Analysis Software Product List and Ranking from 163 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Dec 10, 2025~Jan 06, 2026
This ranking is based on the number of page views on our site.

Analysis Software Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Dec 10, 2025~Jan 06, 2026
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. アドバンスドナレッジ研究所 Tokyo//Building materials, supplies and fixtures manufacturers
  4. 4 B7 Tokyo//Information and Communications
  5. 5 エルメック Tokyo//others
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Analysis Software Product ranking

Last Updated: Aggregation Period:Dec 10, 2025~Jan 06, 2026
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. Hard Bone Inclusion Abnormal Sound Detection System エルメック
  3. Thermodynamic analysis software "CaTCalc" 計算熱力学研究所
  4. "EnergyWin" power plant thermal efficiency analysis technical support 電力テクノシステムズ
  5. 4 Forest Measurement System "Assist8" ビィーシステム

Analysis Software Product List

451~465 item / All 801 items

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[Analysis Case] Photonic Crystal Optical Waveguide (Electromagnetic Field Analysis)

[Analysis Case] Photonic Crystal Optical Waveguide (Electromagnetic Field Analysis)

Conducting electromagnetic wave analysis using the finite element method! Introducing a case study considering an L-shaped optical waveguide.

Photonic crystals are structures that can control light by periodically arranging multiple dielectrics. Electromagnetic wave analysis was conducted using the finite element method. The optical waveguide consists of periodically arranged dielectric rods, and light passes through the areas without dielectric rods. The radius of the rods, r, and the period of the rods, a, are set as r = 0.18a, and the electric field component parallel to the dielectric rods was input. 【Case Overview】 ■ Software Used: PHOTO-WAVEjω ■ Analysis Conditions - The radius of the rods, r, and the period of the rods, a, are set as r = 0.18a (Wavelength λ: 1.55μm, Refractive index n: 3.4) - Impedance boundary conditions are set on the sides - The electric field component parallel to the dielectric rods was input *For more details, please refer to the related links or feel free to contact us.

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[Case Study] Analysis using automatic load condition setting function (TE wave, TM wave)

[Case Study] Analysis using automatic load condition setting function (TE wave, TM wave)

Specify the set of nodes located on the same plane! Calculate the electric field at each node and set it as the load condition.

In "PHOTO-WAVEjω" prior to Ver8.0, it was necessary to set the electric field (3 components) at nodes or the current density (3 components) at elements as load conditions. Since Ver8.2, a feature has been added to automatically set these load conditions. Users can specify a set of nodes that are on the same plane, and by simply entering a few parameters, the program calculates the electric field at each node and sets it as the load condition. [Issues] ■ In "PHOTO-WAVEjω" prior to Ver8.0, it was necessary to set the electric field at nodes or the current density at elements as load conditions. ■ When setting the electric field in a rectangular waveguide, it was necessary to set each electric field component from the coordinate values of each node, which was a cumbersome task for users. *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 Gear Sensors

[Analysis Case] Magnetic Field Analysis of Gear Sensors

Check how the magnetic field distribution changes when the electrical conductivity, rotation speed, and position of the gears are altered!

When a magnet is brought close to a gear made of a magnetic material, the distribution of the surrounding magnetic field changes depending on the position and rotation speed of the gear. A permanent magnet was placed near the rotating gear to analyze the changes in the surrounding magnetic field. As a result, in the comparison of magnetic flux density due to rotation speed, the gear rotating at high speed exhibited a larger magnetic field along the edge of the gear, and a magnetic field due to eddy currents remained even when it was away from the magnet. [Case Summary] ■ Analysis Type: 3D 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] Magnetic Field Analysis of a Transformer

[Analysis Case] Magnetic Field Analysis of a Transformer

Finite element division of the iron core and primary and secondary windings! A node current of 1A at 1000Hz was provided.

This is a case study of the magnetic flux density distribution, self-inductance, and mutual inductance analysis of a transformer composed of primary and secondary windings and a magnetic circuit (iron core) when excited. The software "PHOTO-EDDYTMjω" was used. A current of 1A at a frequency of 1000Hz was applied to the primary and secondary windings. Additionally, the number of nodes was 18,118, and the number of elements was 13,648, with the shape modeled as a three-dimensional full model. [Case Overview] ■ Software Used: PHOTO-EDDYTMjω ■ Analysis Conditions - Model using the iron core and primary and secondary windings - Applied a node current of 1A and 1000Hz to the primary and secondary windings *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Inductance Analysis of a Solenoid with a Circular Iron Core

[Analysis Case] Inductance Analysis of a Solenoid with a Circular Iron Core

The error in the analysis result is -1.69%! Analysis can be performed with only the conductor mesh, without the need for air mesh.

