www.u-blox.com, Jun. 02, 2022 –
Featuring the full gamut of u-blox technologies and services, the u-blox XPLR-IOT-1 enables end-to-end proofs of concepts for IoT products and applications.
Thalwil, Switzerland – June 2, 2022 – u-blox (SIX:UBXN), a leading global provider of positioning and wireless communication technologies and services, has announced the u-blox XPLR-IOT-1 IoT explorer kit, an all-in-one package to test, evaluate and validate IoT applications. Integrating all relevant u-blox technologies and services into a capable prototyping platform with a vast selection of sensors and interfaces as well as cloud connectivity, XPLR-IOT-1 makes it easier than ever to explore the potential of IoT applications.
The increasing complexity of IoT devices, which often require satellite-based positioning, Bluetooth low energy, Wi-Fi, and cellular connectivity via, for example, LTE-M is raising the importance of prototyping and validating ideas before bringing them to production. This trend is driving demand for multifunctional application boards like the u-blox XPLR-IOT-1 over evaluation kits (EVKs), intended to comprehensively test a product's entire feature set.
A highly capable prototyping platform
The XPLR-IOT-1 gives users everything they need to prototype low-power IoT use cases such as logistics container trackers, industrial automation, sensor-to-cloud applications, and fleet management solutions. The board's u-blox NORA-B106 Bluetooth LE 5.2 radio module doubles as its main MCU, hosting the application software and controlling the other modules. These include a u-blox SARA-R510S for LTE-M and NB-IoT cellular connectivity with built in cloud security, as well as a u-blox NINA-W156 for 2.4 GHz Wi-Fi.
The board also hosts an ultra-low-power MAX-M10S positioning module capable of concurrently tracking four global navigation satellite system (GNSS) constellations, delivering highly reliable location data wherever GNSS coverage is available.
The hardware is complemented by a broad selection of sensors commonly used in IoT applications, including accelerometers and gyroscopes, a magnetometer, and temperature, humidity, pressure, and ambient light sensors. A power-on switch, LEDs, and user buttons make it easy for users to interact with the device.