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scale is working

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fleaz 2025-04-13 01:27:25 +02:00
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1
.envrc Normal file
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use nix

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README.md Normal file
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# coffee-scale
## Build and flash
```shell
ampy -p /dev/ttyACM0 run main.py
```

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libs/hx711.py Normal file
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# type: ignore
# MIT License
#
# Copyright (c) 2022 Daniel Robertson
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in all
# copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
import _thread
import time
from machine import Pin
from micropython import const
from rp2 import PIO, StateMachine, asm_pio
class hx711:
class _util:
@classmethod
def get_sm_from_pio(cls, pio: PIO, sm_index: int) -> StateMachine:
"""Returns the StateMachine object from the given index
Args:
pio (PIO): RP2040 PIO instance
sm_index (int):
Returns:
StateMachine:
"""
return pio.state_machine(sm_index)
@classmethod
def get_sm_index(cls, pio_offset: int, sm_offset: int) -> int:
"""Returns the global state machine index from given args
Args:
pio_offset (int): 0 or 1
sm_offset (int):
Returns:
int: index between 0 and 7
"""
return (pio_offset >> 2) + sm_offset
@classmethod
def get_pio_from_sm_index(cls, sm_index: int) -> PIO:
"""Returns the correct PIO object from the global state machine index
Args:
sm_index (int):
Returns:
PIO:
"""
return PIO(sm_index >> 2)
@classmethod
def sm_drain_tx_fifo(cls, sm: StateMachine) -> None:
"""Clears the StateMachine TX FIFO
Args:
sm (StateMachine):
Performs:
pull( ) noblock
https://github.com/raspberrypi/pico-sdk/blob/master/src/rp2_common/hardware_pio/pio.c#L252
This may not be thread safe
"""
while sm.tx_fifo() != 0: sm.exec("pull() noblock")
@classmethod
def sm_get(cls, sm: StateMachine) -> int|None:
"""Returns a value from the StateMachine's RX FIFO (NON-BLOCKING)
Args:
sm (StateMachine):
Returns:
int|None: None is returned if RX FIFO is empty
"""
return sm.get() if sm.rx_fifo() != 0 else None
@classmethod
def sm_get_blocking(cls, sm: StateMachine) -> int:
"""Returns a value from the StateMachine's RX FIFO (BLOCKING)
Args:
sm (StateMachine):
Returns:
int:
"""
while sm.rx_fifo() == 0: pass
return sm.get()
class rate:
rate_10: int = const(0)
rate_80: int = const(1)
class gain:
gain_128: int = const(25)
gain_32: int = const(26)
gain_64: int = const(27)
class power:
pwr_up: int = const(0)
pwr_down: int = const(1)
class _pio_prog:
def __init__(self) -> None:
pass
def init(self, hx) -> None:
pass
def program(self) -> None:
pass
class pio_noblock(_pio_prog):
# see: https://github.com/endail/hx711-pico-c/blob/main/src/hx711_noblock.pio
PUSH_BITS: int = const(24)
FREQUENCY: int = const(10000000)
def __init__(self) -> None:
super().__init__()
def init(self, hx: hx711) -> None:
hx._sm = StateMachine(
hx._sm_index,
self.program,
freq=self.FREQUENCY,
in_base=hx.data_pin,
out_base=hx.clock_pin,
set_base=hx.clock_pin,
jmp_pin=None,
sideset_base=hx.clock_pin
)
# pylint: disable=E,W,C,R
@asm_pio(
out_init=(PIO.OUT_LOW),
set_init=(PIO.OUT_LOW),
sideset_init=(PIO.OUT_LOW),
out_shiftdir=PIO.SHIFT_LEFT,
autopush=True,
autopull=False,
push_thresh=PUSH_BITS,
fifo_join=PIO.JOIN_NONE
)
def program():
set(x, 0) # default gain of 0
label("wrap_target")
wrap_target()
set(y, 23) # read bits, 0 based
wait(0, pin, 0)
label("bitloop")
set(pins, 1)
in_(pins, 1)
jmp(y_dec, "bitloop").side(0).delay(2 - 1) # T4
pull(noblock).side(1)
out(x, 2)
jmp(not_x, "wrap_target").side(0)
mov(y, x)
label("gainloop")
set(pins, 1).delay(2 - 1) # T3
jmp(y_dec, "gainloop").side(0).delay(2 - 1) # T4
wrap()
READ_BITS: int = const(24)
MIN_VALUE: int = const(-0x800000)
MAX_VALUE: int = const(0x7fffff)
POWER_DOWN_TIMEOUT: int = const(60) # us
SETTLING_TIMES: list[int] = [ # ms
const(400),
const(50)
]
SAMPLES_RATES: list[int] = [
const(10),
const(80)
]
def __init__(
self,
clk: Pin,
dat: Pin,
sm_index: int = 0,
prog: _pio_prog = pio_noblock()
):
"""Create HX711 object
Args:
clk (Pin): GPIO pin connected to HX711's clock pin
dat (Pin): GPIO pin connected to HX711's data pin
sm_index (int, optional): Global state machine index to use. Defaults to 0.
