Analysis software Product List and Ranking from 161 Manufacturers, Suppliers and Companies | IPROS

Last Updated: Aggregation Period:Feb 04, 2026~Mar 03, 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:Feb 04, 2026~Mar 03, 2026
This ranking is based on the number of page views on our site.

  1. JIPテクノサイエンス Tokyo//Information and Communications
  2. 応用計測サービス Saitama//Other construction industries
  3. アドバンスドナレッジ研究所 Tokyo//Building materials, supplies and fixtures manufacturers
  4. 4 ミューテック Kanagawa//Facility Design Office
  5. 5 ウェーブフロント 本社 Kanagawa//others
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Analysis software Product ranking

Last Updated: Aggregation Period:Feb 04, 2026~Mar 03, 2026
This ranking is based on the number of page views on our site.

  1. PLAXIS Monopile Designer JIPテクノサイエンス
  2. General-purpose linear and nonlinear structural analysis system "DIANA" JIPテクノサイエンス
  3. High-speed general-purpose plasma analysis software 'VizGlow' ウェーブフロント 本社
  4. 3D Ground Analysis Software "PLAXIS 3D" JIPテクノサイエンス
  5. 4 "EnergyWin" power plant thermal efficiency analysis technical support 電力テクノシステムズ

Analysis software Product List

421~450 item / All 793 items

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Two-Dimensional Finite Element Method Analysis Software 'CADTOOL FEM8'

Two-Dimensional Finite Element Method Analysis Software 'CADTOOL FEM8'

Low-cost introduction possible! Entry-level CAD tool for finite element method analysis.

"CADTOOL FEM8" is a two-dimensional finite element analysis software that integrates pre-post and solver functions, allowing for the introduction of finite element method analysis at a low cost. By specializing the analysis target to two dimensions, the price of the software itself is kept low, and as it is a packaged product, there are no annual maintenance fees. It enables easy finite element method analysis without requiring advanced knowledge, making it recommended for designers in the early stages of design. Since it allows for quantitative observation of stress distribution and deformation, it expands the design freedom. 【Features】 ■ All-in-one package with integrated pre-post and solver functions ■ Easy operation suitable for designer CAE in the early stages of design and beginners in finite element method analysis ■ Three analysis modes: plane stress analysis, plane plate bending analysis, and rotating body stress analysis ■ Fast automatic creation of high-quality meshes ■ High operability that can be used as a calculator *For more details, please refer to the PDF materials or feel free to contact us.

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Prevent mold rework! 'SOLIDWORKS Plastics'

Prevent mold rework! 'SOLIDWORKS Plastics'

Ultimate seamless design ⇔ analysis! Add-in resin flow analysis software equipped with a rich material database.

"SOLIDWORKS Plastics" is an analysis software that allows designers to perform resin flow analysis during the design stage, enabling improvements in product quality and reductions in the number of prototype experiments. It allows for smooth execution of design and analysis within SOLIDWORKS. Additionally, by simulating various molding patterns in advance, it helps avoid various troubles and determine optimal injection molding conditions. 【Features】 ■ Analysis can be executed directly with models created in SOLIDWORKS ■ Equipped with two types of solid mesh and shell mesh that can accommodate diverse shapes ■ Includes features that advise on filling possibilities and appropriate ranges of injection pressure, making it user-friendly even for beginners in resin flow analysis ■ Contains a database of over 4,000 materials commonly used both domestically and internationally ■ Capable of avoiding various troubles and determining optimal injection molding conditions *For more details, please refer to the PDF document or feel free to contact us.

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AVEVA PI Server

AVEVA PI Server

AVEVA PI Server is the core product of the AVEVA PI System, equipped with data storage, normalization, analysis, and notification functions.

