We are proud to announce a significant milestone in our technology roadmap. After months of development, testing, and refinement, E.D.&A. today launches ALPACA (Advanced Linux Platform for AI Capable Applications): our brand-new Linux-based platform that is shaping the future of embedded controls with EdgeAI. With built-in EdgeAI functionality and a flexible, modular architecture, ALPACA drastically shortens the time-to-market and enables applications such as predictive maintenance, anomaly detection, speech recognition, sensor fusion, and more. Why choose ALPACA instead of a SoM (System on Module)? - Faster time-to-market thanks to a powerful, ready-to-use platform that integrates seamlessly into the custom-made electronics of your machine or device. - No standard SoM (System on Module) required — full control over component selection and lifecycle, ensuring long-term availability. - Lower costs by eliminating unnecessary functionalities and maximizing integration. - EdgeAI included — enabling predictive maintenance and intelligent analytics at no extra cost. - Fully customizable dimensions — no limitations imposed by standard form factors. Technical strength in detail - ARM® Dual Cortex?A55 @ 1.7 GHz + Cortex-M33 @ 250 MHz - Neural Processing Unit for AI applications - LPDDR4X SDRAM - Support for high-resolution touchscreens, cameras, IoT connectivity With ALPACA, you choose speed and intelligence in one powerful platform. Ready to future-proof your products? Contact us and discover how the ALPACA platform can transform your machine or device. ALPACA: the platform for smart and innovative machine and device builders!

Specter is an ambitious Belgian startup creating the most advanced s-pedelec ever. Aaltra operates as their technological partner, giving Specter the necessary input for the perfect start. The bike quickly became a connected experience that seamlessly blends with our daily routines, thanks to our work. We never compromised on quality and features while laying the technical foundations for the future. The result: - Helped define the budget for funding - MVP in under 12 months

Edgewise winding is one of the modern trends in coil manufacturing. The principle of this winding technology is that the rectangular section wire is wound not on the flat part of the wire but on the short side of the wire. That’s what the terms edgewise winding or side-winding stands for.

This UGV (crawler) is a concrete showcase of Bohez Group’s capabilities in advanced mechatronic system engineering. Fully designed and developed in-house by VAULT Engineering. It is built around our Archipel modular design principle. The platform integrates proprietary mobility systems, embedded computing, high-speed communication, and a ruggedized construction. The system combines intelligent traction control, mission-specific configurability, waterproof design and GPS-denied navigation. Demonstrating our ability to deliver robust, application-driven solutions for complex and demanding operational environments. Core capabilities demonstrated: • Advanced mechatronic system engineering • Modular platform architecture • Intelligent traction and mobility systems • Integrated electronics and power distribution • Embedded data and communication backbone • Ruggedized design for extreme environments Bring us your challenge. We engineer the solution.

Integrated drive technology for dynamic, human-like movements Into the future of drive technology with new dimensions and features for robotics: The new BXI is the most powerful integrated drive system in the FAULHABER portfolio thus far and was developed to meet new requirements of modern robotic applications. Human-like movements place extremely high demands on precision, force and dynamics–from delicate grip movements to powerful, coordinated joint movements. This is where the FAULHABER BXI steps in. The internal rotor motor of the 9317 BXI G series combines robustness and exceptional compactness and defines new standards for integrated drive systems in robotics. With a maximum torque of up to 20 Nm, it enables dynamic movements, fast reaction times and a highly precise movement control. The motor covers a voltage range of up to 50 V and, thanks to the available interfaces and an installation length of just 34 mm, is easy to integrate in existing system architectures. The BXI is thereby especially well suited for applications in which every millimeter, every gram and–above all–high power density are decisive, e.g., as a compact joint drive in humanoid robots. Maximum performance with minimum space requirements The drive system forms a functional unit made up of motor, integrated stepped planetary gearhead and high-resolution encoder. Its special strength lies in the systematic integration: maximum performance with minimum space requirements. The flat aluminum housing offers corrosion resistance and also supports optimized thermal dissipation. The internal rotor construction with 21 pole pairs, grooved stator and iron-core winding ensures a low cogging torque and a high torque density. The integrated absolute encoder with 15-bit SSI, line driver and compensation algorithm performs the precise positioning, is resistant to interference and makes a significant contribution to the reliability and accuracy of the entire system.

