples such as "circular cavity" and "rectangular iris-coupled waveguide filter"!

On this page, we introduce electromagnetic wave analysis animations of waveguides such as "Magic T," "E-plane T-junction waveguide," and "twisted waveguide." 【Overview】 ■ Magic T ■ E-plane T-junction waveguide ■ Twisted waveguide ■ Circular cavity ■ Rectangular iris-coupled waveguide filter *For detailed information about the examples, please refer to the related links. For more information, feel free to contact us.

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[Case Study] Analysis of Current Density Distribution in Superconducting Tape

[Case Study] Analysis of Current Density Distribution in Superconducting Tape

No need for air mesh! Load and analyze the interpreter program with pre-set conditions at runtime.

This is an example of transient magnetic field analysis using the H method, where the current distribution of a superconducting tape was analyzed. The "n-value model" was used for the E-J characteristics of the superconducting tape. By using the magnetic field analysis module "PHOTO-EDDYTM," it is possible to analyze with a mesh of only the conductor, eliminating the need for an air mesh. 【Case Overview】 ■ Software Used: PHOTO-EDDYTM ■ Analysis Conditions - Current Value: 50[A] (maximum)… time-varying according to a function - Material Conditions: Relative permeability 1.0, electrical conductivity according to the program [S/m] - The "n-value model" was used for the E-J characteristics of the superconducting tape. *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Eddy Current Analysis of Perforated Conductors Using External Coils

[Analysis Case] Eddy Current Analysis of Perforated Conductors Using External Coils

Comparison under three conditions: FEM, external field coils, and measurement values! An analysis with the coils moved was also conducted.

We will introduce the analysis results using the finite element method (FEM) with coils and external field coils for the same analysis target. We adopted "Team Workshop Problem 7," which involves placing a coil on a perforated conductor. Since this problem has measurement values, we compared the results under three conditions: FEM, external field coil, and measurement values, and also conducted an analysis with the coil moved. The results from the external field and FEM overlapped in the graphs, and the comparison with the measurement values was also favorable. 【Case Overview】 ■ Software Used: PHOTO-EDDYjω ■ Analysis Conditions - Frequency: 200 [Hz] - Current Value: 2742 [AT] - Electrical Conductivity of Conductor: 3.526×10^7 [S/m] ■ Results from External Field and FEM: The graphs overlapped, and the comparison with measurement values was also favorable. *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Magnetic Field Analysis of Current Sensor (CT)

[Analysis Case] Magnetic Field Analysis of Current Sensor (CT)

The core uses a high permeability magnetic material! The analysis model was created using symmetry, resulting in a 1/2 model.

We will introduce a case where we analyzed the current flowing through the cable and the induced voltage and current values flowing through the secondary coil. The analysis model utilizes symmetry, using a 1/2 model, and a high permeability magnetic material is used for the core. The current sensor consists of a ring-shaped core and winding, with the measured current flowing through the cable at the center of the core, allowing us to obtain a small current flowing through the winding (secondary side). 【Case Overview】 ■ Software Used: PHOTO-EDDYjω ■ Analysis Conditions - Current value of the primary coil: 10[A] - Frequency: 50[Hz] - Number of turns in the secondary coil: 1000[turns] - Load resistance of the secondary coil: 100[Ω] *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Magnetic Field Analysis of Induction Motors

[Analysis Case] Magnetic Field Analysis of Induction Motors

Using the analysis module "PHOTO-EDDY"! Analyzing the torque waveform during steady operation, taking into account the rotation of the rotor.

Induction machines that utilize electromagnetic induction are used in home appliances, escalators, and trains. Since eddy currents flow in induction machines, magnetic field analysis is necessary. The subject is a squirrel-cage three-phase induction motor, and considering the rotation of the rotor, the torque waveform during steady operation is analyzed. The analysis model was referenced from the benchmark model (K model) of induction motors by the Electrical Engineering Society's Investigation Committee. [Case Summary] ■ Analysis Type: 2D Nonlinear Transient Magnetic Field Analysis ■ Analysis Module: PHOTO-EDDY *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Frequency Response Dynamic Magnetic Field Analysis of Magnetic Shielding

[Analysis Case] Frequency Response Dynamic Magnetic Field Analysis of Magnetic Shielding

The analysis model is a 1/8 model! Coils are placed outside the shield to calculate the internal magnetic field.

Here is an example of magnetic field analysis for magnetic shielding. The analysis model uses the "Box shield model" proposed by the Electric Society's Investigation Committee. The analysis model is based on symmetry and is a 1/8 model, with an external field coil used. Dynamic magnetic field analysis is applied, taking into account eddy currents. 【Case Summary】 ■ Analysis Model: Box shield model ■ Coil: External field coil ■ Analysis Type: Frequency response dynamic magnetic field analysis ■ Shielding: Linear material *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Proximity Effect of Cable Conductors (Magnetic Field Analysis)

[Analysis Case] Proximity Effect of Cable Conductors (Magnetic Field Analysis)

The input voltage is adjusted to use a voltage that results in a maximum value of the current density (absolute value) of 1!

