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author | damic014 <damic014@umn.edu> | 2019-10-29 12:28:56 -0500 |
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committer | damic014 <damic014@umn.edu> | 2019-10-29 12:28:56 -0500 |
commit | 7b933645f701596470fde82ebea16d897306f89f (patch) | |
tree | b52698306c24c764dd740c772c4290932dc8cf0a | |
parent | Add interrupts for HW limit switches. (diff) | |
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Add better limit handling to system: when a limit is triggered, return to the linear-zero position.
Add an initialize function for startup: use the limit switches to find the track extent and then go to zero.
With the above two additions, we should be able to assume that new tests will always start at the zero position.
Also add an initialize file which just calls sys.initialize to find the zero position. This should only be run on power-up (eventually, we should configure the Pi to run this on OS startup).
-rw-r--r-- | System_Python/initialize_system.py | 7 | ||||
-rw-r--r-- | System_Python/system.py | 47 |
2 files changed, 54 insertions, 0 deletions
diff --git a/System_Python/initialize_system.py b/System_Python/initialize_system.py new file mode 100644 index 0000000..4eb287a --- /dev/null +++ b/System_Python/initialize_system.py @@ -0,0 +1,7 @@ +# This file should be run on system startup. It will initialize the linear position to the center so that all tests originate from a proper position.
+# The center is found by using the hardware limit switches
+from system import System
+
+# Main program
+sys = System()
+sys.initialize()
diff --git a/System_Python/system.py b/System_Python/system.py index 20e9844..faffb73 100644 --- a/System_Python/system.py +++ b/System_Python/system.py @@ -3,6 +3,7 @@ from motor import Motor from encoder import Encoder
import math
from datetime import datetime
+from time import sleep
import RPi.GPIO as GPIO
# IO pin definitions
@@ -32,6 +33,7 @@ class System: self.encoder_angular.set_zero()
# Initialize the linear encoder.
self.encoder_linear = Linear_Encoder(encoder_clock_pin, encoder_linear_cs_pin, encoder_data_pin)
+ # We assume that the system has been initialized on startup to a 0 position, or that the previous run ended by returning the system to 0
self.encoder_linear.set_zero()
# Enable hardware interrupts for hardware limit switches
@@ -59,6 +61,36 @@ class System: result_file.write("angle(degrees),position(inches),speed(percentage)\n")
result_file.close()
# END __init__()
+
+ def initialize(self):
+ # Temporarily disable the limit switch interrupts: we do not want the program to exit if the switch is triggered
+ GPIO.remove_event_detect(limit_negative_pin)
+ GPIO.remove_event_detect(limit_positive_pin)
+ # Begin moving slowly in the negative direction until the negative limit switch is triggered
+ if not GPIO.input(limit_negative_pin) == False:
+ self.motor.move(-1)
+ GPIO.wait_for_edge(limit_negative_pin, GPIO.FALLING)
+ self.motor.brake()
+ # Set zero at the negative end of the track for easy reference in determining the extent
+ self.encoder_linear.set_zero()
+ # Begin moving slowly in the positive direction until the positive limit switch is triggered
+ self.motor.move(1)
+ GPIO.wait_for_edge(limit_positive_pin, GPIO.FALLING)
+ self.motor.brake()
+ # Get the current position (the extent of the track)
+ extent = self.encoder_linear.read_position()
+ # Move back towards the center until we reach position extent/2
+ position = extent
+ self.motor.move(-1)
+ while not position == extent / 2:
+ position = self.encoder_linear.read_position()
+ self.motor.brake()
+ # Set zero again: this is the real zero
+ self.encoder_linear.set_zero()
+ # Re-enable the limit switch interrupts
+ GPIO.add_event_detect(limit_negative_pin, GPIO.FALLING, callback=negative_limit_callback, bouncetime=300)
+ GPIO.add_event_detect(limit_positive_pin, GPIO.FALLING, callback=positive_limit_callback, bouncetime=300)
+ # END initialize
# Get the values of the encoders to determine the angular and linear position of the pendulum.
# Values are returned as a tuple: (angle, linear).
@@ -121,6 +153,19 @@ class System: result_file.close()
# END add_results
+ # Go back to the zero position (linear) so that the next execution starts in the correct place.
+ def return_home(self):
+ position = self.encoder_linear.read_position()
+ # slowly move towards 0 until we get there
+ if position > 0:
+ self.motor.move(-1)
+ elif position < 0:
+ self.motor.move(1)
+ while not position == 0:
+ position = self.encoder_linear.read_position()
+ self.motor.brake()
+ # END return_home
+
# Callback for when negative limit switch is triggered.
def negative_limit_callback(self, channel):
# Print negative limit trigger to the results file.
@@ -141,6 +186,8 @@ class System: # END positive_limit_callback
def limit_triggered(self):
self.motor.brake()
+ sleep(2)
+ self.return_home()
sys.exit(1)
# END System
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