In this illustration we will going to wire the ENC28J60 Ethernet Module. This module is another widely used network module for popular microcontroller, the early Arduino network module is accomplished by mean of ENC28J60, although later a new Arduino network
On this illustration we will going to wire the Ethernet Shield W5100, This shield allows an Arduino Board to connect to the internet. This shield is based on W5100 WIZNET Chip, a network stack capable of both TCP and UDP.
In this illustration we will going to wire the Digital Thermal / Temperature Sensor Module with Thermistor in Arduino, this module can be used to sense temperature or heat. It can be used either with or without Arduino, as you
This is the SMD RGB LED Common Cathode Module, These module has 3 separate LEDs the Red, Green and Blue which can be individually driven by applying a voltage to the appropriate module pin this example code is uses the
The wireless TX (Transmitter) RX (Receiver) pair operates at 315 MHz radio frequency, they can easily plug and test into a solder less breadboard and work well with microcontroller to create a simply wireless radio data link. This 315 MHz
The reed switch is an electrical switch which is operated by an applied with a magnetic field. When the magnet close the Reed Switch it will activate as HIGH, The Reed Switch was invented at Bell Telephone Laboratories in 1936.
In these illustration we will going to wire the Hall-Effect Switch in our Arduino board. Hall-effect switch are monolithic integrated circuit with tither magnetic specification, designed to operate continuously over temperature +150 degree Celsius and are more stable with both
In this illustration we will going to wire the RFID (Radio Frequency Identification) Module RC522 in this module it uses a radio signals and a Radio Label Tags for reading and writing data. How RFID works please refer to this
In this illustration we will going to wire the Ultrasonic HC-SR04 with our Arduino board, to build a parking sensor which emits a beep as the sensor approaches or detect an obstacle. The closer the obstacle, the greater the frequency
In this illustration we will going to wire the I2C or 2 wire connection in our Aruduino Board with the 16×2 Liquid Crystal Display, you can also use the 20×4 LCD, but on this demonstration we will going to wire
In this illustration we will going to wire the 128×64 OLED display screen, using SPI and I2C. As you can see the diagram below we used the Pin 5 to Pin 8 in Arduino Microcontroller to wire our OLED Display
In this tutorial we will going to wire the 8 channel Relay Module driven by our own very owned microcontroller, the below illustration illustrate 8 device on external power source triggered by the relay. The 8 channel relay module has