A TextLCD interface for driving 4-bit 16x2 KS0066U LCD

Dependents:   KS0066U4_16x2 LAB05_Oppgave4 LAB05_Oppgave2 LAB05_Oppgave3 ... more

Import program

00001  #include "mbed.h"
00002  #include "TextLCD.h"
00003  
00004  TextLCD lcd(D11,D10,D9,D5,D4,D3,D2);
00005  int main()
00006  {    
00007     lcd.gotoxy(1,1);
00008     lcd.printf("Hello");
00009  
00010     lcd.gotoxy(4,2);
00011     lcd.printf("World");
00012     
00013     while(1) {
00014         wait_ms(300);
00015     }
00016  }

Import library

Public Member Functions

TextLCD (PinName rs, PinName rw, PinName e, PinName d4, PinName d5, PinName d6, PinName d7, const char *name=NULL)
Create a TextLCD interface and initiated 16x2 char mode.
void lcdComand (unsigned char cmd)
Writes a Command to the LCD-module.
void lcdData (unsigned char data)
Writes charecters to the LCD display.
void gotoxy (int, int)
moves text cursor to a screen column and row
int putc (int c)
Write a character to the LCD.
int printf (const char *format,...)
Write a formatted string to the LCD.

Protected Member Functions

void writeLcdBitD4toD7 (char data)
Writes the low nible of data to the LCD-module.
void pulseEn ()
Causes the LCD-module to read the data on the data input pins EN = 1 for L-to-H / EN = 0 for H-to-L.
void init_4BitMode2LinesDisplayOn ()
Enable 4 bit mode From KS0066U Documentation.

/media/uploads/rlanghbv/lcdmoduletop.jpg /media/uploads/rlanghbv/lcdmodulebottom.jpg

Committer:
rlanghbv
Date:
Sun Sep 20 12:01:04 2015 +0000
Revision:
5:d9eb6ed84a06
Parent:
4:264d9b06bf60
Child:
8:b12188ddd403
Code cleanup

Who changed what in which revision?

