Connect the Output wire (the 3rd wire we added) to Analog pin 5 in the ArduinoĪlright so now we are going to do the different angles.Connect the Output wire (the 3rd wire we added) to Analog pin 4 in the Arduino.Connect the Output wire (the 3rd wire we added) to Analog pin 3 in the Arduino.Connect the Output wire (the 3rd wire we added) to Analog pin 2 in the Arduino.Connect the Output wire (the 3rd wire we added) to Analog pin 1 in the Arduino.Connect the GND wire from the photocell to the - rail on the breadboard.Connect the 5v wire from the photocell to the + rail on the breadboard.Connect a jumper from the DIGITAL pin 9 on the Arduino to the Signal input on the servo (white or orange wire).Connect a jumper from the - rail on the breadboard to the GND input on the servo (black or brown wire).Connect a jumper from the + rail on the breadboard to the 5v input on the servo(red wire).Connect a jumper from GND in the Arduino to the - rail on the breadboard.Connect a jumper from 5v in the Arduino to the + rail on the breadboard.This is where things get a little hard but bare with me, I will divide it into steps to make it as easy to understand as posible. Keyestudio BH1750FVI Digital Light Intensity Module IIC Interface Keyestudio Single-channel Push Button Module Keyestudio Lithium Power Module Powered by Solar Energy and Via USB Cable ![]() Keyestudio Passive Buzzer Module in Building Block Structure Keyestudio Temperature and Humidity Sensor in Building Block Strucure Project 11: Solar Panel Device with Multiply FuctionsĤx Keyestudio Photoresistor Module in Building Block Structure Project 10: Lithium Power Module Powering by Solar Energy or Via USB Cable & Smart phone charging Module ![]() ![]() Project 8: BH1750 Digital Light Intensity Module Project 7: XHT11 Temperature and Humidity Sensor Basic programming: program in C language with Arduino IDE High extension: preserve IIC, UART, SPI ports and Lego jacks, and extend other sensors and modules Novel style: adopt acrylic boards and copper pillars sensors or modules connected to acrylic boards via Lego jacks LCD 1602 modules and solar panels add technologies to it Easy to build: insert into Lego jack to install and no need to fix with screws and nuts or solder circuit also easy to dismantle ![]() Multiple functions: track light automatically, read temperature, humidity and light intensity, button control, 1602 LCD display and charge by solar energy
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