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boiler.cpp
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boiler.cpp
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/*
* EMS-ESP - https://github.com/emsesp/EMS-ESP
* Copyright 2020 Paul Derbyshire
*
* This program 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 3 of the License, or
* (at your option) any later version.
*
* This program 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.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "boiler.h"
namespace emsesp {
REGISTER_FACTORY(Boiler, EMSdevice::DeviceType::BOILER)
uuid::log::Logger Boiler::logger_{F_(boiler), uuid::log::Facility::CONSOLE};
Boiler::Boiler(uint8_t device_type, int8_t device_id, uint8_t product_id, const char * version, const std::string & name, uint8_t flags, uint8_t brand)
: EMSdevice(device_type, device_id, product_id, version, name, flags, brand) {
// alternative heatsource special messages
if (device_id == EMSdevice::EMS_DEVICE_ID_AM200) {
register_telegram_type(0x54D, F("AmTemperatures"), false, MAKE_PF_CB(process_amTempMessage));
register_telegram_type(0x54E, F("AmStatus"), false, MAKE_PF_CB(process_amStatusMessage));
register_telegram_type(0x54F, F("AmCommand"), false, MAKE_PF_CB(process_amCommandMessage)); // not broadcasted, but actually not used
register_telegram_type(0x550, F("AmSettings"), false, MAKE_PF_CB(process_amSettingMessage));
register_device_value(DeviceValueTAG::TAG_AHS, &curFlowTemp_, DeviceValueType::SHORT, FL_(div10), FL_(sysFlowTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_AHS, &retTemp_, DeviceValueType::SHORT, FL_(div10), FL_(sysRetTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_AHS, &aFlowTemp_, DeviceValueType::SHORT, FL_(div10), FL_(aFlowTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_AHS, &aRetTemp_, DeviceValueType::SHORT, FL_(div10), FL_(aRetTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_AHS, &cylTopTemp_, DeviceValueType::SHORT, FL_(div10), FL_(aCylTopTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_AHS, &cylCenterTemp_, DeviceValueType::SHORT, FL_(div10), FL_(aCylCenterTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_AHS, &cylBottomTemp_, DeviceValueType::SHORT, FL_(div10), FL_(aCylBottomTemp), DeviceValueUOM::DEGREES);
// register_device_value(DeviceValueTAG::TAG_AHS, &valveByPass_, DeviceValueType::BOOL, nullptr, FL_(valveByPass), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_AHS, &valveBuffer_, DeviceValueType::UINT, nullptr, FL_(valveBuffer), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_AHS, &valveReturn_, DeviceValueType::UINT, nullptr, FL_(valveReturn), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_AHS, &aPumpMod_, DeviceValueType::UINT, nullptr, FL_(aPumpMod), DeviceValueUOM::PERCENT);
// register_device_value(DeviceValueTAG::TAG_AHS, &heatSource_, DeviceValueType::BOOL, nullptr, FL_(heatSource), DeviceValueUOM::NONE);
return;
}
// cascaded heatingsources, only some values per individual heatsource (hs)
if (device_id != EMSdevice::EMS_DEVICE_ID_BOILER) {
uint8_t hs = device_id - EMSdevice::EMS_DEVICE_ID_BOILER_1; // heating source id, count from 0
// Runtime of each heatingsource in 0x06DC, ff
register_telegram_type(0x6DC + hs, F("CascadeMessage"), false, MAKE_PF_CB(process_CascadeMessage));
register_device_value(DeviceValueTAG::TAG_HS1 + hs, &burnWorkMin_, DeviceValueType::TIME, nullptr, FL_(burnWorkMin), DeviceValueUOM::MINUTES);
// selBurnpower in D2 and E4
// register_telegram_type(0xD2, F("CascadePowerMessage"), false, MAKE_PF_CB(process_CascadePowerMessage));
// individual Flowtemps and powervalues for each heatingsource in E4
register_telegram_type(0xE4, F("UBAMonitorFastPlus"), false, MAKE_PF_CB(process_UBAMonitorFastPlus));
register_device_value(DeviceValueTAG::TAG_HS1 + hs, &selFlowTemp_, DeviceValueType::UINT, nullptr, FL_(selFlowTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_HS1 + hs, &selBurnPow_, DeviceValueType::UINT, nullptr, FL_(selBurnPow), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_HS1 + hs, &curFlowTemp_, DeviceValueType::USHORT, FL_(div10), FL_(curFlowTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_HS1 + hs, &curBurnPow_, DeviceValueType::UINT, nullptr, FL_(curBurnPow), DeviceValueUOM::PERCENT);
return;
}
// register values for master boiler/cascade module
// reserve_telegram_functions(25); // reserve some space for the telegram registries, to avoid memory fragmentation
// the telegram handlers...
// common for all boilers
register_telegram_type(0xBF, F("ErrorMessage"), false, MAKE_PF_CB(process_ErrorMessage));
register_telegram_type(0x10, F("UBAErrorMessage1"), false, MAKE_PF_CB(process_UBAErrorMessage));
register_telegram_type(0x11, F("UBAErrorMessage2"), false, MAKE_PF_CB(process_UBAErrorMessage));
register_telegram_type(0xC2, F("UBAErrorMessage3"), false, MAKE_PF_CB(process_UBAErrorMessage2));
register_telegram_type(0x14, F("UBATotalUptime"), true, MAKE_PF_CB(process_UBATotalUptime));
register_telegram_type(0x15, F("UBAMaintenanceData"), false, MAKE_PF_CB(process_UBAMaintenanceData));
register_telegram_type(0x1C, F("UBAMaintenanceStatus"), false, MAKE_PF_CB(process_UBAMaintenanceStatus));
// EMS1.0 and maybe EMS+?
