List of Magnetic field analysis/electromagnetic wave analysis products
- classification:Magnetic field analysis/electromagnetic wave analysis
136~150 item / All 280 items
Achieves high collection efficiency through electrostatic methods. Offers a wide range of products from large to small sizes. Also compatible with water-soluble oil mist.
- air conditioning
3D Electromagnetic Wave Frequency Response Analysis Software (High Frequency) PHOTO-WAVE jω
- Magnetic field analysis/electromagnetic wave analysis
- Analysis Services
- Contract Analysis
EDDY: Transient response analysis software for 2D axisymmetric and 3D dynamic magnetic fields using the finite element method.
- Magnetic field analysis/electromagnetic wave analysis
- Analysis Services
- Contract Analysis
Dynamic magnetic field analysis (dynamic magnetic field simulator for motion and motion equations)
- Magnetic field analysis/electromagnetic wave analysis
- Analysis Services
- Contract Analysis
Frequency response analysis software for dynamic magnetic fields using the finite element method EDDY jω
- Magnetic field analysis/electromagnetic wave analysis
- Analysis Services
- Contract Analysis
Finite Element Method Software for 2D Axisymmetric and 3D Static Magnetic Field Analysis MAG
- Magnetic field analysis/electromagnetic wave analysis
- Analysis Services
- Contract Analysis
Transient response electric field analysis software using the finite element method.
- Magnetic field analysis/electromagnetic wave analysis
- Analysis Services
- Contract Analysis
Fast calculation speed allows for practical and full-fledged "electromagnetic field analysis" on a computer.
- Magnetic field analysis/electromagnetic wave analysis
- Analysis Services
- Contract Analysis
Notice of PHOTO-Series Update (Ver 9.4)
In April 2022, we released the latest version 9.4 of the "PHOTO-Series." PHOTO-Series is an electromagnetic field analysis software that balances high functionality with low cost. It is a self-developed simulation tool that can simulate various electromagnetic phenomena by combining its rich features for analysis. [Main Feature Additions] (1) Added scattering by a perfectly conducting sphere to WAVEω's Mie scattering, and expanded the dielectric constant of the scatterer to complex numbers. (2) VOLTBM now allows for the setting of floating conductors, and added iterative solution methods such as Bi-CGSTAB and GMRES. Additionally, with the introduction of the fast multipole method, it can now handle larger scale problems (hundreds of thousands of elements). (3) Added node current input for current input in MAGTZ. Added iterative solution methods such as Bi-CGSTAB and GMRES.
This is a successor model that improved upon the MFC3045 magnetic field camera, which revolutionized magnetic field mapping of MRI magnets in the 1990s.
- Magnetic field analysis/electromagnetic wave analysis
- Other electric meters
- Testing Equipment and Devices
A high-precision and accurate magnetometer using the NMR method, also known as a teslameter or gaussmeter! ⇒ Metrolab NMR High-Precision Teslameter PT2026
NMR (Nuclear Magnetic Resonance) is the most precise technology for measuring magnetic fields, and the PT2026 is the most accurate and precise NMR magnetometer on the market. - Under optimal conditions, it can achieve high precision of less than 10 ppb. - It features high magnetic field compatibility, robustness in inhomogeneous magnetic fields, a measurement speed of 33 Hz, and improved search time. - Designed with the latest high-frequency and computer technologies, the NMR magnetometer can explore many new applications. There are three types of pulse wave probes for measuring magnetic fields, which can flexibly accommodate various measurement ranges. - It can be connected with just one RF cable, making plug insertion and removal easy. - The 1326 probe incorporates a 3-axis Hall element probe, allowing for faster searching of NMR signals. - The 1426 probe has a remote passive measurement head that fits into narrow gaps, enabling it to operate in high-radiation environments without damaging electronic components. - The 1526 probe features a remote active measurement head that fits into narrow gaps, improving the S/N ratio by processing NMR signals locally, and allowing for longer cable lengths.
This is a three-axis magnetic sensor element integrated into a single chip. It can simultaneously measure magnetic flux density (Bx, By, Bz) in the range of 0.1T to 30T.
