Hyungsun Yoon

[HW] Add TM1637 and Reed sensor support

"""
MicroPython TM1637 quad 7-segment LED display driver
https://github.com/mcauser/micropython-tm1637
MIT License
Copyright (c) 2016 Mike Causer
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.
"""
from micropython import const
from machine import Pin
from time import sleep_us, sleep_ms
TM1637_CMD1 = const(64) # 0x40 data command
TM1637_CMD2 = const(192) # 0xC0 address command
TM1637_CMD3 = const(128) # 0x80 display control command
TM1637_DSP_ON = const(8) # 0x08 display on
TM1637_DELAY = const(10) # 10us delay between clk/dio pulses
TM1637_MSB = const(128) # msb is the decimal point or the colon depending on your display
# 0-9, a-z, blank, dash, star
_SEGMENTS = bytearray(b'\x3F\x06\x5B\x4F\x66\x6D\x7D\x07\x7F\x6F\x77\x7C\x39\x5E\x79\x71\x3D\x76\x06\x1E\x76\x38\x55\x54\x3F\x73\x67\x50\x6D\x78\x3E\x1C\x2A\x76\x6E\x5B\x00\x40\x63')
class TM1637(object):
"""Library for quad 7-segment LED modules based on the TM1637 LED driver."""
def __init__(self, clk, dio, brightness=7):
self.clk = clk
self.dio = dio
if not 0 <= brightness <= 7:
raise ValueError("Brightness out of range")
self._brightness = brightness
self.clk.init(Pin.OUT, value=0)
self.dio.init(Pin.OUT, value=0)
sleep_us(TM1637_DELAY)
self._write_data_cmd()
self._write_dsp_ctrl()
def _start(self):
self.dio(0)
sleep_us(TM1637_DELAY)
self.clk(0)
sleep_us(TM1637_DELAY)
def _stop(self):
self.dio(0)
sleep_us(TM1637_DELAY)
self.clk(1)
sleep_us(TM1637_DELAY)
self.dio(1)
def _write_data_cmd(self):
# automatic address increment, normal mode
self._start()
self._write_byte(TM1637_CMD1)
self._stop()
def _write_dsp_ctrl(self):
# display on, set brightness
self._start()
self._write_byte(TM1637_CMD3 | TM1637_DSP_ON | self._brightness)
self._stop()
def _write_byte(self, b):
for i in range(8):
self.dio((b >> i) & 1)
sleep_us(TM1637_DELAY)
self.clk(1)
sleep_us(TM1637_DELAY)
self.clk(0)
sleep_us(TM1637_DELAY)
self.clk(0)
sleep_us(TM1637_DELAY)
self.clk(1)
sleep_us(TM1637_DELAY)
self.clk(0)
sleep_us(TM1637_DELAY)
def brightness(self, val=None):
"""Set the display brightness 0-7."""
# brightness 0 = 1/16th pulse width
# brightness 7 = 14/16th pulse width
if val is None:
return self._brightness
if not 0 <= val <= 7:
raise ValueError("Brightness out of range")
self._brightness = val
self._write_data_cmd()
self._write_dsp_ctrl()
def write(self, segments, pos=0):
"""Display up to 6 segments moving right from a given position.
The MSB in the 2nd segment controls the colon between the 2nd
and 3rd segments."""
if not 0 <= pos <= 5:
raise ValueError("Position out of range")
self._write_data_cmd()
self._start()
self._write_byte(TM1637_CMD2 | pos)
for seg in segments:
self._write_byte(seg)
self._stop()
self._write_dsp_ctrl()
def encode_digit(self, digit):
"""Convert a character 0-9, a-f to a segment."""
return _SEGMENTS[digit & 0x0f]
def encode_string(self, string):
"""Convert an up to 4 character length string containing 0-9, a-z,
space, dash, star to an array of segments, matching the length of the
source string."""
segments = bytearray(len(string))
for i in range(len(string)):
segments[i] = self.encode_char(string[i])
return segments
def encode_char(self, char):
"""Convert a character 0-9, a-z, space, dash or star to a segment."""
o = ord(char)
if o == 32:
return _SEGMENTS[36] # space
if o == 42:
return _SEGMENTS[38] # star/degrees
if o == 45:
return _SEGMENTS[37] # dash
if o >= 65 and o <= 90:
return _SEGMENTS[o-55] # uppercase A-Z
if o >= 97 and o <= 122:
return _SEGMENTS[o-87] # lowercase a-z
if o >= 48 and o <= 57:
return _SEGMENTS[o-48] # 0-9
raise ValueError("Character out of range: {:d} '{:s}'".format(o, chr(o)))
def hex(self, val):
"""Display a hex value 0x0000 through 0xffff, right aligned."""
string = '{:04x}'.format(val & 0xffff)
self.write(self.encode_string(string))
def number(self, num):
"""Display a numeric value -999 through 9999, right aligned."""
