nodemcu-firmware/lua_modules/lm92/lm92.lua

197 lines
5.1 KiB
Lua

-- ******************************************************
-- LM92 module for ESP8266 with nodeMCU
--
-- Written by Levente Tamas <levente.tamas@navicron.com>
--
-- modify by Garberoglio Leonardo <leogarberoglio@gmail.com>
--
-- GNU LGPL, see https://www.gnu.org/copyleft/lesser.html
-- ******************************************************
-- Module Bits
local moduleName = ...
local M = {}
_G[moduleName] = M
-- Default ID
local id = 0
-- Local vars
local address = 0
-- read regs for len number of bytes
-- return table with data
local function read_reg(reg_addr, len)
local ret={}
local c
local x
i2c.start(id)
i2c.address(id, address ,i2c.TRANSMITTER)
i2c.write(id,reg_addr)
i2c.stop(id)
i2c.start(id)
i2c.address(id, address,i2c.RECEIVER)
c=i2c.read(id,len)
for x=1,len,1 do
tc=string.byte(c,x)
table.insert(ret,tc)
end
i2c.stop(id)
return ret
end
--write reg with data table
local function write_reg(reg_addr, data)
i2c.start(id)
i2c.address(id, address, i2c.TRANSMITTER)
i2c.write(id, reg_addr)
i2c.write(id, data)
i2c.stop(id)
end
--write comparison reg with 2 bytes
local function write_comp_reg(reg_addr, msb, lsb)
i2c.start(id)
i2c.address(id, address, i2c.TRANSMITTER)
i2c.write(id, reg_addr)
i2c.write(id, msb)
i2c.write(id, lsb)
i2c.stop(id)
end
-- initialize i2c
-- d: sda
-- c: scl
-- a: i2c addr 0x48|A1<<1|A0 (A0-A1: chip pins)
function M.init(d,c,a)
if (d ~= nil) and (c ~= nil) and (d >= 0) and (d <= 11) and (c >= 0) and ( c <= 11) and (d ~= l) and (a ~= nil) and (a >= 0x48) and (a <= 0x4b ) then
sda = d
scl = c
address = a
i2c.start(id)
res = i2c.address(id, address, i2c.TRANSMITTER) --verify that the address is valid
i2c.stop(id)
if (res == false) then
print("device not found")
return nil
end
else
print("i2c configuration failed") return nil
end
i2c.setup(id,sda,scl,i2c.SLOW)
end
-- Return the temperature data
function M.getTemperature()
local temperature
local tmp=read_reg(0x00,2) --read 2 bytes from the temperature register
temperature=bit.rshift(tmp[1]*256+tmp[2],3) --lower 3 bits are status bits
if (temperature>=0x1000) then
temperature= temperature-0x2000 --convert the two's complement
end
return temperature * 0.0625
end
-- Put the LM92 into shutdown mode
function M.shutdown()
write_reg(0x01,0x01)
end
-- Bring the LM92 out of shutdown mode
function M.wakeup()
write_reg(0x01,0x00)
end
-- Write the LM92 Thyst SET POINT
function M.setThyst(data_wr)
local tmp = data_wr / 0.0625
if (tmp>=0x1000) then
tmp= tmp-0x2000 --convert the two's complement
end
tmp = bit.lshift(tmp,3)
local lsb = bit.band(tmp, 0x00FF)
tmp = bit.rshift(bit.band(tmp, 0xFF00),8)
write_comp_reg(0x02,tmp, lsb)
end
-- Write the LM92 T_crit SET POINT
function M.setTcrit(data_wr)
local tmp = data_wr / 0.0625
if (tmp>=0x1000) then
tmp= tmp-0x2000 --convert the two's complement
end
tmp = bit.lshift(tmp,3)
local lsb = bit.band(tmp, 0x00FF)
tmp = bit.rshift(bit.band(tmp, 0xFF00),8)
write_comp_reg(0x03,tmp, lsb)
end
-- Write the LM92 Tlow SET POINT
function M.setTlow(data_wr)
local tmp = data_wr / 0.0625
if (tmp>=0x1000) then
tmp= tmp-0x2000 --convert the two's complement
end
tmp = bit.lshift(tmp,3)
local lsb = bit.band(tmp, 0x00FF)
tmp = bit.rshift(bit.band(tmp, 0xFF00),8)
write_comp_reg(0x04,tmp, lsb)
end
-- Write the LM92 T_high SET POINT
function M.setThigh(data_wr)
local tmp = data_wr / 0.0625
if (tmp>=0x1000) then
tmp= tmp-0x2000 --convert the two's complement
end
tmp = bit.lshift(tmp,3)
local lsb = bit.band(tmp, 0x00FF)
tmp = bit.rshift(bit.band(tmp, 0xFF00),8)
write_comp_reg(0x05,tmp, lsb)
end
-- Read the LM92 Thyst SET POINT
function M.getThyst()
local temperature
local tmp=read_reg(0x02,2) --read 2 bytes from the Hysteresis register
temperature=bit.rshift(tmp[1]*256+tmp[2],3) --lower 3 bits are status bits
if (temperature>=0x1000) then
temperature= temperature-0x2000 --convert the two's complement
end
return temperature * 0.0625
end
-- Read the LM92 T_crit SET POINT
function M.getTcrit()
local temperature
local tmp=read_reg(0x03,2) --read 2 bytes from the T Critical register
temperature=bit.rshift(tmp[1]*256+tmp[2],3) --lower 3 bits are status bits
if (temperature>=0x1000) then
temperature= temperature-0x2000 --convert the two's complement
end
return temperature * 0.0625
end
-- Read the LM92 Tlow SET POINT
function M.getTlow()
local temperature
local tmp=read_reg(0x04,2) --read 2 bytes from the T Low register
temperature=bit.rshift(tmp[1]*256+tmp[2],3) --lower 3 bits are status bits
if (temperature>=0x1000) then
temperature= temperature-0x2000 --convert the two's complement
end
return temperature * 0.0625
end
-- Read the LM92 T_high SET POINT
function M.getThigh()
local temperature
local tmp=read_reg(0x05,2) --read 2 bytes from the T High register
temperature=bit.rshift(tmp[1]*256+tmp[2],3) --lower 3 bits are status bits
if (temperature>=0x1000) then
temperature= temperature-0x2000 --convert the two's complement
end
return temperature * 0.0625
end
return M