register_telegram_type(0x18, F("UBAMonitorFast"), false, MAKE_PF_CB(process_UBAMonitorFast));
register_telegram_type(0x19, F("UBAMonitorSlow"), false, MAKE_PF_CB(process_UBAMonitorSlow));
register_telegram_type(0x1A, F("UBASetPoints"), false, MAKE_PF_CB(process_UBASetPoints));
register_telegram_type(0x35, F("UBAFlags"), false, MAKE_PF_CB(process_UBAFlags));
// only EMS 1.0
register_telegram_type(0x16, F("UBAParameters"), true, MAKE_PF_CB(process_UBAParameters));
register_telegram_type(0x33, F("UBAParameterWW"), true, MAKE_PF_CB(process_UBAParameterWW));
register_telegram_type(0x34, F("UBAMonitorWW"), false, MAKE_PF_CB(process_UBAMonitorWW));
// not ems1.0, but HT3
if (model() != EMSdevice::EMS_DEVICE_FLAG_EMS) {
register_telegram_type(0x26, F("UBASettingsWW"), true, MAKE_PF_CB(process_UBASettingsWW));
register_telegram_type(0x2A, F("MC110Status"), false, MAKE_PF_CB(process_MC110Status));
}
// only EMS+
if (model() != EMSdevice::EMS_DEVICE_FLAG_EMS && model() != EMSdevice::EMS_DEVICE_FLAG_HT3 && model() != EMSdevice::EMS_DEVICE_FLAG_HYBRID) {
register_telegram_type(0xD1, F("UBAOutdoorTemp"), false, MAKE_PF_CB(process_UBAOutdoorTemp));
register_telegram_type(0xE3, F("UBAMonitorSlowPlus2"), false, MAKE_PF_CB(process_UBAMonitorSlowPlus2));
register_telegram_type(0xE4, F("UBAMonitorFastPlus"), false, MAKE_PF_CB(process_UBAMonitorFastPlus));
register_telegram_type(0xE5, F("UBAMonitorSlowPlus"), false, MAKE_PF_CB(process_UBAMonitorSlowPlus));
register_telegram_type(0xE6, F("UBAParametersPlus"), true, MAKE_PF_CB(process_UBAParametersPlus));
register_telegram_type(0xE9, F("UBAMonitorWWPlus"), false, MAKE_PF_CB(process_UBAMonitorWWPlus));
register_telegram_type(0xEA, F("UBAParameterWWPlus"), true, MAKE_PF_CB(process_UBAParameterWWPlus));
}
if (model() == EMSdevice::EMS_DEVICE_FLAG_HEATPUMP) {
register_telegram_type(0x494, F("UBAEnergySupplied"), false, MAKE_PF_CB(process_UBAEnergySupplied));
register_telegram_type(0x495, F("UBAInformation"), false, MAKE_PF_CB(process_UBAInformation));
register_telegram_type(0x48D, F("HpPower"), true, MAKE_PF_CB(process_HpPower));
register_telegram_type(0x48F, F("HpOutdoor"), false, MAKE_PF_CB(process_HpOutdoor));
register_telegram_type(0x48A, F("HpPool"), true, MAKE_PF_CB(process_HpPool));
}
/*
* Hybrid heatpump with telegram 0xBB is readable and writeable in boiler and thermostat
* thermostat always overwrites settings in boiler
* enable settings here if no thermostat is used in system
*
if (model() == EMSdevice::EMS_DEVICE_FLAG_HYBRID) {
register_telegram_type(0xBB, F("HybridHp"), true, MAKE_PF_CB(process_HybridHp));
}
*/
// reset is a command uses a dummy variable which is always zero, shown as blank, but provides command enum options
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &reset_, DeviceValueType::CMD, FL_(enum_reset), FL_(reset), DeviceValueUOM::NONE, MAKE_CF_CB(set_reset));
has_update(reset_, 0);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &heatingActive_, DeviceValueType::BOOL, nullptr, FL_(heatingActive), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &tapwaterActive_, DeviceValueType::BOOL, nullptr, FL_(tapwaterActive), DeviceValueUOM::NONE);
register_device_value(
DeviceValueTAG::TAG_DEVICE_DATA, &selFlowTemp_, DeviceValueType::UINT, nullptr, FL_(selFlowTemp), DeviceValueUOM::DEGREES, MAKE_CF_CB(set_flow_temp));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&selBurnPow_,
DeviceValueType::UINT,
nullptr,
FL_(selBurnPow),
DeviceValueUOM::PERCENT,
MAKE_CF_CB(set_burn_power),
0,
254);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &heatingPumpMod_, DeviceValueType::UINT, nullptr, FL_(heatingPumpMod), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &heatingPump2Mod_, DeviceValueType::UINT, nullptr, FL_(heatingPump2Mod), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &outdoorTemp_, DeviceValueType::SHORT, FL_(div10), FL_(outdoorTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &curFlowTemp_, DeviceValueType::USHORT, FL_(div10), FL_(curFlowTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &retTemp_, DeviceValueType::USHORT, FL_(div10), FL_(retTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &switchTemp_, DeviceValueType::USHORT, FL_(div10), FL_(switchTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &sysPress_, DeviceValueType::UINT, FL_(div10), FL_(sysPress), DeviceValueUOM::BAR);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &boilTemp_, DeviceValueType::USHORT, FL_(div10), FL_(boilTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &exhaustTemp_, DeviceValueType::USHORT, FL_(div10), FL_(exhaustTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &burnGas_, DeviceValueType::BOOL, nullptr, FL_(burnGas), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &burnGas2_, DeviceValueType::BOOL, nullptr, FL_(burnGas2), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &flameCurr_, DeviceValueType::USHORT, FL_(div10), FL_(flameCurr), DeviceValueUOM::UA);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &heatingPump_, DeviceValueType::BOOL, nullptr, FL_(heatingPump), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &fanWork_, DeviceValueType::BOOL, nullptr, FL_(fanWork), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &ignWork_, DeviceValueType::BOOL, nullptr, FL_(ignWork), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &oilPreHeat_, DeviceValueType::BOOL, nullptr, FL_(oilPreHeat), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&heatingActivated_,
DeviceValueType::BOOL,
nullptr,
FL_(heatingActivated),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_heating_activated));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&heatingTemp_,
DeviceValueType::UINT,
nullptr,
FL_(heatingTemp),
DeviceValueUOM::DEGREES,
MAKE_CF_CB(set_heating_temp));
register_device_value(
DeviceValueTAG::TAG_DEVICE_DATA, &pumpModMax_, DeviceValueType::UINT, nullptr, FL_(pumpModMax), DeviceValueUOM::PERCENT, MAKE_CF_CB(set_max_pump));
register_device_value(
DeviceValueTAG::TAG_DEVICE_DATA, &pumpModMin_, DeviceValueType::UINT, nullptr, FL_(pumpModMin), DeviceValueUOM::PERCENT, MAKE_CF_CB(set_min_pump));
register_device_value(
DeviceValueTAG::TAG_DEVICE_DATA, &pumpDelay_, DeviceValueType::UINT, nullptr, FL_(pumpDelay), DeviceValueUOM::MINUTES, MAKE_CF_CB(set_pump_delay));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&burnMinPeriod_,
DeviceValueType::UINT,
nullptr,
FL_(burnMinPeriod),
DeviceValueUOM::MINUTES,
MAKE_CF_CB(set_burn_period));
register_device_value(
DeviceValueTAG::TAG_DEVICE_DATA, &burnMinPower_, DeviceValueType::UINT, nullptr, FL_(burnMinPower), DeviceValueUOM::PERCENT, MAKE_CF_CB(set_min_power));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&burnMaxPower_,
DeviceValueType::UINT,
nullptr,
FL_(burnMaxPower),
DeviceValueUOM::PERCENT,
MAKE_CF_CB(set_max_power),
0,
254);
register_device_value(
DeviceValueTAG::TAG_DEVICE_DATA, &boilHystOn_, DeviceValueType::INT, nullptr, FL_(boilHystOn), DeviceValueUOM::DEGREES_R, MAKE_CF_CB(set_hyst_on));
register_device_value(
