The following short Python programs will demonstrate essential operation of the Raspberry Pi Pico board. These assume one or more binary input or output circuits are externally attached. Each can be run by copying the program into code.py
on the CIRCUITPY drive offered by the board. The text can be pasted directly from this page, or each file can be downloaded from the CircuitPython sample code folder on this site.
Sample Ultrasonic Ranger Circuit
Sonar Demo
Direct download: sonar_demo.py.
# sonar_demo.py # # Raspberry Pi Pico - HC-04 sonar module demo # This module provides a class for measuring distance using an HC-04 ultrasonic # ranger. # The device requires one digital trigger output and one digital echo input. # It is a 5V device, so echo needs to be level-shifted to 3.3V logic levels. One option # is a pair of resistors as a voltage divider. # This implementation uses bit-banged digital I/O to measure the echo pulse # width. But the timing precision is limited by CircuitPython execution and # clock resolution, so the result is only good for rough proximity detection. # Likely a better long-term solution will be to use the RP2040 programmable IO # peripheral (PIO) to precisely measure the echo duration. ################################################################ # CircuitPython module documentation: # time https://circuitpython.readthedocs.io/en/latest/shared-bindings/time/index.html # board https://circuitpython.readthedocs.io/en/latest/shared-bindings/board/index.html # digitalio https://circuitpython.readthedocs.io/en/latest/shared-bindings/digitalio/index.html # # Driver lifecycle documentation: # https://circuitpython.readthedocs.io/en/latest/docs/design_guide.html#lifetime-and-contextmanagers # ################################################################################ # load standard Python modules import time # load the CircuitPython hardware definition module for pin definitions import board # load the CircuitPython GPIO support import digitalio #-------------------------------------------------------------------------------- class Sonar: def __init__(self, ECHO=board.GP20, TRIG=board.GP21): """This class represents an HC-04 ultraonic ranger module. It uses one output pin for trigger and one input pin for echo pulse measurement. N.B. the device is 5V so the ECHO pin will need level-shifting to 3.3V logic levels.""" self._trig = digitalio.DigitalInOut(TRIG) self._trig.direction = digitalio.Direction.OUTPUT self._trig.value = False self._echo = digitalio.DigitalInOut(ECHO) self._echo.direction = digitalio.Direction.INPUT def ping_sync(self): """Measure the round-trip echo time, returning either a value in seconds or None if the measurement times out. N.B. this function will not return until the cycle is done, so it is not compatible with asynchronous event loops. """ # trigger the ultrasonic pulse self._trig.value = True time.sleep(1e-5) self._trig.value = False start = time.monotonic_ns() timeout = start + int(0.1 * 1e9) # wait for echo to go high while self._echo.value is False: now = time.monotonic_ns() if now > timeout: # print("Error: ECHO never went high.") return None # wait for echo to go low while True: now = time.monotonic_ns() if self._echo.value is False: return 1e-9 * (now - start) if now >= timeout: return None def deinit(self): """Manage resource release as part of object lifecycle.""" self._trig.deinit() self._echo.deinit() self._trig = None self._echo = None def __enter__(self): return self def __exit__(self): # Automatically deinitializes the hardware when exiting a context. self.deinit() #-------------------------------------------------------------------------------- # Ultrasonic ranger demonstration. sonar = Sonar() print("Starting sonar test.") while True: range = sonar.ping_sync() print(f"Range: {range} seconds round-trip time.") time.sleep(0.1)
Sonar PulseIO Demo
An alternate implementation using the pulseio library. So far, this actually appears to perform worse than bit-banging on the Pico.
Direct download: sonar_pulseio_demo.py.
# sonar_demo.py # # Raspberry Pi Pico - HC-04 sonar module demo # This module provides a class for measuring distance using an HC-04 ultrasonic # ranger. # The device requires one digital trigger output and one digital echo input. # It is a 5V device, so echo needs to be level-shifted to 3.3V logic levels. One option # is a pair of resistors as a voltage divider. # This implementation uses the pulseio module to measure the echo pulse width. # But the precision appears to be low, so the result is only suitable for binary # proximity detection. # Likely a better long-term solution will be to use the RP2040 programmable IO # peripheral (PIO) to precisely measure the echo duration. ################################################################ # CircuitPython module documentation: # time https://circuitpython.readthedocs.io/en/latest/shared-bindings/time/index.html # board https://circuitpython.readthedocs.io/en/latest/shared-bindings/board/index.html # digitalio https://circuitpython.readthedocs.io/en/latest/shared-bindings/digitalio/index.html # pulseio https://circuitpython.readthedocs.io/en/latest/shared-bindings/pulseio/index.html # # Driver lifecycle documentation: # https://circuitpython.readthedocs.io/en/latest/docs/design_guide.html#lifetime-and-contextmanagers # ################################################################################ # load standard Python modules import time # load the CircuitPython hardware definition module for pin definitions import board # load the CircuitPython GPIO support import digitalio # load the CircuitPython pulse measurement support import pulseio #-------------------------------------------------------------------------------- class Sonar: def __init__(self, ECHO=board.GP20, TRIG=board.GP21): """This class represents an HC-04 ultraonic ranger module. It uses one output pin for trigger and one input pin for echo pulse measurement. N.B. the device is 5V so the ECHO pin will need level-shifting to 3.3V logic levels.""" self._trig = digitalio.DigitalInOut(TRIG) self._trig.direction = digitalio.Direction.OUTPUT self._trig.value = False self._echo = pulseio.PulseIn(ECHO) self._echo.pause() def ping_sync(self): """Measure the round-trip echo time, returning either a value in seconds or None if the measurement times out. N.B. this function will not return until the cycle is done, so it is not compatible with asynchronous event loops. """ self._echo.clear() # trigger the ultrasonic pulse self._trig.value = True time.sleep(1e-5) self._trig.value = False self._echo.resume() start = time.monotonic_ns() timeout = start + int(0.5 * 1e9) # wait for the measurement to complete or time out while len(self._echo) < 1: now = time.monotonic_ns() if now > timeout: self._echo.pause() return None self._echo.pause() return self._echo[0] * 1e-6 def deinit(self): """Manage resource release as part of object lifecycle.""" self._trig.deinit() self._echo.deinit() self._trig = None self._echo = None def __enter__(self): return self def __exit__(self): # Automatically deinitializes the hardware when exiting a context. self.deinit() #-------------------------------------------------------------------------------- # Ultrasonic ranger demonstration. sonar = Sonar() print("Starting sonar test.") while True: range = sonar.ping_sync() print(f"Range: {range} seconds round-trip time.") time.sleep(0.1)