import time from machine import Pin from pimoroni import Analog, AnalogMux, Button from servo import servo2040 # Press "Boot" to exit the program. # Create the user button user_sw = Button(servo2040.USER_SW) # Set up the shared analog inputs sen_adc = Analog(servo2040.SHARED_ADC) vol_adc = Analog(servo2040.SHARED_ADC, servo2040.VOLTAGE_GAIN) cur_adc = Analog(servo2040.SHARED_ADC, servo2040.CURRENT_GAIN, servo2040.SHUNT_RESISTOR, servo2040.CURRENT_OFFSET) # Set up the analog multiplexer, including the pin for controlling pull-up/pull-down mux = AnalogMux(servo2040.ADC_ADDR_0, servo2040.ADC_ADDR_1, servo2040.ADC_ADDR_2, muxed_pin=Pin(servo2040.SHARED_ADC)) # Set up the sensor addresses and have them pulled down by default sensor_addrs = list(range(servo2040.SENSOR_1_ADDR, servo2040.SENSOR_6_ADDR + 1)) for addr in sensor_addrs: mux.configure_pull(addr, Pin.PULL_DOWN) # Read sensors until the user button is pressed while user_sw.raw() is not True: # Read each sensor in turn and print its voltage for i in range(len(sensor_addrs)): mux.select(sensor_addrs[i]) print("S", i + 1, " = ", round(sen_adc.read_voltage(), 3), sep="", end=", ") # Read the voltage sense and print the value mux.select(servo2040.VOLTAGE_SENSE_ADDR) print("Voltage =", round(vol_adc.read_voltage(), 4), end=", ") mux.select(servo2040.CURRENT_SENSE_ADDR) print("Current =", round(cur_adc.read_current(), 4)) time.sleep(0.5)