LCD Interfacing using Atmega 32

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1 LCD Interfacing using Atmega 32
Name – himanshu Singh Dept. – ECE Sem – 5th Sub – MCI Enroll no. –

2 Content What is LCD PIN description Programming in LCD
Sending commands on LCD Sending Data on LCD Schematic Code for Programming Output on PROTEUS Basic commands used in LCD display

3 What is LCD LCD stands for Liquid Crystal Display, is an electronic device which is used for data display. LCDs are preferable over seven segments and LEDs as they can easily represent data in form of alphabets, characters , numbers or animations. LCDs are very easy to program and make your work quite attractive and simple. Numerous types of LCDs are available in MARKET         such as 16X2, 16X4, 20X2, 20X4, graphical LCDs (128X64) etc. The LCD which we are using is 16X2 alphanumeric LCD, it display 32 characters in two rows means in one row we have 16 characters.

4 PIN description of LCD 16X2 LCD can interface with AVR microcontroller by using two modes, 4-bit mode or 8-bit mode. In this article we will use 8-bit mode for interfacing. In 8-bit mode we send command to LCD by using eight data lines (D0-D7) while in 4-bit mode we use four data lines (D5-D7) for sending command and data. These data lines can be connected to any port of Atmega32.

5 PIN NO. PIN NAME DESCRIPTION 1 VCC Supply pin (+5V DC) 2 VDD Ground pin 3 VEE Contrast pin 4 RS Register selection pin (either data or command)RS=0: Command Register , RS=1: Data Register 5 RW Selects Read or Write operationRW=0: for write RW=1:  for read 6 E Enable pin 7 D0 Data pin 0

6 8 D1 Data pin 1 9 D2 Data pin 2 10 D3 Data pin 3 11 D4 Data pin 4 12 D5 Data pin 5 13 D6 Data pin 6 14 D7 Data pin 7

7 Programming of LCD Basically there are two registers, command and data. When we are giving command to LCD, we select command register and when we are sending data to LCD for display, we select data register. Command is an instruction given to LCD in order to perform required function according to the given command. In order to display textual information, data is send to LCD.

8 Sending commands on LCD
For sending commands on LCD we have to write command on data pins. For this, selects: RS = 0 >> selects command register RW = 0 >> selects write operation E >> make enable pin from high to low

9 Sending data on LCD For sending data on LCD we have to write data on data pins. For this, selects: RS = 1 >> selects data register RW = 0 >> selects write operation E >> make enable pin from high to low

10 SCHEMATIC

11 CODE FOR INTERFACING LCD
We use Atmel studio 6 for development of code and the code is written in C language. #ifndef F_CPU # define F_CPU UL // clock speed is 16MHz #endif

12 #include<avr/io. h> // AVR header #include<util/delay
#include<avr/io.h> // AVR header #include<util/delay.h> // delay header //******************LCD PROGRAM STARTS*********************// #define LCD_DATA PORTB // port B is selected as LCD data port #define ctrl PORTD // port D is selected as LCD command port #define en PD7 // enable signal is connected to port D pin 7 #define rw PD6 // read/write signal is connected to port D pin 6 #define rs PD5 // register select signal is connected to port D pin 5

13 void LCD_cmd(unsigned char cmd); void init_LCD(void); void LCD_write(unsigned char data); int main(void) { DDRB=0xFF; // set LCD data port as output DDRD=0xE0; // set LCD signals (RS, RW, E) as out put init_LCD(); // initialize LCD _delay_ms(100); // delay of 100 Milli seconds

14 LCD_cmd(0x0C); // display on, cursor off _delay_ms(100); LCD_write(‘ ‘); // call a function to display space on LCD _delay_ms(1);

15 LCD_write(‘ ‘); // call a function to display space on LCD _delay_ms(1); LCD_write(‘A’); // call a function to display “A” on LCD _delay_ms(100); LCD_write(‘V’); // call a function to display “V” on LCD LCD_write(‘R’); // call a function to display “R” on LCD

16 LCD_cmd(0xC0); // move cursor to the start of 2nd line _delay_ms(100); LCD_cmd(0x0C); // display on, cursor off LCD_write(‘ ‘); // call a function to display space on LCD _delay_ms(1); LCD_write(‘ ‘);

17 LCD_write(‘ ‘); _delay_ms(1); LCD_write(‘A’); // call a function to display “A” on LCD _delay_ms(100); LCD_write(‘t’); // call a function to display “t” on LCD LCD_write(‘m’); // call a function to display “m” on LCD LCD_write(‘e’); // call a function to display “e” on LCD

18 LCD_write(‘g’); // call a function to display “g” on LCD _delay_ms(100); LCD_write(‘a’); // call a function to display “a” on LCD LCD_write(‘3’); // call a function to display “3” on LCD LCD_write(‘2’); // call a function to display “2” on LCD LCD_cmd(0x0E); // make display ON, cursor ON _delay_ms(1);

19 return 0; } void init_LCD(void) { LCD_cmd(0x38); // initialization in 8bit mode of 16X2 LCD _delay_ms(1); LCD_cmd(0x01); // make clear LCD LCD_cmd(0x02); // return home LCD_cmd(0x06); // make increment in cursor

20 LCD_cmd(0x80); // “8” go to first line and “0” is for 0th position _delay_ms(1); return; }

21 //. sending command on LCD
//**************sending command on LCD***************// void LCD_cmd(unsigned char cmd) { LCD_DATA = cmd; // data lines are set to send command PORTD &= ~(1<<rs); // RS sets 0 PORTD &= ~(1<<rw); // RW sets 0 PORTD |= (1<<en); // make enable from high to low _delay_ms(100); PORTD &= ~(1<<en); return; }

22 //*****************write data on LCD*****************// void LCD_write(unsigned char data) { LCD_DATA= data; // data lines are set to send command PORTD |= (1<<rs); // RS sets 1 PORTD &= ~(1<<rw); // RW sets 0 PORTD |= (1<<en); // make enable from high to low _delay_ms(100); PORTD &= ~(1<<en); return ; }

23 SIMULATION ON PROTEUS

24 BASIC COMMANDS USED IN LCD DISPLAY
DESCRIPTION 0x01 Clear screen 0x02 return home 0x04 Cursor decrement 0x05 Display shifts to right 0x06 Cursor increment 0x07 Display shifts to left 0x08 Cursor and display OFF 0x10 Cursor position Shifts to left 0x14 Cursor position shifts to right

25 0x38 Using two lines, 8-bit mode 0x28 Using two lines, 4-bit mode 0x80 Move cursor to the beginning of first line 0x0C Display ON, cursor OFF 0XC0 Move cursor to the beginning of second line 0x0A Display OFF, cursor ON 0x0E Display ON, cursor blinking 0x30 For display in one line in 8-bit mode 0x20 For display in one line in 4-bit mode 0x0F Display data on cursor blinking 0x18 Shift complete data to left side 0x1C Shift complete data to right side