Sensors Converge


JOIN US AT
SENSORS CONVERGE 2025 SENSORS CONVERGE 2025
SENSORS CONVERGE 2025 SENSORS CONVERGE 2025
Santa Clara Convention Center
Santa Clara, CA
June 25-26
Booth #1034
Advancing the Quality of Human Life
Join us in-person at Sensors Converge 2025 where we will be showcasing how the quality of human life is advanced by capturing quality insights and data to advance performance and accelerate design processes. An opportunity for attendees to witness ADI using the power of innovation to impact the world around us.

Hear from our Experts

Enda Nicholl
Principal Engineer
Revolutionize Multiturn Actuator and Encoder designs with the ADMT4000
Date: Wednesday, June 25
Time: 12:20 - 12:40 pm
Location: Converge Main Stage
Explore innovations in multiturn position sensing and their impact on industrial actuation control. We will discuss how new approaches eliminate the need for linear transducers, backup batteries, and gear reduction mechanisms—simplifying system design while reducing size, weight, and cost. Learn how these advancements are shaping the future of actuators and encoders, enhancing efficiency and reliability in industrial applications.

Ahalya Bhandarkar
Product Applications Engineer
Analog Signal Chain Design: Unlocked!
Date: Wednesday, June 25
Time: 11:00 - 11:15 am
Location: Live Theater on the Expo Hall Floor
Designing successful signal chains requires an intimate knowledge of sources of error, noise, and stability. Understanding these complex topics calls for a high level of technical expertise. Fortunately, tools like Hands-On Signal Chain Seminars (HOSCS), the Signal Chain Designer tool, and LTspice can save you time and help you master analog signal chain design. The in-person HOSC seminars offer new and experienced engineers a deep dive into complex analog signal chain topics, using a combination of presentations and hands-on labs developed by Analog Devices. This approach fosters a strong sense of "analog intuition," enabling you to grasp the nature and performance of a circuit quickly. By developing an intuitive understanding of these topics, you will confidently be able to optimize your circuit designs and achieve first-pass PCB success
Preview Our Demos
LTspice 24.1: Fast, Free, Unlimited
LTspice® is a powerful, fast, and free SPICE simulator, schematic capture, and waveform viewer with enhancements and models for improving the simulation of analog circuits. Its graphical schematic capture interface allows you to probe schematics and produce simulation results, which can be explored further through the built-in waveform viewer.
ADI Precision Studio
ADI's Precision Studio assists customers with common precision signal conditioning problems, such as analog filters, photodiode front ends, ADC driving, and DAC total error budget. Using software algorithms, we speed up the design process and improve system performance. Our tools cater to the instrumentation, industrial, aerospace, and healthcare markets. When customers are designing precision circuits, we guide them through solving their specific problems with the appropriate tool customized to their design parameters.
Maximizing OEE with AI Enabled Condition Monitoring
Explore the use of AI powered CbM solutions to address current and future challenges associated with equipment monitoring and maintenance. ADI's next generation health monitoring uses ultra-low power, high-bandwidth, 3-axis MEMS vibration sesnors integrated with Bluetooth Low Energy (BLE) radio and an AI-enabled microcontroller to deliver asset insights with improved sensor battery life in condition-based monitoring applications at the sensor edge.
Autonomous Mobile Robots: 3D Sensing Platform with Embedded Processing
Explore ADI's cutting edge depth sensing technology alongside a standard embedded processor platform. While it's specifically targeted towards robotics applications, it's also perfect for any project looking to implement edge algorithms using ADI's 3D depth sensing. At the heart of this demo is the ADTF3080 3D depth sensing module, which boasts a wide field-of-view and low latency operation, ideal for autonomous mobile robots. The development platform seamlessly integrates the ADTF3080 with low-power depth processing using the ADSD3500 depth ISP. It streams depth and IR image data into the embedded processor, allowing for customer-defined edge processing. This innovative setup not only simplifies the integration process but also showcases the incredible potential of ADI's depth sensing technology in creating smarter, more efficient robotic systems.
IO-Link Connectivity Platform
IO-Link brings plug-and-play simplicity to the factory floor and enhances edge connectivity with configurability, parameterization, and diagnostics. As IO-Link expands into more sensors, size becomes a key limitation. ADI's highly integrated solutions enable IO-Link in the smallest sensor form factors. The IO-Link Connectivity Platform demonstrates the breadth of IO-Link sensors and devices that can easily connect and communicate. Each node serves as its own reference platform, showcasing the depth of design resources ADI has supporting its IO-Link solutions. With a new family of reference designs (MAXREFDES281/284), ADI lowers the barrier to entry by providing a new prototyping stack with our reference design download files.
