• • • 2026 PREDICTIONS • • •
intensify in the coming year, as it has been developed specifically to address the massive power and bandwidth demands of hyperscale data centres and AI/ML clusters.
4. Specialty fibre optics accelerate MedTech and aerospace and defence innovations Specialty fibre optics offer high-precision links with immunity to Electromagnetic Interference (EMI). No wider than human hair, optical fibre increasingly powers high-resolution imaging equipment, like MRI and CT scanners, while delivering concentrated laser energy for non-invasive therapeutic treatments. Fibre optics also address engineering challenges in satellite and space systems to transmit vast volumes of data over long distances with minimal signal degradation.
5. Rugged, reliable and miniaturised solutions gain momentum across every major sector The use of compact, durable connectors that thrive in harsh environments has long dominated automotive as well as aerospace and defence applications. Pushing boundaries for greater reliability in very small form factors has now permeated consumer electronics (e.g., fitness trackers, smartwatches and smart home devices); industrial automation (e.g., warehouse robots, touchscreens and sensors); as well as medical devices (e.g., endoscopes, insulin pumps and wearable health monitors).
6. Electrification continues to accelerate, driving demand for high-speed, high-power connectivity Electrification trends in military land systems are gaining ground, with growth in Electric Vertical Take-off and Landing (eVTOL) systems, which need lightweight, miniaturised and rugged MIL-SPEC connectors and cables. An early proponent of zonal architecture for next-gen electrified vehicles, Molex connects multiple sensors, cameras, radar, LiDAR and other technologies while prioritising the role of hybrid or mixed connectors needed to handle power and high-speed signals associated with in-vehicle networks.
7. Mandates for modular solutions and open standards grow across most industry sectors An active participant in the Open Compute Project (OCP), Molex is developing next- generation data centre cooling technologies and modular hardware specifications to enhance hyperscale system performance, efficiency and modularity. Close alignment with industry standards groups in aerospace and defence also empowers Molex to focus on reducing size, weight, power and cost (SWaP-C).
8. 48V architecture gains traction as universal standard for power efficiency 48V architecture is rapidly becoming the universal standard for power efficiency in AI-driven data centres and next-gen vehicles. A power architecture enabler, Molex drives
innovation in 48V technology to solve thermal density challenges and reduce cabling weight in automobiles while addressing power spikes caused by generative AI workloads in data centres in support of the OCP Open Rack v3 (ORV3) standard.
9. Personalisation continues to shift, thanks to emergence of agentic AI
Agentic AI adapts readily to changing conditions, aiding real-time decision making and personalisation. In automotive, this translates to advances in autonomous driving and in-cabin experiences that function more like a third living space. In consumer electronics and MedTech wearables, greater personalisation optimises product usage while real-time diagnostics improve wellbeing. On factory floors, real-time access to data and adaptive human- machine interfaces improve productivity and operational efficiency.
10. Demands for supply optionality and regional manufacturing grow amid global trade volatility
Investments in AI-driven data ecosystems will propel digital supply chain intelligence to support demands for new, regional supply networks and localised manufacturing amid shifting trade policies. The result requires increased supply chain resilience amid growing demands for increased predictive procurement intelligence.
www.molex.com
electricalengineeringmagazine.co.uk
ELECTRICAL ENGINEERING • DECEMBER/JANUARY 2026 39
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