prog (_pio_prog, optional): PIO program. Defaults to built-in pio_noblock().
"""
self._mut = _thread.allocate_lock()
self._mut.acquire()
self.clock_pin: Pin = clk
self.data_pin: Pin = dat
self.clock_pin.init(mode=Pin.OUT)
self.data_pin.init(mode=Pin.IN)
self._sm: StateMachine
self._sm_index: int = sm_index
self._prog: __class__._pio_prog = prog
prog.init(self)
self._mut.release()
def __bool__(self) -> bool:
return self._sm.active()
def __repr__(self) -> str:
return "[HX711 - CLK: {}, DAT: {}, SM_IDX: {}]".format(self.clock_pin, self.data_pin, self._sm_index)
def __enter__(self):
return self
def __exit__(self, ex_type, ex_val, ex_tb) -> None:
# handle abrupt exits from locked contexts
if self._mut.locked(): self._mut.release()
self.close()
def close(self) -> None:
"""Stop communication with HX711. Does not alter power state.
"""
self._mut.acquire()
self._sm.active(0)
__class__._util.get_pio_from_sm_index(self._sm_index).remove_program(self._prog.program)
self._mut.release()
def set_gain(self, gain: int) -> None:
"""Change HX711 gain
Args:
gain (int):
"""
self._mut.acquire()
__class__._util.sm_drain_tx_fifo(self._sm)
self._sm.put(gain)
self._sm.get()
__class__._util.sm_get_blocking(self._sm)
self._mut.release()
@classmethod
def get_twos_comp(cls, raw: int) -> int:
"""Returns the one's complement value from the raw HX711 value
Args:
raw (int): raw value from HX711
Returns:
int:
"""
return -(raw & +cls.MIN_VALUE) + (raw & cls.MAX_VALUE)
@classmethod
def is_min_saturated(cls, val: int) -> bool:
"""Whether value is at its maximum
Args:
val (int):
Returns:
bool:
"""
return val == cls.MIN_VALUE
@classmethod
def is_max_saturated(cls, val: int) -> bool:
"""Whether value is at its maximum
Args:
val (int):
Returns:
bool:
"""
return val == cls.MAX_VALUE
@classmethod
def get_settling_time(cls, rate: int) -> int:
"""Returns the appropriate settling time for the given rate
Args:
rate (int):
Returns:
int: milliseconds
"""
return cls.SETTLING_TIMES[rate]
@classmethod
def get_rate_sps(cls, rate: int) -> int:
"""Returns the numeric value of the given rate
Args:
rate (int):
Returns:
int:
"""
return cls.SAMPLES_RATES[rate]
def get_value(self) -> int:
"""Blocks until a value is returned
Returns:
int:
"""
self._mut.acquire()
rawVal = __class__._util.sm_get_blocking(self._sm)
self._mut.release()
return self.get_twos_comp(rawVal)
def get_value_timeout(self, timeout: int = 1000000) -> int|None:
"""Attempts to obtain a value within the timeout
Args:
timeout (int, optional): timeout in microseconds. Defaults to 1000000.
