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    The latest wireless range from ST

    STMicroelectronics is committed to offering reliable and cost-effective wireless connectivity solutions:

    • To connect smart objects to the internet and the cloud, or, in a broader sense, to the Internet of Things (IoT).
    • To remotely monitor, configure and control appliances and devices.
    • To replace cables & connectors with wireless communications.

    Short Range

    A standard-compliant wireless technology, optimized to fit short range connectivity, energy per bit and bandwidth requirements, is behind every network - regardless of its nature or purpose. With the growing importance of wireless sensor networks and the IoT, most electronic systems require wireless connectivity. ST’s portfolio includes a variety of RF transceivers, wireless application processors, network co-processors and fully certified modules for key wireless connectivity technologies including Bluetooth LE ®, Thread and Zigbee for point-to-point device connection, ultra-wideband for precise positioning.

    Long Range

    A standard-compliant wireless technology, optimized to fit long range connectivity, power efficiency and bandwidth requirements, is behind every network - regardless of its nature or purpose. With the growing importance of wireless sensor networks and the IoT, most electronic systems require wireless connectivity. ST’s portfolio includes a variety of RF transceivers, wireless microcontrollers, network processors ICs and fully certified modules for key wireless connectivity technologies including Sub-1GHz, LoRaWAN, Sigfox, Wireless M-Bus (wM-Bus), LTE Cat 1 and Narrowband IoT (NB-IoT), WiSUN and 6LowPAN

    Short Range

    X-NUCLEO-IDB05A2

    Bluetooth low energy expansion board based on the BlueNRG-M0 module for STM32 Nucleo

    Product Description

    The BlueNRG-M0 is Bluetooth v4.2 compliant, FCC and IC certified (FCC ID: S9NBNRGM0AL; IC: 8976C-BNRGM0AL). It supports simultaneous master/slave roles and can behave as a Bluetooth low energy sensor and hub device at the same time. The BlueNRG-M0 provides a complete RF platform in a tiny form factor, with integrated radio, antenna, high frequency and LPO oscillators.

    The X-NUCLEO-IDB05A2 is compatible with the ST morpho (not mounted) and Arduino UNO R3 connector layout. The X-NUCLEO-IDB05A2 interfaces with the STM32 microcontroller via the SPI pin and allows changing the default SPI clock, SPI chip select and SPI IRQ by replacing a resistor on the expansion board.

    Product Specifications

    Key features

    • STM32 Nucleo expansion board based on the BlueNRG-M0 Bluetooth v4.2 compliant, FCC and IC certified module (FCC ID: S9NBNRGM0AL; IC: 8976C-BNRGM0AL)
    • BlueNRG-M0 main features:
      • Embedded Bluetooth low energy protocol stack (GAP, GATT, SM, L2CAP, LL, RFPHY)
      • Embedded BlueNRG-MS network processor
      • On-board chip antenna
    • Small form factor: 11.5 mmx13.5 mm
    • Equipped with Arduino UNO R3 connector
    • Scalable solution capable of cascading multiple boards for larger systems
    • Free comprehensive development firmware library and samples for BlueNRG-MS, compatible with STM32Cube firmware
    • RoHS compliant

    BlueNRG-2 X-NUCLEO-BNRG2A1

    Bluetooth Low Energy expansion board based on the BLUENRG-M2SP module for STM32 Nucleo

    Product Description

    The X-NUCLEO-BNRG2A1 expansion board provides Bluetooth low energy connectivity for developer applications and can be plugged onto an STM32 Nucleo development board (e.g., NUCLEO-L476RG with ultra-low power STM32 microcontroller) through its Arduino UNO R3 connectors.

