def main():
rct_lib.init(sys.argv)
clientsocket = rct_lib.connect_to_server()
if clientsocket is not None:
print("Battery Controller " + str(rct_lib.host))
Version = rct_lib.read(clientsocket, 0x1B39A3A3)
print("Hardware Version : " + str(Version))
Version = rct_lib.read(clientsocket, 0x9D785E8C)
print("Software Version : " + str(Version))
Ser = rct_lib.read(clientsocket, 0x16A1F844)
print("Serial Nr : " + str(Ser[74:88]))
Status = rct_lib.read(clientsocket, 0x70A2AF4F)
print("Status : " + str(Status))
cap = rct_lib.read(clientsocket, 0xB57B59BD)
print("Max.Lade/Entlade : " + str(cap) + ' A')
cyl = rct_lib.read(clientsocket, 0xC0DF2978)
print("Cycles : " + str(cyl))
Eff = int(rct_lib.read(clientsocket, 0xACF7666B) * 10000) / 100.0
print("Efficiency : " + str(Eff) + ' %')
Soh = rct_lib.read(clientsocket, 0x381B8BF9)
print("SoH : " + str(Soh))
SoC = int(rct_lib.read(clientsocket, 0x959930BF) * 10000) / 100
print("SoC : " + str(SoC) + ' %')
temp = int(rct_lib.read(clientsocket, 0x55DDF7BA) * 100) / 100.0
print("Max Cell Temp. : " + str(temp) + ' Grad')
ms1 = rct_lib.read(clientsocket, 0xFBF6D834)
if ms1[75] > ".":
print("Batt.Pack 1 : " + str(ms1[74:88]))
ms2 = rct_lib.read(clientsocket, 0x99396810)
if ms2[75] > ".":
print("Batt.Pack 2 : " + str(ms2[74:88]))
ms3 = rct_lib.read(clientsocket, 0x73489528)
if ms3[75] > ".":
print("Batt.Pack 3 : " + str(ms3[74:88]))
ms4 = rct_lib.read(clientsocket, 0x257B7612)
if ms4[75] > ".":
print("Batt.Pack 4 : " + str(ms4[74:88]))
ms5 = rct_lib.read(clientsocket, 0x4E699086)
if ms5[75] > ".":
print("Batt.Pack 5 : " + str(ms5[74:88]))
ms6 = rct_lib.read(clientsocket, 0x162491E8)
if ms6[75] > '.':
print("Batt.Pack 6 : " + str(ms6[74:88]))
Stat1 = rct_lib.read(clientsocket, 0x71765BD8)
print("Batt Status 1 : " + str(Stat1))
Stat2 = rct_lib.read(clientsocket, 0x0DE3D20D)
print("Batt Status 2 : " + str(Stat2))
Stor = (int(rct_lib.read(clientsocket, 0x5570401B)) / 1000.0)
print("Stored Energy : " + str(Stor) + ' Kwh')
Used = (int(rct_lib.read(clientsocket, 0xA9033880)) / 1000.0)
print("Used Energy : " + str(Used) + ' Kwh')
rct_lib.close(clientsocket)
def main():
rct_lib.init(sys.argv)
clientsocket = rct_lib.connect_to_server()
if clientsocket is not None:
# aktuell
pv1watt=int(rct_lib.read(clientsocket,0xB5317B78 ))
pv2watt=int(rct_lib.read(clientsocket,0xAA9AA253 ))
pv3watt=int(rct_lib.read(clientsocket,0xE96F1844 ))
rct_lib.dbglog("pvwatt A:"+ str(pv1watt) + " B:"+ str(pv2watt) + " G:"+ str(pv3watt) )
writeRam('pv1wattString1', int(pv1watt), 'pv1watt')
writeRam('pv1wattString2', int(pv2watt), 'pv2watt')
pvwatt = ( (pv1watt+pv2watt+pv3watt) * -1 )
writeRam('pvwatt', int(pvwatt), 'negative Summe von pv1watt + pv2watt + pv3watt')
#monthly
mA=int(rct_lib.read(clientsocket,0x81AE960B )) # energy.e_dc_month[0] WH
mB=int(rct_lib.read(clientsocket,0x7AB9B045 )) # energy.e_dc_month[1] WH
mE=int(rct_lib.read(clientsocket,0x031A6110 )) # energy.e_ext_month WH
monthly_pvkwhk = ( mA + mB + mE) / 1000.0 # -> KW
writeRam('monthly_pvkwhk', monthly_pvkwhk, 'monthly_pvkwhk')
#yearly
yA=int(rct_lib.read(clientsocket,0xAF64D0FE )) # energy.e_dc_total[0] WH