Returns:
int|None: None is returned if no value is obtained within the timeout period
"""
endTime: int = time.ticks_us() + timeout
val: int|None = None
self._mut.acquire()
while(time.ticks_us() < endTime):
val = self._try_get_value()
if val != None: break
self._mut.release()
return self.get_twos_comp(val) if val else None
def get_value_noblock(self) -> int|None:
"""Returns a value if one is available
Returns:
int|None: None is returned if no value is available
"""
self._mut.acquire()
val = self._try_get_value()
self._mut.release()
return self.get_twos_comp(val) if val else None
def set_power(self, pwr: int) -> None:
"""Changes the power state of the HX711 and starts/stops the PIO program
Args:
pwr (int):
"""
self._mut.acquire()
if pwr == __class__.power.pwr_up:
self.clock_pin.low()
self._sm.restart()
self._sm.active(1)
elif pwr == __class__.power.pwr_down:
self._sm.active(0)
self.clock_pin.high()
self._mut.release()
@classmethod
def wait_settle(cls, rate: int) -> None:
"""Waits for the appropriate amount of time for values to settle according to the given rate
Args:
rate (int):
"""
time.sleep_ms(cls.get_settling_time(rate))
@classmethod
def wait_power_down(cls) -> None:
"""Waits for the appropriate amount of time for the HX711 to power down
"""
time.sleep_us(cls.POWER_DOWN_TIMEOUT)
def _try_get_value(self) -> int|None:
"""Attempts to obtain a value if one is available
Returns:
int|None: None is returned if no value is available
"""
words = __class__.READ_BITS / 8
return self._sm.get() if self._sm.rx_fifo() >= words else None

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# MicroPython SSD1306 OLED driver, I2C and SPI interfaces
from micropython import const
import framebuf
# register definitions
SET_CONTRAST = const(0x81)
SET_ENTIRE_ON = const(0xA4)
SET_NORM_INV = const(0xA6)
SET_DISP = const(0xAE)
SET_MEM_ADDR = const(0x20)
SET_COL_ADDR = const(0x21)
SET_PAGE_ADDR = const(0x22)
SET_DISP_START_LINE = const(0x40)
SET_SEG_REMAP = const(0xA0)
SET_MUX_RATIO = const(0xA8)
SET_COM_OUT_DIR = const(0xC0)
SET_DISP_OFFSET = const(0xD3)
SET_COM_PIN_CFG = const(0xDA)
SET_DISP_CLK_DIV = const(0xD5)
SET_PRECHARGE = const(0xD9)
SET_VCOM_DESEL = const(0xDB)
SET_CHARGE_PUMP = const(0x8D)
# Subclassing FrameBuffer provides support for graphics primitives
# http://docs.micropython.org/en/latest/pyboard/library/framebuf.html
class SSD1306(framebuf.FrameBuffer):
def __init__(self, width, height, external_vcc):
self.width = width
self.height = height
self.external_vcc = external_vcc
self.pages = self.height // 8
self.buffer = bytearray(self.pages * self.width)
super().__init__(self.buffer, self.width, self.height, framebuf.MONO_VLSB)
self.init_display()
def init_display(self):
for cmd in (
SET_DISP | 0x00, # off
# address setting
SET_MEM_ADDR,
0x00, # horizontal
# resolution and layout
SET_DISP_START_LINE | 0x00,
SET_SEG_REMAP | 0x01, # column addr 127 mapped to SEG0
SET_MUX_RATIO,
self.height - 1,
SET_COM_OUT_DIR | 0x08, # scan from COM[N] to COM0
SET_DISP_OFFSET,
0x00,
SET_COM_PIN_CFG,
0x02 if self.width > 2 * self.height else 0x12,
# timing and driving scheme
SET_DISP_CLK_DIV,
0x80,
SET_PRECHARGE,
0x22 if self.external_vcc else 0xF1,
SET_VCOM_DESEL,
0x30, # 0.83*Vcc
# display
SET_CONTRAST,
0xFF, # maximum
SET_ENTIRE_ON, # output follows RAM contents
SET_NORM_INV, # not inverted
# charge pump
SET_CHARGE_PUMP,
0x10 if self.external_vcc else 0x14,
SET_DISP | 0x01,
): # on
self.write_cmd(cmd)
self.fill(0)
self.show()
def poweroff(self):
self.write_cmd(SET_DISP | 0x00)
def poweron(self):
self.write_cmd(SET_DISP | 0x01)
def contrast(self, contrast):
self.write_cmd(SET_CONTRAST)
self.write_cmd(contrast)
def invert(self, invert):
self.write_cmd(SET_NORM_INV | (invert & 1))