    The expansion board features the Bluetooth® v5.0 compliant and FCC certified BlueNRG-M2SP application processor module based on the ST BlueNRG-2 System-on-Chip. This SoC manages the complete Bluetooth low energy stack and protocols on its Cortex-M0 core and programmable Flash, which can accommodate custom applications developed using the SDK. The BlueNRG-M2SP module supports master and slave modes, increased transfer rates with data length extension (DLE), and AES-128 security encryption. The X-NUCLEO-BNRG2A1 interfaces with the STM32 Nucleo microcontroller via SPI connections and GPIO pins, some of which can be configured by the hardware.

    Product Specifications

    Data Brief

    Key features

    • Based on the BlueNRG-M2SP module FCC certified module (FCC ID: S9NBNRGM2SP and IC: B976C-BNRGM2SP)
    • Compatible with STM32 Nucleo boards
    • Equipped with Arduino UNO R3 connector
    • Amazon AWS qualified
    • Scalable solution, capable of cascading multiple boards for larger systems
    • Free comprehensive development firmware library and examples for BlueNRG-2 compatible with STM32Cube
    • BlueNRG-M2SP:
      • Bluetooth v5.2 compliant
      • Supports master and slave modes
      • BLE data packet length extension
      • Embedded BALF-NRG-02D3 integrated matched balun with harmonic filter
    • Interfaces:
      • 1 UART, 1 I²C, 1 SPI, 14 GPIOs, 2 multifunction timers, 10-bit ADC, Watchdog & RTC, DMA controller, PDM stream processor, SWD debug interface
    • Small form factor: 11.5mmx13.5mm
    • Complemented with Bluetooth low energy protocol stack library (GAP, GATT, SM, L2CAP, LL)
    • AES security co-processor
    • Bluetooth low energy SDK with a wide range of profiles
    • Embedded BlueNRG-2 BLE SoC:
      • High performance, ultra-low power Cortex-M0 32-bit based core
      • Programmable embedded 256 KB Flash
      • 24 KB embedded RAM with data retention
      • Up to +8 dBm available output power
      • Down to -88 dBm Rx sensitivity
      • Up to 96 dB link budget with excellent link reliability

    BlueNRG-2 STEVAL-IDB008V2

    Evaluation platform based on the BlueNRG-2

    Product Description

    The STEVAL-IDB008V2 evaluation platform is based on the BlueNRG-2, low power Bluetooth® smart system on chip with 256 KB Flash, 24 KB RAM, compliant with the Bluetooth® SMART v5.0 specification, supporting master, slave and simultaneous master-and-slave roles and the Bluetooth low energy extended data length feature.

    The STEVAL-IDB008V2 also provides a set of hardware resources for implementing a wide range of application scenarios: sensor data (accelerometer, pressure and temperature sensor), remote control (buttons and LEDs) and debug message management through USB virtual COM. Three power options are available (USB only, battery only, and external power supply plus USB) for high application development and testing flexibility.

    Product Specifications

    Technical Data Sheet

    Key features

    • Bluetooth®SMART board based on the BlueNRG-2 Bluetooth low energy system on chip
    • Associated BlueNRG-2 development kit SW package including firmware and documentation
    • Up to +8 dBm available output power (at antenna connector)
    • Excellent receiver sensitivity (-88 dBm)
    • Very low power consumption: 7.7 mA RX and 8.2 mA TX at +0 dBm
    • Bluetooth® SMART v5.0 compliant, supports master, slave, simultaneous master-and-slave roles and Bluetooth low energy extended data length feature
    • New integrated balun BALF-NRG-02D3 which integrates a matching network and harmonics filter
    • SMA connector for antenna or measuring equipment
    • 3 user LEDs
    • 2 user buttons
    • 3D digital accelerometer and 3D digital gyroscope
    • MEMS pressure sensor with embedded temperature sensor
    • RoHS compliant

    STEVAL-IDB011V1

    Evaluation platform based on BlueNRG-355MC system-on-chip

    Product Description

    The STEVAL-IDB011V1 evaluation platform is designed to help you develop and test Bluetooth® low energy applications using the low power BlueNRG-LP system-on-chip in combination with inertial and environmental MEMS sensors and digital MEMS microphone, and various interface buttons and LEDs. The BlueNRG-LP features a 64 MHz, 32-bit ARM® Cortex®-M0+ core, 256 KB programmable Flash, 64 KB SRAM, MPU, and an extensive peripheral set (6x PWM, 2x I²C, 2x SPI/I2S, SPI, USART, UART, PDM, 12-bit ADC SAR). It is compliant with the Bluetooth® LE specification, supporting master, slave, and simultaneous master-and-slave roles, data length extension, 2 Mbps, long range and extended advertising and scanning features.