UserRevisionLine numberNew contents of line
rlanghbv 1:8902f6be12a5 1
rlanghbv 1:8902f6be12a5 2 #include "mbed.h"
rlanghbv 1:8902f6be12a5 3 #include "TextLCD.h"
rlanghbv 1:8902f6be12a5 4
rlanghbv 1:8902f6be12a5 5 #define SET_EN() (LCD_EN=1)
rlanghbv 1:8902f6be12a5 6 #define SET_RS() (LCD_RS=1)
rlanghbv 1:8902f6be12a5 7 #define SET_RW() (LCD_RW=1)
rlanghbv 1:8902f6be12a5 8
rlanghbv 1:8902f6be12a5 9 #define CLEAR_EN() (LCD_EN=0)
rlanghbv 1:8902f6be12a5 10 #define CLEAR_RS() (LCD_RS=0)
rlanghbv 1:8902f6be12a5 11 #define CLEAR_RW() (LCD_RW=0)
rlanghbv 1:8902f6be12a5 12
rlanghbv 1:8902f6be12a5 13
rlanghbv 4:264d9b06bf60 14 TextLCD::TextLCD(PinName rs,PinName rw, PinName e, PinName d4, PinName d5,
rlanghbv 4:264d9b06bf60 15 PinName d6, PinName d7) : LCD_RS(rs),LCD_RW(rw),
rlanghbv 4:264d9b06bf60 16 LCD_EN(e), LCD_D4(d4), LCD_D5(d5), LCD_D6(d6), LCD_D7(d7)
rlanghbv 3:d2f70de20dbe 17 {
rlanghbv 4:264d9b06bf60 18
rlanghbv 4:264d9b06bf60 19 CLEAR_RW();
rlanghbv 4:264d9b06bf60 20 wait_ms(50); // Wait for disp to turn on
rlanghbv 4:264d9b06bf60 21
rlanghbv 3:d2f70de20dbe 22 CLEAR_EN(); //EN =0
rlanghbv 4:264d9b06bf60 23 CLEAR_RS();
rlanghbv 3:d2f70de20dbe 24
rlanghbv 4:264d9b06bf60 25 init_4BitMode2LinesDisplayOn(); //enabler 4 bit mode
rlanghbv 4:264d9b06bf60 26 wait_ms(1);
rlanghbv 4:264d9b06bf60 27
rlanghbv 4:264d9b06bf60 28 lcdComand(0x00);
rlanghbv 3:d2f70de20dbe 29 wait_us(100);
rlanghbv 3:d2f70de20dbe 30
rlanghbv 4:264d9b06bf60 31 lcdComand(0x28);//(0b0010 1000); // 4- bit mode LCD 2 line 16x2 Matrix
rlanghbv 3:d2f70de20dbe 32 wait_us(100);
rlanghbv 4:264d9b06bf60 33
rlanghbv 4:264d9b06bf60 34 lcdComand(0xE);//(0b0000 1110); // Hva gjør vi her ?
rlanghbv 3:d2f70de20dbe 35 wait_us(100);
rlanghbv 3:d2f70de20dbe 36 lcdComand(0x01); //(0b00000001); //Hva gjør vi her ?
rlanghbv 3:d2f70de20dbe 37 wait_us(100);
rlanghbv 3:d2f70de20dbe 38 lcdComand(0x06);//(0b00000110); //Hva gjør vi her ?
rlanghbv 3:d2f70de20dbe 39 wait_us(100);
rlanghbv 3:d2f70de20dbe 40
rlanghbv 1:8902f6be12a5 41 }
rlanghbv 1:8902f6be12a5 42
rlanghbv 1:8902f6be12a5 43
rlanghbv 1:8902f6be12a5 44 // Causes the LCD-module to read the data on the data input pins
rlanghbv 1:8902f6be12a5 45 void TextLCD::pulseEn()
rlanghbv 1:8902f6be12a5 46 {
rlanghbv 1:8902f6be12a5 47 SET_EN(); // EN = 1 for L-to-H /
rlanghbv 1:8902f6be12a5 48 wait_us(200);
rlanghbv 1:8902f6be12a5 49 CLEAR_EN(); // EN = 0 for H-to-L
rlanghbv 1:8902f6be12a5 50 }
rlanghbv 1:8902f6be12a5 51
rlanghbv 1:8902f6be12a5 52 //Writes the low lible of data to the LCD-module data pins D4 to D7
rlanghbv 1:8902f6be12a5 53 void TextLCD::writeLcdBitD4toD7(char data)
rlanghbv 1:8902f6be12a5 54 {
rlanghbv 1:8902f6be12a5 55 if ( ( data >> 3) & 0x01) LCD_D7=1;
rlanghbv 1:8902f6be12a5 56 else LCD_D7=0;
rlanghbv 1:8902f6be12a5 57 if ( ( data >> 2) & 0x01) LCD_D6=1;
rlanghbv 1:8902f6be12a5 58 else LCD_D6=0;
rlanghbv 1:8902f6be12a5 59 if ( ( data >> 1) & 0x01) LCD_D5=1;
rlanghbv 1:8902f6be12a5 60 else LCD_D5=0;
rlanghbv 1:8902f6be12a5 61 if ( data & 0x01) LCD_D4=1;
rlanghbv 1:8902f6be12a5 62 else LCD_D4=0;
rlanghbv 1:8902f6be12a5 63 }
rlanghbv 1:8902f6be12a5 64
rlanghbv 1:8902f6be12a5 65 //Enable 4 bit mode From KS0066U Documentation
rlanghbv 1:8902f6be12a5 66 void TextLCD::init_4BitMode2LinesDisplayOn()
rlanghbv 1:8902f6be12a5 67 {
rlanghbv 1:8902f6be12a5 68 //Start by selecting configuration mode
rlanghbv 1:8902f6be12a5 69 CLEAR_RS();
rlanghbv 1:8902f6be12a5 70 CLEAR_RW();
rlanghbv 1:8902f6be12a5 71
rlanghbv 4:264d9b06bf60 72 // send "Display Settings" 3 times (Only top nibble of 0x30 as we've got 4-bit bus)
