Analog Devices, Inc. (ADI) will be connecting with industry leaders in Nuremberg for Embedded World 2026 to showcase how they are unlocking physical intelligence across the embedded ecosystem

Visitors to the ADI booth will have the opportunity to explore 18 feature-rich demos which highlight the company’s ability to deliver system-level solutions that enable their customers to stand out in the market. By visiting the ADI booth, attendees will learn more about ADI’s industry-leading expertise, differentiated technology portfolio, and deep ecosystem collaboration, which enables breakthrough innovation across industrial, automotive, robotics, and next‑generation embedded applications.

Whether through direct customer support, design tools, or robust technical resources, ADI is focused on providing exactly what customers need to bring their systems to life.

Attendees are invited to join ADI in Unlocking Physical Intelligence at Hall 4A, Booth 360.

Among the highlight demos are:

  • Silent, Efficient & Compact µModule® Power Solutions: Experience highly integrated power solutions engineered for reliability, efficiency, and effortless integration. ADI’s µModule regulators combine decades of innovation with advanced electrical, thermal, and mechanical performance to simplify even the most demanding designs. Their silent, compact, and scalable architecture accelerates development across diverse power levels and various applications, with Silent Switcher Technology targeting noise-sensitive designs. Visitors will see how adding a package-level EMI shield to the μModule regulator with Silent Switcher improves the module EMI performance.
  • LTspice 26: Faster, Smarter Simulation: Explore improved simulation convergence and a more seamless workflow with LTspice 26. LTspice continues to deliver regular updates and improvements, with LTspice 26 bringing enhanced usability. ADI is further integrating LTspice into its design tool flows, reducing friction across tools and enabling faster insight during circuit design and evaluation.
  • Precision Simulation: From Concept to Confidence: Discover how LTspice and ADI’s Signal Chain Designer work together to model, refine, and validate analogue signal paths in minutes. Engineers gain rapid insight into performance trade‑offs and system‑level behaviour, significantly shortening design cycles. The workflow empowers confident first‑pass implementations through highly accurate, intuitive simulation tools. This unified environment speeds innovation while reducing costly iteration.
  • Software-Defined Automation: Step into the future of intelligent factories powered by ADI’s software‑defined automation platform. Advanced algorithms drive quieter, more efficient motion across stepper, BLDC, solenoid, and AC servo motors, while Edge AI delivers predictive diagnostics for higher uptime. A turnkey servo drive and intelligent actuation framework enable rapid deployment and elevated performance. Aligned with key industry trends—such as software-defined automation, edge intelligence, and predictive maintenance—this demo showcases how ADI is enabling adaptive, high-performance motion control for the factories of the future.
  • Scalable Modular Robotics with Smart Audio Integration: Experience a complete mobile robotics ecosystem that seamlessly unites perception, motion control, and sensing. Our platform integrates advanced robotic hardware with flexible software and features an open-source, ROS2 compatible, ADI SDK for fast, intuitive development. Enhanced with cutting edge audio algorithms for speech enhancement, voice activity detection and keyword spotting, this end-to-end solution empowers developers to build smarter, more responsive, and fully integrated robotic systems.
  • Smart Earbuds: Ultra‑Low‑Power Sensing in Tiny Form Factors: Millimetres of space, days of battery life. The future of wearables is here, as audio devices evolve into multi‑sensor health and motion platforms. ADI’s ultra‑low‑power accelerometer and tightly integrated system design enable rich functionality within extremely constrained mechanical volumes. Designers can incorporate advanced sensing features without sacrificing battery life or comfort. This platform accelerates high‑performance, health‑aware consumer devices that fit effortlessly into everyday life.
  • Ethernet to the Very Edge: TSN, T1L & T1S: Discover how Single Pair Ethernet is transforming data liberation across industrial environments. This demo highlights 10BASE‑T1L long‑reach and T1S multidrop topologies working together to deliver flexible, sustainable Ethernet connectivity. With ADIN6310‑enabled TSN ensuring real‑time and non‑real‑time data coexistence, engineers gain a unified and future‑proof network architecture. The solution simplifies deployment while enabling seamless migration toward fully connected edge systems.
  • Advanced Robotics: Unicycle Robot Balancing: Explore the cutting-edge of robotics with this unicycle robot. A high-performance Inertial Measurement Unit provides critical feedback to the control loop, ensuring the robot remains balanced. This fully calibrated 6DoF IMU enables precise motion tracking and control in dynamic environments. With its tactical grade In-Run Bias Stability and wide bandwidth, the IMU ensures consistent orientation and velocity estimates, resulting in enhanced closed-loop control accuracy and reliable operation in various robotics applications. By achieving this level of precision and reliability, the technology significantly enhances the performance and capabilities of modern robotic systems.