The AVEVA PI Server includes Data Archive, Asset Framework, Asset Analytics, Event Frames, and Notifications. By combining these features, it enables the secure storage, organization, and contextualization of operational data. It adds context to raw data, structures it, and performs calculations. This provides insights into operations and business. Additionally, it ensures a reliable audit trail, making it easy to verify compliance with laws, regulations, and industry standards, while robust security covers every aspect to protect valuable data. 【Features】 ■ Safely stores time-series operational data for decades ■ Accessible to anyone within the organization who needs data, regardless of department or position ■ Creates a reliable single data source, regardless of source, format, or age ■ Retrieves and compares summary data of events from specific processes ■ Automatically notifies alerts when changes occur in operations * For more details, please refer to the PDF document or feel free to contact us.

  • Company:AVEVA
  • Price:Other
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[PI System Implementation Case] eMotorWerks, USA

[PI System Implementation Case] eMotorWerks, USA

Optimize the smart grid charging solution JuiceBox TM for electric vehicles by utilizing data from the connected EV network.

eMotorWerks, Inc. is applying its electric vehicle charging solution, JuiceBox™ (trademark), with our data management system, the PI System. In the United States, it is estimated that by 2025, the number of electric vehicles will reach 10 million, and if all of them are connected to the charging grid simultaneously, the power demand could reach 100 GW (gigawatts), which accounts for 15% of the total electricity. eMotorWerks is leveraging the PI System to create a shared data ecosystem that provides valuable services, leading to excellent charging performance, improved grid stability, and growth in renewable energy generation. 【Key Benefits】 ■ Improved Charging Performance - Real-time monitoring of events and charging parameters for EVs connected to the grid, optimizing charging performance. ■ Enhanced Grid Stability - Cloud management of all data from demand-side activities like EV charging and supply-side data from power companies, optimizing supply to thousands of charging stations. ■ Expansion of Business Opportunities - Various developments in adjacent fields are possible. *For more details, please refer to the PDF document or feel free to contact us.

  • Company:AVEVA
  • Price:Other
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[Information] Supporting new business opportunities in the data ecosystem.

[Information] Supporting new business opportunities in the data ecosystem.

In future power generation, the integration management of numerous decentralized facilities and vast amounts of data will be crucial!

In this document, we explain that connecting with industrial partners within our ecosystem using a hybrid data architecture represents the future of information sharing in the power generation business. We discuss topics such as "Data Ecosystem in Power Generation" and "Challenges Faced by IT Departments During Cloud-Based Growth." Additionally, we provide a "Checklist for Industrial Data Sharing" as a necessary feature of our solutions, alongside safety and usability. We encourage you to download and read it. [Contents (Partial)] ■ Data Ecosystem in Power Generation ■ Challenges Faced by IT Departments During Cloud-Based Growth ■ Checklist for Industrial Data Sharing ■ Transformation of Perspectives on Sharing ■ Advantages of a Connected Data Ecosystem *For more details, please download the PDF or feel free to contact us.

  • Company:AVEVA
  • Price:Other
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Electromagnetic Field Analysis Software PHOTO-Series Product Lineup

Electromagnetic Field Analysis Software PHOTO-Series Product Lineup

Fast calculation speed enables practical and full-fledged "electromagnetic field analysis" on a computer.

The PHOTO series is a general-purpose electromagnetic field analysis software developed to simulate electromagnetic phenomena utilized in a wide range of fields using computers. Although electromagnetic phenomena can be broadly categorized, the application areas of electromagnetism are extensive, and various numerical analysis methods have been devised. Furthermore, in real product design, it is necessary to evaluate not only the electromagnetic field but also various derived phenomena. To address these issues, the PHOTO series adopts the following methods: - Provides optimal solvers tailored to various application areas, from high-frequency electromagnetic waves to low-frequency electric and magnetic fields. - Each solver is composed of program modules for different analysis methods, allowing the selection of numerical analysis techniques suitable for the problem at hand. - Enables coupled analysis execution, such as electromagnetic fields and heat conduction, electromagnetic forces and structural deformation, and vibrations, through combinations of modules. - Offers a product configuration that allows the selection of efficient modules according to various problems. Our company provides these modules as products combined with standard applications in mind. If there is a request to build a special analysis system, we also accommodate customization based on these module groups.

