#*********************************************************# # Author : iTechno # email : itechnolabz@gmail.com #*********************************************************# #import import RPi.GPIO as GPIO import time from pad4pi import rpi_gpio #******************************************# KEYPAD = [ ["1", "2", "3", "A"], ["4", "5", "6", "B"], ["7", "8", "9", "C"], ["*", "0", "#", "D"] ] COL_PINS = [17, 15, 14, 4] # BCM numbering ROW_PINS = [24,22,27,18] # BCM numbering factory = rpi_gpio.KeypadFactory() keypad = factory.create_keypad(keypad=KEYPAD, row_pins=ROW_PINS, col_pins=COL_PINS) #******************************************# def printKey(key): lcd_byte(ord(key),LCD_CHR) #******************************************# # printKey will be called each time a keypad button is pressed keypad.registerKeyPressHandler(printKey) # Define GPIO to LCD mapping LCD_RS = 21 LCD_E = 20 LCD_D4 = 26 LCD_D5 = 19 LCD_D6 = 13 LCD_D7 = 6 # Define LCD parameters LCD_WIDTH = 16 # Maximum characters per line LCD_CHR = True LCD_CMD = False LCD_LINE_1 = 0x80 # LCD RAM address for the 1st line LCD_LINE_2 = 0xC0 # LCD RAM address for the 2nd line # Timing constants E_PULSE = 0.0005 E_DELAY = 0.0005 #******************************************# def main(): # Main program block global pm global system_sts GPIO.setwarnings(False) GPIO.setmode(GPIO.BCM) # Use BCM GPIO numbers GPIO.setup(LCD_E, GPIO.OUT) # E GPIO.setup(LCD_RS, GPIO.OUT) # RS GPIO.setup(LCD_D4, GPIO.OUT) # DB4 GPIO.setup(LCD_D5, GPIO.OUT) # DB5 GPIO.setup(LCD_D6, GPIO.OUT) # DB6 GPIO.setup(LCD_D7, GPIO.OUT) # DB7 # Initialise display lcd_init() lcd_byte(0x01, LCD_CMD) lcd_string(" Welcome",LCD_LINE_1) lcd_byte(0xC0, LCD_CMD) while True: time.sleep(1) #******************************************# def lcd_init(): # Initialise display lcd_byte(0x33,LCD_CMD) # 110011 Initialise lcd_byte(0x32,LCD_CMD) # 110010 Initialise lcd_byte(0x06,LCD_CMD) # 000110 Cursor move direction lcd_byte(0x0C,LCD_CMD) # 001100 Display On,Cursor Off, Blink Off lcd_byte(0x28,LCD_CMD) # 101000 Data length, number of lines, font size lcd_byte(0x01,LCD_CMD) # 000001 Clear display time.sleep(E_DELAY) #******************************************# def lcd_byte(bits, mode): # Send byte to data pins # bits = data # mode = True for character # False for command GPIO.output(LCD_RS, mode) # RS # High bits GPIO.output(LCD_D4, False) GPIO.output(LCD_D5, False) GPIO.output(LCD_D6, False) GPIO.output(LCD_D7, False) if bits&0x10==0x10: GPIO.output(LCD_D4, True) if bits&0x20==0x20: GPIO.output(LCD_D5, True) if bits&0x40==0x40: GPIO.output(LCD_D6, True) if bits&0x80==0x80: GPIO.output(LCD_D7, True) # Toggle 'Enable' pin lcd_toggle_enable() # Low bits GPIO.output(LCD_D4, False) GPIO.output(LCD_D5, False) GPIO.output(LCD_D6, False) GPIO.output(LCD_D7, False) if bits&0x01==0x01: GPIO.output(LCD_D4, True) if bits&0x02==0x02: GPIO.output(LCD_D5, True) if bits&0x04==0x04: GPIO.output(LCD_D6, True) if bits&0x08==0x08: GPIO.output(LCD_D7, True) # Toggle 'Enable' pin lcd_toggle_enable() #******************************************# def lcd_toggle_enable(): # Toggle enable time.sleep(E_DELAY) GPIO.output(LCD_E, True) time.sleep(E_PULSE) GPIO.output(LCD_E, False) time.sleep(E_DELAY) #***************************************# def lcd_string(message,line): # Send string to display message = message.ljust(LCD_WIDTH," ") lcd_byte(line, LCD_CMD) for i in range(LCD_WIDTH): lcd_byte(ord(message[i]),LCD_CHR) #******************************************# if __name__ == '__main__': try: main() except KeyboardInterrupt: pass finally: lcd_byte(0x01, LCD_CMD) lcd_string("Goodbye!",LCD_LINE_1) GPIO.cleanup()