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Copy pathbattery15cellBMSPIP.cfg
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battery15cellBMSPIP.cfg
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[files]
logfile = '/home/pi/data/log'
# errfile is location and name of error log
errfile = 'data/errorlog'
summaryfile = '/home/pi/data/summary'
errfile = '/home/pi/data/baterrlog'
alarmfile = '/home/pi/data/alarmlog'
hoursummaryfile = '/home/pi/data/hoursummary'
daysummaryfile = '/home/pi/data/daysummary'
monthsummaryfile = '/home/pi/data/monthsummary'
yearsummaryfile = '/home/pi/data/yearsummary'
[logging]
data = "self.printtime+batdata.vbat+batdata.vdelta \
+batdata.iall+batdata.soctxt+batdata.socadjtxt+str(batdata.pip.rawdat)"
[battery]
name = 'Mikes'
numcells = 15
capacity = 220
overvoltage = 3.600
undervoltage = 2.900
ahloss = 0.10500000000000001
vreset = 51.5 # voltage to reset DOD counter
ireset = 5.0 # current to reset DOD counter
ilowcurrent = 10.0 # C/20 lowcurrent voltage logging current
[Interfaces]
pip = 'pip(92931710100542)' # number in brackets is SN of PIP)
bms = 'bms(LH-SP15S001-P15S-30A)' # string in brackets is harware name, from read command 05
pi = 'pi' # add raspberry pi
[VoltageInputs]
v01 = 'self.bms.rawdat["V01"]'
v02 = 'self.bms.rawdat["V02"]'
v03 = 'self.bms.rawdat["V03"]'
v04 = 'self.bms.rawdat["V04"]'
v05 = 'self.bms.rawdat["V05"]'
v06 = 'self.bms.rawdat["V06"]'
v07 = 'self.bms.rawdat["V07"]'
v08 = 'self.bms.rawdat["V08"]'
v09 = 'self.bms.rawdat["V09"]'
v10 = 'self.bms.rawdat["V10"]'
v11 = 'self.bms.rawdat["V11"]'
v12 = 'self.bms.rawdat["V12"]'
v13 = 'self.bms.rawdat["V13"]'
v14 = 'self.bms.rawdat["V14"]'
v15 = 'self.bms.rawdat["V15"]'
vbat = 'self.bms.rawdat["V15"]'
[CurrentInputs]
iin1 = 'self.bms.rawdat["Ibat"]'
iin2 = 'self.pip.rawdat["PVI"]'
iin3 = 'self.current[0]-self.current[1]'
[TemperatureInputs]
tin1='self.bms.rawdat["T1"]'
tin2='self.bms.rawdat["T2"]'
[BalanceFlags]
balf01 = 'self.bms.rawdat["Bal"] & 1'
balf02 = 'self.bms.rawdat["Bal"] >> 1 & 1'
balf03 = 'self.bms.rawdat["Bal"] >> 2 & 1'
balf04 = 'self.bms.rawdat["Bal"] >> 3 & 1'
balf05 = 'self.bms.rawdat["Bal"] >> 4 & 1'
balf06 = 'self.bms.rawdat["Bal"] >> 5 & 1'
balf07 = 'self.bms.rawdat["Bal"] >> 6 & 1'
balf08 = 'self.bms.rawdat["Bal"] >> 7 & 1'
balf09 = 'self.bms.rawdat["Bal"] >> 8 & 1'
balf10 = 'self.bms.rawdat["Bal"] >> 9 & 1'
balf11 = 'self.bms.rawdat["Bal"] >> 10 & 1'
balf12 = 'self.bms.rawdat["Bal"] >> 11 & 1'
balf13 = 'self.bms.rawdat["Bal"] >> 12 & 1'
balf14 = 'self.bms.rawdat["Bal"] >> 13 & 1'
balf15 = 'self.bms.rawdat["Bal"] >> 14 & 1'
[Status]
chargestate = "self.pip.rawdat['ChgStat']"
[sampling]
sampletime = 10
samplesav = 1
[calibrate]
currentgain = [-0.01, -1.2, 1.0]
currentoffset = [-0.2, -0.3, 0.0]
batvgain = 1
measured = [0.0, 3.0, 6.0, 9.0, 12.0, 15.0, 18.0, 21.0, 24.0, 27.0, 30.0, 33.0, 36.0, 39.0, 42.0, 45.0, 45.0]
displayed = [0.0, 3.0, 6.0, 9.0, 12.0, 15.0, 18.0, 21.0, 24.0, 27.0, 30.0, 33.0, 36.0, 39.0, 42.0, 45.0, 45.0]
measureddelta = [ 0.0, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000]
displayeddelta = [ 0.0, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000, 3.000]
delta = [0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0]
[alarms]
# each alarm has five attributes, the first is the alarm initialisation code
# if the second attribute test is true and the alarm has not been triggered
# the third attribute will be executed
# if the fourth attribute is true and the alarm has been triggered
# the fith attribute will be executed
overv = ['batdata.pip.setparamnoerror("PCVV51.8")', \
'self.test=batdata.maxcellv>3.60', \
'batdata.pip.setparamnoerror("PCVV50.2")', \
'self.test=batdata.maxcellv<3.40', \
'batdata.pip.setparamnoerror("PCVV51.8")']
underv = ['batdata.pip.setparamnoerror("PSDV45.0")', \
'self.test=batdata.mincellv<2.90', \
'batdata.pip.setparamnoerror("PSDV48.0")', \
'self.test=batdata.mincellv>3.20', \
'batdata.pip.setparamnoerror("PSDV45.0")']
#swapinverter = ['batdata.pi.gpio.setup(7, batdata.pi.gpio.OUT, initial = 1) \nbatdata.pi.gpio.setup(11, batdata.pi.gpio.OUT, initial = 0)', \
# 'self.test=localtime().tm_hour==18', \
# 'batdata.pi.swapinverter(on=7,off=11)', \
# 'self.test=localtime().tm_hour==6', \
# 'batdata.pi.swapinverter(on=11,off=7)']
# float, gets around premature float bug with PIP inverters
#float = ['batdata.pip.setparamnoerror("PBFT55.2")', \
# 'self.test=batdata.batvoltsav[16]>55.1 and batdata.currentav[0]>-3.6', \
# 'batdata.pip.setparamnoerror("PBFT53.6")', \
# 'self.test=localtime().tm_hour==0', \
# 'batdata.pip.setparamnoerror("PBFT55.2")']
# makes charge voltage high enough to reset SOC counter on Monday
#resetSOC = ['batdata.pip.setparamnoerror("PCVV55.3")', \
# 'self.test=localtime().tm_wday==0', \
# 'batdata.pip.setparamnoerror("PCVV55.2")', \
# 'self.test=summary["current"]["dod"][-1]==0', \
# 'batdata.pip.setparamnoerror("PCVV55.3")']