rlanghbv 4:264d9b06bf60 73 writeLcdBitD4toD7(0x3);
rlanghbv 4:264d9b06bf60 74 pulseEn();
rlanghbv 4:264d9b06bf60 75 wait_ms(2);
rlanghbv 4:264d9b06bf60 76 writeLcdBitD4toD7(0x3);
rlanghbv 4:264d9b06bf60 77 pulseEn();
rlanghbv 4:264d9b06bf60 78 wait_ms(2);
rlanghbv 4:264d9b06bf60 79 writeLcdBitD4toD7(0x3);
rlanghbv 4:264d9b06bf60 80 pulseEn();
rlanghbv 4:264d9b06bf60 81 wait_ms(2);
rlanghbv 4:264d9b06bf60 82
rlanghbv 1:8902f6be12a5 83 //Enable 4 bit mode From KS0066U Documentation
rlanghbv 1:8902f6be12a5 84 writeLcdBitD4toD7(0x2);//(0b0010); // Select 4- bit start
rlanghbv 1:8902f6be12a5 85 pulseEn(); //LCD exec function
rlanghbv 1:8902f6be12a5 86 wait_us(100);
rlanghbv 1:8902f6be12a5 87
rlanghbv 1:8902f6be12a5 88 writeLcdBitD4toD7(0x2);////(0b0010); // Select 4- bit start (Already on the out port no need to write once more )
rlanghbv 1:8902f6be12a5 89 pulseEn(); //LCD exec function
rlanghbv 1:8902f6be12a5 90 wait_us(100);
rlanghbv 1:8902f6be12a5 91
rlanghbv 1:8902f6be12a5 92 writeLcdBitD4toD7(0xC);//(0b1100); // 2 Lines + Disp On
rlanghbv 1:8902f6be12a5 93 pulseEn(); //LCD exec function
rlanghbv 1:8902f6be12a5 94 wait_us(100);
rlanghbv 1:8902f6be12a5 95 }
rlanghbv 1:8902f6be12a5 96
rlanghbv 1:8902f6be12a5 97
rlanghbv 1:8902f6be12a5 98 //Writes the byte comand to the LCD-module using 4 bits mode
rlanghbv 1:8902f6be12a5 99 void TextLCD::lcdComand(unsigned char cmd)
rlanghbv 1:8902f6be12a5 100 {
rlanghbv 1:8902f6be12a5 101 writeLcdBitD4toD7(cmd>>4); //Write the first high cmd nibble
rlanghbv 1:8902f6be12a5 102
rlanghbv 1:8902f6be12a5 103 CLEAR_RS(); // RS = 0 for command
rlanghbv 1:8902f6be12a5 104 CLEAR_RW(); // RW = 0 for write
rlanghbv 1:8902f6be12a5 105
rlanghbv 1:8902f6be12a5 106 pulseEn(); //EN Hi-Lo
rlanghbv 1:8902f6be12a5 107
rlanghbv 1:8902f6be12a5 108 writeLcdBitD4toD7(cmd); //Write the second low cmd nibble
rlanghbv 1:8902f6be12a5 109
rlanghbv 1:8902f6be12a5 110 pulseEn(); //EN H to Lo
rlanghbv 1:8902f6be12a5 111
rlanghbv 1:8902f6be12a5 112 wait_us(100); //wait
rlanghbv 1:8902f6be12a5 113 }
rlanghbv 1:8902f6be12a5 114
rlanghbv 1:8902f6be12a5 115 void TextLCD::lcdData(unsigned char data)
rlanghbv 1:8902f6be12a5 116 {
rlanghbv 1:8902f6be12a5 117 writeLcdBitD4toD7(data>>4); //Write the first high data nibble
rlanghbv 1:8902f6be12a5 118
rlanghbv 1:8902f6be12a5 119 SET_RS(); // RS = 1 for data
rlanghbv 1:8902f6be12a5 120 CLEAR_RW(); // RW = 0 for write
rlanghbv 1:8902f6be12a5 121 pulseEn(); // EN H to Lo
rlanghbv 1:8902f6be12a5 122 wait_us(100); //wait
rlanghbv 1:8902f6be12a5 123
rlanghbv 1:8902f6be12a5 124 writeLcdBitD4toD7(data);
rlanghbv 1:8902f6be12a5 125
rlanghbv 1:8902f6be12a5 126 pulseEn(); //EN H to Lo
rlanghbv 1:8902f6be12a5 127 wait_us(100); //wait
rlanghbv 1:8902f6be12a5 128 }
rlanghbv 1:8902f6be12a5 129
rlanghbv 1:8902f6be12a5 130 //Moves cursor to the X,Y position
rlanghbv 2:f0a520c95838 131 void TextLCD::gotoxy(int x, int y)
rlanghbv 1:8902f6be12a5 132 {
rlanghbv 1:8902f6be12a5 133 unsigned char firstCharAdr[]= { 0x80,0xc0,0x94,0xD4};
rlanghbv 1:8902f6be12a5 134 lcdComand(firstCharAdr[y-1]+ x -1);
rlanghbv 1:8902f6be12a5 135
rlanghbv 1:8902f6be12a5 136 wait_us(100);
rlanghbv 1:8902f6be12a5 137 }
rlanghbv 1:8902f6be12a5 138
rlanghbv 1:8902f6be12a5 139 int TextLCD::_putc(int value)
rlanghbv 1:8902f6be12a5 140 {
rlanghbv 1:8902f6be12a5 141 lcdData(value);
rlanghbv 1:8902f6be12a5 142 return value;
rlanghbv 1:8902f6be12a5 143 }
rlanghbv 1:8902f6be12a5 144
rlanghbv 4:264d9b06bf60 145 int TextLCD::_getc()
rlanghbv 1:8902f6be12a5 146 {
rlanghbv 4:264d9b06bf60 147 return -1;
rlanghbv 1:8902f6be12a5 148 }