yB=int(rct_lib.read(clientsocket,0xBD55D796 )) # energy.e_dc_total[1] WH
yE=int(rct_lib.read(clientsocket,0xA59C8428 )) # energy.e_ext_total WH
yearly_pvkwhk = ( yA + yB + yE) / 1000.0 # -> KW
writeRam('yearly_pvkwhk', yearly_pvkwhk, 'yearly_pvkwhk')
# total
pv1total=int(rct_lib.read(clientsocket,0xFC724A9E )) # energy.e_dc_total[0]
pv2total=int(rct_lib.read(clientsocket,0x68EEFD3D )) # energy.e_dc_total[1]
pv3total=int(rct_lib.read(clientsocket,0xA59C8428 )) # energy.e_ext_total
rct_lib.dbglog("pvtotal A:"+ str(pv1total) + " B:"+ str(pv2total) + " G:"+ str(pv3total) )
pvkwh = (pv1total + pv2total + pv3total)
writeRam('pvkwh', pvkwh, 'Summe von pv1total pv1total pv1total')
#mqttvar["pv/CounterTillStartPvCharging"]=pvcounter
#mqttvar["pv/bool70PVDynStatus"]=nurpv70dynstatus
#mqttvar["pv/WhCounter"]=pvallwh
#mqttvar["pv/DailyYieldKwh"]=daily_pvkwhk
#mqttvar["pv/MonthlyYieldKwh"]=monthly_pvkwhk
#mqttvar["pv/YearlyYieldKwh"]=yearly_pvkwhk
#mqttvar["pv/1/W"]=pv1watt
#mqttvar["pv/1/WhCounter"]=pvkwh
#mqttvar["pv/1/DailyYieldKwh"]=daily_pvkwhk1
#mqttvar["pv/1/MonthlyYieldKwh"]=monthly_pvkwhk1
#mqttvar["pv/1/YearlyYieldKwh"]=yearly_pvkwhk1
#mqttvar["pv/2/W"]=pv2watt
#mqttvar["pv/2/WhCounter"]=pv2kwh
#mqttvar["pv/2/DailyYieldKwh"]=daily_pvkwhk2
#mqttvar["pv/2/MonthlyYieldKwh"]=monthly_pvkwhk2
#mqttvar["pv/2/YearlyYieldKwh"]=yearly_pvkwhk2
rct_lib.close(clientsocket)
sys.exit(0)
def main():
rct_lib.init(sys.argv)
clientsocket = rct_lib.connect_to_server()
if clientsocket is not None:
socx = rct_lib.read(clientsocket, 0x959930BF)
soc = int(socx * 100.0)
writeRam('speichersoc', soc, '0x959930BF battery.soc')
watt = int(rct_lib.read(clientsocket, 0x400F015B) * -1.0)
writeRam('speicherleistung', watt, '0x400F015B g_sync.p_acc_lp')
watt = int(rct_lib.read(clientsocket, 0x5570401B))
#rct_lib.dbglog("speicherikwh will be battery.stored_energy "+ str(watt))
writeRam('speicherikwh', watt, '0x5570401B battery.stored_energy')
watt = int(rct_lib.read(clientsocket, 0xA9033880))
#rct_lib.dbglog("speicherekwh will be battery.used_energy "+ str(watt))
writeRam('speicherekwh', watt, '#0xA9033880 battery.used_energy')
stat1 = int(rct_lib.read(clientsocket, 0x70A2AF4F))
rct_lib.dbglog("battery.bat_status " + str(stat1))
stat2 = int(rct_lib.read(clientsocket, 0x71765BD8))
rct_lib.dbglog("battery.status " + str(stat2))
stat3 = int(rct_lib.read(clientsocket, 0x0DE3D20D))
rct_lib.dbglog("battery.status2 " + str(stat3))
faultStr = ''
faultState = 0
if (stat1 + stat2 + stat3) > 0:
faultStr = "Battery ALARM Battery-Status nicht 0"
faultState = 2
# speicher in mqtt
os.system('mosquitto_pub -r -t openWB/housebattery/faultState -m "' +
str(faultState) + '"')
os.system('mosquitto_pub -r -t openWB/housebattery/faultStr -m "' +
str(faultStr) + '"')
socsoll = int(rct_lib.read(clientsocket, 0x8B9FF008) * 100.0)
os.system('mosquitto_pub -r -t openWB/housebattery/soctarget -m "' +
str(socsoll) + '"')
rct_lib.close(clientsocket)
sys.exit(0)
def main():
rct_lib.init(sys.argv)
clientsocket = rct_lib.connect_to_server()
if clientsocket is not None:
fmt = '#0x{:08X} {:' + str(
rct_lib.param_len) + '}' # {:'+str(rct_lib.desc_len)+'}:'
