HiLetgo2pcs NRF24L01+PA+LNA Wireless Transceiver RF Transceiver Module with SMA Antenna 2.4G 1100m

The media could not be loaded. Using a pair of HiLetGo nRF24L01 transceivers, have coded a way to switch a battery remotely, put the ESP32 to deep sleep and wake-up using external 0, RTC_GPIO, and power up/power down the transceivers.Have coded a way to accomplish task of remotely switching a battery, switching is by Async web server request. Request “control” variable, determine on/off option. “Control” variable selects one of two options. Each option has three tasks: task one, switches battery power, task two switches transceiver power mode, task three switches deep sleep state. Have not “field” tested project; tested with two multi-meter monitoring current of transceiver bus (only a pair of nRF24L01’s) checking voltages with the other multi-meter. Performs functions as coded; works well.Project is a work in progress.Pair of nRF24L01 current draw; transmitting is 30.4 mA in non-standby mode, 6.6 mA in Standby I mode measured with multi-meter. Transmissions will only be a very small fraction of a second.Couple of recommendations; identify ground pin using a multi-meter, purchase a nRF24L01 piggyback voltage adapter; allows use of five-volt power. Some boards have trouble supplying required transceiver current. Do not let early failures stop your project or ask to return defective transceivers. Fully explore reasons for failures. Mine turned out to be coding errors. If the code is not allowing transceiver to exchange data, check your code! Fault hardware last!

Garage doors will never be safe again. The connectivity and value for the money makes this a must have for all raiders. Not to forget the build quality being top tier.

If you plan to use this with an arduino buy the NRF24L01 version instead of the NRF24L01+PA+LNA version. The NRF24L01+PA+LNA uses more power and the arduino can't supply enough power to be reliable. In my case they were only able to receive and not transmit. To fix this you could also use an external power supply.

I may have received 2 faulty transceivers, but neither of the ones i was shipped were capable of transmitting any data. The arduino's that I tried them on showed signs of trying to transmit, but nothing ever went across. When I tried sending signals to one of these using another nRF24L01 (the ones WITHOUT an external antenna) it received data just fine and consistently, even between rooms. Does anyone have any ideas on what might be going wrong? Ive spend multiple nights going through google searching this and no one else seems to have this issue :/EDIT: I finally realized after a few days of testing (yes I'm embarrassed but willing to admit it) that I wasnt supplying enough power to the transceiver. If you plan on using this with an arduino, be sure to use something besides the on board 3.3v pin to power this. The 3.3v pin is fine for the nRF24L01's without the attachable antenna, but these need more consistent and stronger current to reliably transmit data

So, I ordered two of these and wired them up to two Arduinos and they wouldn't talk two way.No matter what I did, tried 4 different libraries, tried direct power to them via a 12V DC through a BUCK tuned to 3.60Vdc then tested it to 5.5Vdc to power it directly: 5 hours of testing, no good.When I switched one or either of the units with a RF24 with an integrated antenna, they receive data from the internal antenna units, but these, with the external antenna, do not transmit back. So ... you can NOT do an ACK back to the sender using these.This makes it difficult since the sender will not repeat until it knows it was sent and I'm using other SPI devices (ethernet ie.) so the radio will be powered off for a few seconds from time to time while my ethernet does API calls for input/output to the system.So, I REALLY wanted these for the external antenna and extended range and even added a high gain external wired antenna and it receives GREAT ... but since they won't transmit (i.e. do ACK replies). not useful.Other people mentioned they got them working with a capacitor, but I'm not going through that, I'll just have to figure out another solution.

Did not provided any pin configurations either in the circuit board or thru any paper. Just got in seal anti-static plastic cover. Should provide those documents either in the selling page or as a hard copy. Even after 5 days of testing I am not getting a good result of either Tx or Rx using Raspberry Pi. Please help me to get it. Thank you!!!

Excelente producto. Las pruebas de transmisión y recepción fueron realizadas con éxito

If you prefer to avoid tinkering this might not be the device for you however, After a bit of time and lots of testing I was able to get these to work between a pico zero and a nano. Side note these also need their own 3.3v power supply or regulator. Overall testing it works fantastically and through walls and at quite the distance.