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Infrared Remote IR Wireless Remote Control Module Kits DIY Kit HX1838 For Arduino Raspberry Pi

$ 1.39

  • ogodno za čišćenje lišća, otpadaka i pokošene trave sa velikih površina kao što su travnjaci, bašte, parkovi i komercijalni objekti, kao i za slab sneg uklanjanje i opšte poslove čišćenja na otvorenom
  • Mogućnost dodavanja ranca za leđni akumulator PDC1200 i PDC1500
  • Prekidač za promenu brzine sa polugom regulatora brzine
  • Indikator kapaciteta akumulatora
  • Redizajniran deo pojasa za ranac i mrežasta tkanina za pojaseve za poboljšanje prozračnost
  • Napon akumulatora  40 V max XGT
  • Kapacitet akumulatora  2,0 / 2,5 / 4,0 / 5,0 / 8,0 Ah
  • Sila protoka vazduha  32 N
  • Maks. brzina vazduha  0 – 96 m/s
  • Dugme za izbor količine vazduha  2 x
  • Maks. količina vazduha  19,1 m³/min
  • Buka: zvučni pritisak  81,2 dB(A)
  • Buka: zvučna snaga  94,4 dB(A)
  • Buka: odstupanje (K)  3,0 dB(A)
  • Dimenzije (D x Š x V)  242 x 585 x 522 mm mm
  • Težina  5,8 kg

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  • Isporučuje se bez baterija i punjača

 

Description New Infrared IR Wireless Remote Control Module Kits For Arduino/Raspberry Pi Features: Latest infrared wireless remote control kit consists Mini Slim 38KHz IR remote control and infrared receiver modules, Mini Slim infrared remote control with 17 function keys, firing distances of up to 8 meters, ideal for a variety of devices in the control room. IR receiver module can receive standard 38KHz modulation remote control signal, through programming, you can achieve remote control signal decoding operation, which can produce a variety of remote control robots and interactive works. Ultra-thin infrared remote control product parameters: Transmission Distance: 8m above (specific and surroundings, the receiver sensitivity and other factors) Effective angle: 60 degrees Sticking Material: 0.125mmPET, the effective life of 20,000 times. Stable quality, cost-effective quiescent current 3-5uA, dynamic current 3-5mA. #include int RECV_PIN = 11; IRrecv irrecv(RECV_PIN); decode_results results; void setup() { Serial.begin(9600); irrecv.enableIRIn(); // Start the receiver } void loop() { if (irrecv.decode(&results)) { Serial.println(results.value, HEX); irrecv.resume(); // Receive the next value } } Step 1: Assemble Circuit: ou will need one Arduino for this. I used a UNO, but just about any Arduino should work. First wire up the infrared receiver that came with your kit. There are 3 wires, PWR, GND, and SIG, I used port 11 for SIG. Note! some readers have reported that their sensor has different wiring, double check it yourself. Step 2: Download IR Library In order to reverse engineer the remote and obtain the codes for each button we are going to need to download and install the following library. Extract the file in your libraries directory. e.g. ( C:electronicsarduino-1.0.5libraries ) note: I had to rename the library because the name was too long, I just renamed it to IR. Step 3: Add Library to sketch With the IR folder ( or whatever you named it) now in your libraries directory, we can import it into a new sketch. Start a new sketch and the Click Sketch->Import Library->IR. Step 4: Paste Code and compile Paste the following code into the new sketch. Then verify it compiles. #include int RECV_PIN = 11; IRrecv irrecv(RECV_PIN); decode_results results; void setup() { Serial.begin(9600); irrecv.enableIRIn(); // Start the receiver } void loop() { if (irrecv.decode(&results)) { Serial.println(results.value, HEX); irrecv.resume(); // Receive the next value } } Step 5: Open the serial monitor Connect the Arduino to your computer using the usb port, then upload the sketch. Open up the Serial Monitor, get the remote and press the buttons. Some hex codes should appear on the Serial Monitor. Step 6: Record button codes Step 7: Works on any remote!