############################################## # 00_THZ # $Id$ # by immi 05/2014 my $thzversion = "0.105"; # this code is based on the hard work of Robert; I just tried to port it # http://robert.penz.name/heat-pump-lwz/ # http://heatpumpmonitor.penz.name/heatpumpmonitorwiki/ ######################################################################################## # # This programm is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # The GNU General Public License can be found at # http://www.gnu.org/copyleft/gpl.html. # A copy is found in the textfile GPL.txt and important notices to the license # from the author is found in LICENSE.txt distributed with these scripts. # # This script is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # ######################################################################################## package main; use strict; use warnings; use Time::HiRes qw(gettimeofday); use feature ":5.10"; use SetExtensions; sub THZ_Read($); sub THZ_ReadAnswer($); sub THZ_Ready($); sub THZ_Write($$); sub THZ_Parse($$); #sub THZ_Parse1($); sub THZ_checksum($); sub THZ_replacebytes($$$); sub THZ_decode($); sub THZ_overwritechecksum($); sub THZ_encodecommand($$); sub hex2int($); sub quaters2time($); sub time2quaters($); sub THZ_debugread($); sub THZ_GetRefresh($); sub THZ_Refresh_all_gets($); sub THZ_Get_Comunication($$); sub THZ_PrintcurveSVG; sub THZ_RemoveInternalTimer($); #new by Jakob sub mysubstr($$$$); ######################################################################################## # # %sets - all supported protocols are listed 59E # ######################################################################################## my %sets = ( "pOpMode" => {cmd2=>"0A0112" }, # 1 Standby bereitschaft; 11 in Automatic; 3 DAYmode; SetbackMode; DHWmode; Manual; Emergency "p01RoomTempDayHC1" => {cmd2=>"0B0005", argMin => "13", argMax => "28" }, "p02RoomTempNightHC1" => {cmd2=>"0B0008", argMin => "13", argMax => "28" }, "p03RoomTempStandbyHC1" => {cmd2=>"0B013D", argMin => "13", argMax => "28" }, "p01RoomTempDayHC1SummerMode" => {cmd2=>"0B0569", argMin => "13", argMax => "28" }, "p02RoomTempNightHC1SummerMode" => {cmd2=>"0B056B", argMin => "13", argMax => "28" }, "p03RoomTempStandbyHC1SummerMode" => {cmd2=>"0B056A", argMin => "13", argMax => "28" }, "p13GradientHC1" => {cmd2=>"0B010E", argMin => "0", argMax => "5" }, # 0..5 rappresentato/100 "p14LowEndHC1" => {cmd2=>"0B059E", argMin => "0", argMax => "20" }, #in °K 0..20°K rappresentato/10 "p15RoomInfluenceHC1" => {cmd2=>"0B010F", argMin => "0", argMax => "100" }, "p19FlowProportionHC1" => {cmd2=>"0B059D", argMin => "0", argMax => "100" }, #in % 0..100% "p01RoomTempDayHC2" => {cmd2=>"0C0005", argMin => "13", argMax => "28" }, "p02RoomTempNightHC2" => {cmd2=>"0C0008", argMin => "13", argMax => "28" }, "p03RoomTempStandbyHC2" => {cmd2=>"0C013D", argMin => "13", argMax => "28" }, "p01RoomTempDayHC2SummerMode" => {cmd2=>"0C0569", argMin => "13", argMax => "28" }, "p02RoomTempNightHC2SummerMode" => {cmd2=>"0C056B", argMin => "13", argMax => "28" }, "p03RoomTempStandbyHC2SummerMode" => {cmd2=>"0C056A", argMin => "13", argMax => "28" }, "p16GradientHC2" => {cmd2=>"0C010E", argMin => "0", argMax => "5" }, # /100 "p17LowEndHC2" => {cmd2=>"0C059E", argMin => "0", argMax => "20" }, "p18RoomInfluenceHC2" => {cmd2=>"0C010F", argMin => "0", argMax => "100" }, "p04DHWsetDay" => {cmd2=>"0A0013", argMin => "13", argMax => "49" }, "p05DHWsetNight" => {cmd2=>"0A05BF", argMin => "13", argMax => "49" }, "p83DHWsetSolarTemp" => {cmd2=>"0A05BE", argMin => "13", argMax => "75" }, "p06DHWsetStandby" => {cmd2=>"0A0581", argMin => "13", argMax => "49" }, "p11DHWsetManual" => {cmd2=>"0A0580", argMin => "13", argMax => "54" }, "p07FanStageDay" => {cmd2=>"0A056C", argMin => "0", argMax => "3" }, "p08FanStageNight" => {cmd2=>"0A056D", argMin => "0", argMax => "3" }, "p09FanStageStandby" => {cmd2=>"0A056F", argMin => "0", argMax => "3" }, "p99FanStageParty" => {cmd2=>"0A0570", argMin => "0", argMax => "3" }, "p75passiveCooling" => {cmd2=>"0A0575", argMin => "0", argMax => "2" }, "p33BoosterTimeoutDHW" => {cmd2=>"0A0588", argMin => "0", argMax => "200" }, #during DHW heating "p79BoosterTimeoutHC" => {cmd2=>"0A05A0", argMin => "0", argMax => "60" }, #delayed enabling of booster heater "p46UnschedVent0" => {cmd2=>"0A0571", argMin => "0", argMax => "900"}, #in min "p45UnschedVent1" => {cmd2=>"0A0572", argMin => "0", argMax => "900"}, #in min "p44UnschedVent2" => {cmd2=>"0A0573", argMin => "0", argMax => "900"}, #in min "p43UnschedVent3" => {cmd2=>"0A0574", argMin => "0", argMax => "900"}, #in min "p37Fanstage1AirflowInlet" => {cmd2=>"0A0576", argMin => "50", argMax => "300"}, #zuluft "p38Fanstage2AirflowInlet" => {cmd2=>"0A0577", argMin => "50", argMax => "300" }, #zuluft "p39Fanstage3AirflowInlet" => {cmd2=>"0A0578", argMin => "50", argMax => "300" }, #zuluft "p40Fanstage1AirflowOutlet" => {cmd2=>"0A0579", argMin => "50", argMax => "300" }, #abluft extrated "p41Fanstage2AirflowOutlet" => {cmd2=>"0A057A", argMin => "50", argMax => "300" }, #abluft extrated "p42Fanstage3AirflowOutlet" => {cmd2=>"0A057B", argMin => "50", argMax => "300" }, #abluft extrated "p49SummerModeTemp" => {cmd2=>"0A0116", argMin => "11", argMax => "24" }, #threshold for summer mode !! "p50SummerModeHysteresis" => {cmd2=>"0A05A2", argMin => "0.5", argMax => "5" }, #Hysteresis for summer mode !! "p78DualModePoint" => {cmd2=>"0A01AC", argMin => "-10", argMax => "20" }, "p54MinPumpCycles" => {cmd2=>"0A05B8", argMin => "1", argMax => "24" }, "p55MaxPumpCycles" => {cmd2=>"0A05B7", argMin => "25", argMax => "200" }, "p56OutTempMaxPumpCycles" => {cmd2=>"0A05BA", argMin => "0", argMax => "25" }, "p57OutTempMinPumpCycles" => {cmd2=>"0A05B9", argMin => "0", argMax => "25" }, "pHolidayBeginDay" => {cmd2=>"0A011B", argMin => "1", argMax => "31" }, "pHolidayBeginMonth" => {cmd2=>"0A011C", argMin => "1", argMax => "12" }, "pHolidayBeginYear" => {cmd2=>"0A011D", argMin => "12", argMax => "20" }, "pHolidayBeginTime" => {cmd2=>"0A05D3", argMin => "00:00", argMax => "23:59"}, "pHolidayEndDay" => {cmd2=>"0A011E", argMin => "1", argMax => "31" }, "pHolidayEndMonth" => {cmd2=>"0A011F", argMin => "1", argMax => "12" }, "pHolidayEndYear" => {cmd2=>"0A0120", argMin => "12", argMax => "20" }, "pHolidayEndTime" => {cmd2=>"0A05D4", argMin => "00:00", argMax => "23:59"}, # the answer look like 0A05D4-0D0A05D40029 for year 41 which is 10:15 #"party-time" => {cmd2=>"0A05D1", argMin => "00:00", argMax => "23:59"}, # value 1Ch 28dec is 7 ; value 1Eh 30dec is 7:30 "programHC1_Mo_0" => {cmd2=>"0B1410", argMin => "00:00", argMax => "23:59"}, #1 is monday 0 is first prog; start and end; value 1Ch 28dec is 7 ; value 1Eh 30dec is 7:30 "programHC1_Mo_1" => {cmd2=>"0B1411", argMin => "00:00", argMax => "23:59"}, "programHC1_Mo_2" => {cmd2=>"0B1412", argMin => "00:00", argMax => "23:59"}, "programHC1_Tu_0" => {cmd2=>"0B1420", argMin => "00:00", argMax => "23:59"}, "programHC1_Tu_1" => {cmd2=>"0B1421", argMin => "00:00", argMax => "23:59"}, "programHC1_Tu_2" => {cmd2=>"0B1422", argMin => "00:00", argMax => "23:59"}, "programHC1_We_0" => {cmd2=>"0B1430", argMin => "00:00", argMax => "23:59"}, "programHC1_We_1" => {cmd2=>"0B1431", argMin => "00:00", argMax => "23:59"}, "programHC1_We_2" => {cmd2=>"0B1432", argMin => "00:00", argMax => "23:59"}, "programHC1_Th_0" => {cmd2=>"0B1440", argMin => "00:00", argMax => "23:59"}, "programHC1_Th_1" => {cmd2=>"0B1441", argMin => "00:00", argMax => "23:59"}, "programHC1_Th_2" => {cmd2=>"0B1442", argMin => "00:00", argMax => "23:59"}, "programHC1_Fr_0" => {cmd2=>"0B1450", argMin => "00:00", argMax => "23:59"}, "programHC1_Fr_1" => {cmd2=>"0B1451", argMin => "00:00", argMax => "23:59"}, "programHC1_Fr_2" => {cmd2=>"0B1452", argMin => "00:00", argMax => "23:59"}, "programHC1_Sa_0" => {cmd2=>"0B1460", argMin => "00:00", argMax => "23:59"}, "programHC1_Sa_1" => {cmd2=>"0B1461", argMin => "00:00", argMax => "23:59"}, "programHC1_Sa_2" => {cmd2=>"0B1462", argMin => "00:00", argMax => "23:59"}, "programHC1_So_0" => {cmd2=>"0B1470", argMin => "00:00", argMax => "23:59"}, "programHC1_So_1" => {cmd2=>"0B1471", argMin => "00:00", argMax => "23:59"}, "programHC1_So_2" => {cmd2=>"0B1472", argMin => "00:00", argMax => "23:59"}, "programHC1_Mo-Fr_0" => {cmd2=>"0B1480", argMin => "00:00", argMax => "23:59"}, "programHC1_Mo-Fr_1" => {cmd2=>"0B1481", argMin => "00:00", argMax => "23:59"}, "programHC1_Mo-Fr_3" => {cmd2=>"0B1482", argMin => "00:00", argMax => "23:59"}, "programHC1_Sa-So_0" => {cmd2=>"0B1490", argMin => "00:00", argMax => "23:59"}, "programHC1_Sa-So_1" => {cmd2=>"0B1491", argMin => "00:00", argMax => "23:59"}, "programHC1_Sa-So_3" => {cmd2=>"0B1492", argMin => "00:00", argMax => "23:59"}, "programHC1_Mo-So_0" => {cmd2=>"0B14A0", argMin => "00:00", argMax => "23:59"}, "programHC1_Mo-So_1" => {cmd2=>"0B14A1", argMin => "00:00", argMax => "23:59"}, "programHC1_Mo-So_3" => {cmd2=>"0B14A2", argMin => "00:00", argMax => "23:59"}, "programHC2_Mo_0" => {cmd2=>"0C1510", argMin => "00:00", argMax => "23:59"}, #1 is monday 0 is first prog; start and end; value 1Ch 28dec is 7 ; value 1Eh 30dec is 7:30 "programHC2_Mo_1" => {cmd2=>"0C1511", argMin => "00:00", argMax => "23:59"}, "programHC2_Mo_2" => {cmd2=>"0C1512", argMin => "00:00", argMax => "23:59"}, "programHC2_Tu_0" => {cmd2=>"0C1520", argMin => "00:00", argMax => "23:59"}, "programHC2_Tu_1" => {cmd2=>"0C1521", argMin => "00:00", argMax => "23:59"}, "programHC2_Tu_2" => {cmd2=>"0C1522", argMin => "00:00", argMax => "23:59"}, "programHC2_We_0" => {cmd2=>"0C1530", argMin => "00:00", argMax => "23:59"}, "programHC2_We_1" => {cmd2=>"0C1531", argMin => "00:00", argMax => "23:59"}, "programHC2_We_2" => {cmd2=>"0C1532", argMin => "00:00", argMax => "23:59"}, "programHC2_Th_0" => {cmd2=>"0C1540", argMin => "00:00", argMax => "23:59"}, "programHC2_Th_1" => {cmd2=>"0C1541", argMin => "00:00", argMax => "23:59"}, "programHC2_Th_2" => {cmd2=>"0C1542", argMin => "00:00", argMax => "23:59"}, "programHC2_Fr_0" => {cmd2=>"0C1550", argMin => "00:00", argMax => "23:59"}, "programHC2_Fr_1" => {cmd2=>"0C1551", argMin => "00:00", argMax => "23:59"}, "programHC2_Fr_2" => {cmd2=>"0C1552", argMin => "00:00", argMax => "23:59"}, "programHC2_Sa_0" => {cmd2=>"0C1560", argMin => "00:00", argMax => "23:59"}, "programHC2_Sa_1" => {cmd2=>"0C1561", argMin => "00:00", argMax => "23:59"}, "programHC2_Sa_2" => {cmd2=>"0C1562", argMin => "00:00", argMax => "23:59"}, "programHC2_So_0" => {cmd2=>"0C1570", argMin => "00:00", argMax => "23:59"}, "programHC2_So_1" => {cmd2=>"0C1571", argMin => "00:00", argMax => "23:59"}, "programHC2_So_2" => {cmd2=>"0C1572", argMin => "00:00", argMax => "23:59"}, "programHC2_Mo-Fr_0" => {cmd2=>"0C1580", argMin => "00:00", argMax => "23:59"}, "programHC2_Mo-Fr_1" => {cmd2=>"0C1581", argMin => "00:00", argMax => "23:59"}, "programHC2_Mo-Fr_3" => {cmd2=>"0C1582", argMin => "00:00", argMax => "23:59"}, "programHC2_Sa-So_0" => {cmd2=>"0C1590", argMin => "00:00", argMax => "23:59"}, "programHC2_Sa-So_1" => {cmd2=>"0C1591", argMin => "00:00", argMax => "23:59"}, "programHC2_Sa-So_3" => {cmd2=>"0C1592", argMin => "00:00", argMax => "23:59"}, "programHC2_Mo-So_0" => {cmd2=>"0C15A0", argMin => "00:00", argMax => "23:59"}, "programHC2_Mo-So_1" => {cmd2=>"0C15A1", argMin => "00:00", argMax => "23:59"}, "programHC2_Mo-So_3" => {cmd2=>"0C15A2", argMin => "00:00", argMax => "23:59"}, "programDHW_Mo_0" => {cmd2=>"0A1710", argMin => "00:00", argMax => "23:59"}, "programDHW_Mo_1" => {cmd2=>"0A1711", argMin => "00:00", argMax => "23:59"}, "programDHW_Mo_2" => {cmd2=>"0A1712", argMin => "00:00", argMax => "23:59"}, "programDHW_Tu_0" => {cmd2=>"0A1720", argMin => "00:00", argMax => "23:59"}, "programDHW_Tu_1" => {cmd2=>"0A1721", argMin => "00:00", argMax => "23:59"}, "programDHW_Tu_2" => {cmd2=>"0A1722", argMin => "00:00", argMax => "23:59"}, "programDHW_We_0" => {cmd2=>"0A1730", argMin => "00:00", argMax => "23:59"}, "programDHW_We_1" => {cmd2=>"0A1731", argMin => "00:00", argMax => "23:59"}, "programDHW_We_2" => {cmd2=>"0A1732", argMin => "00:00", argMax => "23:59"}, "programDHW_Th_0" => {cmd2=>"0A1740", argMin => "00:00", argMax => "23:59"}, "programDHW_Th_1" => {cmd2=>"0A1741", argMin => "00:00", argMax => "23:59"}, "programDHW_Th_2" => {cmd2=>"0A1742", argMin => "00:00", argMax => "23:59"}, "programDHW_Fr_0" => {cmd2=>"0A1750", argMin => "00:00", argMax => "23:59"}, "programDHW_Fr_1" => {cmd2=>"0A1751", argMin => "00:00", argMax => "23:59"}, "programDHW_Fr_2" => {cmd2=>"0A1752", argMin => "00:00", argMax => "23:59"}, "programDHW_Sa_0" => {cmd2=>"0A1760", argMin => "00:00", argMax => "23:59"}, "programDHW_Sa_1" => {cmd2=>"0A1761", argMin => "00:00", argMax => "23:59"}, "programDHW_Sa_2" => {cmd2=>"0A1762", argMin => "00:00", argMax => "23:59"}, "programDHW_So_0" => {cmd2=>"0A1770", argMin => "00:00", argMax => "23:59"}, "programDHW_So_1" => {cmd2=>"0A1771", argMin => "00:00", argMax => "23:59"}, "programDHW_So_2" => {cmd2=>"0A1772", argMin => "00:00", argMax => "23:59"}, "programDHW_Mo-Fr_0" => {cmd2=>"0A1780", argMin => "00:00", argMax => "23:59"}, "programDHW_Mo-Fr_1" => {cmd2=>"0A1781", argMin => "00:00", argMax => "23:59"}, "programDHW_Mo-Fr_2" => {cmd2=>"0A1782", argMin => "00:00", argMax => "23:59"}, "programDHW_Sa-So_0" => {cmd2=>"0A1790", argMin => "00:00", argMax => "23:59"}, "programDHW_Sa-So_1" => {cmd2=>"0A1791", argMin => "00:00", argMax => "23:59"}, "programDHW_Sa-So_2" => {cmd2=>"0A1792", argMin => "00:00", argMax => "23:59"}, "programDHW_Mo-So_0" => {cmd2=>"0A17A0", argMin => "00:00", argMax => "23:59"}, "programDHW_Mo-So_1" => {cmd2=>"0A17A1", argMin => "00:00", argMax => "23:59"}, "programDHW_Mo-So_2" => {cmd2=>"0A17A2", argMin => "00:00", argMax => "23:59"}, "programFan_Mo_0" => {cmd2=>"0A1D10", argMin => "00:00", argMax => "23:59"}, "programFan_Mo_1" => {cmd2=>"0A1D11", argMin => "00:00", argMax => "23:59"}, "programFan_Mo_2" => {cmd2=>"0A1D12", argMin => "00:00", argMax => "23:59"}, "programFan_Tu_0" => {cmd2=>"0A1D20", argMin => "00:00", argMax => "23:59"}, "programFan_Tu_1" => {cmd2=>"0A1D21", argMin => "00:00", argMax => "23:59"}, "programFan_Tu_2" => {cmd2=>"0A1D22", argMin => "00:00", argMax => "23:59"}, "programFan_We_0" => {cmd2=>"0A1D30", argMin => "00:00", argMax => "23:59"}, "programFan_We_1" => {cmd2=>"0A1D31", argMin => "00:00", argMax => "23:59"}, "programFan_We_2" => {cmd2=>"0A1D32", argMin => "00:00", argMax => "23:59"}, "programFan_Th_0" => {cmd2=>"0A1D40", argMin => "00:00", argMax => "23:59"}, "programFan_Th_1" => {cmd2=>"0A1D41", argMin => "00:00", argMax => "23:59"}, "programFan_Th_2" => {cmd2=>"0A1D42", argMin => "00:00", argMax => "23:59"}, "programFan_Fr_0" => {cmd2=>"0A1D50", argMin => "00:00", argMax => "23:59"}, "programFan_Fr_1" => {cmd2=>"0A1D51", argMin => "00:00", argMax => "23:59"}, "programFan_Fr_2" => {cmd2=>"0A1D52", argMin => "00:00", argMax => "23:59"}, "programFan_Sa_0" => {cmd2=>"0A1D60", argMin => "00:00", argMax => "23:59"}, "programFan_Sa_1" => {cmd2=>"0A1D61", argMin => "00:00", argMax => "23:59"}, "programFan_Sa_2" => {cmd2=>"0A1D62", argMin => "00:00", argMax => "23:59"}, "programFan_So_0" => {cmd2=>"0A1D70", argMin => "00:00", argMax => "23:59"}, "programFan_So_1" => {cmd2=>"0A1D71", argMin => "00:00", argMax => "23:59"}, "programFan_So_2" => {cmd2=>"0A1D72", argMin => "00:00", argMax => "23:59"}, "programFan_Mo-Fr_0" => {cmd2=>"0A1D80", argMin => "00:00", argMax => "23:59"}, "programFan_Mo-Fr_1" => {cmd2=>"0A1D81", argMin => "00:00", argMax => "23:59"}, "programFan_Mo-Fr_2" => {cmd2=>"0A1D82", argMin => "00:00", argMax => "23:59"}, "programFan_Sa-So_0" => {cmd2=>"0A1D90", argMin => "00:00", argMax => "23:59"}, "programFan_Sa-So_1" => {cmd2=>"0A1D91", argMin => "00:00", argMax => "23:59"}, "programFan_Sa-So_2" => {cmd2=>"0A1D92", argMin => "00:00", argMax => "23:59"}, "programFan_Mo-So_0" => {cmd2=>"0A1DA0", argMin => "00:00", argMax => "23:59"}, "programFan_Mo-So_1" => {cmd2=>"0A1DA1", argMin => "00:00", argMax => "23:59"}, "programFan_Mo-So_2" => {cmd2=>"0A1DA2", argMin => "00:00", argMax => "23:59"} ); ######################################################################################## # # %gets - all supported protocols are listed without header and footer # ######################################################################################## my %getsonly = ( # "hallo" => { }, # "debug_read_raw_register_slow" => { }, "sSol" => {cmd2=>"16"}, "sDHW" => {cmd2=>"F3"}, "sHC1" => {cmd2=>"F4"}, "sHC2" => {cmd2=>"F5"}, "sHistory" => {cmd2=>"09"}, "sLast10errors" => {cmd2=>"D1"}, "sGlobal" => {cmd2=>"FB"}, #allFB "sTimedate" => {cmd2=>"FC"}, "sFirmware" => {cmd2=>"FD"}, "sBoostDHWTotal" => {cmd2=>"0A0924", cmd3=>"0A0925", unit =>"kWh"}, "sBoostHCTotal" => {cmd2=>"0A0928", cmd3=>"0A0929", unit =>"kWh"}, "sHeatRecoveredDay" => {cmd2=>"0A03AE", cmd3=>"0A03AF", unit =>"Wh"}, "sHeatRecoveredTotal" => {cmd2=>"0A03B0", cmd3=>"0A03B1", unit =>"kWh"}, "sHeatDHWDay" => {cmd2=>"0A092A", cmd3=>"0A092B", unit =>"Wh"}, "sHeatDHWTotal" => {cmd2=>"0A092C", cmd3=>"0A092D", unit =>"kWh"}, "sHeatHCDay" => {cmd2=>"0A092E", cmd3=>"0A092F", unit =>"Wh"}, "sHeatHCTotal" => {cmd2=>"0A0930", cmd3=>"0A0931", unit =>"kWh"}, "sElectrDHWDay" => {cmd2=>"0A091A", cmd3=>"0A091B", unit =>"Wh"}, "sElectrDHWTotal" => {cmd2=>"0A091C", cmd3=>"0A091D", unit =>"kWh"}, "sElectrHCDay" => {cmd2=>"0A091E", cmd3=>"0A091F", unit =>"Wh"}, "sElectrHCTotal" => {cmd2=>"0A0920", cmd3=>"0A0921", unit =>"kWh"}, #"sAllE8" => {cmd2=>"E8"}, "party-time" => {cmd2=>"0A05D1"} # value 1Ch 28dec is 7 ; value 1Eh 30dec is 7:30 ); my %gets=(%getsonly, %sets); my %OpMode = ("1" =>"standby", "11" => "automatic", "3" =>"DAYmode", "4" =>"setback", "5" =>"DHWmode", "14" =>"manual", "0" =>"emergency"); my %Rev_OpMode = reverse %OpMode; my %OpModeHC = ("1" =>"normal", "2" => "setback", "3" =>"standby", "4" =>"restart", "5" =>"restart"); my %SomWinMode = ( "01" =>"winter", "02" => "summer"); my $firstLoadAll = 0; my $noanswerreceived = 0; my $internalHash; ######################################################################################## # # THZ_Initialize($) # # Parameter hash # ######################################################################################## sub THZ_Initialize($) { my ($hash) = @_; require "$attr{global}{modpath}/FHEM/DevIo.pm"; # Provider $hash->{ReadFn} = "THZ_Read"; $hash->{WriteFn} = "THZ_Write"; $hash->{ReadyFn} = "THZ_Ready"; # Normal devices $hash->{DefFn} = "THZ_Define"; $hash->{UndefFn} = "THZ_Undef"; $hash->{GetFn} = "THZ_Get"; $hash->{SetFn} = "THZ_Set"; $hash->{AttrFn} = "THZ_Attr"; $hash->{AttrList}= "IODev do_not_notify:1,0 ignore:0,1 dummy:1,0 showtime:1,0 loglevel:0,1,2,3,4,5,6 " ."interval_sGlobal:0,60,120,180,300,600,3600,7200,43200,86400 " ."interval_sSol:0,60,120,180,300,600,3600,7200,43200,86400 " ."interval_sDHW:0,60,120,180,300,600,3600,7200,43200,86400 " ."interval_sHC1:0,60,120,180,300,600,3600,7200,43200,86400 " ."interval_sHC2:0,60,120,180,300,600,3600,7200,43200,86400 " ."interval_sHistory:0,3600,7200,28800,43200,86400 " ."interval_sLast10errors:0,3600,7200,28800,43200,86400 " ."interval_sHeatRecoveredDay:0,1200,3600,7200,28800,43200,86400 " ."interval_sHeatRecoveredTotal:0,3600,7200,28800,43200,86400 " ."interval_sHeatDHWDay:0,1200,3600,7200,28800,43200,86400 " ."interval_sHeatDHWTotal:0,3600,7200,28800,43200,86400 " ."interval_sHeatHCDay:0,1200,3600,7200,28800,43200,86400 " ."interval_sHeatHCTotal:0,3600,7200,28800,43200,86400 " ."interval_sElectrDHWDay:0,1200,3600,7200,28800,43200,86400 " ."interval_sElectrDHWTotal:0,3600,7200,28800,43200,86400 " ."interval_sElectrHCDay:0,1200,3600,7200,28800,43200,86400 " ."interval_sElectrHCTotal:0,3600,7200,28800,43200,86400 " ."interval_sBoostDHWTotal:0,3600,7200,28800,43200,86400 " ."interval_sBoostDHWTotal:0,3600,7200,28800,43200,86400 " . $readingFnAttributes; $data{FWEXT}{"/THZ_PrintcurveSVG"}{FUNC} = "THZ_PrintcurveSVG"; } ######################################################################################## # # THZ_define # # Parameter hash and configuration # ######################################################################################## sub THZ_Define($$) { my ($hash, $def) = @_; my @a = split("[ \t][ \t]*", $def); my $name = $a[0]; $hash->{VERSION} = $thzversion; return "wrong syntax. Correct is: define THZ ". "{devicename[\@baudrate]|ip:port}" if(@a != 3); DevIo_CloseDev($hash); my $dev = $a[2]; if($dev eq "none") { Log 1, "$name device is none, commands will be echoed only"; $attr{$name}{dummy} = 1; return undef; } $hash->{DeviceName} = $dev; my $ret = DevIo_OpenDev($hash, 0, "THZ_Refresh_all_gets"); return $ret; } ######################################################################################## # # THZ_Refresh_all_gets - Called once refreshes current reading for all gets and initializes the regular interval calls # # Parameter $hash # ######################################################################################## sub THZ_Refresh_all_gets($) { my ($hash) = @_; THZ_RemoveInternalTimer("THZ_GetRefresh"); my $timedelay= 5; #strart after 5 seconds foreach my $cmdhash (keys %gets) { my %par = ( hash => $hash, command => $cmdhash ); RemoveInternalTimer(\%par); InternalTimer(gettimeofday() + ($timedelay) , "THZ_GetRefresh", \%par, 0); #increment 0.6s $timedelay++ $timedelay += 0.6; } #refresh all registers; the register with interval_command ne 0 will keep on refreshing } ######################################################################################## # # THZ_GetRefresh - Called in regular intervals to obtain current reading # # Parameter (hash => $hash, command => "allFB" ) # it get the intervall directly from a attribute; the register with interval_command ne 0 will keep on refreshing ######################################################################################## sub THZ_GetRefresh($) { my ($par)=@_; my $hash=$par->{hash}; my $command=$par->{command}; my $interval = AttrVal($hash->{NAME}, ("interval_".$command), 0); my $replyc = ""; if ($interval) { $interval = 60 if ($interval < 60); #do not allow intervall <60 sec InternalTimer(gettimeofday()+ $interval, "THZ_GetRefresh", $par, 1) ; } if (!($hash->{STATE} eq "disconnected")) { $replyc = THZ_Get($hash, $hash->{NAME}, $command); } return ($replyc); } ##################################### # THZ_Write -- simple write # Parameter: hash and message HEX # ######################################################################################## sub THZ_Write($$) { my ($hash,$msg) = @_; my $name = $hash->{NAME}; my $ll5 = GetLogLevel($name,5); my $bstring; $bstring = $msg; Log $ll5, "$hash->{NAME} sending $bstring"; DevIo_SimpleWrite($hash, $bstring, 1); } ##################################### # sub THZ_Read($) # called from the global loop, when the select for hash reports data # used just for testing the interface ######################################################################################## sub THZ_Read($) { my ($hash) = @_; my $buf = DevIo_SimpleRead($hash); return "" if(!defined($buf)); my $name = $hash->{NAME}; my $ll5 = GetLogLevel($name,5); my $ll2 = GetLogLevel($name,2); my $data = $hash->{PARTIAL} . uc(unpack('H*', $buf)); Log $ll5, "$name/RAW: $data"; Log $ll2, "$name/RAW: $data"; } ##################################### # # THZ_Ready($) - Cchecks the status # # Parameter hash # ######################################################################################## sub THZ_Ready($) { my ($hash) = @_; if($hash->{STATE} eq "disconnected") { THZ_RemoveInternalTimer("THZ_GetRefresh"); select(undef, undef, undef, 