This is a case study that confirms the current distribution observed when an alternating current is passed through a conductor bundled with 19 strands of wire, using magnetic field analysis. Since frequency response magnetic field analysis is appropriate, the software "PHOTO-EDDYjω" was selected. The input voltage was adjusted to ensure that the maximum value of the resulting current density (absolute value) is 1. As a result, at a frequency of 1×10^5 [Hz], the current density was almost constant, while at a frequency of 1×10^7 [Hz], a concentration of current density was observed on the surface of the outermost layer of the conductor. 【Case Summary】 ■ Software Used: PHOTO-EDDYjω ■ Analysis Results ・1×10^5 [Hz]: Almost constant ・1×10^6 [Hz]: Gradual distribution of current density observed ・1×10^7 [Hz]: Concentration of current density observed on the surface of the outermost layer of the conductor *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Magnetic Field Analysis of Superconductors Considering the Critical State Model

[Analysis Case] Magnetic Field Analysis of Superconductors Considering the Critical State Model

The software used is "PHOTO-EDDY"! It is also possible to analyze Kim models that depend on magnetic flux density.

Models used to describe superconductors include the critical state model and the Kim model. The critical state model is a physical model that assumes a balance between the Lorentz force acting on the vortices and the pinning force caused by impurities within the superconductor. In "PHOTO-EDDY," users can specify the constitutive equations, allowing for the analysis of not only a constant Jc but also models like the Kim model, where Jc depends on magnetic flux density. The choice of which equations to use is up to the user. While care must be taken regarding the convergence of calculations, a high degree of freedom in input methods is available. [Case Overview] ■ Software Used: PHOTO-EDDY ■ Analysis Results - The superconductor was modeled using the critical state model, with a critical current density Jc set at 1.0×10^9 [A/m²]. - The input current was adjusted so that the magnetic flux density at the center of the coil reached a maximum of 5 [T] when in the air-core condition. *For more details, please refer to the PDF document or feel free to contact us.

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[Analysis Case] Static Magnetic Field Analysis Without Air Mesh

[Analysis Case] Static Magnetic Field Analysis Without Air Mesh

Simplifying the input of current density for complex-shaped coils! Introducing a case study of "PHOTO-MAGTZ" analysis.

In this case study, we will introduce static magnetic field analysis of various models. "PHOTO-MAGTZ" does not require an air mesh. Therefore, it is easy to create models with complex shapes. Additionally, by inputting the current value into the coil, it is possible to simplify the input of current density for coils with complex shapes. You can view the analysis results from the related links below. 【Case Overview】 ■Analysis Module: PHOTO-MAGTZ *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Magnetization Analysis of a Cylindrical Magnet Considering Hysteresis "Hard Magnetic"

[Analysis Case] Magnetization Analysis of a Cylindrical Magnet Considering Hysteresis "Hard Magnetic"

Using "hyperbolic function approximation"! Determine the hysteresis loop with numerical values and hyperbolic functions.

Using the hysteresis analysis function, we conducted magnetization analysis of magnets with high coercivity. A cylindrical magnet was magnetized using a coil. The current was increased from 0[A] to a maximum value and then returned to 0[A]. We analyzed the magnetic field in the space at that time. The hysteresis analysis function uses "hyperbolic function approximation" to represent the hysteresis loop in this case. The hyperbolic function approximation takes coercivity, remanent magnetization, and saturation magnetization as input values, and these values determine the hysteresis loop using a hyperbolic function. [Case Overview] ■ Software Used: PHOTO-MAG ■ Analysis Type: 3D Nonlinear Magnetic Field Analysis (1/4 model due to shape symmetry) *For more details, please refer to the related links or feel free to contact us.

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[Case Study] Nonlinear Static Magnetic Field Analysis of Magnetic Shielding

[Case Study] Nonlinear Static Magnetic Field Analysis of Magnetic Shielding

The analysis model is the 1/8 model based on symmetry! We will introduce an analysis case using an external field coil.

We will introduce a case study of magnetic field analysis for magnetic shielding. A coil is placed outside the shield, and the internal magnetic field is calculated. The analysis model uses the "Box shield model" proposed by the Electrical Engineering Society's Investigation Committee. The coil used is an external field coil, and the analysis model is set as a 1/8 model due to symmetry. The analysis type is nonlinear static magnetic field analysis. Eddy currents are not considered. We have included diagrams of the B-H characteristics of the ss400 used in this study, so please refer to the related links below for more details. 【Case Overview】 ■ Analysis Model: Box shield model ■ Analysis Type: Nonlinear static magnetic field analysis ■ Software Used: PHOTO-MAG *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Predicting the magnetization distribution within a plastic magnet from measurement data.

[Analysis Case] Predicting the magnetization distribution within a plastic magnet from measurement data.

Estimating the magnetization distribution from the numerical data of magnetic flux density obtained through the forward problem! Introducing an analysis case of the inverse problem.

The analysis of the magnetic field created by magnets and coils is referred to as a forward problem. On the other hand, the problem of determining magnetization or current from the magnetic field distribution is called an inverse problem. In this case, we will introduce an example (inverse problem) where we estimate the magnetization inside a magnet from numerical data of the magnetic flux density on the surface of a plastic magnet and analyze the magnetic flux density created by that magnetization. For convenience, we will estimate the magnetization from the magnetic flux density obtained through the forward problem and calculate the magnetic flux density at a different location. Since we will use the results of the forward problem, we can compare the results of the forward and inverse problem analyses to evaluate the validity of the inverse problem's analytical function. 【Case Overview】 ■ Software Used: PHOTO-MAGTZ ■ Analysis Results - The magnetic flux density at a position 1mm away from the surface of the magnet is generally consistent between the forward and inverse problems. - There are multiple magnetization distributions that indicate the same magnetic flux density. *For more details, please refer to the PDF document or feel free to contact us.

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