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Merge pull request #1 from pimoroni/examples/new_products

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Philip Howard 2024-08-09 14:37:40 +01:00 committed by GitHub
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20
micropython/examples/pico_plus_2/breakouts/bme68x-breakout.py Normal file
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import time
from pimoroni_i2c import PimoroniI2C
from breakout_bme68x import BreakoutBME68X
# SDA and SCL pins for the Pico Plus 2 QW/ST connector
PINS_PICO_PLUS_2 = {"sda": 4, "scl": 5}
# Setup an instance of I2C and BME68X
i2c = PimoroniI2C(**PINS_PICO_PLUS_2)
bme = BreakoutBME68X(i2c)
while True:
# Grab the readings
temperature, pressure, humidity, gas_resistance, status, gas_index, meas_index = bme.read()
# Print the current temperature, pressure and humidity. You'll be able to see this in Thonny's shell
print("Temperature: {}°C\nPressure:{} Pa\nHumidity:{} %rH\n\n".format(temperature, pressure, humidity))
# Now we take a little nap before the next reading ZzzzZz
time.sleep(1)

26
micropython/examples/pico_plus_2/breakouts/scd41-breakout.py Normal file
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import time
from pimoroni_i2c import PimoroniI2C
import breakout_scd41
# SDA and SCL pins for the Pico Plus 2 QW/ST connector
PINS_PICO_PLUS_2 = {"sda": 4, "scl": 5}
# Setup an instance of I2C and BME68X
i2c = PimoroniI2C(**PINS_PICO_PLUS_2)
breakout_scd41.init(i2c)
# Start the SCD41 sensor
breakout_scd41.start()
while True:
# Grab the readings if the sensor is ready.
if breakout_scd41.ready():
co2, temperature, humidity = breakout_scd41.measure()
# Print the latest measurements, you'll be able to see this in Thonny's shell.
print("CO2: {} PPM\nTemperature: {}°C\nHumidity: {} %RH\n\n".format(co2, temperature, humidity))
# Now we take a little nap before the next reading ZzzzZz
time.sleep(3)

13
micropython/examples/pico_plus_2/button.py Normal file
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from machine import Pin
# Setup the LED and Button pin.
led = Pin(25, Pin.OUT)
button = Pin(45, Pin.IN)
# Light the LED when the button is presed!
while True:
if button.value() == 0:
led.value(1)
else:
led.value(0)

14
micropython/examples/pico_plus_2/onboard_led.py Normal file
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import time
from machine import Pin
# Setup the LED pin.
led = Pin(25, Pin.OUT)
# Blink the LED!
while True:
led.value(1)
time.sleep(1)
led.value(0)
time.sleep(1)

57
micropython/examples/plasma_2350/breakouts/trackball-breakout.py Normal file
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import plasma
from plasma import plasma2040
from pimoroni_i2c import PimoroniI2C
from breakout_trackball import BreakoutTrackball
# SDA and SCL pins for the Tiny 2350 QW/ST connector
PINS_PLASMA_2350 = {"sda": 20, "scl": 21, "baudrate": 100000}
# Create an I2C instance and setup the trackball breakout
i2c = PimoroniI2C(**PINS_PLASMA_2350)
trackball = BreakoutTrackball(i2c)
# Set how many LEDs you have
NUM_LEDS = 100
# APA102 / DotStar™ LEDs
# led_strip = plasma.APA102(NUM_LEDS, 0, 0, plasma2040.DAT, plasma2040.CLK)
# WS2812 / NeoPixel™ LEDs
led_strip = plasma.WS2812(NUM_LEDS, 0, 0, plasma2040.DAT, rgbw=True)
# Start updating the LED strip
led_strip.start()
# Clear any previously lit LEDs
led_strip.clear()
position = 0
sensitivity = 1
hue = 0.0
while True:
# Read the trackball data
state = trackball.read()
# Increase/Decrease the number of LEDs lit when moving the trackball Up/Down
if state[BreakoutTrackball.UP] > sensitivity:
if position < NUM_LEDS:
position += 1
if state[BreakoutTrackball.DOWN] > sensitivity:
if position > 0:
position -= 1
# Change the hue when moving the trackball Left/Right
if state[BreakoutTrackball.LEFT] > sensitivity:
hue += 0.02
if state[BreakoutTrackball.RIGHT] > sensitivity:
hue -= 0.02
# Set the LEDs
for i in range(position):
led_strip.set_hsv(i, hue, 1.0, 1.0)
# Clear the LEDs we're not using at the moment
for i in range(position, NUM_LEDS):
led_strip.set_rgb(i, 0, 0, 0)

16
micropython/examples/plasma_2350/buttons.py Normal file
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import time
import machine
# Setup for the button pins
user_button = machine.Pin(22, machine.Pin.IN)
a_button = machine.Pin(12, machine.Pin.IN, machine.Pin.PULL_UP)
while True:
if user_button.value() == 0:
print("USER BUTTON PRESSED!")
if a_button.value() == 0:
print("A BUTTON PRESSED!")
time.sleep(0.2)