- Sensors
- Other measurement, recording and measuring instruments
- Magnetic field analysis/electromagnetic wave analysis
A high-precision and accurate magnetometer using the NMR method, also known as a teslameter or gaussmeter! ⇒ Metrolab NMR High-Precision Teslameter PT2026
NMR (Nuclear Magnetic Resonance) is the most precise technology for measuring magnetic fields, and the PT2026 is the most accurate and precise NMR magnetometer on the market. - Under optimal conditions, it can achieve high precision of less than 10 ppb. - It features high magnetic field compatibility, robustness in inhomogeneous magnetic fields, a measurement speed of 33 Hz, and improved search time. - Designed with the latest high-frequency and computer technologies, the NMR magnetometer can explore many new applications. There are three types of pulse wave probes for measuring magnetic fields, which can flexibly accommodate various measurement ranges. - It can be connected with just one RF cable, making plug insertion and removal easy. - The 1326 probe incorporates a 3-axis Hall element probe, allowing for faster searching of NMR signals. - The 1426 probe has a remote passive measurement head that fits into narrow gaps, enabling it to operate in high-radiation environments without damaging electronic components. - The 1526 probe features a remote active measurement head that fits into narrow gaps, improving the S/N ratio by processing NMR signals locally, and allowing for longer cable lengths.
Is it a precise and high-accuracy NMR magnetometer? Or is it a 3-axis magnetometer that can be carried anywhere and can measure various things? Please consider according to your application.
- Magnetic field analysis/electromagnetic wave analysis
- Other electric meters
- Testing Equipment and Devices
A high-precision and accurate magnetometer using the NMR method, also known as a teslameter or gaussmeter! ⇒ Metrolab NMR High-Precision Teslameter PT2026
NMR (Nuclear Magnetic Resonance) is the most precise technology for measuring magnetic fields, and the PT2026 is the most accurate and precise NMR magnetometer on the market. - Under optimal conditions, it can achieve high precision of less than 10 ppb. - It features high magnetic field compatibility, robustness in inhomogeneous magnetic fields, a measurement speed of 33 Hz, and improved search time. - Designed with the latest high-frequency and computer technologies, the NMR magnetometer can explore many new applications. There are three types of pulse wave probes for measuring magnetic fields, which can flexibly accommodate various measurement ranges. - It can be connected with just one RF cable, making plug insertion and removal easy. - The 1326 probe incorporates a 3-axis Hall element probe, allowing for faster searching of NMR signals. - The 1426 probe has a remote passive measurement head that fits into narrow gaps, enabling it to operate in high-radiation environments without damaging electronic components. - The 1526 probe features a remote active measurement head that fits into narrow gaps, improving the S/N ratio by processing NMR signals locally, and allowing for longer cable lengths.
The magnetic field measurement device manufactured by Swiss company Metrolab can measure strong magnetic fields with high precision.
- Magnetic field analysis/electromagnetic wave analysis
- Other measurement, recording and measuring instruments
- Testing Equipment and Devices
A high-precision and accurate magnetometer using the NMR method, also known as a teslameter or gaussmeter! ⇒ Metrolab NMR High-Precision Teslameter PT2026
NMR (Nuclear Magnetic Resonance) is the most precise technology for measuring magnetic fields, and the PT2026 is the most accurate and precise NMR magnetometer on the market. - Under optimal conditions, it can achieve high precision of less than 10 ppb. - It features high magnetic field compatibility, robustness in inhomogeneous magnetic fields, a measurement speed of 33 Hz, and improved search time. - Designed with the latest high-frequency and computer technologies, the NMR magnetometer can explore many new applications. There are three types of pulse wave probes for measuring magnetic fields, which can flexibly accommodate various measurement ranges. - It can be connected with just one RF cable, making plug insertion and removal easy. - The 1326 probe incorporates a 3-axis Hall element probe, allowing for faster searching of NMR signals. - The 1426 probe has a remote passive measurement head that fits into narrow gaps, enabling it to operate in high-radiation environments without damaging electronic components. - The 1526 probe features a remote active measurement head that fits into narrow gaps, improving the S/N ratio by processing NMR signals locally, and allowing for longer cable lengths.
Do you know about "ACFM," which can detect opening scratches on metal surfaces and inspect coatings up to 4mm thick? 【*Free basic knowledge gift】
- Magnetic field analysis/electromagnetic wave analysis
- Other measurement, recording and measuring instruments
Electromagnetic Field / EV-oriented Accurate Iron Loss Evaluation through Vector Magnetic Characteristic Analysis
- Magnetic field analysis/electromagnetic wave analysis
- Stress Analysis
- Thermo-fluid analysis
Added vector magnetic characteristic analysis software "Jupiter-E&S".
Jupiter-E&S is an electromagnetic field CAE solution that integrates the "μ-E&S" solver from Mutech Co., Ltd. into "Jupiter" from TechnoStar Co., Ltd. It allows for vector magnetic characteristic analysis (vector analysis) using E&S models on general-purpose CAE software.
With the electrification of automobiles and the advancement of electronic devices, there is a growing demand for technologies that suppress electromagnetic interference. We would like to introduce pla...
- Magnetic field analysis/electromagnetic wave analysis