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EMI/EMC Simulation & Testing.

Advanced EMI/EMC Analysis, Testing, and Compliance Assurance.

EMI Controlled. EMC Proven.

Modern electronic platforms—from high-speed digital hardware and power electronics to fully integrated aerospace, automotive, and industrial systems—operate in increasingly harsh, multi-domain electromagnetic environments. Dense packaging, high-speed signalling, fast switching, multi-domain cabling, and distributed power architectures create tightly coupled EMI/EMC, HIRF, and lightning susceptibilities that can no longer be addressed in isolation or treated as late-stage issues.

Aetos Innovation Labs addresses EMI/EMC as a platform-level engineering discipline, aligned with evolving certification frameworks and industry best practices, rather than as a compliance afterthought. As a contributing member within the electromagnetic compatibility and HIRF/Lightning engineering ecosystem, Aetos aligns its methodologies with regulatory intent and real-world operational requirements. By combining physics-based simulation with targeted, application-relevant testing, we predict electromagnetic behaviour across chips, subsystems, and complete platforms—enabling early visibility into emissions, immunity, shielding effectiveness, cable coupling, transient response, and driving data-backed electromagnetic hardening of the platform where required.

This integrated approach allows EMI/EMC risks to be identified and mitigated early in the design cycle, reducing late-stage hardware rework. It accelerates qualification readiness against standards such as DO-160 and MIL-STD-464, and ensures robust, hardened electromagnetic performance across real-world operating environments, mission profiles, and lifecycle variations.

What we do.

End-to-End Electromagnetic Assurance — From Modelling to Certification

We deliver electromagnetic assurance across the full product lifecycle—from early architecture and modelling through verification, qualification, and in-service change management.
By combining physics-based simulation with structured test campaigns, we predict, validate, and mitigate EMI/EMC risks under both emissions and immunity stresses, reducing programme risk and supporting certification readiness in complex electromagnetic environments.

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Simulation & Modelling

Physics-based simulation across component, system, and platform levels to identify EMI sources, coupling mechanisms, and shielding effectiveness in complex architectures.

Testing & Validation

Structured evaluation of emissions, immunity, HIRF, ESD, surge, and lightning effects—direct and indirect—aligned to programme-specific qualification requirements.

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Design Hardening

Engineering guidance on shielding, bonding and grounding, filtering, gaskets, apertures, and cable routing to improve electromagnetic resilience.

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Compliance Support

Supporting qualification & certification through structured evidence aligned to aerospace & defence, including DO-160, MIL-STD-464, IEC/EN 61000, and DEF STAN 59-411.

How we can help you.

Reduce Risk, Accelerate Compliance & Strengthen System Reliability

We support engineering teams and programme stakeholders in making confident EMI/EMC decisions early. By identifying risks upfront and aligning design, validation, and qualification activities, we help reduce late-stage rework, shorten certification timelines, and improve overall programme predictability.

Mitigate 
Certification Risk

Reduce uncertainty by identifying EMI/EMC risks early, before they become qualification blockers or drive late-stage redesign.

Accelerate
Programme Readiness

Converge on compliant designs earlier, enabling smoother progression through design reviews, qualification milestones, and entry-into-service.

Rapid Root Cause
Insights

Quickly isolate coupling paths and dominant interference mechanisms to support informed engineering decisions and targeted mitigation.

Multi-Standard
Compliance

Manage qualification across multiple regulatory and customer standards with clear traceability, consistent evidence, and reduced duplication of effort.

Deliver Duty-Ready
System Performance

Improve confidence in system behaviour under real operational electromagnetic conditions, reducing in-service risk and post-certification changes.

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Predicts electromagnetic interference mechanisms early in the design cycle and guides mitigation strategies across components, systems, and platforms.

Our expertise.

EMI Prediction & Control

Predict and mitigate electromagnetic interference

Platform-Level EMI/EMC Testing

Validating integrated system electromagnetic performance

HIRF Simulation

Assessing system response to high-intensity radiated fields

Lightning Indirect Effects (IEL)

Analysing indirect lightning coupling and transients

Harness Coupling & Routing

Analysing harness coupling and routing behaviour

Standards & Certification Support

Interpreting and applying EMI/EMC standards

Our expertise.

Predicts electromagnetic interference mechanisms early in the design cycle and guides mitigation strategies across components, systems, and platforms.
Conducts platform-level EMI/EMC testing on integrated systems to evaluate emissions, immunity, and cross-system interactions, capturing real-world coupling effects and supporting qualification-ready evidence.
Simulates and tests high-intensity radiated field exposure to evaluate system susceptibility, dominant coupling paths, and functional effects under representative operational and certification-relevant scenarios.
Simulates and tests indirect lightning current injection and transient coupling to assess system response, upset mechanisms, and potential functional impacts under representative operating conditions.
Assesses electromagnetic coupling along wiring harnesses to guide routing, segregation, shielding, and termination decisions within complex system architectures.
Interprets EMI/EMC standards and qualification requirements to guide analysis, testing strategy, and evidence development across platforms.