DeviceValueTAG::TAG_DEVICE_DATA, &boilHystOff_, DeviceValueType::INT, nullptr, FL_(boilHystOff), DeviceValueUOM::DEGREES_R, MAKE_CF_CB(set_hyst_off));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &setFlowTemp_, DeviceValueType::UINT, nullptr, FL_(setFlowTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &setBurnPow_, DeviceValueType::UINT, nullptr, FL_(setBurnPow), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &curBurnPow_, DeviceValueType::UINT, nullptr, FL_(curBurnPow), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &burnStarts_, DeviceValueType::ULONG, nullptr, FL_(burnStarts), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &burnWorkMin_, DeviceValueType::TIME, nullptr, FL_(burnWorkMin), DeviceValueUOM::MINUTES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &burn2WorkMin_, DeviceValueType::TIME, nullptr, FL_(burn2WorkMin), DeviceValueUOM::MINUTES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &heatWorkMin_, DeviceValueType::TIME, nullptr, FL_(heatWorkMin), DeviceValueUOM::MINUTES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &UBAuptime_, DeviceValueType::TIME, nullptr, FL_(UBAuptime), DeviceValueUOM::MINUTES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &lastCode_, DeviceValueType::STRING, nullptr, FL_(lastCode), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &serviceCode_, DeviceValueType::STRING, nullptr, FL_(serviceCode), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &serviceCodeNumber_, DeviceValueType::USHORT, nullptr, FL_(serviceCodeNumber), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &maintenanceMessage_, DeviceValueType::STRING, nullptr, FL_(maintenanceMessage), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&maintenanceType_,
DeviceValueType::ENUM,
FL_(enum_off_time_date_manual),
FL_(maintenanceType),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_maintenance));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&maintenanceTime_,
DeviceValueType::USHORT,
nullptr,
FL_(maintenanceTime),
DeviceValueUOM::HOURS,
MAKE_CF_CB(set_maintenancetime));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&maintenanceDate_,
DeviceValueType::STRING,
FL_(tpl_date),
FL_(maintenanceDate),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_maintenancedate));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&emergencyOps_,
DeviceValueType::BOOL,
nullptr,
FL_(emergencyOps),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_emergency_ops));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&emergencyTemp_,
DeviceValueType::UINT,
nullptr,
FL_(emergencyTemp),
DeviceValueUOM::DEGREES,
MAKE_CF_CB(set_emergency_temp),
15,
70);
/*
* Hybrid heatpump with telegram 0xBB is readable and writeable in boiler and thermostat
* thermostat always overwrites settings in boiler
* enable settings here if no thermostat is used in system
*
// Hybrid Heatpump
if (model() == EMSdevice::EMS_DEVICE_FLAG_HYBRID) {
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&hybridStrategy_,
DeviceValueType::ENUM,
FL_(enum_hybridStrategy),
FL_(hybridStrategy),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_hybridStrategy));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&switchOverTemp_,
DeviceValueType::INT,
nullptr,
FL_(switchOverTemp),
DeviceValueUOM::DEGREES,
MAKE_CF_CB(set_switchOverTemp),
-20,
20);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&energyCostRatio_,
DeviceValueType::UINT,
FL_(div10),
FL_(energyCostRatio),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_energyCostRatio),
0,
20);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&fossileFactor_,
DeviceValueType::UINT,
FL_(div10),
FL_(fossileFactor),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_fossileFactor),
0,
5);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&electricFactor_,
DeviceValueType::UINT,
FL_(div10),
FL_(electricFactor),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_electricFactor),
0,
5);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&delayBoiler_,
DeviceValueType::UINT,
nullptr,
FL_(delayBoiler),
DeviceValueUOM::MINUTES,
MAKE_CF_CB(set_delayBoiler),
5,
120);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&tempDiffBoiler_,
DeviceValueType::UINT,
nullptr,
FL_(tempDiffBoiler),
DeviceValueUOM::DEGREES_R,
MAKE_CF_CB(set_tempDiffBoiler),
1,
99);
}
*/
// heatpump info
if (model() == EMS_DEVICE_FLAG_HEATPUMP) {
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &upTimeControl_, DeviceValueType::TIME, FL_(div60), FL_(upTimeControl), DeviceValueUOM::MINUTES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &upTimeCompHeating_, DeviceValueType::TIME, FL_(div60), FL_(upTimeCompHeating), DeviceValueUOM::MINUTES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &upTimeCompCooling_, DeviceValueType::TIME, FL_(div60), FL_(upTimeCompCooling), DeviceValueUOM::MINUTES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &upTimeCompWw_, DeviceValueType::TIME, FL_(div60), FL_(upTimeCompWw), DeviceValueUOM::MINUTES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &upTimeCompPool_, DeviceValueType::TIME, FL_(div60), FL_(upTimeCompPool), DeviceValueUOM::MINUTES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &totalCompStarts_, DeviceValueType::ULONG, nullptr, FL_(totalCompStarts), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &heatingStarts_, DeviceValueType::ULONG, nullptr, FL_(heatingStarts), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &coolingStarts_, DeviceValueType::ULONG, nullptr, FL_(coolingStarts), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &wwStarts2_, DeviceValueType::ULONG, nullptr, FL_(wwStarts2), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &poolStarts_, DeviceValueType::ULONG, nullptr, FL_(poolStarts), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &nrgConsTotal_, DeviceValueType::ULONG, nullptr, FL_(nrgConsTotal), DeviceValueUOM::KWH);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &nrgConsCompTotal_, DeviceValueType::ULONG, nullptr, FL_(nrgConsCompTotal), DeviceValueUOM::KWH);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &nrgConsCompHeating_, DeviceValueType::ULONG, nullptr, FL_(nrgConsCompHeating), DeviceValueUOM::KWH);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &nrgConsCompWw_, DeviceValueType::ULONG, nullptr, FL_(nrgConsCompWw), DeviceValueUOM::KWH);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &nrgConsCompCooling_, DeviceValueType::ULONG, nullptr, FL_(nrgConsCompCooling), DeviceValueUOM::KWH);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &nrgConsCompPool_, DeviceValueType::ULONG, nullptr, FL_(nrgConsCompPool), DeviceValueUOM::KWH);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&auxElecHeatNrgConsTotal_,
DeviceValueType::ULONG,
nullptr,
FL_(auxElecHeatNrgConsTotal),
DeviceValueUOM::KWH);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&auxElecHeatNrgConsHeating_,
DeviceValueType::ULONG,
nullptr,
FL_(auxElecHeatNrgConsHeating),
DeviceValueUOM::KWH);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&auxElecHeatNrgConsWW_,
DeviceValueType::ULONG,
nullptr,
FL_(auxElecHeatNrgConsWW),
DeviceValueUOM::KWH);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&auxElecHeatNrgConsPool_,
