Blend V1.0 A single board integrated with Arduino and BLE
Blend V1.0 is an integrated developement board, we have "blend"ed Arduino with Bluetooth 4.0 Low Energy (aka BLE or Bluetooth Smart) into a single board. It is targeted for makers to develop low power Internet-Of-Things (IoT) projects quickly and easily.
Blend is 100% compatible with sketches and Shields that work with Arduino Leonardo. The micro-controller unit (MCU) is Atmel ATmega32U4 and the BLE chip is Nordic nRF8001. Blend runs as BLE peripheral role only, it allows BLE central role devices to establish connection with.
Current supported BLE central devices:
- iOS 7: iPhone 4s, iPhone 5 (all models), iPod Touch 5, iPad 3/4/mini/Air
- Android 4.3 or above (4.4 recommended for stability) with Bluetooth 4.0 hardware support: Nexus 4, Nexus 5, Nexus 7 (please report any other Android devices supported)
- Windows Phone 8.1: Nokia Lumia 630 (please report any other Windows Phone devices supported)
- Windows 8.1 with built-in Bluetooth 4.0 or USB dongle
- Mac OSX 10.9.2 with built-in Bluetooth 4.0 or USB dongle
- Linux with BlueZ 5.1 with built-in Bluetooth 4.0 or USB dongle
- Utilize Nordic Bluetooth Smart SDK for Arduino
- Software development using Arduino IDE
- Works with our free Android App and iOS App
- Support 5V and 3.3V operating voltage
- Selectable REQN and RDYN pins, from pin 0 to 3, 6 to 11
- Flexible RF RESET pin, pin 4 or 5
- Over-the-Air download of sketch to Blend (available soon)
- Besides the on-board PCB antenna, option to use SMA connector for external antenna (soldering is required)
How It Works
The nRF8001 chip communicates with ATmega32U4 through the ACI (Application Controller Interface). The ACI is similar to SPI but not actually works as SPI. SPI is consist of MOSI, MISO, SCK and SS, whereas ACI is consist of MOSI, MISO, SCK, REQN and RDYN.
Since the nRF8001 chip may receive data anytime even not selected by SPI master (Atmega32U4), so the SS line is not needed.
For the ACI, data exchange still through MOSI and MISO, and SCK provides the clock generated by master.
When master wants to request data from BLE Shield, it puts the REQN to low until RDYN line is put to low by BLE Shiled, and then master generates the clock to read out the data. After reading out the data, master will release the REQN and BLE Shield release the RDYN, put them to high.
If the nRF8001 has data to transmit to master, it will put the RDYN to low to indicate master, even though the master has not requested data and REQN is idle. If the master detectes a low level condition on RDYN, it will put REQN to low and generate the clock to read out the data. After reading out the data, both REQN and RDYN will be put to high. Note that REQN is controlled by master while RDYN is controlled by the nRF8001 chip.
For questions about Nordic Bluetooth low energy SDK for Arduino, please visit Nordic Developer Zone.
For all other questions regarding Blend, please visit the Blend Forum.
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