6.1 KiB
1-Wire Module
This module provides functions to work with the 1-Wire device communications bus system.
ow.check_crc16()
Computes the 1-Wire CRC16 and compare it against the received CRC.
Syntax
ow.check_crc16(buf, inverted_crc0, inverted_crc1[, crc])
Parameters
buf
string value, data to be calculated check sum in stringinverted_crc0
LSB of received CRCinverted_crc1
MSB of received CRCcrc
CRC starting value (optional)
Returns
true if the CRC matches, false otherwise
ow.crc16()
Computes a Dallas Semiconductor 16 bit CRC. This is required to check the integrity of data received from many 1-Wire devices. Note that the CRC computed here is not what you'll get from the 1-Wire network, for two reasons:
- The CRC is transmitted bitwise inverted.
- Depending on the endian-ness of your processor, the binary representation of the two-byte return value may have a different byte order than the two bytes you get from 1-Wire.
Syntax
ow.crc16(buf[, crc])
Parameters
buf
string value, data to be calculated check sum in stringcrc
CRC starting value (optional)
Returns
the CRC16 as defined by Dallas Semiconductor
ow.crc8()
Computes a Dallas Semiconductor 8 bit CRC, these are used in the ROM and scratchpad registers.
Syntax
ow.crc8(buf)
Parameters
buf
string value, data to be calculated check sum in string
Returns
CRC result as byte
ow.depower()
Stops forcing power onto the bus. You only need to do this if you used the 'power' flag to ow.write()
or used a ow.write_bytes()
and aren't about to do another read or write.
Syntax
ow.depower(pin)
Parameters
pin
1~12, I/O index
Returns
nil
####See also
ow.read()
Reads a byte.
####Syntax
ow.read(pin)
Parameters
pin
1~12, I/O index
Returns
byte read from slave device
ow.read_bytes()
Reads multi bytes.
Syntax
ow.read_bytes(pin, size)
Parameters
pin
1~12, I/O indexsize
number of bytes to be read from slave device
Returns
string
bytes read from slave device
ow.reset()
Performs a 1-Wire reset cycle.
Syntax
ow.reset(pin)
Parameters
pin
1~12, I/O index
Returns
1
if a device responds with a presence pulse0
if there is no device or the bus is shorted or otherwise held low for more than 250 µS
ow.reset_search()
Clears the search state so that it will start from the beginning again.
Syntax
ow.reset_search(pin)
Parameters
pin
1~12, I/O index
Returns
nil
ow.search()
Looks for the next device.
Syntax
ow.search(pin)
Parameters
pin
1~12, I/O index
Returns
rom_code
string with length of 8 upon success. It contains the rom code of slave device. Returns nil
if search was unsuccessful.
See also
ow.select()
Issues a 1-Wire rom select command. Make sure you do the ow.reset(pin)
first.
Syntax
ow.select(pin, rom)
Parameters
pin
1~12, I/O indexrom
string value, len 8, rom code of the salve device
Returns
nil
Example
-- 18b20 Example
pin = 9
ow.setup(pin)
count = 0
repeat
count = count + 1
addr = ow.reset_search(pin)
addr = ow.search(pin)
tmr.wdclr()
until (addr ~= nil) or (count > 100)
if addr == nil then
print("No more addresses.")
else
print(addr:byte(1,8))
crc = ow.crc8(string.sub(addr,1,7))
if crc == addr:byte(8) then
if (addr:byte(1) == 0x10) or (addr:byte(1) == 0x28) then
print("Device is a DS18S20 family device.")
repeat
ow.reset(pin)
ow.select(pin, addr)
ow.write(pin, 0x44, 1)
tmr.delay(1000000)
present = ow.reset(pin)
ow.select(pin, addr)
ow.write(pin,0xBE,1)
print("P="..present)
data = nil
data = string.char(ow.read(pin))
for i = 1, 8 do
data = data .. string.char(ow.read(pin))
end
print(data:byte(1,9))
crc = ow.crc8(string.sub(data,1,8))
print("CRC="..crc)
if crc == data:byte(9) then
t = (data:byte(1) + data:byte(2) * 256) * 625
t1 = t / 10000
t2 = t % 10000
print("Temperature="..t1.."."..t2.."Centigrade")
end
tmr.wdclr()
until false
else
print("Device family is not recognized.")
end
else
print("CRC is not valid!")
end
end
####See also ow.reset()
ow.setup()
Sets a pin in onewire mode.
Syntax
ow.setup(pin)
Parameters
pin
1~12, I/O index
Returns
nil
ow.skip()
Issues a 1-Wire rom skip command, to address all on bus.
Syntax
ow.skip(pin)
Parameters
pin
1~12, I/O index
Returns
nil
ow.target_search()
Sets up the search to find the device type family_code
. The search itself has to be initiated with a subsequent call to ow.search()
.
Syntax
ow.target_search(pin, family_code)
Parameters
pin
1~12, I/O indexfamily_code
byte for family code
Returns
nil
####See also ow.search()
ow.write()
Writes a byte. If power
is 1 then the wire is held high at the end for parasitically powered devices. You are responsible for eventually depowering it by calling ow.depower()
or doing another read or write.
Syntax
ow.write(pin, v, power)
Parameters
pin
1~12, I/O indexv
byte to be written to salve devicepower
1 for wire being held high for parasitically powered devices
Returns
nil
####See also ow.depower()
ow.write_bytes()
Writes multi bytes. If power
is 1 then the wire is held high at the end for parasitically powered devices. You are responsible for eventually depowering it by calling ow.depower()
or doing another read or write.
Syntax
ow.write_bytes(pin, buf, power)
Parameters
pin
1~12, IO indexbuf
string to be written to slave devicepower
1 for wire being held high for parasitically powered devices
Returns
nil
####See also ow.depower()