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Saturday, March 18, 2023

on video How to make a 8 Channel remote controller


 How to make a long range remote control with 100mW NRF24L01 PA LN (E01-ML01DP5) 2.4Ghz module and Arduino. 1 to 6 proportional channels and 2 ON/OFF type channels. Circuit construction with a total of 8 channels.

In the first part, there is a single channel transmitter & receiver circuit and necessary codes. That way you can test before the links and code get mixed up. In this way, when a problem arises, you can easily find the problem and fix it. Then, in the second part, we will increase the number of channels to eight and develop our remote control circuits and codes.

The biggest difference of these transmitter and receiver circuits from other Arduino remote control circuits is the E01-ML01DP5 modules I use. These modules are essentially the same as the NRF24L01 PA LN. But they have more power. When used as a transmitter, it can operate at 100mW (20dBm). Theoretically, it has a range of 2100 meters. But in practical applications this will decrease. We will test this in Part 2. When used as a receiver, it works at half power.
In addition, thanks to its metal casing, it is less affected by electrical noise. In this way, it can work more stable.


 How to make a long range remote control with 100mW NRF24L01 PA LN (E01-ML01DP5) 2.4Ghz module and Arduino. 1 to 6 proportional channels and 2 ON/OFF type channels. Circuit construction with a total of 8 channels.

In the first part, there is a single channel transmitter & receiver circuit and necessary codes. That way you can test before the links and code get mixed up. In this way, when a problem arises, you can easily find the problem and fix it. Then, in the second part, we will increase the number of channels to eight and develop our remote control circuits and codes.

The biggest difference of these transmitter and receiver circuits from other Arduino remote control circuits is the E01-ML01DP5 modules I use. These modules are essentially the same as the NRF24L01 PA LN. But they have more power. When used as a transmitter, it can operate at 100mW (20dBm). Theoretically, it has a range of 2100 meters. But in practical applications this will decrease. We will test this in Part 2. When used as a receiver, it works at half power.
In addition, thanks to its metal casing, it is less affected by electrical noise. In this way, it can work more stable.

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