Raspberry-Pi-PWM-Fan-Control/fan_contorl.py
2019-11-23 23:37:43 +08:00

67 lines
1.8 KiB
Python

#!/usr/bin/python
# -*- coding: utf-8 -*-
import RPi.GPIO as GPIO
import time
import signal
import sys
import os
# Configuration
FAN_PIN = 18 # BCM pin used to drive PWM fan
WAIT_TIME = 3 # [s] Time to wait between each refresh
PWM_FREQ = 25000 # [Hz] 25kHz for Noctua PWM control
# Configurable temperature and fan speed
MIN_TEMP = 40
MAX_TEMP = 65
FAN_LOW = 40
FAN_HIGH = 90
FAN_OFF = 0
FAN_MAX = 100
# Get CPU's temperature
def getCpuTemperature():
res = os.popen('vcgencmd measure_temp').readline()
temp =(res.replace("temp=","").replace("'C\n",""))
#print("temp is {0}".format(temp)) # Uncomment for testing
return temp
# Set fan speed
def setFanSpeed(speed):
fan.start(speed)
return()
# Handle fan speed
def handleFanSpeed():
temp = float(getCpuTemperature())
# Turn off the fan if temperature is below MIN_TEMP
if temp < MIN_TEMP:
setFanSpeed(FAN_OFF)
#print("Fan OFF") # Uncomment for testing
# Set fan speed to MAXIMUM if the temperature is above MAX_TEMP
elif temp > MAX_TEMP:
setFanSpeed(FAN_MAX)
#print("Fan MAX") # Uncomment for testing
# Caculate dynamic fan speed
else:
step = (FAN_HIGH - FAN_LOW)/(MAX_TEMP - MIN_TEMP)
temp -= MIN_TEMP
setFanSpeed(FAN_LOW + ( round(temp) * step ))
#print(FAN_LOW + ( round(temp) * step )) # Uncomment for testing
return ()
try:
# Setup GPIO pin
GPIO.setwarnings(False)
GPIO.setmode(GPIO.BCM)
GPIO.setup(FAN_PIN, GPIO.OUT, initial=GPIO.LOW)
fan = GPIO.PWM(FAN_PIN,PWM_FREQ)
setFanSpeed(FAN_OFF)
# Handle fan speed every WAIT_TIME sec
while True:
handleFanSpeed()
time.sleep(WAIT_TIME)
except KeyboardInterrupt: # trap a CTRL+C keyboard interrupt
setFanSpeed(FAN_HIGH)
#GPIO.cleanup() # resets all GPIO ports used by this function