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3D Electromagnetic Wave Analysis Software (Frequency Response) WAVEjω

3D Electromagnetic Wave Analysis Software (Frequency Response) WAVEjω

3D Electromagnetic Wave Frequency Response Analysis Software (High Frequency) PHOTO-WAVE jω

3D high-frequency electromagnetic field analysis software using the finite element method (high-frequency electromagnetic field simulator) with a module for frequency response analysis. ■□■Features■□■ ■Since it is integrated with the PHOTO series pre- and post-processing, data creation, analysis, and result processing can be performed as a series of operations. ■It is integrated with other PHOTO series modules, allowing for easy coupled analysis, such as deriving temperature distribution from heat generation obtained through electromagnetic field analysis. ■A revolutionary speedup has been achieved by combining the edge element method and ICCG method. Therefore, 3D electromagnetic wave analysis (high-frequency analysis) can be performed on a personal computer. ■Since it uses the finite element method, it is suitable for analyzing closed regions, especially those involving multiple media. ■When coupled with the thermal conduction analysis software PHOTO-THERMO, it is possible to calculate temperature distribution from heat generation within dielectrics.

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■Magnetic field analysis software (considering dynamic magnetic fields, motion, and equations of motion) MOTION

■Magnetic field analysis software (considering dynamic magnetic fields, motion, and equations of motion) MOTION

Dynamic magnetic field analysis (dynamic magnetic field simulator for motion and motion equations)

Analysis of transient response in 2D axisymmetric and 3D dynamic magnetic fields using the finite element method considering motion (Dynamic Magnetic Field Simulator) ■□■Features■□■ ■Since it is integrated with other PHOTO series modules, coupled analysis, such as obtaining temperature distribution from heat generation calculated by electromagnetic field analysis, can be easily performed. ■A revolutionary speedup has been achieved through the combined use of edge element method and ICCG method (dozens of times faster than conventional finite element methods). ■The use of the finite element method ensures stable solutions, making it safe for beginners to use. ■By incorporating a slide interface for 2D, axisymmetric, and 3D problems, the motion of objects can be easily handled. ■The motion of objects due to electromagnetic forces can be calculated in real-time by solving the equations of motion.

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■Magnetic Field Analysis Software (Dynamic Magnetic Field / Transient Response) EDDY

■Magnetic Field Analysis Software (Dynamic Magnetic Field / Transient Response) EDDY

EDDY: Transient response analysis software for two-dimensional axisymmetric and three-dimensional dynamic magnetic fields using the finite element method.

The software for dynamic magnetic field analysis using the finite element method (magnetic field simulator) performs static analysis and transient response analysis. It can handle three-dimensional, two-dimensional, and axisymmetric problems. ■□■Features■□■ ■Since it is an integrated pre-post processor dedicated to the PHOTO series, data creation, analysis, and result processing can be performed as a series of operations. ■It is integrated with other PHOTO series modules, allowing for easy coupled analysis, such as obtaining temperature distribution from heat generation determined by electromagnetic field analysis. ■A revolutionary speed-up has been achieved through the combined use of edge element method and ICCG method (dozens of times faster than conventional finite element methods). ■The use of the finite element method ensures stable solutions, making it safe for beginners to use. ■When coupled with the thermal conduction analysis software PHOTO-THERMO, it is possible to calculate temperature distribution from Joule heating within conductors.

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■Magnetic Field Analysis Software (Dynamic Magnetic Field / Frequency Response) EDDYjω

■Magnetic Field Analysis Software (Dynamic Magnetic Field / Frequency Response) EDDYjω

Frequency response analysis software for dynamic magnetic fields using the finite element method EDDY jω

Perform frequency response analysis Finite element method magnetic field analysis software (magnetic field simulator) ■□■Features■□■ ■Since it is integrated with the PHOTO series dedicated pre- and post-processing, data creation, analysis, and result processing can be performed as a series of operations. ■It is integrated with other PHOTO series modules, allowing for easy coupled analysis, such as deriving temperature distribution from heat generation obtained through electromagnetic field analysis. ■A groundbreaking speedup has been achieved through the combined use of edge element method and ICCG method (dozens of times faster than conventional finite element methods). ■When a sine wave input is used and linear approximation holds, results can be obtained in a single calculation without the need for time-stepping calculations. ■Since it uses the finite element method, the solutions are stable, making it easy for beginners to use with confidence. ■Coupled calculations with thermal conduction analysis, stress analysis, and fluid analysis are easy to perform.

