148 lines
3.7 KiB
Python
148 lines
3.7 KiB
Python
import time
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import pyb
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import _onewire as _ow
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class OneWire:
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CMD_SEARCHROM = const(0xf0)
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CMD_READROM = const(0x33)
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CMD_MATCHROM = const(0x55)
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CMD_SKIPROM = const(0xcc)
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def __init__(self, pin):
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self.pin = pin
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self.pin.init(pin.OPEN_DRAIN, pin.PULL_NONE)
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def reset(self):
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return _ow.reset(self.pin)
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def read_bit(self):
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return _ow.readbit(self.pin)
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def read_byte(self):
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return _ow.readbyte(self.pin)
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def read_bytes(self, count):
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buf = bytearray(count)
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for i in range(count):
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buf[i] = _ow.readbyte(self.pin)
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return buf
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def write_bit(self, value):
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return _ow.writebit(self.pin, value)
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def write_byte(self, value):
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return _ow.writebyte(self.pin, value)
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def write_bytes(self, buf):
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for b in buf:
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_ow.writebyte(self.pin, b)
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def select_rom(self, rom):
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self.reset()
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self.write_byte(CMD_MATCHROM)
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self.write_bytes(rom)
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def scan(self):
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devices = []
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diff = 65
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rom = False
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for i in range(0xff):
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rom, diff = self._search_rom(rom, diff)
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if rom:
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devices += [rom]
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if diff == 0:
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break
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return devices
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def _search_rom(self, l_rom, diff):
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if not self.reset():
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return None, 0
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self.write_byte(CMD_SEARCHROM)
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if not l_rom:
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l_rom = bytearray(8)
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rom = bytearray(8)
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next_diff = 0
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i = 64
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for byte in range(8):
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r_b = 0
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for bit in range(8):
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b = self.read_bit()
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if self.read_bit():
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if b: # there are no devices or there is an error on the bus
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return None, 0
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else:
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if not b: # collision, two devices with different bit meaning
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if diff > i or ((l_rom[byte] & (1 << bit)) and diff != i):
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b = 1
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next_diff = i
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self.write_bit(b)
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if b:
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r_b |= 1 << bit
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i -= 1
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rom[byte] = r_b
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return rom, next_diff
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def crc8(self, data):
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return _ow.crc8(data)
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class DS18B20:
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THERM_CMD_CONVERTTEMP = const(0x44)
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THERM_CMD_RSCRATCHPAD = const(0xbe)
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def __init__(self, onewire):
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self.ow = onewire
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self.roms = []
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def scan(self):
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self.roms = []
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for rom in self.ow.scan():
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if rom[0] == 0x28:
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self.roms += [rom]
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return self.roms
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def start_measure(self):
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if not self.ow.reset():
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return False
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self.ow.write_byte(CMD_SKIPROM)
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self.ow.write_byte(THERM_CMD_CONVERTTEMP)
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return True
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def get_temp(self, rom):
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if not self.ow.reset():
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return None
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self.ow.select_rom(rom)
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self.ow.write_byte(THERM_CMD_RSCRATCHPAD)
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buf = self.ow.read_bytes(9)
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if self.ow.crc8(buf):
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return None
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return self._convert_temp(buf)
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def _convert_temp(self, data):
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temp_lsb = data[0]
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temp_msb = data[1]
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return (temp_msb << 8 | temp_lsb) / 16
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# connect 1-wire temp sensors to GPIO12 for this test
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def test():
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dat = pyb.Pin(12)
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ow = OneWire(dat)
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ds = DS18B20(ow)
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roms = ow.scan()
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print('found devices:', roms)
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for i in range(4):
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print('temperatures:', end=' ')
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ds.start_measure()
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time.sleep_ms(750)
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for rom in roms:
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print(ds.get_temp(rom), end=' ')
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print()
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#pyb.freq(80000000)
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#pyb.freq(160000000)
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test()
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