from machine import Pin, I2C, PWM
from ssd1306 import SSD1306_I2C
from time import sleep, ticks_ms, ticks_diff
SERVO_PIN = 18
BUTTON_PINS = [5, 4, 14, 12]
I2C_SCL_PIN = 22
I2C_SDA_PIN = 21
RED_LED_PIN = 16
GREEN_LED_PIN = 17
BUZZER_PIN = 13
servo = PWM(Pin(SERVO_PIN), freq=50, duty=77)
i2c = I2C(0, scl=Pin(I2C_SCL_PIN), sda=Pin(I2C_SDA_PIN), freq=100000)
oled = SSD1306_I2C(128, 64, i2c)
red_led = Pin(RED_LED_PIN, Pin.OUT)
green_led = Pin(GREEN_LED_PIN, Pin.OUT)
buzzer = PWM(Pin(BUZZER_PIN), freq=1000, duty=0)
def move_servo(angle):
duty_cycle = int(((angle / -180)* 77) + 77)
servo.duty(duty_cycle)
sleep(0.5)
def control_outputs(status):
if status == "running"
red_led.on()
green_led.off()
buzzer.duty(0)
elif status == "complete" :
red_led.off()
green_led.on()
buzzer.duty(512)
def display_message(message):
oled.fill(1)
oled.text(message, 10, 30, 0)
oled.show()
# Main Loop
while True:
display_message("PRESS A BUTTON")
button_pressed = False
for i, button_pin in enumerate(BUTTON_PINS):
button = Pin(button_pin, Pin.IN, Pin.PULL_UP)
if button.value() == 0:
button_pressed = True
if i == 0:
angle = 30
message = "5ml Dispensed"
elif i == 1:
angle = 60
message = "10ml Dispensed"
elif i == 2:
angle = 90
message = "15ml Dispensed"
elif i == 3:
angle = 120
message = "20ml Dispensed"
volume = (i + 1) * 5 # Calculate volume based on button press
display_message(message)
control_outputs("running") # Turn on the red LED and turn off the buzzer indicating motor is running
move_servo(angle)
sleep(0.5) # Debounce delay
control_outputs("complete") # Turn on the green LED and turn on the buzzer indicating motor is complete
display_message("")
if not button_pressed:
buzzer.duty(0) # Turn off the buzzer if no button is pressed
sleep(0.1)