Precision Signal Chain Seminars with Hands-On Experience
Learn about ADI's precision signal chain design with our hands-on demo, using a pocket-sized data acquisition system (ADALM2000) and a small plugin PCB:
- 0.1Hz to 10Hz Noise Filter: Discover the noise characteristics of three different types of amplifiers and see how they perform.
- Stability: Master the concepts of stability and learn how to get the most out of your transimpedance amplifier (TIA).
- Integrating TIA: Quickly and easily measure femtoamps, unlocking new possibilities in precision measurement.
- DC Parameters of OpAmps: Peek under the hood of a simple opamp to explore offset voltage, CMRR, PSRR, and Aol, and understand how different topologies impact error sources.
Empowering Health: The Impact of Wearable Sensors
Unlock the future of healthcare with the HSP4.0, an open-sourced chest patch that offers a ready-to-use wearable platform for tracking vital body signs. This innovative device provides real-time insights into your health, empowering you to develop cutting-edge health detection algorithms and comprehensive healthcare solutions.
With the HSP4.0, you can accelerate your time to market by significantly reducing development time. This versatile design covers all essential vital signs, including SpO2, ECG, heart rate, heart rate variability, respiratory rate, body temperature, and motion. It’s the ultimate toolkit for creating advanced health wearables. What sets the HSP4.0 apart is its complete transparency and accessibility. Designers have full access to source code and design files, fostering a culture of innovation and collaboration.
Dude, where's my apple?
Imagine powering a high-tech gadget with just an apple! That's exactly what the new ADXL366 accelerometer is showcasing. See how ultra-low power sensors can be used in battery-powered electronics. The ADXL366 is perfect for a wide range of devices, including coin cell battery gadgets, power and space-constrained devices, and IoT applications.
Advanced Digital Power Management
ADI's Advanced Digital Power Technology showcases a cutting-edge setup that seamlessly integrates power management and multi-chemistry battery charging, featuring the ADP1055, LTC4015, and LTC4162. Designed for optimal performance and reliability, this system provides real-time telemetry and diagnostics, ensuring everything runs smoothly. Key highlights include Digital Power Management and Flexible, Efficient Multi-Chemistry Battery Charging. Together, these elements create a robust and versatile solution for modern power needs, showcasing the future of power technology.
Maximize Precision with Silent Switcher Technology
Experience how ADI’s Silent Switcher 3 technology offers breakthrough performance, enabling smaller, low-noise, high-precision applications while showcasing the importance and impact of noise within any system through sound and light. Users will be able to depict the difference, audibly and visually, how the Silent Switcher 3 delivers a complete switching regulator, benefiting the system in terms of size, heat, and most importantly, noise.
Brain Sensing Technology for Hearables
Connect Your Brain to AI: Experience Empathic Technology in Action
Imagine brain-sensing earbuds that help you feel better. At Sensors Converge, Analog Devices and IDUN Technologies are unveiling a groundbreaking demo where artificial intelligence responds to your brain and body, no text prompts or speech required.
This immersive experience blends real-time EEG and biometric signals with adaptive AI, creating a novel interface that senses your relaxation state and responds with personalized audio and visual feedback. Visitors will be guided through a calming relaxation experience, designed to help you reset and recharge amidst the high-energy show floor.
Powered by Analog Devices’ advanced analog front-end and IDUN’s brain-sensing TWS platform, this demo showcases the future of empathic technology—where machines understand and support human needs through intuitive, hands-free interaction.
Revolutionize Actuator Designs with Single Chip Multiturn Position Sensor
ADI's ADMT4000 revolutionary device is the world's first single-chip multiturn position sensor, designed to eliminate linear transducers in rotary-to-linear actuator applications. Learn how we have reduced the size, weight, and cost of these actuators while boosting efficiency and performance. The ADMT4000 is transforming actuator technology with its cutting-edge innovation.
Simplifying and Extending High Speed Isolated Image Sensor Communication
ADI's newest giga-speed data isolators offer a simpler and more cost-effective solution for isolating image sensors, reducing overall system costs while enhancing data robustness and protection, especially for healthcare patient protection requirements. The ADN462x product family isolates up to 2.5 bpps LVDS, simplifying robust short-range CMOS image sensor to processor connections. It can also combine with ADI’s GMSL technology to extend isolated communication distances over 15 meters via a single coax. This technology addresses challenging healthcare imaging systems and offers a new solution for enhancing the robustness of industrial image sensors.