DeviceValueType::ULONG,
nullptr,
FL_(auxElecHeatNrgConsPool),
DeviceValueUOM::KWH);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &nrgSuppTotal_, DeviceValueType::ULONG, nullptr, FL_(nrgSuppTotal), DeviceValueUOM::KWH);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &nrgSuppHeating_, DeviceValueType::ULONG, nullptr, FL_(nrgSuppHeating), DeviceValueUOM::KWH);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &nrgSuppWw_, DeviceValueType::ULONG, nullptr, FL_(nrgSuppWw), DeviceValueUOM::KWH);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &nrgSuppCooling_, DeviceValueType::ULONG, nullptr, FL_(nrgSuppCooling), DeviceValueUOM::KWH);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &nrgSuppPool_, DeviceValueType::ULONG, nullptr, FL_(nrgSuppPool), DeviceValueUOM::KWH);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpPower_, DeviceValueType::UINT, FL_(div10), FL_(hpPower), DeviceValueUOM::KW);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpCompOn_, DeviceValueType::BOOL, nullptr, FL_(hpCompOn), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpActivity_, DeviceValueType::ENUM, FL_(enum_hpactivity), FL_(hpActivity), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpHeatingOn_, DeviceValueType::BOOL, nullptr, FL_(hpHeatingOn), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpCoolingOn_, DeviceValueType::BOOL, nullptr, FL_(hpCoolingOn), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpWwOn_, DeviceValueType::BOOL, nullptr, FL_(hpWwOn), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpPoolOn_, DeviceValueType::BOOL, nullptr, FL_(hpPoolOn), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpBrinePumpSpd_, DeviceValueType::UINT, nullptr, FL_(hpBrinePumpSpd), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpSwitchValve_, DeviceValueType::BOOL, nullptr, FL_(hpSwitchValve), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpCompSpd_, DeviceValueType::UINT, nullptr, FL_(hpCompSpd), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpCircSpd_, DeviceValueType::UINT, nullptr, FL_(hpCircSpd), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpBrineIn_, DeviceValueType::SHORT, FL_(div10), FL_(hpBrineIn), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpBrineOut_, DeviceValueType::SHORT, FL_(div10), FL_(hpBrineOut), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpSuctionGas_, DeviceValueType::SHORT, FL_(div10), FL_(hpSuctionGas), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpHotGas_, DeviceValueType::SHORT, FL_(div10), FL_(hpHotGas), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpTc0_, DeviceValueType::SHORT, FL_(div10), FL_(hpTc0), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpTc1_, DeviceValueType::SHORT, FL_(div10), FL_(hpTc1), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpTc3_, DeviceValueType::SHORT, FL_(div10), FL_(hpTc3), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpTr3_, DeviceValueType::SHORT, FL_(div10), FL_(hpTr3), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpTr4_, DeviceValueType::SHORT, FL_(div10), FL_(hpTr4), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpTr5_, DeviceValueType::SHORT, FL_(div10), FL_(hpTr5), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpTr6_, DeviceValueType::SHORT, FL_(div10), FL_(hpTr6), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpTr7_, DeviceValueType::SHORT, FL_(div10), FL_(hpTr7), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpTl2_, DeviceValueType::SHORT, FL_(div10), FL_(hpTl2), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpPl1_, DeviceValueType::SHORT, FL_(div10), FL_(hpPl1), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &hpPh1_, DeviceValueType::SHORT, FL_(div10), FL_(hpPh1), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&poolSetTemp_,
DeviceValueType::UINT,
FL_(div2),
FL_(poolSetTemp),
DeviceValueUOM::DEGREES,
MAKE_CF_CB(set_pool_temp));
}
// dhw - DEVICE_DATA_ww topic
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW,
&wwTapActivated_,
DeviceValueType::BOOL,
nullptr,
FL_(wwtapactivated),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_tapwarmwater_activated));
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwSetTemp_, DeviceValueType::UINT, nullptr, FL_(wwSetTemp), DeviceValueUOM::DEGREES);
register_device_value(
DeviceValueTAG::TAG_BOILER_DATA_WW, &wwSelTemp_, DeviceValueType::UINT, nullptr, FL_(wwSelTemp), DeviceValueUOM::DEGREES, MAKE_CF_CB(set_ww_temp));
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW,
&wwSelTempLow_,
DeviceValueType::UINT,
nullptr,
FL_(wwSelTempLow),
DeviceValueUOM::DEGREES,
MAKE_CF_CB(set_ww_temp_low));
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwSelTempOff_, DeviceValueType::UINT, nullptr, FL_(wwSelTempOff), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW,
&wwSelTempSingle_,
DeviceValueType::UINT,
nullptr,
FL_(wwSelTempSingle),
DeviceValueUOM::DEGREES,
MAKE_CF_CB(set_ww_temp_single));
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwType_, DeviceValueType::ENUM, FL_(enum_flow), FL_(wwType), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW,
&wwComfort_,
DeviceValueType::ENUM,
FL_(enum_comfort),
FL_(wwComfort),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_ww_mode));
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW,
&wwComfort1_,
DeviceValueType::ENUM,
FL_(enum_comfort1),
FL_(wwComfort1),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_ww_mode));
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW,
&wwFlowTempOffset_,
DeviceValueType::UINT,
nullptr,
FL_(wwFlowTempOffset),
DeviceValueUOM::DEGREES_R,
MAKE_CF_CB(set_ww_flowTempOffset),
0,
45);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW,
&wwChargeOptimization_,
DeviceValueType::BOOL,
nullptr,
FL_(wwChargeOptimization),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_ww_chargeOptimization));
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW,
&wwMaxPower_,
DeviceValueType::UINT,
nullptr,
FL_(wwMaxPower),
DeviceValueUOM::PERCENT,
MAKE_CF_CB(set_ww_maxpower),
0,
254);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW,
&wwMaxTemp_,
DeviceValueType::UINT,
nullptr,
FL_(wwMaxTemp),
DeviceValueUOM::DEGREES,
MAKE_CF_CB(set_ww_maxtemp),
0,
70);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW,
&wwCircPump_,
DeviceValueType::BOOL,
nullptr,
FL_(wwCircPump),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_ww_circulation_pump));
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwChargeType_, DeviceValueType::ENUM, FL_(enum_charge), FL_(wwChargeType), DeviceValueUOM::NONE);
register_device_value(
DeviceValueTAG::TAG_BOILER_DATA_WW, &wwHystOn_, DeviceValueType::INT, nullptr, FL_(wwHystOn), DeviceValueUOM::DEGREES_R, MAKE_CF_CB(set_ww_hyst_on));
register_device_value(
DeviceValueTAG::TAG_BOILER_DATA_WW, &wwHystOff_, DeviceValueType::INT, nullptr, FL_(wwHystOff), DeviceValueUOM::DEGREES_R, MAKE_CF_CB(set_ww_hyst_off));
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW,
&wwDisinfectionTemp_,
DeviceValueType::UINT,
nullptr,
FL_(wwDisinfectionTemp),
DeviceValueUOM::DEGREES,
