Hidup adalah perjuangan!! Berjuang untuk hidup adalah kebebasan!!
Naga Kelaparan adalah Chanel tentang ilmu elektronika dari teknik listrik pemula sampai mahir akan dihadirkan dichanel ini tonton selalu videonya agar tidak ketinggalan info-info penting didalamnya. Chanel NAGAKELAPARAN akan membahas teknik reparasi teknik instalasi dan homemade projek-projek dari sensor arduino lcd 16*2,tft, nextion hmi Contoh sensor Arduino; Temperature dan kelembaban. Ultrasonic Sensor. Sensor Cahaya. Sensor suara. Sensor kelembaban tanah. PIR Sensor Pendeteksi Gerakan. Sensor Pendeteksi Gas. Sensor Pendeteksi Hujan. Dividio ini juga akan dibahas tentang listrik didunia industri, seperti pembuatan counter timer,timer arduino, monitoring tegangan pln dll. Silahkan SUBSCRIBE Chanel ini agar tidak ketinggalan #videotutorial #NagaKelaparan #tekniklistrikpemula #pejuangsholatsubuh #elektrikalengineering #Arduino #Nextion #ilmuelektronikadasar
Arusnya kecil pak, disini saya cuma menggunakan dzener 0,5watt atau sekitar 0,1a . Kalau mau amp yang lebih besar bisa ditambah transistor atau dengan ic 7805 pak 🙏
Iya pak banyak bintik-bintiknya,dan nggak bisa dibersihin pake tisu/kain. mungkin ada alat khusus buat bersihinnya,tp kalau saya biasanya langsung ganti pakai yang copotan ori
Hello Naga Elektronik, can you help me with a software-related matter? I want to create a project. In my project, I will be using a Nextion TFT screen, Arduino Uno, Green LED, Blue LED, DC motor driver, and DC motor components. In addition, I will use one yellow button and one red button. The program's operation is as follows: I will input a value, such as 5000 milliseconds, into the "n0" object on the Nextion screen. I will also enter a value between 0 and 255 into the "n1" object, which will be related to the motor's speed. Based on these values, the motor will run between 0 and 255 revolutions for 5000 milliseconds and then stop. After entering these values, to start the program, the "b0" object on the Nextion screen and the Arduino, connected to the analog "pin1" yellow button, will serve the same function. Whenever the analog "pin1" button or "b0" object is pressed, the motor will start running again and stop when pressed again. In case of an emergency while the motor is running, there will be a red button connected to analog "pin2" to stop the motor. When the "pin2" button is pressed, the running program will stop immediately, and the green LED will turn off. To restart the program, we will need to press the "Dual State Button" button. All of this system will be controlled by the "dual state button" object on the Nextion screen. When the dual-state button is open, the system will be ready to run, and the position of the dual-state button will be indicated by the green LED connected to digital "pin 12". I want to create a project that operates in this way. What is the cost of such a project?