for obj in rct_lib.id_tab:
if rct_lib.search_id > 0 and obj.id != rct_lib.search_id:
# rct_lib.dbglog( obj.id, obj.name)
continue
if rct_lib.search_name is not None and fnmatch.fnmatch(
obj.name, rct_lib.search_name) is False:
continue
value = rct_lib.read(clientsocket, obj.id)
if rct_lib.dbglog(fmt.format(obj.id, obj.name), value) is False:
print(value)
rct_lib.close(clientsocket)
def main():
rct_lib.init(sys.argv)
clientsocket = rct_lib.connect_to_server()
if clientsocket is not None:
#
# read all values in one connection to rct
totalfeed=int(rct_lib.read(clientsocket,0x44D4C533 )*-1.0)
#rct_lib.dbglog("einspeisungkwh is "+ str(totalfeed))
writeRam('einspeisungkwh', totalfeed, '0x44D4C533 energy.e_grid_feed_total')
totalload=int(rct_lib.read(clientsocket,0x62FBE7DC ))
#rct_lib.dbglog("bezugkwh is "+ str(totalload))
writeRam('bezugkwh', totalload, '#0x62FBE7DC energy.e_grid_load_total')
value = rct_lib.read(clientsocket, 0x6002891F )
writeRam('wattbezug', int(value )*1 , '#0x6002891F g_sync.p_ac_sc_sum')
volt1=int(rct_lib.read(clientsocket,0xCF053085 ))
volt1=int(volt1 * 10) / 10.0
#rct_lib.dbglog("volt1 is "+ str(volt1))
writeRam('evuv1', volt1, '0xCF053085 g_sync.u_l_rms[0] ')
volt2=int(rct_lib.read(clientsocket,0x54B4684E ))
volt2=int(volt2 * 10) / 10.0
#rct_lib.dbglog("volt2 is "+ str(volt2))
writeRam('evuv2', volt2, '0x54B4684E g_sync.u_l_rms[1] ')
volt3=int(rct_lib.read(clientsocket,0x2545E22D ))
volt3=int(volt3 * 10) / 10.0
#rct_lib.dbglog("volt3 is "+ str(volt3))
writeRam('evuv3', volt3, '0x2545E22D g_sync.u_l_rms[2] ')
watt=int(rct_lib.read(clientsocket,0x27BE51D9 ))
writeRam('bezugw1', watt , '0x27BE51D9 als Watt g_sync.p_ac_sc[0]')
ampere=int( watt / volt1 * 10.0) / 10.0
writeRam('bezuga1', ampere, '0x27BE51D9 als Ampere g_sync.p_ac_sc[0]')
watt=int(rct_lib.read(clientsocket,0xF5584F90 ))
writeRam('bezugw2', watt , '0xF5584F90 als Watt g_sync.p_ac_sc[1]')
ampere=int( watt / volt2 * 10.0) / 10.0
writeRam('bezuga2', ampere, '0xF5584F90 als Ampere g_sync.p_ac_sc[1]')
watt=int(rct_lib.read(clientsocket,0xB221BCFA ))
writeRam('bezugw3', watt , '0xB221BCFA als Watt g_sync.p_ac_sc[2]')
ampere=int( watt / volt3 * 10.0) / 10.0
writeRam('bezuga3', ampere, '0xF5584F90 als Ampere g_sync.p_ac_sc[2]')
freq=rct_lib.read(clientsocket,0x1C4A665F )
freq=int(freq * 100) / 100.0
#rct_lib.dbglog("freq is "+ str(freq))
writeRam('evuhz', freq, '0x1C4A665F grid_pll[0].f')
writeRam('llhz', freq, '0x1C4A665F grid_pll[0].f')
stat1 = int(rct_lib.read(clientsocket,0x37F9D5CA ))
rct_lib.dbglog("status1 "+ str(stat1))
stat2 = int(rct_lib.read(clientsocket,0x234B4736 ))
rct_lib.dbglog("status2 "+ str(stat2))
stat3 = int(rct_lib.read(clientsocket,0x3B7FCD47 ))
rct_lib.dbglog("status3 "+ str(stat3))
stat4 = int(rct_lib.read(clientsocket,0x7F813D73 ))
rct_lib.dbglog("status4 "+ str(stat4))
faultStr=''
faultState=0
if ( stat1 + stat2 + stat3 + stat4) > 0:
faultStr = "ALARM EVU Status nicht 0"
faultState=2
# speicher in mqtt
os.system('mosquitto_pub -r -t openWB/evu/faultState -m "' + str(faultState) +'"')
os.system('mosquitto_pub -r -t openWB/evu/faultStr -m "' + str(faultStr) +'"')