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3D stress analysis software (frequency response) ELASjω

3D stress analysis software (frequency response) ELASjω

Finite element method software (simulator) for elastic vibration analysis performing frequency response analysis.

3D Frequency Response Analysis Software (Simulator) ■□■Features■□■ ■ Uses the ICCG method, allowing for fast calculations and analysis on a personal computer. ■ Utilizes the finite element method, ensuring stable solutions, making it user-friendly even for beginners. ■ Capable of coupled calculations with electromagnetic field analysis. ■ Can simultaneously perform vibration analysis and sound field analysis.

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3D Stress Analysis Software (Transient Response) ELAS

3D Stress Analysis Software (Transient Response) ELAS

Finite element method software (simulator) for elastic stress analysis conducting transient response analysis.

■ Features ■ ■ Uses the ICCG method, allowing for fast calculations and analysis on a computer. ■ Utilizes the finite element method, ensuring stable solutions that can be safely used by beginners. ■ Capable of coupled calculations with electromagnetic field analysis.

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[Case Study] Electromagnetic Wave Analysis of a Waveguide Using a Slide Interface

[Case Study] Electromagnetic Wave Analysis of a Waveguide Using a Slide Interface

Analysis of applying a slide interface to a non-connected mesh.

The electromagnetic wave analysis of the waveguide using the slide interface assumes that the boundaries of the analysis target are surrounded by perfect conductors, and calculates the electromagnetic field inside the waveguide formed by the electric field input from the lower convex part. For more details, please download the catalog.

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[Analysis Case] Analysis of a Microwave Oven

[Analysis Case] Analysis of a Microwave Oven

Below is an example of the analysis of electromagnetic waves inside a microwave.

The number of nodes in the microwave analysis is 2494, and the number of elements is 1956. The analysis conditions are as follows: relative permittivity: real part: air 1, dielectric 40; imaginary part: air 0, dielectric -5; relative permeability: real part: air 1, dielectric 1; imaginary part: air 0, dielectric 0. For more details, please download the catalog.

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[Case Study] Calculation of Electromagnetic Force in the Plunger Model

[Case Study] Calculation of Electromagnetic Force in the Plunger Model

The analytical model for calculating electromagnetic force in the plunger model was set as a three-dimensional model.

The calculation of electromagnetic force in the plunger model was performed for the plunger model proposed by the Institute of Electrical Engineers for electromagnetic force verification, calculating the electromagnetic force acting on the center pole when current flows through the coil, as well as the magnetic flux density in various parts of the model. For more details, please download the catalog.

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[Case Study] Analysis of Actuators

[Case Study] Analysis of Actuators

The subject of analysis is the actuator.

The analysis of the actuator involves examining the forces that occur between the driver and the stator when the driver, composed of magnets and magnetic materials, is shifted axially by a differential z [mm]. For more details, please download the catalog.

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Analysis Case: Analysis of Capacitance

Analysis Case: Analysis of Capacitance

This shows an example of capacitance analysis through electric field analysis between the iron core and the coil.

The analysis of capacitance is shown below with shape data created from planar elements of the outer surfaces of each component. The number of nodes is 1112, and the number of elements is 1064. Since the boundary element method is used, a mesh for air is not required. The analysis calculations were performed using the electric field analysis software PHOTO-VOLTBM. For more details, please download the catalog.

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[Analysis Case] Electric Field Analysis Between Electrodes

[Analysis Case] Electric Field Analysis Between Electrodes

The electric field analysis between the electrodes was conducted using an axisymmetric model.