Innovative Energy Storage for a Sustainable Future! Benefits & Innovations of NanoX Technology Lithium-Free & Safe No liquid electrolytes – minimal risk of leakage, explosion, or fire. Tested at 240°C without ignition. Extreme Temperature Range Operational from -36°C to +70°C – ideal for defence, aerospace, and desert environments. Fast Charging Supports fast charging up to 4C, fully charges within minutes, no active cooling required. Long Lifespan Over 6,000 charge/discharge cycles, significantly more than Li-ion batteries. High Energy Density 250–290 Wh/kg (cell level) Compact & Lightweight More capacity in less volume, comparable to a lithium battery.

The production of micro coils is one of KUK's specialities. We have established a great deal of know-how in handling windings directly onto magnetic cores - with a wide variety of wires that are invisible to the naked eye. Thanks to integrated plant and tool construction, KUK Group has the capabilities to process ultra-fine wire from 10 µm and to produce micro coils with diameters from 0.3 mm. For miniature coils with magnetic cores, cores made of a wide variety of materials are possible, including mu-metal, ferrite or amorphous materials.

The μDrillPro gives you both. A modern looking design which will be at home in your laboratory without compromising on the accuracy of tiny holes in gaskets. The μDrillPro is a compact touch screen controlled EDM drilling instrument providing the end-user with an easy access to the drilling parameters for superior performances.

The REDFIT Crimp SKEDD connector can be used flexibly in mechanically and electrically demanding applications. It is mounted directly onto the printed circuit board by hand, eliminating the need for both the soldering process and a mating connector. SKEDD technology can supply current of up to 16 A to fully SMT-populated PCBs. Depending on the layout, mounting in the opposite insertion direction is also possible.

Discover the next benchmark in high-performance oscilloscopes with the Tektronix 7 Series DPO Oscilloscope, designed for engineers pushing the limits of speed, precision, and insight. With up to 25 GHz bandwidth and 125 GS/s sampling rate, the Tektronix 7 Series DPO delivers exceptional signal fidelity, enabling accurate analysis of today’s most demanding high-speed, RF, and research applications. Its advanced signal path architecture combines ultra-low noise with high effective number of bits (ENOB), allowing you to clearly resolve even the smallest signal details. A key innovation is QuietChannel™ technology, which actively compensates for signal loss and minimizes noise across the measurement chain, resulting in cleaner waveforms and more reliable results when it matters most. Engineered for productivity, the 7 Series DPO also features up to 10× faster data transfer, enabling parallel acquisition and analysis workflows, while the intuitive TekScope™ interface accelerates setup and insight. Whether you’re working on high-speed serial design, RF systems, or cutting-edge research, this oscilloscope helps you see more, measure more accurately, and move faster. 👉 Visit us at booth 3031 and experience firsthand how the new 7 Series DPO can elevate your measurements.

Walter Cat 1 bis is a small-form-factor IoT SoM that adds support for worldwide LTE Cat 1 bis to the powerful ESP32-S3 SoC. On top of the ESP32-S3’s many built-in peripherals—such as UART, SPI, I²C, CAN, Wi-Fi b/g/n, and Bluetooth 5—Walter also features the Sequans GC02S1 LTE Cat 1 bis modem. Walter Cat 1 bis can be used for both prototyping and production, as it will be certified for FCC, CE, RCM, and IC. We also guarantee a minimum of ten years of availability, making it a uniquely reliable building block for your IoT application. Walter Cat 1 bis comes with a range of 100% open source software libraries to get your IoT project up and running in minutes, so you can work in familiar languages and toolchains. Supported environments include ESP-IDF, Arduino, MicroPython, Toit, and Zephyr. No special dongles are needed to program Walter – just connect it directly to your development machine via a standard USB Type-C cable.