MAKE_CF_CB(set_ww_disinfect_temp));
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW,
&wwCircMode_,
DeviceValueType::ENUM,
FL_(enum_freq),
FL_(wwCircMode),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_ww_circulation_mode));
register_device_value(
DeviceValueTAG::TAG_BOILER_DATA_WW, &wwCirc_, DeviceValueType::BOOL, nullptr, FL_(wwCirc), DeviceValueUOM::NONE, MAKE_CF_CB(set_ww_circulation));
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwCurTemp_, DeviceValueType::USHORT, FL_(div10), FL_(wwCurTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwCurTemp2_, DeviceValueType::USHORT, FL_(div10), FL_(wwCurTemp2), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwCurFlow_, DeviceValueType::UINT, FL_(div10), FL_(wwCurFlow), DeviceValueUOM::LMIN);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwStorageTemp1_, DeviceValueType::USHORT, FL_(div10), FL_(wwStorageTemp1), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwStorageTemp2_, DeviceValueType::USHORT, FL_(div10), FL_(wwStorageTemp2), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW,
&wwActivated_,
DeviceValueType::BOOL,
nullptr,
FL_(wwActivated),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_ww_activated));
register_device_value(
DeviceValueTAG::TAG_BOILER_DATA_WW, &wwOneTime_, DeviceValueType::BOOL, nullptr, FL_(wwOneTime), DeviceValueUOM::NONE, MAKE_CF_CB(set_ww_onetime));
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW,
&wwDisinfect_,
DeviceValueType::BOOL,
nullptr,
FL_(wwDisinfecting),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_ww_disinfect));
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwCharging_, DeviceValueType::BOOL, nullptr, FL_(wwCharging), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwRecharging_, DeviceValueType::BOOL, nullptr, FL_(wwRecharging), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwTempOK_, DeviceValueType::BOOL, nullptr, FL_(wwTempOK), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwActive_, DeviceValueType::BOOL, nullptr, FL_(wwActive), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &ww3wayValve_, DeviceValueType::BOOL, nullptr, FL_(ww3wayValve), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwSetPumpPower_, DeviceValueType::UINT, nullptr, FL_(wwSetPumpPower), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwMixerTemp_, DeviceValueType::USHORT, FL_(div10), FL_(wwMixerTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwCylMiddleTemp_, DeviceValueType::USHORT, FL_(div10), FL_(wwCylMiddleTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwStarts_, DeviceValueType::ULONG, nullptr, FL_(wwStarts), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_BOILER_DATA_WW, &wwWorkM_, DeviceValueType::TIME, nullptr, FL_(wwWorkM), DeviceValueUOM::MINUTES);
// fetch some initial data
EMSESP::send_read_request(0x10, device_id); // read last errorcode on start (only published on errors)
EMSESP::send_read_request(0x11, device_id); // read last errorcode on start (only published on errors)
EMSESP::send_read_request(0x15, device_id); // read maintenace data on start (only published on change)
EMSESP::send_read_request(0x1C, device_id); // read maintenace status on start (only published on change)
EMSESP::send_read_request(0xC2, device_id); // read last errorcode on start (only published on errors)
}
// Check if hot tap water or heating is active
// Values will always be posted first time as heatingActive_ and tapwaterActive_ will have values EMS_VALUE_BOOL_NOTSET
void Boiler::check_active(const bool force) {
if (!Helpers::hasValue(boilerState_)) {
return;
}
bool b;
uint8_t val;
// check if heating is active, bits 2 and 4 must be set
b = ((boilerState_ & 0x09) == 0x09);
val = b ? EMS_VALUE_BOOL_ON : EMS_VALUE_BOOL_OFF;
if (heatingActive_ != val || force) {
heatingActive_ = val;
char s[7];
Mqtt::publish(F_(heating_active), Helpers::render_boolean(s, b));
}
// check if we can use tapactivated in flow systems
if ((wwType_ == 1) && !Helpers::hasValue(wwTapActivated_, EMS_VALUE_BOOL)) {
wwTapActivated_ = 1;
}
// check if tap water is active, bits 1 and 4 must be set
// also check if there is a flowsensor and flow-type
static bool flowsensor = false;
if (Helpers::hasValue(wwCurFlow_) && (wwCurFlow_ > 0) && (wwType_ == 1)) {
flowsensor = true;
}
if (flowsensor) {
b = ((wwCurFlow_ > 0) && ((boilerState_ & 0x0A) == 0x0A));
} else {
b = ((boilerState_ & 0x0A) == 0x0A);
}
val = b ? EMS_VALUE_BOOL_ON : EMS_VALUE_BOOL_OFF;
if (tapwaterActive_ != val || force) {
tapwaterActive_ = val;
char s[7];
Mqtt::publish(F_(tapwater_active), Helpers::render_boolean(s, b));
EMSESP::tap_water_active(b); // let EMS-ESP know, used in the Shower class
}
}
// 0x18
void Boiler::process_UBAMonitorFast(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, selFlowTemp_, 0);
has_update(telegram, curFlowTemp_, 1);
has_update(telegram, selBurnPow_, 3); // burn power max setting
has_update(telegram, curBurnPow_, 4);
has_update(telegram, boilerState_, 5);
has_bitupdate(telegram, burnGas_, 7, 0);
has_bitupdate(telegram, burnGas2_, 7, 1);
has_bitupdate(telegram, fanWork_, 7, 2);
has_bitupdate(telegram, ignWork_, 7, 3);
has_bitupdate(telegram, oilPreHeat_, 7, 4);
has_bitupdate(telegram, heatingPump_, 7, 5);
has_bitupdate(telegram, ww3wayValve_, 7, 6);
has_bitupdate(telegram, wwCirc_, 7, 7);
// dhw storage sensors (if present)
// wwStorageTemp2 is also used by some brands as the boiler temperature - see https://github.com/emsesp/EMS-ESP/issues/206
has_update(telegram, wwStorageTemp1_, 9); // 0x8300 if not available
has_update(telegram, wwStorageTemp2_, 11); // 0x8000 if not available - this is boiler temp
has_update(telegram, retTemp_, 13);
has_update(telegram, flameCurr_, 15);
// system pressure. FF means missing
has_update(telegram, sysPress_, 17); // is *10
// read the service code / installation status as appears on the display
if ((telegram->message_length > 18) && (telegram->offset == 0)) {
char serviceCode[4];
telegram->read_value(serviceCode[0], 18);
serviceCode[0] = (serviceCode[0] == (char)0xF0) ? '~' : serviceCode[0];
telegram->read_value(serviceCode[1], 19);
serviceCode[2] = '\0'; // null terminate string
has_update(serviceCode_, serviceCode, sizeof(serviceCode_));
}
has_update(telegram, serviceCodeNumber_, 20);
check_active(); // do a quick check to see if the hot water or heating is active
}
/*
* UBATotalUptime - type 0x14 - total uptime
* received only after requested (not broadcasted)
*/
void Boiler::process_UBATotalUptime(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, UBAuptime_, 0, 3); // force to 3 bytes
}
/*
* UBAParameters - type 0x16
* data: FF 5A 64 00 0A FA 0F 02 06 64 64 02 08 F8 0F 0F 0F 0F 1E 05 04 09 09 00 28 00 3C
*/
void Boiler::process_UBAParameters(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, heatingActivated_, 0);
has_update(telegram, heatingTemp_, 1);
has_update(telegram, burnMaxPower_, 2);
has_update(telegram, burnMinPower_, 3);
has_update(telegram, boilHystOff_, 4);
has_update(telegram, boilHystOn_, 5);
has_update(telegram, burnMinPeriod_, 6);
//has_update(telegram, pumpType_, 7); // 0=off, 02=?
