DFRobot
DFRobot Fermion BLE Sensor Beacon Pack - 5 Pack
· MPN: TEL0168
Turn regular 3.3V sensors into wireless BLE sensor nodes with this 5 pack of Fermion BLE Sensor Beacons from DFRobot. Each beacon broadcasts data using Bluet...
Turn regular 3.3V sensors into wireless BLE sensor nodes with this 5 pack of Fermion BLE Sensor Beacons from DFRobot. Each beacon broadcasts data using Bluetooth Low Energy, so nearby BLE-capable devices such as smartphones and ESP32 boards can scan and receive the data without pairing.
The Fermion version includes an 11-bit ADC, support for digital, analogue and I2C sensors, and multiple I/O pins that can be multiplexed to SDA/SCL. It is designed for IoT sensor deployments such as smart farms, offices, factories and warehouses, where running long sensor cables is inconvenient.
Broadcast parameters can be configured using PC software, including formats such as iBeacon and Eddystone, broadcast interval, dynamic sensor power control and trigger broadcasts. Configuration requires a 3.3V USB-TTL tool, and the beacon can only be burned once, so test with “Run in RAM” before using “Burn/Program”. I2C configuration information cannot be tested through “Burn in RAM”; follow the product wiki carefully before burning.
This pack includes Fermion BLE Beacon Sensor x5 and 8Pin connector x10.
Features:
- BLE beacon operation: Broadcasts sensor data wirelessly using Bluetooth Low Energy without pairing.
- Unique identifier: Each beacon contains a unique identifier detectable by nearby Bluetooth devices.
- Sensor data broadcasting: Sensor data can be accessed within broadcast range using Bluetooth-equipped devices such as smartphones or ESP32.
- Built-in ADC: Includes a built-in 11-bit ADC.
- I2C interface: Supports real-time collection and broadcasting from I2C sensors in the Fermion version.
- Multi-sensor compatibility: Works with 3.3V digital/analog/I2C sensors.
- Low power consumption: Consumes only 650nA in sleep mode.
- Customisable broadcast parameters: Supports adjustable broadcasting format, interval, dynamic power control for sensors and trigger broadcasts.
- Broadcast format compatibility: Compatible with iBeacon, Eddystone and other official broadcasting formats.
- User-defined formats: Supports user-defined broadcasting formats.
- PC software configuration: Parameters can be configured through PC software.
- User friendly setup: Configuration does not require programming knowledge or Bluetooth protocol expertise.
- Graphical interface: Uses an intuitive graphical interface for setup.
- Automatic operation: Once configured, the device automatically collects sensor data and broadcasts it.
- Application: IoT Application.
- Application: Smart farms.
- Application: Smart offices.
- Application: Smart factories.
- Application: Smart warehouses.
- Compatible sensor: Fermion: SHT40 Temperature & Humidity Sensor (Breakout).
- Compatible sensor: Fermion: SGP40 Air Quality Sensor (Breakout).
- Compatible sensor: Fermion: MAX30102 PPG Heart Rate and Oximeter Sensor (Breakout, I2C/UART).
- Compatible sensor: Fermion: LIS2DW12 Triple Axis Accelerometer.
- Compatible sensor: Fermion: ICP-10111 Pressure Sensor (Breakout).
- Compatible sensor: Fermion: GR10-30 Gesture Sensor.
Specifications:
- Operation Current: <10mA
- Input signal: Digital,Analog, I2C
- Operation voltage: 1.1~3.6V DC
- Interface: 2*8P Pinhole
- CR2032 Button Cell Holder
- Maximum number of simultaneously connected sensors: Digital/ Analog*1+I2C*1
- Operating Frequency: 2.4GHz ISM
- Modulation: GFSK
- Modulation: +5.0dBm
- PCB Size: 35mm*42mm
- ADC Precision: 11bit
- Numbers of pins could used as SDA/SCL: 5
- Mounting Hole Size: Inner diameter of 2mm/outer diameter of 4mm
A useful choice for distributed BLE sensor nodes, wireless garden monitoring, smart building sensing and other low-power IoT data collection projects.
Jargon buster
Plain-language definitions for the technical terms used above.
- ADC
- An analogue-to-digital converter reads a changing voltage and turns it into a number the microcontroller can use. It matters when connecting analogue sensors such as light, sound, or variable-resistor sensors.
- BLE
- BLE stands for Bluetooth Low Energy, a Bluetooth mode designed for lower power use and modern phone compatibility. It matters because BLE support can make the module easier to use with Apple devices and battery-powered projects, though it may behave differently from classic serial Bluetooth.
- breakout
- A breakout is a small circuit board that makes a tiny or hard-to-solder component easier to connect to with standard pins. It matters because this OLED module can be wired into a microcontroller project without needing to solder directly to the display’s fine contacts.
- Eddystone
- Eddystone is a Bluetooth beacon format originally defined by Google for broadcasting identifiers or small pieces of data. Support for Eddystone matters if your project needs to work with software or receivers that expect that beacon format.
- ESP32
- ESP32 is a family of microcontroller modules with built-in wireless features such as Bluetooth and WiFi. Knowing this product uses an ESP32-based module helps explain how it provides wireless serial communication and firmware update features.
- I2C
- I2C is a two-wire communication bus used by many sensors and small modules. It matters because several I2C devices can share the same two wires, but each device needs a compatible address and your controller must support I2C.
- iBeacon
- iBeacon is Apple’s Bluetooth beacon format for broadcasting an identifier that nearby devices can recognise. Support for iBeacon matters when building proximity or location projects that need compatibility with apps or systems using that format.
- IoT
- Short for Internet of Things, meaning physical devices that connect to networks or the internet to send data or be controlled remotely. It matters if you want projects such as connected sensors, remote controls or classroom data-logging activities.
- PCB
- A printed circuit board is a rigid board with copper tracks that connect electronic parts without loose wires. For this kit, the PCBs also form the airplane shape, so they are both the circuit base and part of the finished model.
- RAM
- RAM is temporary memory used while a device is running, and its contents are lost when power is removed. A “Run in RAM” mode is useful for testing settings without permanently programming the module, but it may not support every feature.
- SDA/SCL
- SDA and SCL are the two signal lines used by an I2C bus: data and clock. Seeing these names helps you identify the correct connections when wiring I2C devices, even though Qwiic cables usually hide that wiring for you.
- SHT40
- SHT40 is a Sensirion temperature and humidity sensor included on the module. It matters because the board can report room temperature and humidity as well as use those readings to improve the CO₂ measurement.
- UART
- UART is a simple serial connection that sends data over separate transmit and receive wires, often labelled TX and RX. It matters because this module is designed to replace a wired UART cable with a wireless link while keeping the same serial data format.
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