Most of the embedded projects have some user interfaces, most of them uses LCD displays for output
Here we are going to see how to interface an 16x2 LCD with PIC16F877A
First Create a MPLAB X project as in the steps for Blinking a LED using MPLAB X , PIC16F877A
Components
1.PIC16F877A micro controller
2. 2x16 LCD Display
Most of the LCD have 16 Pins
3 Control Pins
8 Data Pins
4 Power Pins
THE PROGRAM IS AVAILABLE ON GITHUB : https://github.com/ebine/lcd-interface-pic16f877a
# include<htc.h>
#if defined(WDTE_OFF)
__CONFIG(WDTE_OFF & LVP_OFF);
#elif defined (WDTDIS)
__CONFIG(WDTDIS & LVPDIS);
#endif
#define RS RE0
#define RW RE1
#define EN RE2
#define DATA PORTB
void LCD_CMD(unsigned int value);
void LCD_DAT(unsigned int value);
void delay();
int main(void)
{
ADCON0 = 0x00;//Disable ADC ports
ADCON1 = 0x06;//Disable ADC ports
TRISE =0x00;
TRISB =0x00;
//DATA=0x01;
LCD_CMD(0x01);
delay ();
LCD_CMD(0x38);
delay ();
LCD_CMD(0x0F);
delay ();
// LCD_CMD(0x07);
delay();
LCD_CMD(0x06);
delay ();
LCD_CMD(0x0c);
delay ();
LCD_CMD(0x80);
delay ();
//DATA='A';
LCD_DAT('S');
LCD_DAT('E');
LCD_DAT('R');
LCD_DAT('V');
LCD_DAT('4');
LCD_DAT('U');
LCD_CMD(0x80);
while(1);
return (0);
}
void LCD_CMD(unsigned int value)
{
DATA =value;
RS=0;
RW=0;
EN=1;
delay ();
EN=0;
delay ();
}
void LCD_DAT(unsigned int value)
{
DATA=value;
RS=1;
RW=0;
EN=1;
delay ();
EN=0;
delay();
}
void delay(void)
{
int counter = 0;
for (counter = 0; counter<10000; counter++) {
;
}
}
Components
1.PIC16F877A micro controller
2. 2x16 LCD Display
Most of the LCD have 16 Pins
3 Control Pins
8 Data Pins
4 Power Pins
Steps For Interfacing LCD
1. Take two ports make one as input and other as output by loading 1 to TRIS register and 0 to TRIS respectively
Step 1: Initialize the LCD.
The LCD must be initialized the by following pre-defined commands of character LCD.
· 0x38, to configure the LCD for 2-line, 5x7 font and 8-bit operation mode
· 0x0C, for Display On and Cursor Off
· 0x01, to Clear Display screen
· 0x06, to increment cursor
· 0x80, to set cursor position at first block of the first line of LCD.
Step 2: Send the commands to LCD.
· Send the command byte to the port connected to LCD data pins
· RS=0, to select command register of LCD
· RW=0, to set the LCD in writing mode
· EN=1, a high to low pulse to latch command instruction
· Delay of 1ms
· EN=0
Step 3: Send data to LCD.
· Send data at the port which connected to LCD data pins
· RS=1, register select to select data register of LCD
· RW=0, this set the LCD in writing mode
· EN=1, a high to low pulse to latch data
· Delay of 1ms
· EN=0
THE PROGRAM IS AVAILABLE ON GITHUB : https://github.com/ebine/lcd-interface-pic16f877a
# include<htc.h>
#if defined(WDTE_OFF)
__CONFIG(WDTE_OFF & LVP_OFF);
#elif defined (WDTDIS)
__CONFIG(WDTDIS & LVPDIS);
#endif
#define RS RE0
#define RW RE1
#define EN RE2
#define DATA PORTB
void LCD_CMD(unsigned int value);
void LCD_DAT(unsigned int value);
void delay();
int main(void)
{
ADCON0 = 0x00;//Disable ADC ports
ADCON1 = 0x06;//Disable ADC ports
TRISE =0x00;
TRISB =0x00;
//DATA=0x01;
LCD_CMD(0x01);
delay ();
LCD_CMD(0x38);
delay ();
LCD_CMD(0x0F);
delay ();
// LCD_CMD(0x07);
delay();
LCD_CMD(0x06);
delay ();
LCD_CMD(0x0c);
delay ();
LCD_CMD(0x80);
delay ();
//DATA='A';
LCD_DAT('S');
LCD_DAT('E');
LCD_DAT('R');
LCD_DAT('V');
LCD_DAT('4');
LCD_DAT('U');
LCD_CMD(0x80);
while(1);
return (0);
}
void LCD_CMD(unsigned int value)
{
DATA =value;
RS=0;
RW=0;
EN=1;
delay ();
EN=0;
delay ();
}
void LCD_DAT(unsigned int value)
{
DATA=value;
RS=1;
RW=0;
EN=1;
delay ();
EN=0;
delay();
}
void delay(void)
{
int counter = 0;
for (counter = 0; counter<10000; counter++) {
;
}
}
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