Category : General industrial equipment, special machines > Magnetic systems

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We have both commercial codes and our own codes developed at STI for modeling of magnetic devices. These codes have been benchmarked and their accuracies verified with the many devices we have designed and built starting in 1979 (see Magnetic Devices Brochures). Thus, we possess extensive experience and have high confidence in our ability to use these models to accurately predict the performance of our devices.

This capability allows us to perform virtual prototyping, in which we create 3-dimensional designs of the devices within our models. The device’s performance can then be easily characterized and analyzed. This includes magnetic, mechanical, and, if necessary, thermal characterization. Virtual prototyping is a very cost effective way to build and optimize new designs. It helps minimize the amount of rework needed when building an actual prototype device. Our experience has been that our virtual prototype accurately predicts the performance of the actual prototype device.



Magnetic modeling is also important when controlling the effects of stray magnetic fields between adjacent magnetic devices. A good example is the PM optics within a compact accelerator bend where the ends of each component are in close proximity to each other.

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- Fluid mechanical systems for a wide variety of applications
- Discharge and excimer lasers
- Electromagnets commonly used for e-beam optics
- Magnet Insertion Devices

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List of articles in this sub-category

- Magnet Insertion Devices
- Pot magnets
- Samarium-Cobalt Magnets
- Magnetic Sheet Separators
- Magnetic feeder belts
- Clean-flow magnets

List of all articles in this sub-category Magnetic systems

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