We will introduce the analysis results of current distribution (real part and imaginary part) and self-inductance. The mesh scale consists of 11,200 elements and 15,088 nodes. By using the magnetic field analysis module "PHOTO-EDDYTMjω," it is possible to analyze with a mesh of only conductors, eliminating the need for an air mesh. 【Case Overview】 ■ Software Used: PHOTO-EDDYTMjω ■ Analysis Conditions ・Current Value: 1[A] ・Frequency: 1000[Hz] *For more details, please refer to the related links or feel free to contact us.

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Analysis case: Inductance analysis between conductors

Analysis case: Inductance analysis between conductors

Analyze the eddy currents flowing between two conductors! Using the frequency response magnetic field analysis software "PHOTO-EDDYTMjω".

We will introduce the analysis results of eddy current distribution, self-inductance, and mutual inductance. The analysis was conducted for three cases: only conductor 1, only conductor 2, and both conductors 1 and 2 carrying current. The mesh scale consists of 3,200 elements and 4,800 nodes. By using the magnetic field analysis module "PHOTO-EDDYTMjω," it is possible to perform the analysis with a mesh of only the conductors, eliminating the need for an air mesh. [Case Overview] ■ Software Used: PHOTO-EDDYTMjω ■ Analysis Conditions - Current Value: 1[A] - Material Properties: Relative Permeability 1.0, Electrical Conductivity 1.0×10^6[S/m] - Frequency: 1.0[kHz] *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Electromagnetic Field Analysis of Wireless Power Transfer (Electromagnetic Induction Method)

[Analysis Case] Electromagnetic Field Analysis of Wireless Power Transfer (Electromagnetic Induction Method)

Introducing an analysis case of wireless power transmission using electromagnetic induction method.

In recent years, research and development have been conducted on wireless power transmission technology that transmits power wirelessly. First, as a basic model, we consider two coils as shown in the left diagram. The transmitting coil and receiving coil are arranged vertically, and circuit elements are connected to the coils. On our company's website, we introduce analysis examples of wireless power transmission using electromagnetic induction. For more details, please refer to the related links below. 【Case Overview】 ■ Software Used: PHOTO-EDDYjω ■ Analysis Results ・Self Inductance: 358.7 [uH] ・Mutual Inductance: 38.4 [uH] *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 Concentrated Winding IPM Motor

[Analysis Case] Magnetic Field Analysis of Concentrated Winding IPM Motor

The electromagnetic steel sheet uses a B-H curve equivalent to 35A300! The benchmark model adopts a concentrated winding stator.

IPM motors have a structure in which magnets are embedded in the rotor, allowing for the utilization of both magnetic torque and reluctance torque, making them widely used as high-efficiency motors. In this analysis, we examined the induced voltage in an unloaded state and the torque waveform under load conditions. The magnets are input with a magnetization vector, and the coil current is input as current density. The current density is set with a time point sequence of a three-phase AC waveform. By setting the rotational speed at the nodes that make up the rotor, we take rotation into account. 【Case Overview】 ■ Analysis Type: 2D Nonlinear 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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[Case Study] Magnetic Field Simulation Considering Hysteresis

[Case Study] Magnetic Field Simulation Considering Hysteresis

The input method is simple and user-friendly! We will also introduce examples of investigating the behavior of hysteresis in a rotating magnetic field.

The "hysteresis model using free energy" developed by our company incorporates the free energy of magnetic materials and the movement of magnetic walls obtained through thermodynamic considerations as a friction model. It is based on physical principles rather than a mathematical model. The ICCG method and the Newton-Raphson method can be directly utilized, improving the expressiveness of hysteresis curves, including minor loops, and enabling vectorization (magnetic anisotropy). In the calculation examples using this method, we will verify whether hysteresis curves that can be expressed mathematically can be reproduced through simulation. We focused on analyzing a single component. If you are interested in magnetic field analysis considering hysteresis, please feel free to contact us. 【Case Overview】 ■ Software Used: PHOTO-MAG *For more details, please refer to the PDF document or feel free to contact us.

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[Analysis Case] Electric Field Simulation of Capacitive Sensors

[Analysis Case] Electric Field Simulation of Capacitive Sensors

The software used is PHOTO-VOLT or VOLTjω! Move the electrodes based on the detection body for analysis.