  • Vision-Enabled Humanoid Hand for Autonomous Robotics: Human‑level dexterity meets embedded vision to perform delicate, high‑value tasks with confidence. Real‑time depth sensing, object recognition, and gesture interpretation enable robots to perform delicate, high‑value tasks with exceptional efficiency. Ideal for manufacturing, healthcare, and service robotics, the platform demonstrates new levels of versatility and energy‑aware performance. Attendees will see how intelligent sensing elevates robotic capability across complex workflows.
  • GMSL-Enabled Perception System for Robotic Vision: Experience robust multi‑camera perception enabled by automotive‑grade GMSL technology, delivering the synchronized, high‑bandwidth data essential for visual SLAM (Simultaneous Localization and Mapping). This demo integrates off‑the‑shelf cameras and compute from GMSL ecosystem providers to provide a ready-to-use robotic vision platform that reduces integration complexity, allowing robotics developers to gain a high‑performance path to scalable, real‑world deployment.
  • Insight-Driven Optimization for Multi‑Core SoCs: Unlock complete system visibility with a unified insight loop that accelerates SoC optimization from deployment to refinement. Real‑time telemetry, event visualization, and multi‑core instrumentation consolidate into a single backend for faster debugging and breakthrough time‑to‑market. Tools like the Zephyr Profiler, System Event Viewer, and flexible trace capture empower developers with deep architectural clarity. The result is a dramatic improvement in efficiency, product reliability, and system‑level tuning.
  • ADI DataX ™: Enabling Flexible Data Acquisition Across Mixed Vendor Compute Platforms: Explore how ADI DataX unifies application portability across heterogeneous compute environments, enabling reusable workflows for data acquisition and processing. Developers can scale complexity as needed, from rapid prototyping to advanced system refinement. The solution highlights modularity, consistency, and efficiency in building multi‑vendor data pipelines. This approach significantly reduces integration overhead and accelerates product development.
  • CodeFusion Studio: The Next Era of Multicore Debug: Accelerate embedded development with an integrated debug ecosystem featuring memory visualization, enhanced GDB tools, coredump analysis, and a concept‑stage AI Debug Assistant. By automating repetitive tasks and simplifying complex memory maps, engineers reclaim valuable time and reduce friction throughout the debug cycle. This unified environment shortens root‑cause analysis and compresses overall development timelines. See how CodeFusion transforms multilayer debugging into a streamlined, insight‑rich flow.
  • Scalable Phased Array & Adaptive RF Systems Enabled by ADI DataX ™: Complex RF needs a faster path from idea to array. ADI DataX accelerates Software Defined Radio (SDR) systems-based development by simplifying evaluation across platforms like ADALM‑PHASER, Jupiter SDR, and Talise SOM. These platforms support synchronized MIMO scaling and rapid prototyping for complex RF architectures. Designers can use various abstraction layers that streamline data acquisition and system optimisation. This unified workflow speeds the creation of adaptive, high‑performance RF solutions.
  • Remote Prehab Monitoring for Scalable Patient Care: Empower clinicians and patients with a flexible, remote‑first approach to prehab that eliminates the need for frequent in‑person supervision. A user‑friendly smartwatch‑plus‑tablet interface supports HR‑zone‑based training across any exercise modality, improving adherence and accessibility. Cloud connectivity enables clinicians to monitor progress, adjust prescriptions, and deliver timely interventions. This approach strengthens outcomes by bridging clinical oversight with everyday patient usability.
  • Wearable Continuous Glucose Monitoring: Compact & Clinical‑Ready: See how ADI’s advanced analogue front end, MCU, and sensing technologies enable a near‑form‑factor CGM demonstrator designed for real‑world usability. The wearable highlights accurate electrochemical sensing, integrated motion data, and low‑power operation in a compact footprint. Engineers evaluating next‑generation CGM systems will find an accelerated path toward reliable, patient‑centric designs. The result is a highly adaptable platform for modern digital health solutions.
  • ML Voice Processing for Clear Communication: Learn more about ADI’s ML Voice Processing technology as it enables crystal-clear voice calls in noisy environments by fusing traditional DSP with advanced ML to suppress environmental noise while preserving speech clarity. This hybrid solution enhances communication quality, intelligently adapting to different environments to ensure clear voice transmission and improved voice call experiences.
  • Smart Wearable with ML Voice Detection, Noise Suppression Enabling Speech Control: Discover advanced high-performance voice capture technology designed for challenging low signal-to-noise ratio environments. This demo showcases the integration of ML-enabled Voice Activity Detection and Noise Suppression, delivering efficient, low-power voice clean-up. Real-world use cases demonstrate seamless operation alongside Command Phrase recognition and Speech-to-Text engines.

Hear from our experts:

  • Isolated Camera Serial Interface Integration with GMSL for High-Reliability Imaging Systems
    • Speaker: Prasanthi Yerra, Systems Application Engineer
    • Date: Wednesday, 11 March
    • Time: 1:45 PM – 2:15 PM
    • Location: NCC Ost
  • Optimizing Neural Network Models for Low-Power Edge Hardware in Speech Processing
    • Speaker: Erman Osman Okman, Principal Engineer
    • Date: Thursday, 12 March
    • Time: 3:00 PM – 3:30 PM
    • Location: NCC Ost

For more information, visit Embedded World | Analog Devices

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