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Line 86: |
Line 86: |
| *Does this module have the antenna? | | *Does this module have the antenna? |
| **Yes. | | **Yes. |
− | *How does the Auto Acknowledge & Auto Re-Transmit work? Finished by software or hardware?
| + | *Does this module support the voltage conversion from 5V to 3.3V? |
− | **Automatic retransmission function, automatic detection and resend the lost packets. Retransmission time and retransmission times can be controlled by software;
| + | **Core and Core+ module doesn’t support this voltage conversion. |
− | **Automatic store the packets that didn't received response signal;
| |
− | **Automatic reply function, after receipt of a valid data, module will send response signal automatically, no need programming again;
| |
− | *Does this module support the voltage convert from 5V to 3.3V? | |
− | **Core and Core+ module doesn’t support this voltage conversion and it can be finished by stacking BM, FT232, DUO and UNO module. | |
| *How to control this module running in low power consumption mode or close it directly? | | *How to control this module running in low power consumption mode or close it directly? |
− | **You use the function pwerDwon() that Arduino library provided. | + | **You use the function pwerDwon() offered by Arduino library. |
| *What's the work range of this module? | | *What's the work range of this module? |
− | **100 meters in open area. | + | **100 meters in the open area. |
| | | |
| ==Bug== | | ==Bug== |
Microduino-nRF24 is a high-speed embedded wireless data transmission module.
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Features
- Fully integrated link layer on the module makes it easy to develop.
- With automatic retransmission function, it can automatically detect and resend lost packets and the retransmission time and frequency can be controlled by software.
- With packets that can automatically save un-received response signals.
- With automatic reply function, the module can send response signal automatically after receiving valid data and need no reprogramming.
- Capable of setting six receiving channels' address synchronously and opening the receiving channels selectively.
- Standard pin 2.54mm spacing interface, making it convenient for embedded application.
- Small, stackable and economic.
- Open source hardware circuit design and Arduino compatible programming development environment.
- With a uniform Microduino interface standard and rich peripheral modules, it can easily connect with other Microduino modules and sensors.
- 2.54mm(0.1 inch) pin pitch, compatible with bread boards and pegboards.
Specification
- Global opened 2.4 GHz ISM band, the maximum 0 DBM transmission power, free license to use;
- Low working voltage: 1.9 ~ 3.6V low voltage;
- SMA antenna, easy to replace;
- Support six channels data reception;
- High rate: 2 MBPS, due to the air transport time is very short, greatly reduce the collision phenomenon in the wireless transmission (software set 2 MBPS or 256 KBPS, 1 MBPS air transmission rate);
- Multi-frequency points: 125 frequency points, support the requirements of multipoint communication and frequency hopping communication;
- Low power consumption: when work in answer mode communication, fast air transport and the startup time, greatly reduce the current consumption.
Pin Description
NRF24L01 Pin |
Microduino Pin |
Function
|
SCK |
D13 |
SPI bus clock
|
SI |
D12 |
Data input pin
|
SO |
D11 |
Data output pin
|
CSN |
D10 |
SPI Chip-select signal (Defined in program)
|
CE |
D9 |
RX or TX Mode selection (Defined in program)
|
Document
Eagle PCB File:Microduino-nRF24.zip
Main Components
Development
Arduino library and support package
- Use RF24 library, refer to RF24 library file and RF24Network library file:
Application
Download Program
Test Program:File:Program Test NRF.zip
Two Microduino core communicate via Nrf24
- Prepared hardware:Microduino FT232R, Microduino Core*2, Microduino Nrf24*2;
- Prepared software:Microduino example program (Arduino part), Arduino IDE(1.0 release and upper), RF24 library, RF24Network library;
- Copy the downlaoded library to libraries folod of Arduino IDE;
- Start Arduino IED, open Microduino example program, select board "Microduino Core (Atmega328P@16M,5V)", download directly;
- The sending and receiving wiring picture:
- Observation
- Sending end can control receiving end's LED by button.
- Sending end potentiometer can control the lightness of LED for receiving end.
FQA
- Does this module have the antenna?
- Does this module support the voltage conversion from 5V to 3.3V?
- Core and Core+ module doesn’t support this voltage conversion.
- How to control this module running in low power consumption mode or close it directly?
- You use the function pwerDwon() offered by Arduino library.
- What's the work range of this module?
- 100 meters in the open area.
Bug
History
Picture
Video
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