We analyzed the electric field distribution between the anode and cathode when 1V and -1V were applied, respectively, in a vacuum. It is assumed that the potential does not vary with time. The analysis module used is PHOTO-VOLT. Since the electrodes are conductors, the moment the potential is applied, charges move to the surface of the electrodes. Therefore, the potential is set at the surface of the electrodes, and modeling the interior of the electrodes is no longer necessary. (Only the space in the vacuum will be modeled.) For more details, please download the catalog.

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[Analysis Case] Analysis of PTC Resin Heater

[Analysis Case] Analysis of PTC Resin Heater

Analyzing the property that the electrical resistance increases as the temperature rises.

PTC resin has the property of increasing electrical resistance as the temperature rises (temperature dependence). We conducted an analysis of a heater that utilizes this property. This heater has the characteristic that as the temperature rises, the intrinsic resistance of the PTC resin increases, limiting the current, so it does not exceed a certain temperature. We will perform a current distribution analysis when a voltage of 100[V] is applied to the electrode terminals of the heater. For more details, please download the catalog.

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[Analysis Case] Induction Heating Analysis of Steel Plates (Coupled Analysis of Magnetic Field and Heat)

[Analysis Case] Induction Heating Analysis of Steel Plates (Coupled Analysis of Magnetic Field and Heat)

The target of the analysis is a steel plate penetrated by three-phase alternating current lines.

The analysis of induction heating of a steel plate (coupled analysis of magnetic field and heat) involves calculating the eddy currents flowing in the steel plate generated by the magnetic field created by three-phase current, and then determining the heat distribution caused by these eddy currents. Next, we analyze heat conduction based on the calculated heat generation. For more details, please download the catalog.

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[Analysis Case] Stress Analysis of Elastic Body (Frequency Response)

[Analysis Case] Stress Analysis of Elastic Body (Frequency Response)

As an example of stress analysis, we present a case of stress analysis for an elastic body with a bell shape.

The number of nodes for the stress analysis of the elastic body is 2271, and the number of elements is 1400. For more details, please download the catalog.

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[Case Study] Induction Heating for Gear Hardening

[Case Study] Induction Heating for Gear Hardening

We will apply a time-varying current to determine the heat generation density distribution and temperature distribution of the gears.

The induction heating of gears for hardening was analyzed for cases where the relative permeability depends on temperature (strong coupling) and where it does not depend (weak coupling). For more details, please download the catalog.

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Case distribution! Software for strong coupled analysis of dynamic magnetic fields and heat conduction that can be used by beginners.

Case distribution! Software for strong coupled analysis of dynamic magnetic fields and heat conduction that can be used by beginners.

Case study collection now available! Analysis software that can automatically perform strong coupling analysis (bidirectional).

The magnetic field and thermal coupling analysis system "PHOTO-Series" is a dedicated module for magnetic field-thermal coupling analysis that combines dynamic magnetic field analysis and thermal conduction analysis. Since the transfer of heat generation density is automatically performed without the need for files, even beginners can confidently conduct strong coupled analysis (bidirectional). 【Examples of Applications】 ◆ Quenching of gears through induction heating ◆ Induction heating analysis of steel plates (coupled analysis of magnetic field and heat) ◆ Analysis of induction heating… and more 【For more details, please download the catalog or feel free to contact us】      ↓ ↓ ↓            ↓ ↓ ↓

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Thermal conduction analysis software THERMO

Thermal conduction analysis software THERMO

Finite Element Method Thermal Conduction Analysis Software (Simulator)

2D axisymmetric and 3D heat conduction analysis simulator using the finite element method ■□■Features■□■ ■ Since it is integrated with the PHOTO series dedicated pre- and post-processing, data creation, analysis, and result processing can be performed as a single operation. ■ It is integrated with other PHOTO series modules, allowing for easy coupled analysis, such as determining temperature distribution from heat generation obtained through electromagnetic field analysis. ■ It uses the ICCG method, enabling fast calculations and analysis on a personal computer. ■ Since it employs the finite element method, the solutions are stable, making it safe for beginners to use. ■ Coupled calculations with stress analysis and fluid analysis are easy to perform.

