About
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Analog Devices, Inc. (NASDAQ: ADI) is a global semiconductor leader that bridges the physical and digital worlds to enable breakthroughs at the Intelligent Edge. ADI combines analog, digital, and software technologies into solutions that help drive advancements in digitized factories, mobility, and digital healthcare, combat climate change, and reliably connect humans and the world. With revenue of more than $9 billion in FY24 and approximately 24,000 people globally, ADI ensures today's innovators stay ahead of what's possible™. Learn more at Devices is helping transform Europe’s energy landscape. Our cutting‑edge technology is reshaping how power grids are digitalised—enabling smarter, more efficient, and more resilient energy networks.
Analog Devices is developing advanced grid intelligence hardware and software to transform electricity distribution networks through real‑time monitoring analytics and edge‑based insights. As part of the continued expansion of our engineering capability we are seeking an Insights Modules Engineer to develop the core algorithms that power analog devices edge‑based fault and network insight modules.
The successful candidate will play a critical role in delivering innovative customer‑focused solutions that transform utility operations and create measurable value for distribution system operators.
Key Responsibilities
Lead the design and development of core signal processing and analytics algorithms for Analog Devices edge‑based insight modules.
Develop and validate algorithms for electrical fault detection, classification, and distance to fault estimation using high‑resolution waveform and power system data.
Translate power system theory and field requirements into efficient real‑time digital signal processing implementations suitable for embedded platforms.
Prototype algorithms in MATLAB or Python and transition validated designs into production‑ready C or C++ implementations in collaboration with the firmware team.
Work closely with hardware engineers to ensure algorithms are optimised for real‑world sensor characteristics, noise profiles, sampling constraints, and system limitations.
Contribute to system architecture decisions ensuring robust hardware–software interaction and stable embedded deployment.
Perform system‑level bring‑up integration and debugging across hardware, firmware, and algorithm layers.
Design and execute laboratory validation strategies using oscilloscopes, signal generators, and other electronic test equipment to verify performance under realistic fault and network scenarios.
Collaborate with power systems engineers to refine models and ensure algorithms align with distribution network operational behaviour.
Document algorithm design, validation results, and system performance in a clear and structured manner suitable for both internal engineering and customer‑facing contexts.
Essential Requirements
PhD or Masters degree in Electronic Engineering, Electrical Engineering, Signal Processing or a closely related discipline.
Strong background in digital signal processing including filtering, spectral analysis, time‑frequency methods, and system identification.
Proven experience developing and validating complex algorithms for real‑world hardware systems.
Strong programming skills in C, C++, MATLAB and Python with experience transitioning prototype algorithms into embedded implementations.
Hands‑on experience with embedded Linux‑based systems and system‑level debugging.
Strong understanding of electronics fundamentals including analogue and digital signal chains, data converters and RF or high‑frequency signal environments.
Experience with system integration, bring‑up and cross‑functional hardware‑software debugging.
Familiarity with laboratory instrumentation including oscilloscopes, spectrum analysers and signal generators.
Ability to work collaboratively with firmware, hardware and domain engineers in a multidisciplinary environment.
Strong written and verbal communication skills.
Full driving licence and ability to work on site in Dublin.
Desirable Experience
Experience developing algorithms for communications, RF or high‑frequency systems.
Experience with power systems signal analysis or protection‑related algorithms.
Experience publishing technical articles, patents or peer‑reviewed research.
Experience working in environments where hardware constraints and real‑time requirements drive algorithm design decisions.
Experience with OpenDSS, PowerFactory or similar power systems modelling tools.
What we offer
Competitive salary and benefits package
Collaborative and innovative team environment
Opportunities for career development and international exposure
The chance to directly influence the manufacturing operations of a growing technology company
Additional Information
Work Location: On site (Glasnevin)
Job Req Type: Experienced
Required Travel: Yes, 10% of the time
Shift Type: 1st Shift/Days
Export compliance: For positions requiring access to technical data, Analog Devices, Inc. may need export licensing approval from the U.S. Department of Commerce and/or the U.S. Department of State. Non‑U.S. citizens, non‑US permanent residents, and protected individuals may be subjected to an export licensing review process.
Analog Devices is an equal‑opportunity employer. xcfaprz We foster a culture where everyone has an opportunity to succeed regardless of race, color, religion, age, ancestry, national origin, social or ethnic origin, sex, sexual orientation, gender, gender identity, gender expression, marital status, pregnancy, parental status, disability, medical condition, genetic information, military or veteran status, union membership, political affiliation, or any other legally protected group.
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Languages
- English
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