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2026IoTPicowLab/Lab11-Revised/CircuitPython/Code/picowServo1.py
Edward Bigos cb4844f6fe Use Lab11 Revised Code
2026-04-16 10:24:28 -04:00

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# SPDX-FileCopyrightText: 2021 jedgarpark for Adafruit Industries
# SPDX-License-Identifier: MIT
# Pico servo demo
# Hardware setup:
# Servo on GP0 with external 5V power supply
# Button on GP3 and ground
import time
import board
from digitalio import DigitalInOut, Direction, Pull
import pwmio
from adafruit_motor import servo
import os
import sys
import ssl
import wifi
import socketpool
import microcontroller
import board
import busio
import adafruit_requests
import adafruit_dht
from adafruit_io.adafruit_io import IO_HTTP, AdafruitIO_RequestError
from microcontroller import cpu
print("Servo test")
mode = -1 # track state of button mode
def setupLED():
led = DigitalInOut(board.LED)
led.direction = Direction.OUTPUT
led.value = True
return led
def setupButton():
# Mode button setup
button = DigitalInOut(board.GP3)
button.direction = Direction.INPUT
button.pull = Pull.UP
return button
def blink(led,count):
for _ in range(count):
led.value = False
time.sleep(0.1)
led.value = True
time.sleep(0.1)
def setupServo():
# Servo setup
pwm_servo = pwmio.PWMOut(board.GP0, duty_cycle=2 ** 15, frequency=50)
servo1 = servo.Servo(pwm_servo, min_pulse=500, max_pulse=2200) # tune pulse for specific servo
return servo1
def setServoAngle(servo1,angle):
# Servo setup
print("servo set angle =",angle)
servo1.angle = angle
servoData = angle
data = [servoData]
# send sensor data to respective feeds
# io.send_data(picowServo,servoData)
io.send_data("myservo",angle)
print("sent")
return servo1
# Servo test
def servo_direct_test1():
print("Servo Direct Test 1")
setServoAngle(servo1,90)
time.sleep(2)
setServoAngle(servo1,0)
time.sleep(2)
setServoAngle(servo1,90)
time.sleep(2)
setServoAngle(servo1,180)
time.sleep(2)
# Servo test
def servo_direct_test():
print("Servo Direct Test")
print("servo test: 90")
servo1.angle = 90
time.sleep(2)
print("servo test: 0")
servo1.angle = 0
time.sleep(2)
print("servo test: 90")
servo1.angle = 90
time.sleep(2)
print("servo test: 180")
servo1.angle = 180
time.sleep(2)
# Servo smooth test
def servo_smooth_test():
counter = 1
print("servo smooth test: 180 - 0, -1º steps")
for angle in range(180, 0, -1): # 180 - 0 degrees, -1º at a time.
servo1.angle = angle
if(counter > 10): # This is used to rate limit the data to Adafruit
servoData = angle
data = [servoData]
# send sensor data to respective feeds
# io.send_data(picowServo,servoData)
io.send_data("myservo",angle)
print("sent ", angle)
counter = 1
else:
counter += 1
time.sleep(0.1)
# time.sleep(0.01)
time.sleep(1)
print("servo smooth test: 0 - 180, 1º steps")
for angle in range(0, 180, 1): # 0 - 180 degrees, 1º at a time.
servo1.angle = angle
time.sleep(0.01)
time.sleep(1)
def run_test(testnum):
if testnum is 0:
print("servo direct test")
servo_direct_test1()
elif testnum is 1:
print("servo direct test")
servo_smooth_test()
led = setupLED()
button = setupButton()
servo1 = setupServo()
print("Type of servo = ",type(servo))
wifi.radio.connect(os.getenv('CIRCUITPY_WIFI_SSID'), os.getenv('CIRCUITPY_WIFI_PASSWORD'))
aio_username = os.getenv('ADAFRUIT_IO_USERNAME')
aio_key = os.getenv('ADAFRUIT_IO_KEY')
pool = socketpool.SocketPool(wifi.radio)
requests = adafruit_requests.Session(pool, ssl.create_default_context())
# Initialize an Adafruit IO HTTP API object
io = IO_HTTP(aio_username, aio_key, requests)
print("connected to io")
try:
# get feed
picowServo = io.get_feed("myservo")
except AdafruitIO_RequestError:
# if no feed exists, create one
print("Feed error")
sys.exit(-1)
# pack feed names into an array for the loop
feed_names = [picowServo]
print("Connected to feed.")
while True:
if not button.value:
blink(led,2)
mode = (mode + 1) % 2
print("switch to mode %d" % (mode))
time.sleep(0.8) # big debounce
run_test(mode)
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