    Product Specifications

    Technical Data Sheet

    Key features

    • Bluetooth® low energy evaluation board based on the BlueNRG-LP Bluetooth low energy system-on-chip (QFN48 package)
    • Associated BlueNRG-LP development kit SW package (STSW-BNRGLP-DK) including firmware and documentation
    • Up to +8 dBm programmable output power (at antenna connector)
    • Excellent receiver sensitivity (-96 dBm @1 Mbps, -103 dBm @125 bps long range)
    • Very low power consumption: 3.4 mA RX @ sensitivity level, and 4.3 mA TX @ +0 dBm
    • Supports master, slave, and simultaneous master-and-slave roles
    • Bluetooth low energy data length extension, 2 Mbps, long range and extended advertising and scanning
    • SMA connector for antenna or measuring equipment
    • Arduino R3 connectors
    • 3 user LEDs and 2 user buttons
    • MEMS digital accelerometer/gyroscope
    • MEMS digital pressure/temperature sensor
    • MEMS digital microphone
    • Embedded CMSIS-DAP debugger and drag&drop programming support
    • RoHS compliant

    Long range

    S2-LP X-NUCLEO-S2868A2

    Sub-1 GHz 868 MHz RF expansion board based on S2-LP radio for STM32 Nucleo

    Product Description

    The X-NUCLEO-S2868A2 expansion board is based on the S2-LP ultra-low power RF transceiver and operates in the 868 MHz ISM frequency band. The X-NUCLEO-S2868A2 interfaces with the STM32 Nucleo microcontroller via SPI connections and GPIO pins. You can change some of the GPIOs by mounting or removing the resistors. The expansion board is compatible with ST morpho and Arduino UNO R3 connectors.

    Product Description

    Data Brief

    Key features

    • Based on S2-LP radio
    • S2-LP narrow band ultra-low power sub-1 GHz transceiver tuned for 860 - 940 MHz frequency band
    • Programmable RF output power up to +16 dBm
    • Modulation schemes: 2-FSK, 2-GFSK, 4-FSK, 4-GFSK, OOK and ASK
    • Air data rate from 0.1 to 500 kbps
    • Ultra-low power consumption: 7 mA RX and 10 mA TX at +10 dBm
    • IEEE 802.15.4g hardware packet support with whitening, FEC, CRC and dual SYNC word detection
    • RX and TX 128 byte FIFO buffers
    • Support to wireless M-Bus
    • Excellent performance of receiver sensitivity (up to -130 dBm)
    • Automatic acknowledgement, retransmission and timeout protocol engine
    • Compatible with STM32 Nucleo boards
    • Compatible with Arduino UNO R3 connectors
    • BALF-SPI2-01D3 IPD balun for matching network and harmonics filter
    • Sigfox compatible
    • Sample firmware for P2P communication
    • 6LoWPAN compatible thanks to STM32Cube
    • RoHS and WEEE compliant

    S2-LP X-NUCLEO-S2915A1

    Sub-1 GHz 915 MHz RF expansion board based on S2-LP radio for STM32 Nucleo

    Product Description

    The X-NUCLEO-S2915A1 expansion board is based on the S2-LP radio and operates in the 915 MHz ISM frequency band.morpho and Arduino UNO R3 connectors. The expansion board is compatible with ST morpho and Arduino UNO R3 connectors. The X-NUCLEO-S2915A1 interfaces with the STM32 Nucleo microcontroller via SPI connections and GPIO pins. You can change some of the GPIOs by mounting or removing the resistors.

