Megasquirt CAN: Difference between revisions
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(→Megasquirt Wiring: corrected wiring) |
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CAN bus connections available on MS3-Pro white connector: | CAN bus connections available on MS3-Pro white connector: | ||
* CAN High: Pin | * CAN High: Pin 34 | ||
* CAN Low : Pin | * CAN Low : Pin 33 | ||
==Photos== | ==Photos== | ||
Revision as of 19:20, 4 February 2016
Megasquirt Dashboard CAN broadcast
This CAN script enables integration with the simplified dashboard mode CAN stream. Refer to the Megasquirt documentation for enabling Dashboard mode CAN broadcast.
Channels enabled:
- Engine RPM (RPM)
- Throttle Position (TPS)
- Coolant Temperature (Coolant)
- Manifold Absolute Pressure (MAP)
- Air/Fuel Ratio (AFR)
Additional channels can be enabled by expanding the script.
CAN Database
CAN Bus database for Megasquirt
Megasquirt Wiring
CAN bus connections available on MS3-Pro white connector:
- CAN High: Pin 34
- CAN Low : Pin 33
Photos
--This example configured for Megasquirt Dashboard Mode
--how frequently we poll for CAN messages
tickRate = 30
--the CAN baud rate
CAN_baud = 500000
--CAN channel to listen on. 0=first CAN channel, 1=second
CAN_chan = 0
--1 for Big Endian (MSB) mode; 0 for Little Endian mode (LSB)
be_mode = 1
--add your virtual channels here
--addChannel(<name>, <sample rate>, [logging precision], [min], [max], [units label])
rpmId = addChannel("RPM", 10, 0, 0, 10000)
tpsId = addChannel("TPS", 10, 0, 0, 100, "%")
mapId = addChannel("MAP", 10, 0, 0, 250, "kPa")
cltId = addChannel("Coolant", 1, 0, 0, 200, "F")
afrId = addChannel("AFR", 10, 1, 0, 20)
--customize here for CAN channel mapping
--format is: [CAN Id] = function(data) map_chan(<channel id>, data, <CAN offset>, <CAN length>, <multiplier>, <adder>)
CAN_map = {
[1512] = function(data) map_chan(mapId, data, 0, 2, 0.1, 0) map_chan(rpmId, data, 2, 2, 1, 0) map_chan(cltId, data, 4, 2, 0.1, 0) map_chan(tpsId, data, 6, 2, 0.1, 0) end,
[1514] = function(data) map_chan(afrId, data, 1, 1, 0.1, 0) end
}
function onTick()
processCAN(CAN_chan)
end
--===========do not edit below===========
function processCAN(chan)
repeat
local id, e, data = rxCAN(chan)
if id ~= nil then
local map = CAN_map[id]
if map ~= nil then
map(data)
end
end
until id == nil
end
--Map CAN channel, little endian format
function map_chan_le(cid, data, offset, len, mult, add)
offset = offset + 1
local value = 0
local shift = 1
while len > 0 do
value = value + (data[offset] * shift)
shift = shift * 256
offset = offset + 1
len = len - 1
end
setChannel(cid, (value * mult) + add)
end
--Map CAN channel, big endian format
function map_chan_be(cid, data, offset, len, mult, add)
offset = offset + 1
local value = 0
while len > 0 do
value = (value * 256) + data[offset]
offset = offset + 1
len = len - 1
end
setChannel(cid, (value * mult) + add)
end
map_chan = (be_mode == 1) and map_chan_be or map_chan_le
initCAN(CAN_chan, CAN_baud)
setTickRate(tickRate)
