Analog Devices IMS2026 Booth Demos

AEROSPACE, DEFENSE AND COMMS

Sub-Second Readiness: From Power-On to Mission-Ready

Fast bring-up delivers a critical advantage when seconds matter. 
Witness how a direct-RF front end reaches mission-ready operation in under one second. 
Optimized configuration flows enable rapid responsiveness without sacrificing performance.

Nikhil Ahuja 

Carlos Herrero

X-Band Digital Beamforming Platform Using High-Density Direct RF Sampling

Digital beamforming becomes more accessible when channel density and RF sampling align in a practical platform.
This demonstration highlights direct RF sampling in X-band
with phase-aligned multi-channel transmit and receive operation.
The approach reduces the number of RF conversion stages while accelerating beamforming evaluation.

Arik Landsman

Seamless DC to 18 GHz Coverage with Dual-Clock Direct RF

Modern signal environments demand continuous spectral visibility without gaps. Explore
how uninterrupted wideband visibility changes the way signals
are captured and analyzed. This demo shows how dual, independent
sampling clocks eliminate Nyquist gaps and enable seamless
DC to 18 GHz coverage in a single architecture.
The result is full-band insight in a compact direct-RF mixed-signal
front end that simplifies architecture and speeds evaluation.

Sydney Wells

Wideband Spectrum Sensing 
with Signal Agility

Spectrum conditions rarely stand still. This solution shows how multiple 
narrowband signals can be detected, 
processed and retuned within a single wideband channel.
Attendees can explore how this capability enables agile,
power‑efficient spectrum monitoring platforms.

Michael Cobb

Next-Gen High-Speed ADC Performance with On-Chip DSP Acceleration

High dynamic range and power efficiency take center stage
in this high speed data conversion demo. Designed for
precision critical applications, the converter delivers exceptional
dynamic range and distortion metrics across bandwidths up to 1 GHz.
Wideband, low‑noise performance is paired with on‑chip digital signal
processing for filtering, down‑conversion, and decimation, streamlining
architectures and reducing reliance on external processing.

Carlos Herrero 

Nikhil Ahuja

AI-Enhanced Radio Efficiency at the Physical Edge

Performance gains don’t have to come at the cost of power. AI-assisted signal processing improves linearization while enabling energy efficiency gains. Integrated energy-saving modes demonstrate measurable power reduction. Together, these capabilities highlight smarter, more efficient wireless infrastructure.

Nehal Parikh

4-Channel GNSS with Deterministic Phase Alignment

Coherent GNSS reception across channels is critical in contested environments. Learn how for AD9310 4-channel GNSS receiver a system-level calibration establishes deterministic phase alignment across multi-channel receiver paths without dedicated internal multi-chip sync hardware, enabling coherent operation to support null steering (CRPA) and resistance to jamming and spoofing.

Henryk Mironczuk

2GHz to 18GHz Signal Conditioning for Direct-Sampling Receivers

Wideband direct-sampling benefits from a carefully engineered RF front end. Explore a complete 2 to 18 GHz signal conditioning chain optimized for dynamic range and low noise figure, targeting high-performance wideband receiver applications. Visitors can learn how amplification, attenuation, filtering and switching work together to support direct-sampling receivers.

Gokhan Karaova

Quad-Cell Phased Array Reference Designs for Rapid Evaluation

Phased-array evaluation accelerates when hardware and control interfaces are streamlined.
These quad-cell reference designs integrate the beamformer and
transmit/receive modules with simplified connectivity.
Learn how these solutions enable fast characterization and quicker software bring-up.

Joel Dobler

Experiencing 6G Integrated Sensing & Communication with Dragonfly

Step into the future of multifunction wireless systems, where integrated sensing and communication unifies connectivity with object detection and tracking. This interactive system walkthrough spans architectures from discrete RF components to integrated reference designs. High speed beam switching enables rapid scanning suited for real-time sensing applications.

