Fast calculation speed allows for 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 through combinations of modules, such as electromagnetic fields with heat conduction, electromagnetic forces with structural deformation, and vibrations. - Offers a product configuration that allows the selection of efficient modules according to various problems. Our company provides these modules combined into products, assuming standard applications for our customers. If there is a request to build a special analysis system, we also accommodate customization based on these module groups.
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All analysis modules come standard with our proprietary pre- and post-processing tool "GRADE" designed specifically for the PHOTO series, allowing for a seamless operation from model creation to analysis execution and result processing. 【Product List】 ○WAVEjω: Frequency response electromagnetic wave analysis using the finite element method (high frequency) ○MOTION: Transient response magnetic field analysis considering motion using the finite element method ○EDDY: Transient response magnetic field analysis using the finite element method ○EDDYjω: Frequency response magnetic field analysis using the finite element method ○MAG: Static magnetic field analysis using the finite element method ○VOLT: Transient response electric field analysis using the finite element method ○VOLTjω: Frequency response electric field analysis using the finite element method ○THERMO: Heat conduction analysis using the finite element method ○ELAS: Transient response elastic stress analysis using the finite element method ○EDDYTM: Transient response magnetic field analysis using the hybrid method (no air mesh required) ○EDDYTMjω: Frequency response magnetic field analysis using the hybrid method (no air mesh required) ○MAGTZ: Static magnetic field analysis using the magnetic moment method (no air mesh required) ○VOLTBM: Electrostatic field analysis using the boundary element method (no air mesh required), etc. ■For more details, please contact us.
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At Photon, we are developing "electromagnetic field analysis software" that models and simulates products and components utilizing electromagnetic phenomena on a computer. In traditional design and development environments, the process has primarily revolved around trial and error through prototyping based on the experience of engineers and experiments with prototypes. However, conducting experiments using actual prototypes and analyzing the results requires significant time and cost. Moving forward, transitioning from an experimental and prototyping-based approach to an analysis-based design approach will be a crucial challenge for improving productivity, and establishing simulation technology as the core of analysis-based design techniques will be essential. In this context, Photon is developing and providing "analysis software" focusing on electromagnetic fields, as well as heat, vibration, and sound fields. By utilizing Photon's software, efficient development and design of various industrial products can be achieved. In this way, Photon aims to support users in reducing the number of prototypes, lowering development costs, and shortening development periods in their manufacturing environments, ultimately enhancing their competitiveness.
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