27
micropython/examples/plasma_2350/rainbow.py Normal file
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import plasma
from plasma import plasma2040
import time
# Set how many LEDs you have
NUM_LEDS = 50
# APA102 / DotStar™ LEDs
# led_strip = plasma.APA102(NUM_LEDS, 0, 0, plasma2040.DAT, plasma2040.CLK)
# WS2812 / NeoPixel™ LEDs
led_strip = plasma.WS2812(NUM_LEDS, 0, 0, plasma2040.DAT)
# Start updating the LED strip
led_strip.start()
offset = 0.0
while True:
offset += float(10) / 2000.0
for i in range(NUM_LEDS):
hue = float(i) / NUM_LEDS
led_strip.set_hsv(i, offset, 1.0, 1.0)
time.sleep(1.0 / 60)

15
micropython/examples/plasma_2350/rgb_led.py Normal file
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from pimoroni import RGBLED
from time import sleep
# Setup the RGB Led
led = RGBLED(16, 17, 18)
# Cycle through RGB
while True:
led.set_rgb(255, 0, 0)
sleep(1)
led.set_rgb(0, 255, 0)
sleep(1)
led.set_rgb(0, 0, 255)
sleep(1)

22
micropython/examples/plasma_2350/single_colour.py Normal file
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import plasma
from plasma import plasma2040
# Set how many LEDs you have
NUM_LEDS = 50
# APA102 / DotStar™ LEDs
# led_strip = plasma.APA102(NUM_LEDS, 0, 0, plasma2040.DAT, plasma2040.CLK)
# WS2812 / NeoPixel™ LEDs
led_strip = plasma.WS2812(NUM_LEDS, 0, 0, plasma2040.DAT)
# Start updating the LED strip
led_strip.start()
# Set each LED in the strip
for i in range(NUM_LEDS):
led_strip.set_rgb(i, 100, 0, 100)
# We've told the LEDs which colour to display and now we just want to keep the program running!
while True:
pass

37
micropython/examples/tiny_2350/breakouts/bme688-breakout.py Normal file
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import time
from pimoroni import RGBLED
from pimoroni_i2c import PimoroniI2C
from breakout_bme68x import BreakoutBME68X
# SDA and SCL pins for the Tiny 2350 QW/ST connector
PINS_TINY_2350 = {"sda": 12, "scl": 13}
# Setup an instance of I2C and BME68X
i2c = PimoroniI2C(**PINS_TINY_2350)
bme = BreakoutBME68X(i2c)
# Setup the RGB Led
led = RGBLED(18, 19, 20)
# Values for high (red) and low (blue) temperature. Adjust these if you like :)
HIGH = 24
LOW = 18
while True:
# Grab the readings
temperature, pressure, humidity, gas_resistance, status, gas_index, meas_index = bme.read()
# Print the current temperature, you'll be able to see this in Thonny's shell
print(temperature)
# Set the LED based on the latest temperature reading
if temperature >= HIGH:
led.set_rgb(255, 0, 0)
elif temperature <= LOW:
led.set_rgb(0, 0, 255)
else:
led.set_rgb(0, 255, 0)
# Now we take a little nap before the next reading ZzzzZz
time.sleep(1)

40
micropython/examples/tiny_2350/breakouts/scd41-breakout.py Normal file
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import time
from pimoroni import RGBLED
from pimoroni_i2c import PimoroniI2C
import breakout_scd41
# SDA and SCL pins for the Tiny 2350 QW/ST connector
PINS_TINY_2350 = {"sda": 12, "scl": 13}
# Setup an instance of I2C and SCD41
i2c = PimoroniI2C(**PINS_TINY_2350)
breakout_scd41.init(i2c)
# Setup the RGB Led and then turn it off
led = RGBLED(18, 19, 20)
led.set_rgb(0, 0, 0)
# Start the SCD41 sensor
breakout_scd41.start()
while True:
# Grab the readings if the sensor is ready.
if breakout_scd41.ready():
co2, temperature, humidity = breakout_scd41.measure()
# Print the latest CO2 measurement, you'll be able to see this in Thonny's shell
print(co2)
# Change the onboard LED based on the current CO2 levels
if co2 < 1000:
led.set_rgb(0, 255, 0)
elif co2 >= 1000 and co2 <= 2000:
led.set_rgb(255, 165, 0)
elif co2 > 2000:
led.set_rgb(255, 0, 0)
# Now we take a little nap before the next reading ZzzzZz
time.sleep(3)

11
micropython/examples/tiny_2350/buttons.py Normal file
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import time
import machine
user_button = machine.Pin(23, machine.Pin.IN)
while True:
if user_button.value() == 0:
print("BUTTON PRESSED!")
time.sleep(0.2)

15
micropython/examples/tiny_2350/rgb_led.py Normal file
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from pimoroni import RGBLED
from time import sleep
# Setup the RGB Led
led = RGBLED(18, 19, 20)
# Cycle through RGB
while True:
led.set_rgb(255, 0, 0)
sleep(1)
led.set_rgb(0, 255, 0)
sleep(1)
led.set_rgb(0, 0, 255)
sleep(1)