has_update(telegram, pumpDelay_, 8);
has_update(telegram, pumpModMax_, 9);
has_update(telegram, pumpModMin_, 10);
}
/*
* UBASettingsWW - type 0x26 - max power on offset 7, #740
* Boiler(0x08) -> Me(0x0B), ?(0x26), data: 01 05 00 0F 00 1E 58 5A
*/
void Boiler::process_UBASettingsWW(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, wwMaxPower_, 7);
}
// 0x33
// Boiler(0x08) -> Me(0x0B), UBAParameterWW(0x33), data: 08 FF 30 FB FF 28 FF 07 46 00 00
void Boiler::process_UBAParameterWW(std::shared_ptr<const Telegram> telegram) {
// has_bitupdate(telegram, wwEquipt_,0,3); // 8=boiler has ww
has_update(telegram, wwActivated_, 1); // 0xFF means on
has_update(telegram, wwSelTemp_, 2);
has_update(telegram, wwHystOn_, 3); // Hyst on (default -5)
has_update(telegram, wwHystOff_, 4); // Hyst off (default -1)
has_update(telegram, wwFlowTempOffset_, 5); // default 40
has_update(telegram, wwCircPump_, 6); // 0xFF means on
has_update(telegram, wwCircMode_, 7); // 1=1x3min 6=6x3min 7=continuous
has_update(telegram, wwDisinfectionTemp_, 8);
has_bitupdate(telegram, wwChargeType_, 10, 0); // 0 = charge pump, 0xff = 3-way valve
uint8_t wwComfort = EMS_VALUE_UINT_NOTSET;
if (telegram->read_value(wwComfort, 9)) {
if (wwComfort == 0) {
wwComfort = 0; // Hot
} else if (wwComfort == 0xD8) {
wwComfort = 1; // Eco
} else if (wwComfort == 0xEC) {
wwComfort = 2; // Intelligent
} else {
wwComfort = EMS_VALUE_UINT_NOTSET;
}
has_update(wwComfort_, wwComfort);
}
}
/*
* UBAMonitorWW - type 0x34 - dhw monitor. 19 bytes long
* received every 10 seconds
* Boiler(0x08) -> Me(0x0B), UBAMonitorWW(0x34), data: 30 01 BA 7D 00 21 00 00 03 00 01 22 2B 00 19 5B
*/
void Boiler::process_UBAMonitorWW(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, wwSetTemp_, 0);
has_update(telegram, wwCurTemp_, 1);
has_update(telegram, wwCurTemp2_, 3);
has_update(telegram, wwType_, 8);
has_update(telegram, wwCurFlow_, 9);
has_update(telegram, wwWorkM_, 10, 3); // force to 3 bytes
has_update(telegram, wwStarts_, 13, 3); // force to 3 bytes
has_bitupdate(telegram, wwOneTime_, 5, 1);
has_bitupdate(telegram, wwDisinfect_, 5, 2);
has_bitupdate(telegram, wwCharging_, 5, 3);
has_bitupdate(telegram, wwRecharging_, 5, 4);
has_bitupdate(telegram, wwTempOK_, 5, 5);
has_bitupdate(telegram, wwActive_, 5, 6);
}
/*
* UBAMonitorFastPlus - type 0xE4 - central heating monitor EMS+
* temperatures at 7 and 23 always identical
+ * Bosch Logamax Plus GB122: issue #620
+ * 88 00 E4 00 00 2D 2D 00 00 C9 34 02 21 64 3D 05 02 01 DE 00 00 00 00 03 62 14 00 02 21 00 00 00 00 00 00 00 2B 2B 83
+ * GB125/Logamatic MC110: issue #650: add retTemp & sysPress
+ * 08 00 E4 00 10 20 2D 48 00 C8 38 02 37 3C 27 03 00 00 00 00 00 01 7B 01 8F 11 00 02 37 80 00 02 1B 80 00 7F FF 80 00
*/
void Boiler::process_UBAMonitorFastPlus(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, selFlowTemp_, 6);
has_bitupdate(telegram, burnGas_, 11, 0);
//has_bitupdate(telegram, heatingPump_, 11, 1); // heating active? see SlowPlus
has_bitupdate(telegram, ww3wayValve_, 11, 2);
has_update(telegram, curBurnPow_, 10);
has_update(telegram, selBurnPow_, 9);
has_update(telegram, curFlowTemp_, 7);
has_update(telegram, flameCurr_, 19);
has_update(telegram, retTemp_, 17); // can be 0 if no sensor, handled in export_values
has_update(telegram, sysPress_, 21);
//has_update(telegram, temperatur_, 13); // unknown temperature
//has_update(telegram, temperatur_, 27); // unknown temperature
// read 3 char service code / installation status as appears on the display
if ((telegram->message_length > 3) && (telegram->offset == 0)) {
char serviceCode[4] = {0};
telegram->read_value(serviceCode[0], 1);
