The core of a new all-in-one IoT-node development kit from STMicroelectronics, is called the BlueNRG-Tile. The very small tile/coin is built around ST’s BlueNRG-2 Bluetooth low energy 5.0 single-mode system-on-chip (SoC) that provides control and processing power to a full complement of sensors, while also communicating via Bluetooth with a free iOS or Android demo app on a nearby smartphone.
For multi-node applications, the BlueNRG-2 SoC, which is powered by an Arm Cortex-M0-core with up to 256KB of embedded flash memory, supports mesh networking up to 32k nodes, substantially extending the range of sensing and remote monitoring to any needs, from smart-home to large-scale industrial infrastructure.
Surrounding the BlueNRG-2 SoC, ST has packed a full-featured ultra-low-power sensor portfolio, which includes an accelerometer and gyroscope, a magnetometer, pressure, and humidity and temperature sensors, a microphone, and a FlightSense Time-of-Flight sensor. With a highly optimised sensor architecture, the BlueNRG-2 SoC specs just 900 nA sleep current (with full data retention) and full-system stand-by power as low as 25uA.
More notably it also achieves ultra-fast wake-up capability, efficient execution of nine-axis inertial sensor fusion (running the ST MotionFX sensor-fusion code optimised for the Arm Cortex-M0) and streaming of real-time, low-latency data consuming just 1.4mA at 25Hz.
Still, the miniaturised MEMS sensor portfolio and the highly integrated BlueNRG-2 SoC, together with a size-optimised RF balun, have allowed ST to squeeze the coin’s size down to 2.5cm diameter. Even so, the BlueNRG-Tile development kit, which is accessed for programming and debugging through a motherboard that together with the tile/coin compose an Eval kit, offers a convenient on-board debugging and programming interface, multi-colour LED, and a configurable wake-up push-button.
ST offers the sensor node with a comprehensive Software Development Kit (SDK) that includes everything needed to forge a smarter and readily usable IoT node or network of nodes. The SDK comes with BlueNRG-Mesh networking library, MEMS sensor algorithms including nine-axis sensor fusion and event detection, voice-over-BLE code and a bunch of ready-to-go examples in source code. In addition, ST BLE Sensors and ST BLE Mesh apps, for iOS and Android smartphones and for both mesh and point-to-point networking, are available for download from the app stores.
With these features, developers can quickly design, debug, prototype, and industrialise a range of IoT nodes for Smart Home, Smart Industry, and Smart Building applications that are limited only by the developers’ imagination.
Sampling now, the STEVAL-BCN002V1B Evaluation kit contains a BlueNRG-Tile (STEVAL-BCN002V1) and an STEVAL-BCN002V1D programming board to program and debug the BlueNRG-Tile. The Eval kit costs 50 and includes the free-of-charge, user-friendly SDK. BlueNRG-Tile is powered by a CR2032 coin cell (not included).