You can also add a capacitor of 10♟ or more to the power pins to ensure stable and quality operation. If you use an Arduino Mini board, you will have to use an external voltage regulator as the board does not have a 3.3V output. The CE and CSN pins are connected to any digital pin of the Arduino. MISO – to 12 for Arduino Uno, Nano, and 50 for Arduino Mega. The SCK pin should be connected to pin 13 for Arduino Uno, Nano, and 52 for Arduino Mega. The MOSI pin from the nRF24L01 board connects to pin 11 for Arduino Uno, Nano and to 51 for Arduino Mega. Using YourDuinoRobo1, which has an additional 3.3V regulator.Designing a separate board, installing the nRF24L01, and adding 1 and 10 uF capacitors to it.It is better to choose a capacity of 10 μF or more. Connecting a capacitor to the chip to 3, 3 V(+), and GND (-) ground.There are several methods to solve this problem: For the above types of boards, a small current of 50mA is applied to the pins. Usually, such difficulties appear when using Arduino Uno, Nano, Mega boards, i.e., those with insufficient power. This can cause interference that interferes with stable operation. MISO – data reception to the controller ĭuring the microcontroller start-up, you might have some problems, which are caused by the fact that the 3.3V supply module is not provided with the right current.MOSI – data transfer from the controller.SCK – SPI clock, the maximum value is 10 MHz.In this case, the device responds to SPI commands CSN – switching on the low level of the chip.The device’s input, which is connected to the board, must consume a current not exceeding 10 mA. In addition to the power outputs, the signal lines can be connected to contacts with a supply voltage of 5 V. The receiving device must give a response to data reception, thus confirming the feedback. The Enhanced ShockBurst protocol is responsible for stable and reliable data transmission and reception. RX mode current consumption is higher than TX mode. The module has 4 operating modes – Power Down, Standby, RX mode, TX Mode. That is, zero corresponds to a frequency of 2.4 GHz, channel 83 – 2.483 GHz. The frequency range in which communication takes place is 2.4 – 2.483 GHz. The channel number determines the operating frequency of the module. The nRF24L01+ board includes a frequency synthesizer, demodulator, amplifiers, and other components.
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