Solutions for BIG SCIENCE

Pioneering magnetic solutions for big science challenges

Big Science relies on advanced facilities like synchrotrons and linacs to drive innovation in materials science, plasma physics, and high-energy research. Frenetic ensures success with expertise in modeling and solutions for extreme conditions.

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Key challenges in big science power electronics

Technologies like synchrotrons and linacs require components that can handle extreme conditions, including high-frequency transient behaviors and precise magnetic field stability.

Frenetic’s expertise in power electronics positions us as a key partner in energy-intensive Big Science projects. By incorporating cutting-edge energy solutions like V2G/V2H into research facilities, we help bridge the gap between theoretical innovation and practical implementation.

Predict and optimize high-frequency transient behaviors

Challenge

Particle accelerators and pulsed power systems require precise modeling of transient high-frequency and high-voltage behaviors, which are challenging to predict and optimize.

Solution

Our advanced models accurately simulate transient high-frequency and high-voltage behavior, enabling reliable designs for pulsed power and particle acceleration systems.

Achieve unmatched stability in magnetic field measurements

Challenge

High-precision magnetic field measurements are critical for applications such as particle detectors and material characterization.

Solution

We specialize in high-precision magnetic field metrology, essential for particle accelerators and materials research applications.

Custom solutions for unique Big Science projects

Challenge

Standard COTS (Commercial Off-The-Shelf) solutions are often insufficient for the unique demands of Big Science projects, leading to a need for custom designs.

Solution

Unlike standard off-the-shelf products, Frenetic provides custom designs tailored to the exact specifications of your high-stakes research projects.

Ensure performance with in-house validation

Challenge

While some Big Science institutions have strong engineering teams (e.g., in radiofrequency applications), others (e.g., in plasma research) rely primarily on physicists and lack the necessary engineering expertise. Moreover, the high cost of test setups and equipment can make experimentation and validation prohibitively expensive.

Solution

Frenetic’s in-house testing capabilities provide a significant edge, ensuring the highest reliability for your power supplies and converters.

No matter your workflow, you can build it in Frenetic

Simulator

Simulate high-precision magnetic designs in minutes, with a vast library of topologies and winding configurations.

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Design services

Access tailored magnetic solutions and expert support, ensuring your projects meet industry standards and exceed expectations.

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Samples and production

Get competitive quotes, expert full project support, and samples with no MOQ—scale to production confidently.

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“Frenetic is fantastic! I was able to quickly converge on many of my magnetics designs! Seeing the trade off with using different core shapes, permeabilities, air gaps, size and number of wires and the layer stack up and how that effects proximity loss was incredible.”

Matthew Keyawa

JPL-NASA, Lead electrical engineer

Revolutionizing power supply hardware design

Aerospace and Defense

The aerospace and defense industry is rapidly advancing in electrification, driving the demand for next-generation magnetic components. Frenetic streamlines magnetic design and prototyping, delivering ultra-lightweight, high-power-density solutions that withstand high temperatures, vibration, and other rigorous aerospace standards.

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Automotive EV

The rise of electric and hybrid vehicles demands efficient power electronics. Frenetic technology optimizes designs for power density in topologies like DAB and LLC topologies, delivering AEC-Q200 and IATF 16949-compliant components.

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Manufacturing

As demand for custom high-frequency magnetics grows, manufacturers face challenges in designing smaller, more efficient components. Frenetic technology helps streamline customer specifications, reducing design iterations and speeding up time-to-market.

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Solutions for BIG SCIENCE

Pioneering magnetic solutions for big science challenges

Key challenges in big science power electronics

Predict and optimize high-frequency transient behaviors

Particle accelerators and pulsed power systems require precise modeling of transient high-frequency and high-voltage behaviors, which are challenging to predict and optimize.

Achieve unmatched stability in magnetic field measurements

High-precision magnetic field measurements are critical for applications such as particle detectors and material characterization.

Custom solutions for unique Big Science projects

Standard COTS (Commercial Off-The-Shelf) solutions are often insufficient for the unique demands of Big Science projects, leading to a need for custom designs.

Ensure performance with in-house validation

No matter your workflow, you can build it in Frenetic

“Frenetic is fantastic! I was able to quickly converge on many of my magnetics designs! Seeing the trade off with using different core shapes, permeabilities, air gaps, size and number of wires and the layer stack up and how that effects proximity loss was incredible.”

Related resources

Webinar: Exploring Frenetic and Maxwell options for an Optimal Performance

Webinar: Exploring Frenetic and Maxwell options for an Optimal Performance

Webinar: The Leakage Inductance Model of Frenetic Simulator

Webinar: The Leakage Inductance Model of Frenetic Simulator

High Voltage Safety Requirements 101

High Voltage Safety Requirements 101

Revolutionizing power supply hardware design