serviceCode[0] = (serviceCode[0] == (char)0xF0) ? '~' : serviceCode[0];
telegram->read_value(serviceCode[1], 2);
telegram->read_value(serviceCode[2], 3);
serviceCode[3] = '\0';
has_update(serviceCode_, serviceCode, sizeof(serviceCode_));
}
has_update(telegram, serviceCodeNumber_, 4);
// at this point do a quick check to see if the hot water or heating is active
uint8_t state = EMS_VALUE_UINT_NOTSET;
if (telegram->read_value(state, 11)) {
boilerState_ = state & 0x01 ? 0x08 : 0;
boilerState_ |= state & 0x02 ? 0x01 : 0;
boilerState_ |= state & 0x04 ? 0x02 : 0;
}
check_active(); // do a quick check to see if the hot water or heating is active
}
/*
* UBAMonitorSlow - type 0x19 - central heating monitor part 2 (27 bytes long)
* received every 60 seconds
* e.g. 08 00 19 00 80 00 02 41 80 00 00 00 00 00 03 91 7B 05 B8 40 00 00 00 04 92 AD 00 5E EE 80 00
* 08 0B 19 00 FF EA 02 47 80 00 00 00 00 62 03 CA 24 2C D6 23 00 00 00 27 4A B6 03 6E 43
* 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 17 19 20 21 22 23 24
*/
void Boiler::process_UBAMonitorSlow(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, outdoorTemp_, 0);
has_update(telegram, boilTemp_, 2);
has_update(telegram, exhaustTemp_, 4);
has_update(telegram, switchTemp_, 25); // only if there is a mixer module present
has_update(telegram, heatingPumpMod_, 9);
has_update(telegram, burnStarts_, 10, 3); // force to 3 bytes
has_update(telegram, burnWorkMin_, 13, 3); // force to 3 bytes
has_update(telegram, burn2WorkMin_, 16, 3); // force to 3 bytes
has_update(telegram, heatWorkMin_, 19, 3); // force to 3 bytes
}
/*
* UBAMonitorSlowPlus2 - type 0xE3
* 88 00 E3 00 04 00 00 00 00 01 00 00 00 00 00 02 22 2B 64 46 01 00 00 61
*/
void Boiler::process_UBAMonitorSlowPlus2(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, heatingPump2Mod_, 13); // Heat Pump Modulation
}
/*
* UBAMonitorSlowPlus - type 0xE5 - central heating monitor EMS+
* Boiler(0x08) -> Me(0x0B), UBAMonitorSlowPlus(0xE5),
* data: 01 00 20 00 00 78 00 00 00 00 00 1E EB 00 9D 3E 00 00 00 00 6B 5E 00 06 4C 64 00 00 00 00 8A A3
*/
void Boiler::process_UBAMonitorSlowPlus(std::shared_ptr<const Telegram> telegram) {
has_bitupdate(telegram, fanWork_, 2, 2);
has_bitupdate(telegram, ignWork_, 2, 3);
has_bitupdate(telegram, heatingPump_, 2, 5);
has_bitupdate(telegram, wwCirc_, 2, 7);
has_update(telegram, exhaustTemp_, 6);
has_update(telegram, burnStarts_, 10, 3); // force to 3 bytes
has_update(telegram, burnWorkMin_, 13, 3); // force to 3 bytes
has_update(telegram, burn2WorkMin_, 16, 3); // force to 3 bytes
has_update(telegram, heatWorkMin_, 19, 3); // force to 3 bytes
has_update(telegram, heatingPumpMod_, 25);
// temperature measurements at 4, see #620
}
/*
* UBAParametersPlus - type 0xE6
* parameters originally taken from
* https://github.com/Th3M3/buderus_ems-wiki/blob/master/Einstellungen%20des%20Regelger%C3%A4ts%20MC110.md
* 88 0B E6 00 01 46 00 00 46 0A 00 01 06 FA 0A 01 02 64 01 00 00 1E 00 3C 01 00 00 00 01 00 9A
* from: issue #732
* data: 01 50 1E 5A 46 12 64 00 06 FA 3C 03 05 64 00 00 00 28 00 41 03 00 00 00 00 00 00 00 00 00
*/
void Boiler::process_UBAParametersPlus(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, heatingActivated_, 0);
has_update(telegram, heatingTemp_, 1);
has_update(telegram, burnMaxPower_, 4);
has_update(telegram, burnMinPower_, 5);
has_update(telegram, boilHystOff_, 8);
has_update(telegram, boilHystOn_, 9);
has_update(telegram, burnMinPeriod_, 10);
has_update(telegram, emergencyOps_, 18);
has_update(telegram, emergencyTemp_, 19);
// has_update(telegram, pumpType_, 11); // guess, RC300 manual: power controlled, pressure controlled 1-4?
