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PyCNC/utils/heater_model_finder.py
Nikolay Khabarov df7eba664f utils for PID control
2017-06-18 15:23:56 +03:00

148 lines
4.5 KiB
Python
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#!/usr/bin/env python
import os
import sys
import time
cnc_dir = os.path.dirname(os.path.dirname(os.path.realpath(__file__)))
sys.path.append(cnc_dir)
from cnc.hal_raspberry import hal
"""
This executable module is looking for heating and cooling transfer coefficients.
Can be ran only on real hardware.
"""
# change settings below for your hardware/environment
EXTRUDER_MAX_TEMPERATURE = 200
EXTRUDER_DELTA_TEMPERATURE = 50
BED_MAX_TEMPERATURE = 70
BED_DELTA_TEMPERATURE = 10
ENVIRONMENT_TEMPERATURE = 25
# finder itself
def finder(max_temperature, delta_temperature, get_temperature, control):
ca = 0
cn = 0
ha = 0
hn = 0
print("Heating...")
control(100)
last_t = get_temperature()
last_time = time.time()
heated = False
while True:
t = get_temperature()
if t >= max_temperature:
if not heated:
control(0)
heated = True
if heated and t <= max_temperature:
break
if abs(last_t - t) >= 1:
print("Temperature is " + str(t))
last_time = time.time()
last_t = t
time.sleep(0.1)
print("Heated, measure cooling transfer coefficient.")
while True:
t = get_temperature()
if abs(last_t - t) >= 1:
current_time = time.time()
if t <= max_temperature - delta_temperature:
break
v = abs(last_t - t) \
/ abs((last_t + t) / 2.0 - ENVIRONMENT_TEMPERATURE) \
/ (current_time - last_time)
print("Temperature is {}, coefficient is {}".format(t, v))
ca += v
cn += 1
last_time = current_time
last_t = t
time.sleep(0.001)
c = ca / float(cn)
print("Cooled off, waiting...")
time.sleep(60)
print("Heating, measure heating transfer coefficient.")
control(100)
heat_start = 0
while True:
t = get_temperature()
if abs(last_t - t) >= 1:
current_time = time.time()
if t > max_temperature:
heat_end = current_time
break
if t >= max_temperature - delta_temperature:
ct = last_t \
- c * (current_time - last_time) \
* abs((last_t + t) / 2.0 - ENVIRONMENT_TEMPERATURE)
v = abs(t - ct) / (current_time - last_time)
print("Temperature is {}, coefficient is {}".format(t, v))
if hn == 0:
heat_start = current_time
ha += v
hn += 1
else:
print("Temperature is " + str(t))
last_time = current_time
last_t = t
time.sleep(0.001)
h = ha / float(hn)
control(0)
print("Testing results...")
# quick test
heat_time = heat_end - heat_start
t = max_temperature - delta_temperature
for i in range(0, int(heat_time + 0.5)):
t -= abs((t - ENVIRONMENT_TEMPERATURE)) * c
t += h
model_status = abs(max_temperature - t) < max_temperature * 0.1
print("Model quick test result is {}/{} - {}"
.format(t, max_temperature, model_status))
print("Cooling transfer coefficient is " + str(c))
print("Heating transfer coefficient is " + str(h))
return c, h
# finder itself
def main():
hal.init()
try:
hal.fan_control(True)
print("Running for extruder...")
try:
ec, eh = finder(EXTRUDER_MAX_TEMPERATURE,
EXTRUDER_DELTA_TEMPERATURE,
hal.get_extruder_temperature,
hal.extruder_heater_control)
except (IOError, OSError):
ec, eh = None, None
print("Extruder malfunction")
hal.extruder_heater_control(0)
print("Running for bed...")
try:
bc, bh = finder(BED_MAX_TEMPERATURE,
BED_DELTA_TEMPERATURE,
hal.get_bed_temperature,
hal.bed_heater_control)
except (IOError, OSError):
bc, bh = None, None
print("Bed malfunction")
hal.bed_heater_control(0)
print("Done")
print("Extruder transfer coefficients, cooling {}, heating {}"
.format(ec, eh))
print("Bed transfer coefficients, cooling {}, heating {}"
.format(bc, bh))
hal.fan_control(False)
except KeyboardInterrupt:
pass
hal.deinit()
if __name__ == '__main__':
main()
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