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Optimized fork of nRF24L01 for Arduino and Raspberry Pi

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Optimized High Speed Arduino/Rapsberry Pi/LittleWire driver for nRF24L01 2.4GHz Wireless Transceiver

Design Goals: This library is designed to be...

  • More compliant with the manufacturer specified operation of the chip, while allowing advanced users
  • to work outside the reccommended operation.
  • Utilize the capabilities of the radio to their full potential via Arduino
  • More reliable and feature rich
  • Easy for beginners to use, with well documented examples and features
  • Consumed with a public interface that's similiar to other Arduino standard libraries
  • Built against the standard SPI library.

April 2014: Official Release: Still some work to do, but most benefits have been realized

  • The library has been tweaked to allow full use of the FIFO buffers for maximum transfer speeds
  • Changes to read() and available () functionality have increased reliability and response
  • Extended timeout periods have been added to aid in noisy or otherwise unreliable environments
  • Delays have been removed where possible to ensure maximum efficiency
  • Full Due support with extended SPI functions
  • ATTiny 24/44/84 25/45/85 now supported.
  • More! See the links below and class documentation for more info.

Please refer to:

This chip uses the SPI bus, plus two chip control pins. Remember that pin 10 must still remain an output, or
the SPI hardware will go into 'slave' mode.

Supported Boards:

  • Uno, Nano, etc (328 based boards)
  • Mega Types (2560, 1280, etc)
  • ARM (Arduino Due) via extended SPI methods
  • ATTiny 24/44/84 25/45/85
  • Raspberry Pi
  • See the documentation for more info

µC Pin layout

The table below shows how to connect the the pins of the NRF24L01(+) to different boards. CE and CSN are configurable.

PIN NRF24L01 Arduino UNO ATtiny25/45/85 [0] ATtiny44/84 [1] LittleWire [2]
1 GND GND pin 4 pin 14 GND
2 VCC 3.3V pin 8 pin 1 regulator 3.3V required
3 CE digIO 7 pin 2 pin 12 pin to 3.3V
4 CSN digIO 8 pin 3 pin 11 RESET
5 SCK digIO 13 pin 7 pin 9 SCK
6 MOSI digIO 11 pin 6 pin 7 MOSI
7 MISO digIO 12 pin 5 pin 8 MISO
8 IRQ - - - -

[0] https://learn.sparkfun.com/tutorials/tiny-avr-programmer-hookup-guide/attiny85-use-hints

[1] http://highlowtech.org/?p=1695

[2] http://littlewire.cc/

LittleWire

In order to connect it directly to your LittleWire powered device (ATtiny85-based), you need

Raspberry Pi

Configuration:

Library functions are mostly the same.
See the included examples for RPi specific usage

Raspberry Pi - Possible pre-configuration:

If SPI is not already enabled, load it on boot:

sudo raspi-config  

A. Update the tool via the menu as required
B. Select Advanced and enable the SPI kernel module
C. Update other software and libraries:

 sudo apt-get update  
 sudo apt-get upgrade  

#New: RPi RF24 Library Installer for all RF24 libraries

A. Download the install.sh file from http://tmrh20.github.io/RF24Installer/RPi/install.sh

wget http://tmrh20.github.io/RF24Installer/RPi/install.sh  	

B. Make it executable:

chmod +x install.sh  

C. Run it and choose your options:

./install.sh  

D. Run an example file from one of the libraries:

cd rf24libs/RF24/examples_RPi  
make  
sudo ./gettingstarted  

RPi - RF24 Quick-Start

A. Make a directory to contain the RF24 and possibly RF24Network lib and enter it:

mkdir ~/rf24libs  
cd ~/rf24libs  

B. Clone the RF24 Repo

git clone https://github.com/tmrh20/RF24.git RF24  

C. Change to the new RF24 directory

cd RF24  

D. Build the library, and run an example file:

sudo make install
cd examples_RPi  
make  
sudo ./gettingstarted  

RPi - RF24Network Quick-Start

A. Enter the same directory that contains the RF24 library folder

cd ~/rf24libs  

B. Clone the RF24Network Repo

git clone https://github.com/tmrh20/RF24Network.git RF24Network  

C. Copy the RF24Network folder to the current directory, and delete the rest

cd RF24Network  

D. Build the library

sudo make install
cd examples_RPi  
make  
sudo ./helloworld_rx   OR   sudo ./helloworld_tx  

Connection Info

Using pin 15/GPIO 22 for CE, pin 24/GPIO8 (CE0) for CSN

Can use either RPi CE0 or CE1 pins for radio CSN. Choose any RPi output pin for radio CE pin.

Constructor:

RF24 radio(RPI_V2_GPIO_P1_15,BCM2835_SPI_CS0, BCM2835_SPI_SPEED_8MHZ);
or
RF24 radio(RPI_V2_GPIO_P1_15,BCM2835_SPI_CS1, BCM2835_SPI_SPEED_8MHZ);

RPi B+:
RF24 radio(RPI_BPLUS_GPIO_J8_15,RPI_BPLUS_GPIO_J8_24, BCM2835_SPI_SPEED_8MHZ);
or
RF24 radio(RPI_BPLUS_GPIO_J8_15,RPI_BPLUS_GPIO_J8_26, BCM2835_SPI_SPEED_8MHZ);

Pins:

PIN NRF24L01 RPI RPi -P1 Connector
1 GND rpi-gnd (25)
2 VCC rpi-3v3 (17)
3 CE rpi-gpio22 (15)
4 CSN rpi-gpio8 (24)
5 SCK rpi-sckl (23)
6 MOSI rpi-mosi (19)
7 MISO rpi-miso (21)
8 IRQ - -

See http://www.airspayce.com/mikem/bcm2835/index.html for BCM2835 class documentation.
Note: The BCM library has been customized slightly to allow use of hardware CE pins not in use for SPI, and to include a millis() function.


Based on the arduino lib from J. Coliz [email protected].
the library was berryfied by Purinda Gunasekara [email protected].
then forked from github stanleyseow/RF24 to https://github.com/jscrane/RF24-rpi
Network lib also based on https://github.com/farconada/RF24Network

Currently optimized and aligned with Arduino fork of libraries by TMRh20:
https://github.com/tmrh20/RF24/RPi and https://github.com/tmrh20/RF24Network/RPi
Documentation: http://tmrh20.github.io

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