    Product Specifications

    Data Brief

    Key features

    • Based on S2-LP radio
    • S2-LP narrow band ultra-low power sub-1 GHz transceiver tuned for 860-940 MHz frequency band
    • Programmable RF output power up to +27 dBm
    • Modulation schemes: 2-FSK, 2-GFSK, 4-FSK, 4-GFSK, OOK and ASK
    • Air data rate from 0.1 to 500 kbps
    • Ultra-low power consumption: 7 mA RX and 10 mA TX at +10 dBm
    • IEEE 802.15.4g hardware packet support with whitening, FEC, CRC and dual SYNC word detection
    • RX and TX 128 byte FIFO buffers
    • Support to wireless M-Bus
    • Excellent performance of receiver sensitivity (up to -130 dBm)
    • Automatic acknowledgement, retransmission and timeout protocol engine
    • Compatible with STM32 Nucleo boards
    • Compatible with Arduino UNO R3 connectors
    • Sigfox compatible
    • Sample firmware for P2P communication
    • 6LoWPAN compatible thanks to STM32Cube
    • FCC ID: S9NS2915A
    • IC ID: 8976C-S2915A1
    • RoHS and WEEE compliant

    S2-LP STEVAL-FKI868V2

    Sub-1 GHz 915 MHz RF expansion board based on S2-LP radio for STM32 Nucleo

    Product Description

    The STEVAL-FKI868V2 evaluation board is based on the S2-LP sub-1GHz ultra-low power low data-rate transceiver suitable for ISM bands and wireless M-Bus. The NUCLEO-L053R8 motherboard is equipped with an STM32L0 low power microcontroller to control the S2-LP. The board integrates a ST-LINK/V2-1 debugger/programmer for firmware updating.

    Product Specifications

    Data Brief

    Key features

    • S2-LP narrow band ultra-low power sub-1GHz transceiver in a standalone RF Module tuned for 860-940 MHz frequency bands
    • STM32 Nucleo-64 development board with STM32L0 MCU
    • Suitable for Wireless M-Bus systems
    • Associated S2-LP development kit including, documentation, firmware for STM32L and GUI
    • Programmable RF output power up to +16 dBm
    • Modulation schemes: 2-FSK, 2-GFSK, 4-FSK, 4-GFSK, OOK, and ASK
    • Air data rate from 0.3 to 500 kbps
    • Ultra-low power consumption:
    • 6.7 mA RX
    • 10 mA TX @ +10 dBm
    • Excellent performance of receiver sensitivity (up to -130 dBm)
    • Low duty cycle RX/TX operation mode
    • Automatic acknowledgement, retransmission, and timeout protocol engine
    • SPI interface for microcontroller
    • USB interface
    • RoHS compliant

    Short Range

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    STM32WB Tools NUCLEO-WB55RG

    STM32 Nucleo-64 development board with STM32WB55RG MCU, supports Arduino, ST Zio and morpho connectivity

    Product Description

    The NUCLEO-WB55RG and NUCLEO-WB15CC STM32WB Nucleo-64 boards are Bluetooth® Low Energy (BLE) wireless and ultra-low-power devices embedding a powerful and ultra-low-power radio compliant with the Bluetooth® Low Energy (BLE) SIG specification v5.2.

    NUCLEO-WB55RG also offers a radio compliant with IEEE 802.15.4-2011 standard and allows the simple and quick evaluation of STM32WB55xx and STM32WB35xx devices. The ARDUINO® Uno V3 connectivity support and the ST morpho headers provide an easy means of expanding the functionality of the STM32WB Nucleo open development platform with a wide choice of specialized shields.