rct_lib.close(clientsocket)
sys.exit(0)
def main():
rct_lib.init(sys.argv)
clientsocket = rct_lib.connect_to_server()
if clientsocket is not None:
print("Battery Controler " + str(rct_lib.host))
Version = rct_lib.read(clientsocket, 0x1B39A3A3)
print("Hardware Version : " + str(Version))
Version = rct_lib.read(clientsocket, 0x9D785E8C)
print("Software Version : " + str(Version))
Ser = rct_lib.read(clientsocket, 0x16A1F844)
print("Serial Nr : " + str(Ser[74:88]))
Status = rct_lib.read(clientsocket, 0x70A2AF4F)
print("Status : " + str(Status))
cap = rct_lib.read(clientsocket, 0xB57B59BD)
print("Max.Lade/Enlade : " + str(cap) + ' A')
cyl = rct_lib.read(clientsocket, 0xC0DF2978)
print("Cycles : " + str(cyl))
Eff = int(rct_lib.read(clientsocket, 0xACF7666B) * 10000) / 100.0
print("Efficency : " + str(Eff) + ' %')
Soh = rct_lib.read(clientsocket, 0x381B8BF9)
print("SoH : " + str(Soh))
SoC = int(rct_lib.read(clientsocket, 0x959930BF) * 10000) / 100
print("SoC : " + str(SoC) + ' %')
temp = int(rct_lib.read(clientsocket, 0x55DDF7BA) * 100) / 100.0
print("Max Cell Temp. : " + str(temp) + ' Grad')
ms1 = rct_lib.read(clientsocket, 0xFBF6D834)
if ms1[75] > ".":
print("Batt.Pack 1 : " + str(ms1[74:88]))
ms2 = rct_lib.read(clientsocket, 0x99396810)
if ms2[75] > ".":
print("Batt.Pack 2 : " + str(ms2[74:88]))
ms3 = rct_lib.read(clientsocket, 0x73489528)
if ms3[75] > ".":
print("Batt.Pack 3 : " + str(ms3[74:88]))
ms4 = rct_lib.read(clientsocket, 0x257B7612)
if ms4[75] > ".":
print("Batt.Pack 4 : " + str(ms4[74:88]))
ms5 = rct_lib.read(clientsocket, 0x4E699086)
if ms5[75] > ".":
print("Batt.Pack 5 : " + str(ms5[74:88]))
ms6 = rct_lib.read(clientsocket, 0x162491E8)
if ms6[75] > '.':
print("Batt.Pack 6 : " + str(ms6[74:88]))
Stat1 = rct_lib.read(clientsocket, 0x71765BD8)
print("Batt Status 1 : " + str(Stat1))
Stat2 = rct_lib.read(clientsocket, 0x0DE3D20D)
print("Batt Status 2 : " + str(Stat2))
Stor = (int(rct_lib.read(clientsocket, 0x5570401B)) / 1000.0)
print("Stored Energy : " + str(Stor) + ' Kwh')
Used = (int(rct_lib.read(clientsocket, 0xA9033880)) / 1000.0)
print("Used Energy : " + str(Used) + ' Kwh')
#0x902AFAFB battery.temperature 22.8020839691
#0x65EED11B battery.voltage 319.721984863
#0x4B51A539 battery.prog_sn 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
#0x8B9FF008 battery.soc_target 0.97000002861
#0xB84A38AB battery.soc_target_high 0.97000002861
#0xA616B022 battery.soc_target_low 0.97000002861
#0x4E04DD55 battery.soc_update_since 0.188000202179
#0xA6C4FD4A battery.stack_cycles[0] 8
#0x0CFA8BC4 battery.stack_cycles[1] 8
#0x5BA122A5 battery.stack_cycles[2] 8
#0x89B25F4B battery.stack_cycles[3] 8
#0x5A9EEFF0 battery.stack_cycles[4] 0
#0x2A30A97E battery.stack_cycles[5] 0
#0x27C39CEA battery.stack_cycles[6] 0
#0x6388556C battery.stack_software_version[0] 5185
#0xA54C4685 battery.stack_software_version[1] 5185
#0xC8BA1729 battery.stack_software_version[2] 5185
#0x086C75B0 battery.stack_software_version[3] 5185
#0xA40906BF battery.stack_software_version[4] 0
#0xEEA3F59B battery.stack_software_version[5] 0
#0x6974798A battery.stack_software_version[6] 0
rct_lib.close(clientsocket)
sys.exit(0)