Features
Bluetooth v4.2 compliant
Supports master and slave modes
Multiple roles supported simultaneously
Embedded Bluetooth low energy protocol stack
GAP, GATT, SM, L2CAP, LL, RFPHY
Bluetooth low energy profiles provided separately
Embedded ST BlueNRG-MS network processor
Up to +8 dBm available output power
Down to -88 dBm Rx sensitivity
Up to 96 dB link budget with excellent link reliability
Host interface
SPI, IRQ, and RESET
On-field stack upgrading available via SPI
AES security co-processor
Certification
CE qualified
FCC, IC modular approval certified
TYPE qualified
BQE qualified
On-board chip antenna
Operating supply voltage: from 1.7 to 3.6 V
Operating temperature range: -40 °C to 85 °C
Applications
Watches
Fitness, wellness and sports
Consumer medical
Security/proximity
Remote control
Home and industrial automation
Assisted living
Mobile phone peripherals
PC peripherals
Description
The BlueNRG-M0 is an easy to use Bluetooth® low energy master/slave network
processor module, compliant with Bluetooth v4.2. The BlueNRG-M0 module supports
multiple roles simultaneously, and can act at the same time as Bluetooth low energy
sensor and hub device.
Product status link
BlueNRG-M0
Product label
Very low power network processor module for Bluetooth® low energy v4.2
BlueNRG-M0
Datasheet
DS13023 - Rev 3 - March 2020
For further information contact your local STMicroelectronics sales office.
www
.st.com
The entire Bluetooth low energy stack and protocols are embedded into BlueNRG-
M0 module. The external host application processor
, where the application resides, is
connected to the
BlueNRG-M0 module through a standard SPI interface.
The BlueNRG-M0 module provides a complete RF platform in a tiny form factor.
Radio, antenna, high frequency and LPO oscillators are integrated to offer a certified
solution to optimize the time-to-market of the final applications.
The BlueNRG-M0 can be powered directly with a standard 3 V coin cell battery, a
pair of AAA batteries or any power source from 1.7 to 3.6 V.
BlueNRG-M0
DS13023 - Rev 3
page 2/28