There is a capacitive proximity switch that can detect both metal and non-metal objects without contact. This sensor detects objects by converting changes in capacitance into electrical signals. In this case study, we will analyze the capacitance between a grounded detection body (metal) and the electrodes within the sensor. We will also observe the changes in capacitance when the relative position of the electrodes is altered from the perspective of the detection body. 【Case Overview】 ■ Software Used: PHOTO-VOLT or VOLTjω ■ Analysis Type: 3D Electric Field Analysis *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Electric Field Analysis of MEMS Electrostatic Actuator (Electrostatic Force)

[Analysis Case] Electric Field Analysis of MEMS Electrostatic Actuator (Electrostatic Force)

Consideration of whether the order of the electrostatic force obtained as a result of the analysis is reasonable! A case study applying electric field analysis.

Here is an example of electric field analysis for a comb-type electrostatic actuator. Electrostatic actuators generate electrostatic force based on the sign of the charges present on opposing electrodes, so electric field analysis is applied. In "PHOTO-VOLT," it is possible to calculate the potential distribution, electric field distribution, and the electrostatic force acting on the electrodes. Additionally, we consider whether the order of the electrostatic force obtained from the analysis results is reasonable. For more details, please refer to the related links below. 【Case Overview】 ■ Software Used: PHOTO-VOLT ■ Analysis Results ・Electrostatic Force (per unit length): 0.792[N] *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Electric Field Analysis Between Coil Wires (Discharge)

[Analysis Case] Electric Field Analysis Between Coil Wires (Discharge)

An example of analyzing the electric field generated when a voltage is applied between insulated coil wires (cables).

When a high voltage is applied to a coil, as in the case of surge voltage, a locally high electric field is generated, leading to discharge and damage to the coil's insulation. In this case, we analyze the electric field generated when a voltage is applied between insulated coil wires (cables). The electric field strength is defined per voltage of 1[V] between the coil wires, and by multiplying this by the actual applied voltage, it can be considered as the maximum electric field strength. Please feel free to consult us regarding any concerns about electromagnetic field analysis. 【Case Overview】 ■ Software Used: PHOTO-VOLT *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Induction Heating Analysis of IH Heater

[Analysis Case] Induction Heating Analysis of IH Heater

The positions of the magnetic core and coil are fixed! We will introduce an analysis case considering the rotation of the roller!

Copiers and printers utilize electrophotographic technology. In the electrophotographic process, the steps of "charging," "exposure," "developing," "transferring," and "fixing" are carried out, followed by paper ejection. Fixing is the process of solidifying the toner on the paper using heat and pressure. In fixing, energy efficiency and reduced warm-up time are required, and IH technology is used as a heating method. In this case, the heat generation density distribution obtained through magnetic field analysis is used in thermal conduction analysis to analyze the temperature distribution of the roller. The positions of the magnetic core and coil are fixed, and the analysis takes into account the rotation of the roller. For more details, please refer to the related links below. 【Case Overview】 ■ Analysis Type: 3D Analysis ■ Analysis Module: PHOTO - EDDYjω & THERMO *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Induction Heating Analysis of a Cylindrical Conductor

[Analysis Case] Induction Heating Analysis of a Cylindrical Conductor

To understand the heat distribution and temperature distribution, magnetic field-thermal coupled analysis using the finite element method is effective!

This is an example of heating an entire cylindrical conductor by moving it and using induction heating. By passing through the center of a coil connected to an AC power source, eddy currents flow on the surface of the conductor, generating heat. The temperature rises from the surface, and heat is conducted inward. Due to the axisymmetric shape of this model, it can be analyzed using 2D axisymmetric analysis. Therefore, plate elements are used. To understand the heat generation distribution and temperature distribution inside the cylindrical conductor, a magneto-thermal coupled analysis using the finite element method is effective. [Case Overview] ■ Analysis Module: PHOTO - EDDYjω & THERMO *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Electromagnetic Field Analysis of Hollow Resonators

[Analysis Case] Electromagnetic Field Analysis of Hollow Resonators

Perform eigenvalue analysis using a rectangular cavity resonator model to determine the resonance frequency and resonance modes (patterns of electric and magnetic fields).

Electromagnetic field analysis was conducted to determine the resonant frequency and resonant modes of a cavity resonator. In this case, a rectangular cavity resonator was modeled for eigenvalue analysis, and the resonant frequency and resonant modes (patterns of electric and magnetic fields) were obtained. 【Case Overview】 ■ Software Used: PHOTO-WAVEjω ■ Analysis Results ・In Mode 1, the error compared to the theoretical value was only 0.104%.

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