Precision magnetic field design engineered to meet specification

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We are a specialist team focused on the design, optimisation, and engineering of bespoke, high-performance magnetic systems for advanced technology and research applications.

Our methods were developed through advanced analytical research in magnetic modelling.

Today, we combine first-principles analysis with practical engineering to deliver solutions that maximise performance and reliability within your overall system architecture.

What we do

We work with clients to develop state-of-the-art systems where magnetic behaviour influences overall capability. By applying specialist optimisation early in the design process, we help ensure the subsystem delivers optimal performance limits within real-world constraints.

In advanced sensing and precision instruments, improvements in field quality can translate directly into measurable gains in stability, sensitivity, and accuracy.  Our role is to ensure magnetic performance is not the limiting factor.

Why choose Contour

Why specialist focus matters.

Magnetic field performance is rarely limited by physics alone. It is constrained by geometry, current distribution, manufacturability, and system-level trade-offs that are often addressed too late or with limited optimisation.

Contour resolves these factors from the outset – applying specialist analytical modelling and optimisation to extract the highest practical performance from your magnetic subsystem, and in turn, your overall system.

Early specialist involvement reduces the risk of hidden performance ceilings and costly redesign later in development.

We support projects at multiple stages:

  • Feasibility and early-stage system exploration

  • Analytical and numerical optimisation

  • Design for manufacture (including PCB and multi-plane systems)

  • Component sourcing, build coordination, and system integration

  • Validation and performance verification

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How we work

Designed around your constraints.

We work across a wide range of geometries and environments, including: 

  • Planar and multi-plane systems

  • PCB-based architectures

  • Cylindrical, flex-PCB and non-standard geometries

  • Permanent magnet assemblies

  • Systems operating in free space or within magnetic shielding

 

Every project begins from first principles, ensuring the resulting solution is tailored precisely to your physical and environmental constraints.

Ready to discuss your requirements?