def show(self):
x0 = 0
x1 = self.width - 1
if self.width == 64:
# displays with width of 64 pixels are shifted by 32
x0 += 32
x1 += 32
self.write_cmd(SET_COL_ADDR)
self.write_cmd(x0)
self.write_cmd(x1)
self.write_cmd(SET_PAGE_ADDR)
self.write_cmd(0)
self.write_cmd(self.pages - 1)
self.write_data(self.buffer)
class SSD1306_I2C(SSD1306):
def __init__(self, width, height, i2c, addr=0x3C, external_vcc=False):
self.i2c = i2c
self.addr = addr
self.temp = bytearray(2)
self.write_list = [b"\x40", None] # Co=0, D/C#=1
super().__init__(width, height, external_vcc)
def write_cmd(self, cmd):
self.temp[0] = 0x80 # Co=1, D/C#=0
self.temp[1] = cmd
self.i2c.writeto(self.addr, self.temp)
def write_data(self, buf):
self.write_list[1] = buf
self.i2c.writevto(self.addr, self.write_list)
class SSD1306_SPI(SSD1306):
def __init__(self, width, height, spi, dc, res, cs, external_vcc=False):
self.rate = 10 * 1024 * 1024
dc.init(dc.OUT, value=0)
res.init(res.OUT, value=0)
cs.init(cs.OUT, value=1)
self.spi = spi
self.dc = dc
self.res = res
self.cs = cs
import time
self.res(1)
time.sleep_ms(1)
self.res(0)
time.sleep_ms(10)
self.res(1)
super().__init__(width, height, external_vcc)
def write_cmd(self, cmd):
self.spi.init(baudrate=self.rate, polarity=0, phase=0)
self.cs(1)
self.dc(0)
self.cs(0)
self.spi.write(bytearray([cmd]))
self.cs(1)
def write_data(self, buf):
self.spi.init(baudrate=self.rate, polarity=0, phase=0)
self.cs(1)
self.dc(1)
self.cs(0)
self.spi.write(buf)
self.cs(1)

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import time
import neopixel
from machine import I2C, PWM, Pin, Timer
import ssd1306
from hx711 import *
buzzer = PWM(Pin(8, Pin.OUT))
neo = neopixel.NeoPixel(Pin(16), 1)
button = Pin(7, Pin.IN, Pin.PULL_UP)
i2c = I2C(1, scl=Pin(3), sda=Pin(2), freq=200000)
display = ssd1306.SSD1306_I2C(128, 64, i2c)
hx = hx711(Pin(14), Pin(15))
scaling = 410
value = 0
tara = 0
last_button = None
# freq:hz, duration: ms
def beep(freq, duration):
buzzer.freq(freq)
buzzer.duty_u16(22768)
time.sleep_ms(duration)
buzzer.duty_u16(0)
def led(r, g, b):
neo[0] = (r, g, b)
neo.write()
def callback(pin):
global last_button, tara
if not last_button or time.ticks_diff(time.ticks_ms(), last_button) > 500:
last_button = time.ticks_ms()
else:
print("Nope")
return
print("Interrupt has occured")
beep(1000, 100)
tara = value
print("Tara is {}".format(tara))
smoothing = 3
smoothing_values = []
def read_scale(_):
global value, smoothing_values
val = hx.get_value()
corrected = val / scaling
smoothing_values.append(corrected)
smoothing_values = smoothing_values[-smoothing:]
value = int(sum(smoothing_values) / smoothing)
def main():
global tara
print("Let's go!")
led(0, 0, 50)
display.text("Hello, World!", 0, 0, 1)
display.show()
# 2. power up
hx.set_power(hx711.power.pwr_up)
# 3. [OPTIONAL] set gain and save it to the hx711
# chip by powering down then back up
hx.set_gain(hx711.gain.gain_128)
hx.set_power(hx711.power.pwr_down)
hx711.wait_power_down()
hx.set_power(hx711.power.pwr_up)
# 4. wait for readings to settle
hx711.wait_settle(hx711.rate.rate_10)
display.text("Tara....", 0, 20, 1)
display.show()
for _ in range(3):
read_scale(None)
print("offset: {}".format(value))
tara = value
tim = Timer()
tim.init(period=100, mode=Timer.PERIODIC, callback=read_scale)
button.irq(trigger=Pin.IRQ_RISING, handler=callback)
while True:
x = value - tara
display.fill(0)
display.text("{} g".format(x), 0, 20, 1)
display.show()
time.sleep_ms(20)
if __name__ == "__main__":
buzzer.init()
main()
hx.close()
buzzer.deinit()

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{ pkgs ? import <nixpkgs> {} }:
pkgs.mkShell {
buildInputs = with pkgs; [
adafruit-ampy
micropython
];
}