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■Electric Field Analysis Software (Boundary Element Method) VOLTBM

■Electric Field Analysis Software (Boundary Element Method) VOLTBM

3D electric field analysis software (electric field simulator) using the boundary element method *No air mesh required.

Three-dimensional electric field (electric field) analysis software using boundary element method for static analysis (electric field simulator) ■□■Features■□■ ■You can create an analysis model without creating an air region. ■Since it is integrated with the PHOTO series dedicated pre/post, data creation, analysis, and result processing can be performed as a series of operations. ■You can create display elements to evaluate the analysis values in space.

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■ Magnetic field analysis software (combined method, frequency response) EDDYTMjω

■ Magnetic field analysis software (combined method, frequency response) EDDYTMjω

3D magnetic field analysis software (magnetic field simulator) using a combination of finite element method and H method *No air mesh required.

■ Magnetic field/magnetic field analysis software (magnetic field simulator) using a combination of finite element method and H-method, capable of performing static analysis and frequency response analysis. ■ Can handle three-dimensional problems. ■□■ Features ■□■ ■ Can create analysis models without creating air regions. ■ Integrated with the PHOTO series dedicated pre- and post-processing tools, allowing data creation, analysis, and result processing to be performed as a single operation. ■ Achieves revolutionary speedup through the combination of edge element method and ICCG method (dozens of times faster than conventional finite element methods). ■ Provides stable solutions using finite element method, making it safe for beginners to use.

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■Electric field analysis software (frequency response) VOLTjω

■Electric field analysis software (frequency response) VOLTjω

Frequency response electric field analysis software using the finite element method.

Perform static analysis and frequency response analysis Electric field analysis software using the finite element method (Electric field simulator) ■□■Features■□■ ■Since it is integrated with the dedicated pre/post of the PHOTO series, data creation, analysis, and result processing can be performed as a series of operations. ■It is integrated with other PHOTO series modules, allowing for easy coupled analysis, such as obtaining temperature distribution from heat generation determined by electromagnetic field analysis. ■Using the ICCG method, calculations are fast, enabling analysis on a personal computer. ■Since it uses the finite element method, the solutions are stable, making it safe for beginners to use.

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[Analysis Case] Electromagnetic Field Analysis of Polyethylene-Filled Waveguide

[Analysis Case] Electromagnetic Field Analysis of Polyethylene-Filled Waveguide

We will introduce a case where the reflection coefficient obtained as a result of analysis was compared with the theoretical value!

When a dielectric such as polyethylene is filled in a rectangular waveguide, electromagnetic wave reflection occurs at the boundary with air. Considering a system where polyethylene is filled in part of a rectangular waveguide of standard WRJ-5, the distribution of electromagnetic waves was analyzed using the finite element method. As a result, it was found that the absolute value of the electric field on the polyethylene side is constant, indicating that there is no reflection at the output surface (the impedance boundary is correctly set). [Case Summary] ■ Analysis Module: PHOTO-WAVEjω ■ Analysis Results - It can be seen that there is no reflection at the output surface since the absolute value of the electric field on the polyethylene side is constant (the impedance boundary is correctly set). - In the calculation of the scattering matrix, the characteristic impedances of air and polyethylene were set as ZAir = 279.052Ω and ZPE = 156.987Ω. *For more details, please refer to the related links or feel free to contact us.

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[Case Study] Analysis of the Input Impedance of a Dipole Antenna

[Case Study] Analysis of the Input Impedance of a Dipole Antenna

Set impedance boundaries at the model boundary! Here are examples compared with the results of the moment method.

We will introduce a case study analyzing the input impedance of a dipole antenna using the electromagnetic wave analysis software "PHOTO-WAVEjω." The antenna has a diameter of 1mm, a length of 60.5mm, and a gap of 0.5mm. An impedance boundary was set at the model boundary. The antenna was treated as a perfect conductor. 【Case Overview】 ■ Software Used: PHOTO-WAVEjω ■ Analysis Conditions - An impedance boundary was set at the model boundary - The antenna was treated as a perfect conductor *For more details, please refer to the related links or feel free to contact us.

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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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