    Product Specifications

    DB4388 STM32WB Nucleo-64 boards

    Key features

    • Common Features :
      • STM32WB55RG (1-Mbyte Flash memory, 256-Kbyte SRAM, in VFQFPN68 package) ultra‑low‑power wireless microcontroller featuring:Dual-core 32‑bit (Arm® Cortex®-M4 and dedicated M0+ CPU for real-time radio layer)2.4 GHz RF transceiver supporting Bluetooth® specification v5.2
      • Three user LEDs
      • One reset and three user push-buttons
      • Board connectors:ARDUINO® Uno V3 expansion connectorST morpho extension pin headers for full access to all STM32WB I/Os
      • Integrated PCB antenna and SMA connector footprint
      • Flexible power-supply options: ST-LINK, USB VBUS, or external sources
      • On-board footprint to mount a CR2032 battery socket
      • On-board ST-LINK/V2-1 debugger/programmer with USB re-enumeration capability: mass storage, Virtual COM port, and debug port
      • Comprehensive free software libraries and examples available with the STM32CubeWB MCU Package
      • Support of a wide choice of Integrated Development Environments (IDEs) including IAR Embedded Workbench®, MDK-ARM, STM32CubeIDE, and Mbed Studio
    • Board-specific features (STM32WB55RG only)
      • USB user with Micro-B connector
      • 2.4 GHz RF transceiver supporting IEEE 802.15.4-2011 PHY and MAC with Zigbee®, Thread®, and proprietary protocols

    STM32WL Tools NUCLEO-WL55JC1

    STM32 Nucleo-64 development board with STM32WL55JCI MCU, SMPS, supports Arduino and morpho connectivity

    Product Description

    The NUCLEO-WL55JC STM32WL Nucleo-64 board provides an affordable and flexible way for users to try out new concepts and build prototypes with the STM32WL Series microcontroller, choosing from the various combinations of performance, power consumption, and features.

    The ARDUINO Uno V3 connectivity support and the ST morpho headers provide an easy means of expanding the functionality of the STM32WL Nucleo open development platform with a wide choice of specialized shields. The STM32WL Nucleo-64 board does not require any separate probe as it integrates the STLINK-V3E debugger and programmer. The STM32WL Nucleo-64 board is provided with the STM32WL comprehensive software HAL library and various packaged software examples available with the STM32CubeWL MCU Package.

    Product Specifications

    Data Brief

    Key features

    • STM32WL55JC microcontroller multiprotocol LPWAN dual-core 32-bit (Arm® Cortex®-M4/M0+ at 48 MHz) in UFBGA73 package featuring:
    • Ultra-low-power MCU
    • RF transceiver (150 MHz to 960 MHz frequency range) supporting LoRa®, (G)FSK, (G)MSK, and BPSK modulations
    • 256-Kbyte Flash memory and 64-Kbyte SRAM
    • 3 user LEDs
    • 3 user buttons and 1 reset push-button
    • 32.768 kHz LSE crystal oscillator
    • 32 MHz HSE on-board oscillator
    • Board connectors:
    • USB with Micro-B
    • MIPI debug connector
    • ARDUINO Uno V3 expansion connector
    • ST morpho extension pin headers for full access to all STM32WL I/Os
    • Delivered with SMA antenna
    • Flexible power-supply options: ST-LINK, USB VBUS, or external sources
    • On-board STLINK-V3 debugger/programmer with USB re-enumeration capability: mass storage, Virtual COM port, and debug port
    • Comprehensive free software libraries and examples available with the STM32CubeWL MCU Package
    • Support of a wide choice of Integrated Development Environments (IDEs) including IAR Embedded Workbench®, MDK-ARM, and STM32CubeIDE
    • Suitable for rapid prototyping of end nodes based on LoRaWAN, Sigfox, wM-Bus, and many other proprietary protocols
    • Fully open hardware platform

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    Resources

    Getting started with the X-CUBE-BLE1
    STM32 releasing your creativity
    How to programme with the STM32WB
    Video: STM32WL55 and Nucleo-64
    Video: STM32WL Long Range Connectivity