# limit to range -999 to 9999
num = max(-999, min(num, 9999))
string = '{0: >4d}'.format(num)
self.write(self.encode_string(string))
def numbers(self, num1, num2, colon=True):
"""Display two numeric values -9 through 99, with leading zeros
and separated by a colon."""
num1 = max(-9, min(num1, 99))
num2 = max(-9, min(num2, 99))
segments = self.encode_string('{0:0>2d}{1:0>2d}'.format(num1, num2))
if colon:
segments[1] |= 0x80 # colon on
self.write(segments)
def temperature(self, num):
if num < -9:
self.show('lo') # low
elif num > 99:
self.show('hi') # high
else:
string = '{0: >2d}'.format(num)
self.write(self.encode_string(string))
self.write([_SEGMENTS[38], _SEGMENTS[12]], 2) # degrees C
def show(self, string, colon=False):
segments = self.encode_string(string)
if len(segments) > 1 and colon:
segments[1] |= 128
self.write(segments[:4])
def scroll(self, string, delay=250):
segments = string if isinstance(string, list) else self.encode_string(string)
data = [0] * 8
data[4:0] = list(segments)
for i in range(len(segments) + 5):
self.write(data[0+i:4+i])
sleep_ms(delay)
class TM1637Decimal(TM1637):
"""Library for quad 7-segment LED modules based on the TM1637 LED driver.
This class is meant to be used with decimal display modules (modules
that have a decimal point after each 7-segment LED).
"""
def encode_string(self, string):
"""Convert a string to LED segments.
Convert an up to 4 character length string containing 0-9, a-z,
space, dash, star and '.' to an array of segments, matching the length of
the source string."""
segments = bytearray(len(string.replace('.','')))
j = 0
for i in range(len(string)):
if string[i] == '.' and j > 0:
segments[j-1] |= TM1637_MSB
continue
segments[j] = self.encode_char(string[i])
j += 1
return segments
import tm1637
from machine import Pin
from utime import sleep
display4 = tm1637.TM1637(clk=Pin(12), dio=Pin(13))
# --------------------------------------------------- #
# FUNCTIONS
# --------------------------------------------------- #
def work_tm1637(data:str):
display4.show(data)
sleep(2)
mydisplay.show(' ')
# # Show a word
# mydisplay.show("Pico")
# sleep(1)
# #blank the screen
# mydisplay.show(" ")
# sleep(1)
# #show numbers
# mydisplay.number(-123)
# sleep(1)
# #show a time with colon
# mydisplay.numbers(12,59)
# sleep(1)
# #adjust the brightness to make it lower
# mydisplay.brightness(0)
# sleep(1)
# #show scrolling text
# mydisplay.scroll("Hello World 123", delay=200)
# sleep(1)
# #show temperature
# mydisplay.temperature(99)
# sleep(1)
# #blank the screen again
# mydisplay.show(" ")
\ No newline at end of file
......@@ -6,39 +6,57 @@ import neopixel
import dht
import bluetoooth as bto
import ultrasonic
import reed
import display4
# --------------------------------------------------- #
# INIT
# --------------------------------------------------- #
# --------------------------------------------------- #
# ENTRYPOINT
# LOOP ENTRYPOINT
# --------------------------------------------------- #
def _run():
# INIT REED STATE
reed_data = -1
# LOOP
while True:
# ------------------------------------------- #
# DEFAULT LOOP
# ------------------------------------------- #
# Get data using BT(Standby)
input_data = bto.recv_data_bt()
if input_data != '':
# Get reed data from reed sensor
current_reed_data = reed.work_reed()
# ------------------------------------------- #
# IF CONDITION MET
# ------------------------------------------- #
if input_data != '' or reed_data != current_reed_data:
# Refine BT data
input_data = input_data.strip()
# Test code
print('INPUT FOUND ', input_data)
print(len(input_data))
if input_data == 'A':
neopixel.work_led(0.2)
elif input_data == 'B':
# IF INPUT MEANS GET MESSAGE or MEDICINE LID STATUS CHANGED
if input_data == 'REQ' or reed_data != current_reed_data:
# Collect Humidity, Temperature
dht_data = dht.work_dht()
if dht_data == False:
print("ERROR: DHT22 NOT WORKING")
else:
print("INFO: HUMI ", dht_data[0])
print("INFO: TEMP ", dht_data[1])
send_string = str(dht_data[0]) + ',' + str(dht_data[1])
print(send_string)
bto.send_data_bt(send_string)
elif input_data == 'C':
ultasonic_data = ultrasonic.work_sr04()
bto.send_data_bt(str(ultasonic_data))
dht_data = [0,0]
# Collect Ultrasonic distance
ultrasonic_data = ultrasonic.work_sr04()
# Make data string
send_data_str = str(reed_data) + '/' + str(dht_data[1]) + '/' + str(dht_data[0]) + '/' + str(ultrasonic_data)
# Send data using BT
bto.send_data_bt(send_data_str)
else:
print('WRONG INPUT')
# Refine BT data
input_data = input_data.strip()
display4.work_tm1637(input_data)
# Update reed state
reed_data = current_reed_data
if __name__ == '__main__':
_run()
\ No newline at end of file
......
from machine import Pin, Signal
data_pin = Pin(16, Pin.IN)
# --------------------------------------------------- #
# FUNCTIONS
# --------------------------------------------------- #
def work_reed() -> int:
# 1 = Lid opened, 0 = Lid closed
return data_pin.value()