Kevin Chuang

Deterministic Phased Array Communications with Seamless Frequency Hopping

Dynamic spectrum environments demand both agility and coherence. This phased-array platform demonstration maintains deterministic phase alignment while rapidly hopping carrier frequency. Visitors can observe how phase coherence is preserved across frequency changes to enable resilient, interference-aware beamforming links.

Rahul Mushini

Power-Efficient RF with Built-In Modem Intelligence

What if modem intelligence lived directly inside the RF platform? This demo explores a power-efficient architecture combining flexible RF operation with embedded processing. Attendees can learn how local data handling and waveform adaptability reduce system complexity and enable smarter radios.

Conrad Collins

Adaptive Beamforming in Action: Real-Time Jammer Nulling and SNR Lift

Over-the-air audio links become dramatically more robust when spatial processing is applied in real time. Adaptive beamforming demonstrates measurable SNR improvement while actively placing nulls on interfering sources. This platform demonstration previews scalable phased-array techniques built for multi-element growth, enabling users to deploy more robust, flexible and interference-aware RF solutions.

Sid Das

Clocking Breakthroughs: Fast-Hop Synchronization and Ultra-Low Jitter

Timing is everything in advanced RF systems, and frequency agility is only valuable when synchronization remains deterministic. This two-part demonstration will showcase rapid frequency hopping while maintaining tight phase alignment across devices, as well as next-generation clocking with exceptionally low RMS jitter for demanding systems.

Chris Pearson 

Kieran Barrett

High-Density RF Digitizer SoM in a VNX+ Small Form Factor

High channel counts and tight SWaP targets don’t have to trade off performance. This compact digitizer system-on-module delivers active transmit and receive across a wide RF tuning range, supporting spectrum sensing and beamforming-ready architectures. Attendees can learn how the VNX+ form factor streamlines integration for cost-sensitive, space-constrained platforms.

David W. Brown

INDUSTRIAL

Apollo MxFE^TM Power Simplified: Direct from Silent Switcher® 3 Technology

 How small can power solutions go without sacrificing RF performance? This side-by-side comparison shows how silent switching preserves phase noise and SNR while reducing solution size. Attendees can see firsthand how compact power design supports denser RF platforms.

Erik Lamp 

Selcuk Ilke

Fast, Precise Power-Rail Measurements for High-Speed Test

Power behavior is often the hidden variable in high speed systems. As interface speeds climb, supply monitoring must keep pace. This reference approach pairs high-precision measurement with high speed capture to observe rail behavior accurately. Visitors can see how early insight into power integrity accelerates validation and debug.

Slater Campbell

Malcolm Sherman-Godfrey

INSTRUMENTATION

Multichannel Synchronization for FR3 M-MIMO Test

As Massive MIMO test channel densities rise, phase coherence becomes essential. See how multiple 6 to 18 GHz RF signal chains are synchronized to within picoseconds for repeatable, high-fidelity measurements. Attendees will discover how integrated LO generation, clocking and power management reduces complexity for next-generation wireless test systems.

Adrian Kulesza 

Mosieh Uddin

Signal Integrity and TDR Analysis with Multiport VNA

High speed digital links require both frequency- and time-domain insight. This demonstration showcases signal integrity and TDR measurements for modern serial links, such as those used in AI data centers, supported by ADI's VNA signal chains. Multiport analysis enables faster diagnosis of cables, connectors and backplanes.

Malcolm Sherman-Godfrey

MULTI-MARKET POWER

Low-Noise, High Efficiency µModule® Regulators with Silent Switcher® Technology

Noise-sensitive systems often pay a penalty in size and complexity due to post-filtering, but cleaner power doesn’t have to mean larger solutions. ADI’s µModule® regulators with patented Silent Switcher® technology deliver low EMI and low noise performance, helping designers reduce or eliminate additional filtering. The result is a cleaner power rail in a smaller footprint.

Younes Salami

Find the Quietest Rail: Power Noise & Rejection Visualized

Power integrity is easiest to trust when you can see it in real time. Attendees can probe multiple power rails and directly compare noise performance across regulator types. This demo highlights how different approaches meet the needs of noise-critical and non-critical power domains.

Uyen Nguyen 

Vivian Qi