0.1); #equivalent to sleep 100ms return DevIo_OpenDev($hash, 1, "THZ_Refresh_all_gets") } # This is relevant for windows/USB only my $po = $hash->{USBDev}; if($po) { my ($BlockingFlags, $InBytes, $OutBytes, $ErrorFlags) = $po->status; return ($InBytes>0); } } ##################################### # # THZ_Set - provides a method for setting the heatpump # # Parameters: hash and command to be sent to the interface # ######################################################################################## sub THZ_Set($@){ my ($hash, @a) = @_; my $dev = $hash->{DeviceName}; my $name = $hash->{NAME}; my $ll5 = GetLogLevel($name,5); my $ll2 = GetLogLevel($name,2); return "\"set $name\" needs at least two parameters: and " if(@a < 2); my $cmd = $a[1]; my $arg = $a[2]; my $arg1 = "00:00"; my ($err, $msg) =("", " "); my $cmdhash = $sets{$cmd}; return "Unknown argument $cmd, choose one of " . join(" ", sort keys %sets) if(!defined($cmdhash)); return "\"set $name $cmd\" needs at least one further argument: " if(!defined($arg)); my $cmdHex2 = $cmdhash->{cmd2}; my $argMax = $cmdhash->{argMax}; my $argMin = $cmdhash->{argMin}; if ((substr($cmdHex2,0,6) eq "0A05D1") or (substr($cmdHex2,2,2) eq "1D") or (substr($cmdHex2,2,2) eq "17") or (substr($cmdHex2,2,2) eq "15") or (substr($cmdHex2,2,2) eq "14")) { ($arg, $arg1)=split('--', $arg); if (($arg ne "n.a.") and ($arg1 ne "n.a.")) { return "Argument does not match the allowed inerval Min $argMin ...... Max $argMax " if(($arg1 gt $argMax) or ($arg1 lt $argMin)); return "Argument does not match the allowed inerval Min $argMin ...... Max $argMax " if(($arg gt $argMax) or ($arg lt $argMin)); } } elsif (substr($cmdHex2,0,6) eq "0A0112") { $arg1=$arg; $arg=$Rev_OpMode{$arg}; return "Unknown argument $arg1: $cmd supports " . join(" ", sort values %OpMode) if(!defined($arg)); } else { return "Argument does not match the allowed inerval Min $argMin ...... Max $argMax " if(($arg > $argMax) or ($arg < $argMin)); } if ((substr($cmdHex2,0,6) eq "0A0116") or (substr($cmdHex2,0,6) eq "0A05A2") or (substr($cmdHex2,0,6) eq "0A01AC")) {$arg=$arg*10} #summermode elsif ((substr($cmdHex2,0,4) eq "0A01") or (substr($cmdHex2,2,4) eq "010F") ) {$arg=$arg*256} # shift 2 times -- the answer look like 0A0120-3A0A01200E00 for year 14 elsif ((substr($cmdHex2,2,2) eq "1D") or (substr($cmdHex2,2,2) eq "17") or (substr($cmdHex2,2,2) eq "15") or (substr($cmdHex2,2,2) eq "14")) {$arg= time2quaters($arg) *256 + time2quaters($arg1)} # BeginTime-endtime, in the register is represented begintime endtime elsif (substr($cmdHex2,0,6) eq "0A05D1") {$arg= time2quaters($arg1) *256 + time2quaters($arg)} # PartyBeginTime-endtime, in the register is represented endtime begintime #partytime (0A05D1) non funziona; elsif ((substr($cmdHex2,0,6) eq "0A05D3") or (substr($cmdHex2,0,6) eq "0A05D4")) {$arg= time2quaters($arg)} # holidayBeginTime-endtime elsif ((substr($cmdHex2,0,5) eq "0A056") or (substr($cmdHex2,0,5) eq "0A057") or (substr($cmdHex2,0,6) eq "0A0588") or (substr($cmdHex2,0,6) eq "0A05A0") or (substr($cmdHex2,0,6) eq "0B059D") or (substr($cmdHex2,0,6) eq "0A05B7") or (substr($cmdHex2,0,6) eq "0A05B8") ) { } # fann speed and boostetimeout: do not multiply elsif (substr($cmdHex2,2,4) eq "010E") {$arg=$arg*100} #gradientHC1 &HC2 else {$arg=$arg*10} Log3 $hash->{NAME}, 5, "THZ_Set: Check if port is open. State = '($hash->{STATE})'"; #if (($hash->{STATE} eq "DISCONNECTED")) #{ # DevIo_OpenDev($hash, 0, ""); #} $cmdHex2=THZ_encodecommand(($cmdHex2 . substr((sprintf("%04X", $arg)), -4)),"set"); #04X converts to hex and fills up 0s; for negative, it must be trunckated. ($err, $msg) = THZ_Get_Comunication($hash, $cmdHex2); if (defined($err)) { return ($cmdHex2 . "-". $msg ."--" . $err);} else { $msg=THZ_Get($hash, $name, $cmd); return ($msg); } } ##################################### # # THZ_Get - provides a method for polling the heatpump # # Parameters: hash and command to be sent to the interface # ######################################################################################## sub THZ_Get($@){ my ($hash, @a) = @_; my $dev = $hash->{DeviceName}; my $name = $hash->{NAME}; my $ll5 = GetLogLevel($name,5); my $ll2 = GetLogLevel($name,2); return "\"get $name\" needs one parameter" if(@a != 2); my $cmd = $a[1]; my ($err, $msg2) =("", " "); if ($cmd eq "debug_read_raw_register_slow") { THZ_debugread($hash); return ("all raw registers read and saved"); } my $cmdhash = $gets{$cmd}; return "Unknown argument $cmd, choose one of " . join(" ", sort keys %gets) if(!defined($cmdhash)); Log3 $hash->{NAME}, 5, "THZ_Get: Try to get '$cmd'"; my $cmdHex2 = $cmdhash->{cmd2}; if(defined($cmdHex2) ) { $cmdHex2=THZ_encodecommand($cmdHex2,"get"); ($err, $msg2) = THZ_Get_Comunication($hash, $cmdHex2); if (defined($err)) { Log3 $hash->{NAME}, 5, "THZ_Get: Error msg2: '$err'"; return ($msg2 ."\n msg2 " . $err); } $msg2 = THZ_Parse($hash,$msg2); } my $cmdHex3 = $cmdhash->{cmd3}; if(defined($cmdHex3)) { my $msg3= " "; $cmdHex3=THZ_encodecommand($cmdHex3,"get"); ($err, $msg3) = THZ_Get_Comunication($hash, $cmdHex3); if (defined($err)) { Log3 $hash->{NAME}, 5, "THZ_Get: Error msg3: '$err'"; return ($msg3 ."\n msg3 " . $err); } $msg2 = THZ_Parse($hash,$msg3) * 1000 + $msg2 ; } my $unit = $cmdhash->{unit}; if(defined($cmdHex3)) { $msg2 = $msg2 . " " . $unit; } my $activatetrigger =1; readingsSingleUpdate($hash, $cmd, $msg2, $activatetrigger); return ($msg2); } ##################################### # # THZ_Get_Comunication- provides a method for reading comunication called from THZ_Get # # Parameter hash and CMD2 or 3 # ######################################################################################## sub THZ_Get_Comunication($$) { my ($hash, $cmdHex) = @_; my ($err, $msg) =("", " "); Log3 $hash->{NAME}, 5, "THZ_Get_Comunication: Check if port is open. State = '($hash->{STATE})'"; if (!(($hash->{STATE}) eq "opened")) { return("closed connection", "");} THZ_Write($hash, "02"); # STX start of text ($err, $msg) = THZ_ReadAnswer($hash); #Expectedanswer1 is "10" DLE data link escape if ($msg eq "10") { THZ_Write($hash, $cmdHex); # send request SOH start of heading -- Null -- ?? -- DLE data link escape -- EOT End of Text ($err, $msg) = THZ_ReadAnswer($hash); #Expectedanswer2 is "1002", DLE data link escape -- STX start of text } if ($msg eq "10") { ($err, $msg) = THZ_ReadAnswer($hash); } if($msg eq "1002" || $msg eq "02") { THZ_Write($hash, "10"); # DLE data link escape // ack datatranfer #select(undef,undef,undef,0.010); ($err, $msg) = THZ_ReadAnswer($hash); # Expectedanswer3 // read from the heatpump THZ_Write($hash, "10"); } if (!(defined($err))) {($err, $msg) = THZ_decode($msg);} #clean up and remove footer and header return($err, $msg) ; } ##################################### # # THZ_ReadAnswer- provides a method for simple read # # Parameter hash and command to be sent to the interface # ######################################################################################## sub THZ_ReadAnswer($) { my ($hash) = @_; Log3 $hash->{NAME}, 5, "$hash->{NAME} start Funktion THZ_ReadAnswer"; my $buf = DevIo_SimpleReadWithTimeout($hash, 0.8); if(!defined($buf)) { Log3 $hash->{NAME}, 3, "$hash->{NAME} THZ_ReadAnswer got no answer from DevIo_SimpleRead. Maybe too slow?"; return ("InterfaceNotRespondig", ""); } my $name = $hash->{NAME}; my $data = uc(unpack('H*', $buf)); if ((length($data) > 4) and ($data !~ m/1003$/m )) # sometimes the first read gets a trunkated buffer, second read makes sure all the buffer is read. { my $buf1 = DevIo_SimpleReadWithTimeout($hash, 0.005); Log3($hash->{NAME}, 5, "doubble read activated $data"); if(defined($buf1)) { $buf = ($buf . $buf1) ; $data = uc(unpack('H*', $buf)); Log3($hash->{NAME}, 5, "doubble read result with buf1 $data"); } } if ((length($data) > 4) and ($data !~ m/1003$/m )) # sometimes the first read gets a trunkated buffer, third read makes sure all the buffer is read. { my $buf2 = DevIo_SimpleReadWithTimeout($hash, 0.005); Log3($hash->{NAME}, 5, "triple read activated $data"); if(defined($buf2)) { $buf = ($buf . $buf2) ; $data = uc(unpack('H*', $buf)); Log3($hash->{NAME}, 5, "triple read result with buf2 $data"); } } if ((length($data) > 4) and ($data !~ m/1003$/m )) # sometimes the first read gets a trunkated buffer, fourth read makes sure all the buffer is read. { my $buf3 = DevIo_SimpleReadWithTimeout($hash, 0.005); Log3($hash->{NAME}, 5, "quadruple read activated $data"); if(defined($buf3)) { $buf = ($buf . $buf3) ; $data = uc(unpack('H*', $buf)); Log3($hash->{NAME}, 5, "quadruple read result with buf3 $data"); } } Log3 $hash->{NAME}, 5, "THZ_ReadAnswer: uc unpack: '$data'"; return (undef, $data); } ##################################### # # THZ_checksum - takes a string, removes the footer (4bytes) and computes checksum (without checksum of course) # # Parameter string # returns the checksum 2bytes # ######################################################################################## sub THZ_checksum($) { my ($stringa) = @_; my $ml = length($stringa) - 4; my $checksum = 0; for(my $i = 0; $i < $ml; $i += 2) { ($checksum= $checksum + hex(substr($stringa, $i, 2))) if ($i != 4); } return (sprintf("%02X", ($checksum %256))); } ##################################### # # hex2int - convert from hex to int with sign 16bit # ######################################################################################## sub hex2int($) { my ($num) = @_; $num = unpack('s', pack('S', hex($num))); return $num; } #################################### # # quaters2time - convert from hex to time; specific to the week programm registers # # parameter 1 byte representing number of quarter from midnight # returns string representing time # # example: value 1E is converted to decimal 30 and then to a time 7:30 ######################################################################################## sub quaters2time($) { my ($num) = @_; return("n.a.") if($num eq "80"); my $quarters= hex($num) %4; my $hour= (hex($num) - $quarters)/4 ; my $time = sprintf("%02u", ($hour)) . ":" . sprintf("%02u", ($quarters*15)); return $time; } #################################### # # time2quarters - convert from time to quarters in hex; specific to the week programm registers # # parameter: string representing time # returns: 1 byte representing number of quarter from midnight # # example: a time 7:30 is converted to decimal 30 ######################################################################################## sub time2quaters($) { my ($stringa) = @_; return("128") if($stringa eq "n.a."); my ($h,$m) = split(":", $stringa); $m = 0 if(!$m); $h = 0 if(!$h); my $num = $h*4 + int($m/15); return ($num); } #################################### # # THZ_replacebytes - replaces bytes in string # # parameters: string, bytes to be searched, replacing bytes # retunrns changed string # ######################################################################################## sub THZ_replacebytes($$$) { my ($stringa, $find, $replace) = @_; my $leng_str = length($stringa); my $leng_find = length($find); my $new_stringa =""; for(my $i = 0; $i < $leng_str; $i += 2) { if (substr($stringa, $i, $leng_find) eq $find){ $new_stringa=$new_stringa . $replace; if ($leng_find == 4) {$i += 2;} } else {$new_stringa=$new_stringa . substr($stringa, $i, 2);}; } return ($new_stringa); } ## usage THZ_overwritechecksum("0100XX". $cmd."1003"); not needed anymore sub THZ_overwritechecksum($) { my ($stringa) = @_; my $checksumadded=substr($stringa,0,4) . THZ_checksum($stringa) . substr($stringa,6); return($checksumadded); } #################################### # # THZ_encodecommand - creates a telegram for the heatpump with a given command # # usage THZ_encodecommand($cmd,"get") or THZ_encodecommand($cmd,"set"); # parameter string, # retunrns encoded string # ######################################################################################## sub THZ_encodecommand($$) { my ($cmd,$getorset) = @_; my $header = "0100"; $header = "0180" if ($getorset eq "set"); # "set" and "get" have differnt header my $footer ="1003"; my $checksumadded=THZ_checksum($header . "XX" . $cmd . $footer) . $cmd; # each 2B byte must be completed by byte 18 # each 10 byte must be repeated (duplicated) my $find = "10"; my $replace = "1010"; #$checksumadded =~ s/$find/$replace/g; #problems in 1% of the cases, in middle of a byte $checksumadded=THZ_replacebytes($checksumadded, $find, $replace); $find = "2B"; $replace = "2B18"; #$checksumadded =~ s/$find/$replace/g; $checksumadded=THZ_replacebytes($checksumadded, $find, $replace); return($header. $checksumadded .$footer); } #################################### # # THZ_decode - decodes a telegram from the heatpump -- no parsing here # # Each response has the same structure as request - header (four bytes), optional data and footer: # Header: 01 # Read/Write: 00 for Read (get) response, 80 for Write (set) response; when some error occured, then device stores error code here; actually, I know only meaning of error 03 = unknown command # Checksum: ? 1 byte - the same algorithm as for request # Command: ? 1 byte - should match Request.Command # Data: ? only when Read, length depends on data type # Footer: 10 03 # ######################################################################################## sub THZ_decode($) { my ($message_orig) = @_; # raw data received from device have to be de-escaped before header evaluation and data use: # - each sequece 2B 18 must be replaced with single byte 2B # - each sequece 10 10 must be replaced with single byte 10 my $find = "1010"; my $replace = "10"; $message_orig=THZ_replacebytes($message_orig, $find, $replace); $find = "2B18"; $replace = "2B"; $message_orig=THZ_replacebytes($message_orig, $find, $replace); #Check if answer is NAK if (length($message_orig) == 2 && $message_orig eq "15") { return("NAK received from device",$message_orig); } #check header and if ok 0100, check checksum and return the decoded msg my $header = substr($message_orig,0,4); if ($header eq "0100") { if (THZ_checksum($message_orig) eq substr($message_orig,4,2)) { $message_orig =~ /0100(.*)1003/; my $message = $1; return (undef, $message); } else {return (THZ_checksum($message_orig) . "crc_error in answer", $message_orig)}; } if ($header eq "0103") { return ("command not known", $message_orig); } if ($header eq "0102") { return ("CRC error in request", $message_orig); } if ($header eq "0104") { return ("UNKNOWN REQUEST", $message_orig); } if ($header eq "0180") { return (undef, $message_orig); } return ("new unknown answer " , $message_orig); } ######################################################################################## # # THZ_Parse -0A01 # ######################################################################################## sub THZ_Parse($$) { my ($hash,$message) = @_; Log3 $hash->{NAME}, 5, "Parse message: $message"; my $length = length($message); Log3 $hash->{NAME}, 4, "Message length: $length"; given (substr($message,2,2)) { when ("0A") { if (substr($message,4,4) eq "0116") {$message = hex2int(substr($message, 8,4))/10 ." °C" } elsif (substr($message,4,4) eq "0112") {$message = $OpMode{hex(substr($message, 8,2))} } elsif ((substr($message,4,3) eq "011") or (substr($message,4,3) eq "012")) {$message = hex(substr($message, 8,2))} #holiday # the answer look like 0A0120-3A0A01200E00 for year 14 elsif ((substr($message,4,2) eq "1D") or (substr($message,4,2) eq "17")) {$message = quaters2time(substr($message, 8,2)) ."--". quaters2time(substr($message, 10,2))} #value 1Ch 28dec is 7 ; value 1Eh 30dec is 7:30 elsif (substr($message,4,4) eq "05D1") {$message = quaters2time(substr($message, 10,2)) ."--". quaters2time(substr($message, 8,2))} #like above but before stop then start !!!! elsif ((substr($message,4,4) eq "05D3") or (substr($message,4,4) eq "05D4")) {$message = quaters2time(substr($message, 10,2)) } #value 1Ch 28dec is 7 elsif ((substr($message,4,3) eq "056") or (substr($message,4,4) eq "0570") or (substr($message,4,4) eq "0575") or (substr($message,4,4) eq "03AE") or (substr($message,4,4) eq "03AF") or (substr($message,4,4) eq "03B0") or (substr($message,4,4) eq "03B1") or (substr($message,4,3) eq "091") or (substr($message,4,3) eq "092") or (substr($message,4,3) eq "093") or (substr($message,4,4) eq "05B7") or (substr($message,4,4) eq "05B8")) {$message = hex(substr($message, 8,4))} elsif ((substr($message,4,4) eq "0588") or (substr($message,4,4) eq "05A0") or (substr($message,4,4) eq "0571") or (substr($message,4,4) eq "0572") or (substr($message,4,4) eq "0573") or (substr($message,4,4) eq "0574")) {$message = hex(substr($message, 8,4)) ." min" } elsif (substr($message,4,3) eq "057") {$message = hex(substr($message, 8,4)) ." m3/h" } elsif (substr($message,4,4) eq "05A2") {$message = hex(substr($message, 8,4))/10 ." K" } else {$message = hex2int(substr($message, 8,4))/10 ." °C" } } when ("0B") { #set parameter HC1 if (substr($message,4,2) eq "14") {$message = quaters2time(substr($message, 8,2)) ."--". quaters2time(substr($message, 10,2))} #value 1Ch 28dec is 7 ; value 1Eh 30dec is 7:30 elsif (substr($message,4,4) eq "059E") {$message = hex(substr($message, 8,4))/10 ." K" } elsif (substr($message,4,4) eq "059D") {$message = hex(substr($message, 8,4)) ." %" } elsif (substr($message,4,4) eq "010E") {$message = hex(substr($message, 8,4))/100} elsif (substr($message,4,4) eq "010F") {$message = hex(substr($message, 8,2)) . " %"} else {$message = hex2int(substr($message, 8,4))/10 ." °C" } } when ("0C") { #set parameter HC2 if (substr($message,4,2) eq "15") {$message = quaters2time(substr($message, 8,2)) ."--". quaters2time(substr($message, 10,2))} #value 1Ch 28dec is 7 ; value 1Eh 30dec is 7:30 elsif (substr($message,4,4) eq "059E") {$message = hex(substr($message, 8,4))/10 ." K" } elsif (substr($message,4,4) eq "010E") {$message = hex(substr($message, 8,4))/100} elsif (substr($message,4,4) eq "010F") {$message = hex(substr($message, 8,2)) . " %"} else {$message = hex2int(substr($message, 8,4))/10 ." °C" } } when ("16") { #all16 Solar $message = "collector_temp: " . hex2int(substr($message, 4,4))/10 . " " . "dhw_temp: " . hex2int(substr($message, 8,4))/10 . " " . "flow_temp: " . hex2int(substr($message,12,4))/10 . " " . "ed_sol_pump_temp: " . hex2int(substr($message,16,4))/10 . " " . "x20: " . hex2int(substr($message,20,4)) . " " . "x24: " . hex2int(substr($message,24,4)) . " " . "x28: " . hex2int(substr($message,28,4)) . " " . "x32: " . hex2int(substr($message,32,4)) ; } when ("F3") { #allF3 DHW $message = "dhw_temp: " . hex2int(substr($message, 4,4))/10 . " " . "outside_temp: " . hex2int(substr($message, 8,4))/10 . " " . "dhw_set_temp: " . hex2int(substr($message,12,4))/10 . " " . "comp_block_time: " . hex2int(substr($message,16,4)) . " " . "x20: " . hex2int(substr($message,20,4)) . " " . "heat_block_time: " . hex2int(substr($message,24,4)) . " " . "x28: " . hex2int(substr($message,28,4)) . " " . "x32: " . hex2int(substr($message,32,4)) . " " . "x36: " . hex2int(substr($message,36,4)) . " " . "x40: " . hex2int(substr($message,40,4)); } when ("E8") { #sAllE8 $message = $message . " " . "x04: " . hex2int(substr($message, 4,4)) . " " . "x08: " . hex2int(substr($message, 8,4)) . " " . "x12: " . hex2int(substr($message,12,4)) . " " . "x16: " . hex2int(substr($message,16,4)) . " " . "x20: " . hex2int(substr($message,20,4)) . " " . "x24: " . hex2int(substr($message,24,4)) . " " . "x28: " . hex2int(substr($message,28,4)) . " " . "x32: " . hex2int(substr($message,32,4)) . " " . "x36: " . hex2int(substr($message,36,4)) . " " . "x40: " . hex2int(substr($message,40,4)) . " " . "x44: " . hex2int(substr($message,44,4)) . " " . "x48: " . hex2int(substr($message,48,4)) . " " . "x52: " . hex2int(substr($message,52,4)) . " " . "x52: " . hex2int(substr($message,56,4)) . " " . "x60d: " . hex2int(substr($message,60,4)) . " " . "x64: " . hex2int(substr($message,64,4)) . " " . "x68: " . hex2int(substr($message,68,4)) . " " . "x72: " . hex2int(substr($message,72,4)) ; } when ("F4") { #allF4 HC1 $message = "outsideTemp: " . hex2int(substr($message, 4,4))/10 . " " . "x08: " . hex2int(substr($message, 8,4))/10 . " " . "returnTemp: " . hex2int(substr($message,12,4))/10 . " " . "integralHeat: " . hex2int(substr($message,16,4)) . " " . "flowTemp: " . hex2int(substr($message,20,4))/10 . " " . "heatSetTemp: " . hex2int(substr($message,24,4))/10 . " " . #soll HC1 "heatTemp: " . hex2int(substr($message,28,4))/10 . " " . #ist # "x32: " . hex2int(substr($message,32,4))/10 . " " . "seasonMode: " . $SomWinMode{(substr($message,38,2))} . " " . # "x40: " . hex2int(substr($message,40,4))/10 . " " . "integralSwitch: " . hex2int(substr($message,44,4)) . " " . "opMode: " . $OpModeHC{hex(substr($message,48,2))} . " " . # "x52: " . hex2int(substr($message,52,4)) . " " . "roomSetTemp: " . hex2int(substr($message,56,4))/10 ; # "x60: " . hex2int(substr($message,60,4)) . " " . # "x64: " . hex2int(substr($message,64,4)) . " " . # "x68: " . hex2int(substr($message,68,4)) . " " . # "x72: " . hex2int(substr($message,72,4)) . " " . # "x76: " . hex2int(substr($message,76,4)) . " " . # "x80: " . hex2int(substr($message,80,4)) ; } when ("F5") { #allF5 HC2 $message = "outsideTemp: " . hex2int(substr($message, 4,4))/10 . " " . "returnTemp: " . hex2int(substr($message, 8,4))/10 . " " . "vorlaufTemp: " . hex2int(substr($message,12,4))/10 . " " . "heatSetTemp: " . hex2int(substr($message,16,4))/10 . " " . "heatTemp: " . hex2int(substr($message,20,4))/10 . " " . "stellgroesse: " . hex2int(substr($message,24,4))/10 . " " . "seasonMode: " . $SomWinMode{(substr($message,30,2))} . " " . # "x32: " . hex2int(substr($message,32,4)) . " " . "opMode: " . $OpModeHC{hex(substr($message,36,2))} ; # "x40: " . hex2int(substr($message,40,4)) . " " . # "x44: " . hex2int(substr($message,44,4)) . " " . # "x48: " . hex2int(substr($message,48,4)) . " " . # "x52: " . hex2int(substr($message,52,4)) } when ("FD") { #firmware_ver $message = "version: " . hex(substr($message,4,4))/100 ; } when ("FC") { #timedate 00 - 0F 1E 08 - 0D 03 0B my %weekday = ( "0" =>"Monday", "1" => "Tuesday", "2" =>"Wednesday", "3" => "Thursday", "4" => "Friday", "5" =>"Saturday", "6" => "Sunday" ); $message = "Weekday: " . $weekday{hex(substr($message, 4,2))} . " " . "Hour: " . hex(substr($message, 6,2)) . " Min: " . hex(substr($message, 8,2)) . " Sec: " . hex(substr($message,10,2)) . " " . "Date: " . (hex(substr($message,12,2))+2000) . "/" . hex(substr($message,14,2)) . "/" . hex(substr($message,16,2)); } when ("FB") { #allFB # 1 2 3 5 6 7 8 9 #012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789 #0DFBFDA8005D014E010602CF01CCFDA8FDA80007014C200813021C021C0258001A001E0013006100000000 $message = "outsideTemp: " . hex2int(substr($message, 8,4))/10 . " " . "flowTemp: " . hex2int(substr($message,12,4))/10 . " " . #Vorlauf Temperatur "returnTemp: " . hex2int(substr($message,16,4))/10 . " " . #Rücklauf Temperatur "hotGasTemp: " . hex2int(substr($message,20,4))/10 . " " . #Heißgas Temperatur "dhwTemp: " . hex2int(substr($message,24,4))/10 . " " . #Speicher Temperatur current cilinder water temperature "flowTempHC2: " . hex2int(substr($message,28,4))/10 . " " . #Vorlauf TemperaturHK2 "evaporatorTemp: " . hex2int(substr($message,36,4))/10 . " " . #Speicher Temperatur "condenserTemp: " . hex2int(substr($message,40,4))/10 . " " . "mixerOpen: " . ((hex(substr($message,45,1)) & 0b0001) / 0b0001) . " " . #status bit "mixerClosed: " . ((hex(substr($message,45,1)) & 0b0010) / 0b0010) . " " . #status bit "heatPipeValve: " . ((hex(substr($message,45,1)) & 0b0100) / 0b0100) . " " . #status bit "diverterValve: " . ((hex(substr($message,45,1)) & 0b1000) / 0b1000) . " " . #status bit "dhwPump: " . ((hex(substr($message,44,1)) & 0b0001) / 0b0001) . " " . #status bit "heatingCircuitPump: " . ((hex(substr($message,44,1)) & 0b0010) / 0b0010) . " " . #status bit "solarPump: " . ((hex(substr($message,44,1)) & 0b1000) / 0b1000) . " " . #status bit "compressor: " . ((hex(substr($message,47,1)) & 0b1000) / 0b1000) . " " . #status bit "boosterStage3: " . ((hex(substr($message,46,1)) & 0b0001) / 0b0001) . " " . #status bit "boosterStage2: " . ((hex(substr($message,46,1)) & 0b0010) / 0b0010) . " " . #status bit "boosterStage1: " . ((hex(substr($message,46,1)) & 0b0100) / 0b0100). " " . #status bit "highPressureSensor: " . (1-((hex(substr($message,49,1)) & 0b0001) / 0b0001)) . " " . #status bit #P1 inverterd? "lowPressureSensor: " . (1-((hex(substr($message,49,1)) & 0b0010) / 0b0010)) . " " . #status bit #P3 inverterd? "evaporatorIceMonitor: " . ((hex(substr($message,49,1)) & 0b0100) / 0b0100). " " . #status bit #N3 "signalAnode: " . ((hex(substr($message,49,1)) & 0b1000) / 0b1000). " " . #status bit #S1 "rvuRelease: " . ((hex(substr($message,48,1)) & 0b0001) / 0b0001). " " . #status bit "ovenFireplace: " . ((hex(substr($message,48,1)) & 0b0010) / 0b0010). " " . #status bit "STB: " . ((hex(substr($message,48,1)) & 0b0100) / 0b0100). " " . #status bit "outputVentilatorPower: " . hex(substr($message,50,4))/10 . " " . "inputVentilatorPower: " . hex(substr($message,54,4))/10 . " " . "mainVentilatorPower: " . hex(substr($message,58,4))/10 . " " . "outputVentilatorSpeed: " . hex(substr($message,62,4))/1 . " " . # m3/h "inputVentilatorSpeed: " . hex(substr($message,66,4))/1 . " " . # m3/h "mainVentilatorSpeed: " . hex(substr($message,70,4))/1 . " " . # m3/h "outside_tempFiltered: " . hex2int(substr($message,74,4))/10 . " " . "relHumidity: " . hex2int(substr($message,78,4))/10 . " " . "dewPoint: " . hex2int(mysubstr($hash,$message,86,4))/1 . " " . "P_Nd: " . hex2int(mysubstr($hash,$message,86,4))/100 . " " . #bar "P_Hd: " . hex2int(mysubstr($hash,$message,90,4))/100 . " " . #bar "actualPower_Qc: " . hex2int(mysubstr($hash,$message,94,8))/1 . " " . #kw "actualPower_Pel: " . hex2int(mysubstr($hash,$message,102,4))/1 . " " . #kw "collectorTemp: " . hex2int(substr($message, 4,4))/10 . " " . #kw "insideTemp: " . hex2int(substr($message, 32,4))/10 ; #Innentemperatur } when ("09") { #operating history $message = "compressorHeating: " . hex(substr($message, 4,4)) . " " . "compressorCooling: " . hex(substr($message, 8,4)) . " " . "compressorDHW: " . hex(substr($message, 12,4)) . " " . "boosterDHW: " . hex(substr($message, 16,4)) . " " . "boosterHeating: " . hex(substr($message, 20,4)) ; } when ("D1") { #last10errors tested only for 1 error { THZ_Parse("6BD1010115008D07EB030000000000000000000") } $message = "number_of_faults: " . hex(substr($message, 4,2)) . " " . #empty "fault0CODE: " . hex(substr($message, 8,2)) . " " . "fault0TIME: " . sprintf(join(':', split("\\.", hex(substr($message, 14,2) . substr($message, 12,2))/100))) . " " . "fault0DATE: " . (hex(substr($message, 18,2) . substr($message, 16,2))/100) . " " . "fault1CODE: " . hex(substr($message, 20,2)) . " " . "fault1TIME: " . sprintf(join(':', split("\\.", hex(substr($message, 26,2) . substr($message, 24,2))/100))) . " " . "fault1DATE: " . (hex(substr($message, 30,2) . substr($message, 28,2))/100) . " " . "fault2CODE: " . hex(substr($message, 32,2)) . " " . "fault2TIME: " . sprintf(join(':', split("\\.", hex(substr($message, 38,2) . substr($message, 36,2))/100))) . " " . "fault2DATE: " . (hex(substr($message, 42,2) . substr($message, 40,2))/100) . " " . "fault3CODE: " . hex(substr($message, 44,2)) . " " . "fault3TIME: " . sprintf(join(':', split("\\.", hex(substr($message, 50,2) . substr($message, 48,2))/100))) . " " . "fault3DATE: " . (hex(substr($message, 54,2) . substr($message, 52,2))/100) ; } } return (undef, $message); } ####################################### #mysubstr($$$) #Same function as subst. But checks if offset + lenght is #available in the string. If not, returns zeros. ####################################### sub mysubstr($$$$) { my ($hash,$message,$start, $length) = @_; my $ReturnValue = ""; if (length($message) < ($start + $length)) { Log3 $hash->{NAME},5, "mysubstr: offset($start) + length($length) is greater then message : '$message'"; my $msg; for(my $i = 0;$i < $length;$i++) { $msg += "0"; } $ReturnValue = uc(unpack('H*',pack('H*', $msg))); Log3 $hash->{NAME},5,"mysubstr: retval instead '$ReturnValue'"; return $ReturnValue; } return substr($message,$start,$length); } local $SIG{__WARN__} = sub { my $message = shift; if (!defined($internalHash)) { Log 3, "EXCEPTION in THZ: '$message'"; } else { Log3 $internalHash->{NAME},3, "EXCEPTION in THZ: '$message'"; } }; ####################################### #THZ_Parse1($) could be used in order to test an external config file; I do not know if I want it # ####################################### sub THZ_Parse1($) { my %parsinghash = ( "D1" => {"number_of_faults:" => [4,"hex",1], "fault0CODE:" => [8,"hex",1], "fault0DATE:" => [12,"hex",1] }, "D2" => {"number_of_faults:" => [8,"hex",1], "fault0CODE:" => [8,"hex",1] } ); my ($Msg) = @_; my $parsingcmd = $parsinghash{substr($Msg,2,2)}; my $ParsedMsg = $Msg; if(defined($parsingcmd)) { $ParsedMsg = ""; foreach my $parsingkey (keys %$parsingcmd) { my $positionInMsg = $parsingcmd->{$parsingkey}[0]; my $Type = $parsingcmd->{$parsingkey}[1]; my $divisor = $parsingcmd->{$parsingkey}[2]; my $value = substr($Msg, $positionInMsg ,4); given ($Type) { when ("hex") { $value= hex($value);} when ("hex2int") { $value= hex($value);} } $ParsedMsg = $ParsedMsg ." ". $parsingkey ." ". $value/$divisor ; } } return (undef, $ParsedMsg); } ######################################################################################## # only for debug # ######################################################################################## sub THZ_debugread($){ my ($hash) = @_; my ($err, $msg) =("", " "); # my @numbers=('01', '09', '16', 'D1', 'D2', 'E8', 'E9', 'F2', 'F3', 'F4', 'F5', 'F6', 'FB', 'FC', 'FD', 'FE'); my @numbers=('0A03AE','0A03AF', '0A03B0', '0A03B1'); #my @numbers = (1..255); #my @numbers = (1..65535); my $indice= "FF"; unlink("data.txt"); #delete debuglog foreach $indice(@numbers) { #my $cmd = sprintf("%02X", $indice); #my $cmd = "0A" . sprintf("%04X", $indice); my $cmd = $indice; #STX start of text THZ_Write($hash, "02"); ($err, $msg) = THZ_ReadAnswer($hash); # send request my $cmdHex2 = THZ_encodecommand($cmd,"get"); THZ_Write($hash, $cmdHex2); ($err, $msg) = THZ_ReadAnswer($hash); # ack datatranfer and read from the heatpump THZ_Write($hash, "10"); ($err, $msg) = THZ_ReadAnswer($hash); THZ_Write($hash, "10"); #my $activatetrigger =1; # readingsSingleUpdate($hash, $cmd, $msg, $activatetrigger); # open (MYFILE, '>>data.txt'); # print MYFILE ($cmdHex2 . "-" . $msg . "\n"); # close (MYFILE); if (defined($err)) {return ($msg ."\n" . $err);} else { #clean up and remove footer and header ($err, $msg) = THZ_decode($msg); if (defined($err)) {$msg=$cmdHex2 ."-". $msg ."-". $err;} my $activatetrigger =1; # readingsSingleUpdate($hash, $cmd, $msg, $activatetrigger); open (MYFILE, '>>data.txt'); print MYFILE ($cmd . "-" . $msg . "\n"); close (MYFILE); } select(undef, undef, undef, 0.2); #equivalent to sleep 200ms } } ####################################### #THZ_Attr($) #in case of change of attribute starting with interval_ refresh all ######################################################################################## sub THZ_Attr(@) { my ($cmd, $name, $attrName, $attrVal) = @_; my $hash = $defs{$name}; if( $attrName =~ /^interval_/ ) { #DevIo_CloseDev($hash); THZ_RemoveInternalTimer("THZ_GetRefresh"); #sleep 1; #DevIo_OpenDev($hash, 1, "THZ_Refresh_all_gets"); THZ_Refresh_all_gets($hash); } return undef; } ##################################### sub THZ_Undef($$) { my ($hash, $arg) = @_; my $name = $hash->{NAME}; THZ_RemoveInternalTimer("THZ_GetRefresh"); foreach my $d (sort keys %defs) { if(defined($defs{$d}) && defined($defs{$d}{IODev}) && $defs{$d}{IODev} == $hash) { my $lev = ($reread_active ? 4 : 2); Log3 $hash->{NAME}, $lev, "deleting port for $d"; delete $defs{$d}{IODev}; } } DevIo_CloseDev($hash); return undef; } ########################################## # THZ_RemoveInternalTimer($) # modified takes as an argument the function to be called, not the argument ######################################################################################## sub THZ_RemoveInternalTimer($) { my ($callingfun) = @_; foreach my $a (keys %intAt) { delete($intAt{$a}) if($intAt{$a}{FN} eq $callingfun); } } ##################################### # sub THZ_PrintcurveSVG # plots heat curve #define wl_hr weblink htmlCode {THZ_PrintcurveSVG} # da mettere dentro lo style per funzionare sopra svg { height:200px; width:800px;} #define wl_hr2 weblink htmlCode
wl_hr2
##################################### sub THZ_PrintcurveSVG { my $ret = <<'END'; HC1 heat SetTemp °C outside temperature filtered °C -15 -9 -3 3 9 15 21 15 23 31 39 47 15 23 31 39 47 END my $insideTemp=(split ' ',ReadingsVal("Mythz","sGlobal",14))[81]; $insideTemp="n.a." if ($insideTemp eq "-60"); #in case internal room sensor not connected my $roomSetTemp =(split ' ',ReadingsVal("Mythz","sHC1",0))[21]; $roomSetTemp ="1" if ($roomSetTemp == 0); #division by 0 is bad my $p13GradientHC1 = ReadingsVal("Mythz","p13GradientHC1",0.4); my $heatSetTemp =(split ' ',ReadingsVal("Mythz","sHC1",17))[11]; my $p15RoomInfluenceHC1 = (split ' ',ReadingsVal("Mythz","p15RoomInfluenceHC1",0))[0]; my $outside_tempFiltered =(split ' ',ReadingsVal("Mythz","sGlobal",0))[65]; my $p14LowEndHC1 =(split ' ',ReadingsVal("Mythz","p14LowEndHC1",0))[0]; ############willi data #$insideTemp=24.6; #$roomSetTemp = 21; #$p13GradientHC1 = 0.26; #$heatSetTemp = 21.3; #$p15RoomInfluenceHC1 = 50; #$outside_tempFiltered = 13.1; #$p14LowEndHC1 =1.5; #labels ###################### $ret .= ' --- heat curve' ; $ret .= ' --- working point: outside_tempFiltered='; $ret .= $outside_tempFiltered . ' heatSetTemp=' . $heatSetTemp . ''; #title ###################### $ret .= ''; $ret .= 'roomSetTemp=' . $roomSetTemp . ' p13GradientHC1=' . $p13GradientHC1 . ' p14LowEndHC1=' . $p14LowEndHC1 . ' p15RoomInfluenceHC1=' . $p15RoomInfluenceHC1 . " insideTemp=" . $insideTemp .' '; #equation#################### $insideTemp=$roomSetTemp if ($insideTemp eq "n.a."); my $a= 1 + ($roomSetTemp * (1 + $p13GradientHC1 * 0.87)) + $p14LowEndHC1 + ($p15RoomInfluenceHC1 * $p13GradientHC1 * ($roomSetTemp - $insideTemp) /10); my $b= -14 * $p13GradientHC1 / $roomSetTemp; my $c= -1 * $p13GradientHC1 /75; my $Simul_heatSetTemp; #point ###################### $ret .=''; #curve ###################### $ret .='

THZ

    THZ module: comunicate through serial interface RS232/USB (eg /dev/ttyxx) or through ser2net (e.g 10.0.x.x:5555) with a Tecalor/Stiebel Eltron heatpump.
    Tested on a THZ303/Sol (with serial speed 57600/115200@USB) and a THZ403 (with serial speed 115200) with the same Firmware 4.39.
    Tested on a LWZ404 (with serial speed 115200) with Firmware 5.39.
    Tested on fritzbox, nas-qnap, raspi and macos.
    This module is not working if you have an older firmware; Nevertheless, "parsing" could be easily updated, because now the registers are well described. https://answers.launchpad.net/heatpumpmonitor/+question/100347
    Implemented: read of status parameters and read/write of configuration parameters. A complete description can be found in the 00_THZ wiki http://www.fhemwiki.de/wiki/Tecalor_THZ_Heatpump

    Define
      define <name> THZ <device>

      device can take the same parameters (@baudrate, @directio, TCP/IP, none) like the CUL, e.g 57600 baud or 115200.
      Example: direct connection
        define Mytecalor THZ /dev/ttyUSB0@115200
      or network connection (like via ser2net)
        define Myremotetecalor THZ 192.168.0.244:2323

        define Mythz THZ /dev/ttyUSB0@115200
        attr Mythz interval_sGlobal 300 # internal polling interval 5min
        attr Mythz interval_sHistory 28800 # internal polling interval 8h
        attr Mythz interval_sLast10errors 86400 # internal polling interval 24h
        attr Mythz interval_sSol 86400 # internal polling interval 24h
        attr Mythz interval_sDHW 86400 # internal polling interval 24h
        attr Mythz interval_sHC1 86400 # internal polling interval 24h
        attr Mythz interval_sHC2 86400 # internal polling interval 24h
        define FileLog_Mythz FileLog ./log/Mythz-%Y.log Mythz

      If the attributes interval_allFB and interval_history are not defined (or 0), their internal polling is disabled. Clearly you can also define the polling interval outside the module with the "at" command.
        define Mythz THZ /dev/ttyUSB0@115200
        define atMythzFB at +*00:05:00 {fhem "get Mythz sGlobal","1";;return()}
        define atMythz09 at +*08:00:00 {fhem "get Mythz sHistory","1";;return()}
        define FileLog_Mythz FileLog ./log/Mythz-%Y.log Mythz

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THZ

    THZ Modul: Kommuniziert mittels einem seriellen Interface RS232/USB (z.B. /dev/ttyxx), oder mittels ser2net (z.B. 10.0.x.x:5555) mit einer Tecalor / Stiebel Eltron Wärmepumpe.
    Getestet mit einer Tecalor THZ303/Sol (Serielle Geschwindigkeit 57600/115200@USB) und einer THZ403 (Serielle Geschwindigkeit 115200) mit identischer Firmware 4.39.
    Getestet mit einer Stiebel LWZ404 (Serielle Geschwindigkeit 115200@USB) mit Firmware 5.39.
    Getestet auf FritzBox, nas-qnap, Raspberry Pi and MacOS.
    Dieses Modul funktioniert nicht mit äterer Firmware; Gleichwohl, das "parsing" könnte leicht angepasst werden da die Register gut beschrieben wurden. https://answers.launchpad.net/heatpumpmonitor/+question/100347
    Implementiert: Lesen der Statusinformation sowie Lesen und Schreiben einzelner Einstellungen. Genauere Beschreinung des Modules --> 00_THZ wiki http://www.fhemwiki.de/wiki/Tecalor_THZ_W%C3%A4rmepumpe

    Define
      define <name> THZ <device>

      device kann einige Parameter beinhalten (z.B. @baudrate, @direction, TCP/IP, none) wie das CUL, z.B. 57600 baud oder 115200.
      Beispiel:
      Direkte Verbindung
        define Mytecalor THZ /dev/ttyUSB0@115200
      oder vir Netzwerk (via ser2net)
        define Myremotetecalor THZ 192.168.0.244:2323

        define Mythz THZ /dev/ttyUSB0@115200
        attr Mythz interval_sGlobal 300 # Internes Polling Intervall 5min
        attr Mythz interval_sHistory 28800 # Internes Polling Intervall 8h
        attr Mythz interval_sLast10errors 86400 # Internes Polling Intervall 24h
        attr Mythz interval_sSol 86400 # Internes Polling Intervall 24h
        attr Mythz interval_sDHW 86400 # Internes Polling Intervall 24h
        attr Mythz interval_sHC1 86400 # Internes Polling Intervall 24h
        attr Mythz interval_sHC2 86400 # Internes Polling Intervall 24h
        define FileLog_Mythz FileLog ./log/Mythz-%Y.log Mythz

      Wenn die Attribute interval_allFB und interval_history nicht definiert sind (oder 0), ist das interne Polling deaktiviert. Natürlich kann das Polling auch mit dem "at" Befehl ausserhalb des Moduls definiert werden.
        define Mythz THZ /dev/ttyUSB0@115200
        define atMythzFB at +*00:05:00 {fhem "get Mythz sGlobal","1";;return()}
        define atMythz09 at +*08:00:00 {fhem "get Mythz sHistory","1";;return()}
        define FileLog_Mythz FileLog ./log/Mythz-%Y.log Mythz

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