Compact, ready‑to‑use NINA‑W1 Wi‑Fi modules support secure boot and latest security standards NINA-W131 and NINA-W132 are ultra low power Wi‑Fi modules supporting 802.11 b/g/n in the 2.4GHz ISM band. They are the first two variants of the new NINA‑W1 module series. Developed with security and quick time‑to‑market in mind, the NINA‑W1 stand‑alone modules make
u-blox ultra-small multi-GNSS module with exceptional performance
ZOE‑M8G module is an ideal location sensor for wearables, drones and asset trackers Zoe-M8G is an ultra‑compact GNSS (Global Navigation Satellite System) receiver module, especially designed for markets where small size, minimal weight and high location precision are essential. It offers exceptionally high location accuracy by concurrently connecting to GPS, Galileo and either GLONASS or BeiDou. It
u-blox NB-IoT demo met Sodaq NB-IoT shield voor Arduino
Wij brengen u graag op de hoogte dat Adelco hier naast vele andere noviteiten op het gebied van Displays, Embedded Computing en Wireless Modules een demo zal hebben met NB-IoT van u-blox. Deze demo is gebaseerd op het NB-IoT shield voor Arduino van Sodaq www.sodaq.com met hierop de u-blox SARA-N200 NB-IoT module voor het T-Mobile
World’s smallest quad-band LTE Cat M1 module, ideal for multi-regional IoT and M2M applications
Low‑power u‑blox SARA‑R410M modules can be used in a broad range of markets including smart cities, connected healthcare and more. By enabling remote devices to connect directly to 4G networks, the u‑blox SARA‑R410M will aid the rollout of Internet of Things (IoT) and machine‑to‑machine (M2M) applications, from smart metering to connected healthcare, and from industrial
u-blox integrated antenna GNSS Receiver eases embedded designs
Ultra‑compact SAM‑M8Q module speeds time to market for system developers of GNSS applications who have limited experience in RF and antenna design SAM‑M8Q GNSS receiver with integrated antenna is housed in a tiny 15.5 x 15.5 x 6.3 mm package. This module can be easily embedded in small devices that require location information, such as