// has_update(telegram, pumpDelay_, 12); // guess
// has_update(telegram, pumpModMax_, 13); // guess
// has_update(telegram, pumpModMin_, 14); // guess
}
// 0xEA
// Boiler(0x08) -> (0x0B), (0xEA), data: 00 00 00 00 00 00 3C FB 00 28 00 02 46 00 00 00 3C 3C 28
void Boiler::process_UBAParameterWWPlus(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, wwSelTempOff_, 0); // confusing description in #96
has_update(telegram, wwActivated_, 5); // 0x01 means on
has_update(telegram, wwSelTemp_, 6); // setting here
has_update(telegram, wwHystOn_, 7);
has_update(telegram, wwHystOff_, 8);
has_update(telegram, wwFlowTempOffset_, 9);
has_update(telegram, wwCircPump_, 10); // 0x01 means yes
has_update(telegram, wwCircMode_, 11); // 1=1x3min... 6=6x3min, 7=continuous
has_update(telegram, wwDisinfectionTemp_, 12); // setting here, status in E9
has_update(telegram, wwSelTempSingle_, 16);
has_update(telegram, wwSelTempLow_, 18);
has_update(telegram, wwMaxTemp_, 20);
has_update(telegram, wwChargeOptimization_, 25);
uint8_t wwComfort1 = EMS_VALUE_UINT_NOTSET;
if (telegram->read_value(wwComfort1, 13)) {
if (wwComfort1 == 0) {
wwComfort1 = 0; // High_Comfort
} else if (wwComfort1 == 0xD8) {
wwComfort1 = 1; // Eco
} else {
wwComfort1 = EMS_VALUE_UINT_NOTSET;
}
has_update(wwComfort1_, wwComfort1);
}
}
// 0xE9 - WW monitor ems+
// e.g. 08 00 E9 00 37 01 F6 01 ED 00 00 00 00 41 3C 00 00 00 00 00 00 00 00 00 00 00 00 37 00 00 00 (CRC=77) #data=27
void Boiler::process_UBAMonitorWWPlus(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, wwSetTemp_, 0);
has_update(telegram, wwCurTemp_, 1);
has_update(telegram, wwCurTemp2_, 3);
has_update(telegram, wwWorkM_, 14, 3); // force to 3 bytes
has_update(telegram, wwStarts_, 17, 3); // force to 3 bytes
has_bitupdate(telegram, wwOneTime_, 12, 2);
has_bitupdate(telegram, wwDisinfect_, 12, 3);
has_bitupdate(telegram, wwCharging_, 12, 4);
has_bitupdate(telegram, wwRecharging_, 13, 4);
has_bitupdate(telegram, wwTempOK_, 13, 5);
has_bitupdate(telegram, wwCirc_, 13, 2);
// has_update(telegram, wwActivated_, 20); // Activated is in 0xEA, this is something other 0/100%
// has_update(telegram, wwSelTemp_, 10); // this is wrong, see #96
// has_update(telegram, wwDisinfectionTemp_, 9);
}
/*
* UBAInformation - type 0x495
* all values 32 bit
* 08 00 FF 00 03 95 00 0F 8E C2 00 08 39 C8 00 00 18 7A 00 07 3C 80 00 00 00 00 00 00 00 E5 F6 00
* 08 00 FF 18 03 95 00 00 00 A1 00 00 00 00 00 00 00 44 00 00 00 00 00 00 00 0A 00 00 00 0A BD 00
* 08 00 FF 30 03 95 00 00 00 00 00 00 00 00 00 00 02 10 00 00 00 00 00 00 02 1A 00 00 00 02 66 00
* 08 00 FF 48 03 95 00 00 01 15 00 00 00 00 00 00 00 F9 29 00
*
*/
void Boiler::process_UBAInformation(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, upTimeControl_, 0);
has_update(telegram, upTimeCompHeating_, 8);
has_update(telegram, upTimeCompCooling_, 16);
has_update(telegram, upTimeCompWw_, 4);
has_update(telegram, upTimeCompPool_, 12);
has_update(telegram, totalCompStarts_, 20);
has_update(telegram, heatingStarts_, 28);
has_update(telegram, coolingStarts_, 36);
has_update(telegram, wwStarts2_, 24);
has_update(telegram, poolStarts_, 32);
has_update(telegram, nrgConsTotal_, 64);
has_update(telegram, auxElecHeatNrgConsTotal_, 40);
has_update(telegram, auxElecHeatNrgConsHeating_, 48);
has_update(telegram, auxElecHeatNrgConsWW_, 44);
has_update(telegram, auxElecHeatNrgConsPool_, 52);
has_update(telegram, nrgConsCompTotal_, 56);
has_update(telegram, nrgConsCompHeating_, 68);
has_update(telegram, nrgConsCompWw_, 72);
has_update(telegram, nrgConsCompCooling_, 76);
has_update(telegram, nrgConsCompPool_, 80);
}
/*
* UBAEnergy - type 0x494
* Energy-values all 32bit
* 08 00 FF 00 03 94 03 31 21 59 00 00 7C 70 00 00 15 B8 00 00 40 E3 00 00 27 23 FF FF FF FF EA
* 08 00 FF 18 03 94 FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF 00 00 00 00 00 00 00 00 00 7E
* 08 00 FF 31 03 94 00 00 00 00 00 00 00 38
*/
void Boiler::process_UBAEnergySupplied(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, nrgSuppTotal_, 4);
has_update(telegram, nrgSuppHeating_, 12);
has_update(telegram, nrgSuppWw_, 8);
has_update(telegram, nrgSuppCooling_, 16);
has_update(telegram, nrgSuppPool_, 20);
}
// Heatpump power - type 0x48D
//08 00 FF 00 03 8D 03 00 10 30 10 60 00 04 00 00 00 17 00 00 00 3C 38 0E 64 00 00 0C 33 C7 00
//XR1A050001 A05 Pump Heat circuit (1.0 ) 1 >> 1 & 0x01 ?
//XR1A040001 A04 Pump Cold circuit (1.0 ) 1 & 0x1 ?
void Boiler::process_HpPower(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, hpPower_, 11);
has_bitupdate(telegram, hpCompOn_, 3, 4);
has_update(telegram, hpBrinePumpSpd_, 5);
has_update(telegram, hpCompSpd_, 17);
has_update(telegram, hpCircSpd_, 4);
has_bitupdate(telegram, hpSwitchValve_, 0, 4);
has_update(telegram, hpActivity_, 7);
has_update(hpHeatingOn_, hpActivity_ == 1 ? 0xFF : 0);
has_update(hpCoolingOn_, hpActivity_ == 2 ? 0xFF : 0);
has_update(hpWwOn_, hpActivity_ == 3 ? 0xFF : 0);
has_update(hpPoolOn_, hpActivity_ == 4 ? 0xFF : 0);
}
// Heatpump outdoor unit - type 0x48F
void Boiler::process_HpOutdoor(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, hpTc0_, 6);
has_update(telegram, hpTc1_, 4);
has_update(telegram, hpTc3_, 2);
has_update(telegram, hpTr3_, 16);
has_update(telegram, hpTr4_, 18);
// has_update(telegram, hpTr5_, 20);
// has_update(telegram, hpTr6_, 0);
has_update(telegram, hpTr7_, 30);
has_update(telegram, hpTl2_, 12);
has_update(telegram, hpPl1_, 26);
has_update(telegram, hpPh1_, 28);
has_update(telegram, hpBrineIn_, 8);
has_update(telegram, hpBrineOut_, 10);
has_update(telegram, hpSuctionGas_, 20);
has_update(telegram, hpHotGas_, 0);
}
// Heatpump pool unit - type 0x48A
// 08 00 FF 00 03 8A 01 4C 01 0C 00 00 0A 00 1E 00 00 01 00 04 4A 00
void Boiler::process_HpPool(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, poolSetTemp_, 1);
}
// 0x2A - MC110Status
// e.g. 88 00 2A 00 00 00 00 00 00 00 00 00 D2 00 00 80 00 00 01 08 80 00 02 47 00
// see https://github.com/emsesp/EMS-ESP/issues/397
void Boiler::process_MC110Status(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, wwMixerTemp_, 14);
has_update(telegram, wwCylMiddleTemp_, 18);
}
/*
* UBAOutdoorTemp - type 0xD1 - external temperature EMS+
*/
void Boiler::process_UBAOutdoorTemp(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, outdoorTemp_, 0);
}
// UBASetPoint 0x1A
void Boiler::process_UBASetPoints(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, setFlowTemp_, 0); // boiler set temp from thermostat
has_update(telegram, setBurnPow_, 1); // max burner power in %