![]() There’s also another way of adjusting the LCD contrast, and that’s by supplying a PWM signal from the Arduino to the Vo pin of the LCD. We are using a potentiometer because in that way we can easily fine tune the contrast, by adjusting input voltage from 0 to 5V. We can adjust the contrast of the LCD by adjusting the voltage input at the Vo pin. As an Amazon Associate I earn from qualifying purchases. ![]() Breadboard and Jump Wires ……… Amazon / Banggood / AliExpressĭisclosure: These are affiliate links.Arduino Board …………………………… Amazon / Banggood / AliExpress.You can get these components from any of the sites below: The R/W pin will be connected to Ground and the Vo pin will be connected to the potentiometer middle pin. The Enable pin will be connected to pin number 2 and the RS pin will be connected to pin number 1. The LCD’s registers from D4 to D7 will be connected to Arduino’s digital pins from 4 to 7. We will use just 6 digital input pins from the Arduino Board. Here’s how we need to connect the 16×2 LCD display to an Arduino board. ![]() How to Connect Arduino to LCD – Wiring Diagram In this tutorial we will use it in 4 bit mode, or we will just use 4 of the 8 data pins. ![]() We can use the Library in 4 or 8 bit mode. From the Arduino’s official website you can find and see the functions of the library which enable easy use of the LCD. The last two pins A and K, or anode and cathode are for the LED back light.Īfter all we don’t have to worry much about how the LCD works, as the Liquid Crystal Library takes care for almost everything. So through this pins we are sending the 8 bits data when we are writing to the registers or for example if we want to see the latter uppercase A on the display we will send 0100 0001 to the registers according to the ASCII table. Next is the E pin which enables the writing to the registers, or the next 8 data pins from D0 to D7. The read mode is used by the LCD itself when executing the program which we don’t have a need to discuss about it in this tutorial. Here the write mode is obvious and it is used for writing or sending commands and data to the LCD. Next comes the R/W pin which selects the mode whether we will read or write to the LCD. And when RS pin is set on High state or 5 volts we are sending data or characters to the LCD. For example if the RS pin is set on low state or zero volts, then we are sending commands to the LCD like: set the cursor to a specific location, clear the display, turn off the display and so on. Next, The RS pin or register select pin is used for selecting whether we will send commands or data to the LCD. Next is the Vo pin on which we can attach a potentiometer for controlling the contrast of the display. The second pin is the VCC which we connect the 5 volts pin on the Arduino Board. It has 16 pins and the first one from left to right is the Ground pin. Also, these LCDs can have different background and text color. Of course, there are other sizes like 16×1, 16×4, 20×4 and so on, but they all work on the same principle. The most popular LCD is the 16×2 LCD, which has two rows with 16 rectangular areas or characters. The number of the rectangular areas define the size of the LCD.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |