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fix #857, add class heatsource

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This commit is contained in:
MichaelDvP
2022-12-29 12:01:10 +01:00
parent d41e634611
commit 29838a433a
14 changed files with 480 additions and 386 deletions
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325
src/devices/boiler.cpp
View File

@@ -26,88 +26,6 @@ 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 char * 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, "AmTemperatures", false, MAKE_PF_CB(process_amTempMessage));
register_telegram_type(0x54E, "AmStatus", false, MAKE_PF_CB(process_amStatusMessage));
register_telegram_type(0x54F, "AmCommand", false, MAKE_PF_CB(process_amCommandMessage)); // not broadcasted, but actually not used
register_telegram_type(0x550, "AmExtra", false, MAKE_PF_CB(process_amExtraMessage));
register_telegram_type(0x54C, "AmSettings", true, MAKE_PF_CB(process_amSettingMessage)); // not broadcasted
register_device_value(DeviceValueTAG::TAG_AHS,
&curFlowTemp_,
DeviceValueType::SHORT,
DeviceValueNumOp::DV_NUMOP_DIV10,
FL_(sysFlowTemp),
DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_AHS, &retTemp_, DeviceValueType::SHORT, DeviceValueNumOp::DV_NUMOP_DIV10, FL_(sysRetTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_AHS, &aFlowTemp_, DeviceValueType::SHORT, DeviceValueNumOp::DV_NUMOP_DIV10, FL_(aFlowTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_AHS, &aRetTemp_, DeviceValueType::SHORT, DeviceValueNumOp::DV_NUMOP_DIV10, FL_(aRetTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_AHS,
&cylTopTemp_,
DeviceValueType::SHORT,
DeviceValueNumOp::DV_NUMOP_DIV10,
FL_(aCylTopTemp),
DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_AHS,
&cylCenterTemp_,
DeviceValueType::SHORT,
DeviceValueNumOp::DV_NUMOP_DIV10,
FL_(aCylCenterTemp),
DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_AHS,
&cylBottomTemp_,
DeviceValueType::SHORT,
DeviceValueNumOp::DV_NUMOP_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, FL_(valveBuffer), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_AHS, &valveReturn_, DeviceValueType::UINT, FL_(valveReturn), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_AHS, &aPumpMod_, DeviceValueType::UINT, FL_(aPumpMod), DeviceValueUOM::PERCENT);
// register_device_value(DeviceValueTAG::TAG_AHS, &heatSource_, DeviceValueType::BOOL, nullptr, FL_(heatSource), DeviceValueUOM::NONE);
// Settings:
register_device_value(
DeviceValueTAG::TAG_AHS, &vr2Config_, DeviceValueType::ENUM, FL_(enum_vr2Config), FL_(vr2Config), DeviceValueUOM::NONE, MAKE_CF_CB(set_vr2Config));
register_device_value(DeviceValueTAG::TAG_AHS, &ahsActivated_, DeviceValueType::BOOL, FL_(ahsActivated), DeviceValueUOM::NONE, MAKE_CF_CB(set_ahsActivated));
register_device_value(DeviceValueTAG::TAG_AHS, &aPumpConfig_, DeviceValueType::BOOL, FL_(aPumpConfig), DeviceValueUOM::NONE, MAKE_CF_CB(set_aPumpConfig));
register_device_value(DeviceValueTAG::TAG_AHS,
&aPumpSignal_,
DeviceValueType::ENUM,
FL_(enum_aPumpSignal),
FL_(aPumpSignal),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_aPumpSignal));
register_device_value(DeviceValueTAG::TAG_AHS, &aPumpMin_, DeviceValueType::UINT, FL_(aPumpMin), DeviceValueUOM::PERCENT, MAKE_CF_CB(set_aPumpMin), 12, 50);
register_device_value(DeviceValueTAG::TAG_AHS, &tempRise_, DeviceValueType::BOOL, FL_(tempRise), DeviceValueUOM::NONE, MAKE_CF_CB(set_tempRise));
register_device_value(
DeviceValueTAG::TAG_AHS, &setReturnTemp_, DeviceValueType::UINT, FL_(setReturnTemp), DeviceValueUOM::DEGREES, MAKE_CF_CB(set_setReturnTemp), 40, 75);
register_device_value(
DeviceValueTAG::TAG_AHS, &mixRuntime_, DeviceValueType::USHORT, FL_(mixRuntime), DeviceValueUOM::SECONDS, MAKE_CF_CB(set_mixRuntime), 0, 600);
register_device_value(
DeviceValueTAG::TAG_AHS, &setFlowTemp_, DeviceValueType::UINT, FL_(setFlowTemp), DeviceValueUOM::DEGREES, MAKE_CF_CB(set_setFlowTemp), 40, 75);
register_device_value(
DeviceValueTAG::TAG_AHS, &bufBypass_, DeviceValueType::ENUM, FL_(enum_bufBypass), FL_(bufBypass), DeviceValueUOM::NONE, MAKE_CF_CB(set_bufBypass));
register_device_value(DeviceValueTAG::TAG_AHS,
&bufMixRuntime_,
DeviceValueType::USHORT,
FL_(bufMixRuntime),
DeviceValueUOM::SECONDS,
MAKE_CF_CB(set_bufMixRuntime),
0,
600);
register_device_value(
DeviceValueTAG::TAG_AHS, &bufConfig_, DeviceValueType::ENUM, FL_(enum_bufConfig), FL_(bufConfig), DeviceValueUOM::NONE, MAKE_CF_CB(set_bufConfig));
register_device_value(
DeviceValueTAG::TAG_AHS, &blockMode_, DeviceValueType::ENUM, FL_(enum_blockMode), FL_(blockMode), DeviceValueUOM::NONE, MAKE_CF_CB(set_blockMode));
register_device_value(
DeviceValueTAG::TAG_AHS, &blockTerm_, DeviceValueType::ENUM, FL_(enum_blockTerm), FL_(blockTerm), DeviceValueUOM::NONE, MAKE_CF_CB(set_blockTerm));
register_device_value(DeviceValueTAG::TAG_AHS, &blockHyst_, DeviceValueType::INT, FL_(blockHyst), DeviceValueUOM::DEGREES_R, MAKE_CF_CB(set_blockHyst), 0, 50);
register_device_value(
DeviceValueTAG::TAG_AHS, &releaseWait_, DeviceValueType::UINT, FL_(releaseWait), DeviceValueUOM::MINUTES, MAKE_CF_CB(set_releaseWait), 0, 240);
return;
}
// cascaded heating sources, only some values per individual heatsource (hs)
if (device_id >= EMSdevice::EMS_DEVICE_ID_BOILER_1) {
@@ -1487,80 +1405,6 @@ void Boiler::process_UBAMaintenanceData(std::shared_ptr<const Telegram> telegram
}
}
/*
* alternative heatingsource AM200
*/
// 0x054D AM200 temperatures
// Rx: 60 00 FF 00 04 4D 0103 0108 8000 00C6 0127 0205 8000 0200 0000 8000 6C
// TB4 TR2 TA1 TR1 TB1 TB2* TB3
void Boiler::process_amTempMessage(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, curFlowTemp_, 0); // TB4
has_update(telegram, retTemp_, 2); // TR2
has_update(telegram, aFlowTemp_, 6);
has_update(telegram, aRetTemp_, 8);
has_update(telegram, cylTopTemp_, 10);
has_update(telegram, cylCenterTemp_, 12);
has_update(telegram, cylBottomTemp_, 14);
}
// 0x054E AM200 status (6 bytes long)
// Rx: 60 00 FF 00 04 4E 00 00 00 00 00 00 86
void Boiler::process_amStatusMessage(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, aPumpMod_, 0); // PR1
// offset 1: bitfield 01-pump on, 02-VR1 opening, 04-VR1 closing, 08-VB1 opening, 10-VB1 closing
// uint8_t stat = aPump_ | setValveBuffer_ << 3 | setValveReturn_ << 1;
// if (telegram->read_value(stat, 1)) {
// has_update(aPump_, stat & 0x01);
// has_update(valveBuffer_, (stat >> 3) & 0x03);
// has_update(valveReturn_, (stat >> 1) & 0x03);
// }
// actually we dont know the offset of VR2
// has_update(telegram, valveByPass_, ?); // VR2
has_update(telegram, valveReturn_, 4); // VR1, percent
has_update(telegram, valveBuffer_, 5); // VB1, percent
}
// 0x054C AM200 not broadcasted message, 23 bytes long
// data: 00 01 01 00 01 00 41 4B 00 5A 00 5A 00 01 05 3C 00 00 5A 00 01 23 00
void Boiler::process_amSettingMessage(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, vr2Config_, 12); // pos 12: off(00)/bypass(01)
has_update(telegram, ahsActivated_, 0); // pos 00: Alternate heat source activation: No(00),Yes(01)
has_update(telegram, aPumpConfig_, 4); // pos 04: Buffer primary pump->Config pump: No(00),Yes(01)
has_update(telegram, aPumpSignal_, 3); // pos 03: Output for PR1 pump: On/Off(00),PWM(01),PWM invers(02)
has_update(telegram, aPumpMin_, 21); // pos 21: Min output pump PR1 (%)
has_update(telegram, tempRise_, 1); // pos 01: AHS return temp rise: No(00),Yes(01) (mixer VR1)
has_update(telegram, setReturnTemp_, 6); // pos 06: Set temp return (°C) (VR1)
has_update(telegram, mixRuntime_, 8); // pos 8/9: Mixer run time (s) (VR1)
has_update(telegram, setFlowTemp_, 7); // pos 07: Set flow temp AHS (°C) (Buffer)
has_update(telegram, bufBypass_, 2); // pos 02: Puffer bypass: No(00), Mischer(01), Ventil(02) (Buffer)
has_update(telegram, bufMixRuntime_, 10); // pos 10/11: Bypass mixer run time: [time] (s) (Buffer)
has_update(telegram, bufConfig_, 20); // pos 20: Konfig WW-Speicher Monovalent(01), Bivalent(02) (buffer)
has_update(telegram, blockMode_, 16); // pos 16: Config htg. blocking mode: No(00),Automatic(01),Always block02) (blocking)
has_update(telegram, blockTerm_, 17); // pos 17: Config of block terminal: NO(00), NC(01)
has_update(telegram, blockHyst_, 14); // pos 14?: Hyst. for bolier block (K)
has_update(telegram, releaseWait_, 15); // pos 15: Boiler release wait time (min)
}
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
// 0x054F AM200 not broadcasted message, 7 bytes long
// Boiler(0x60) -> Me(0x0B), amCommand(0x054F), data: 00 00 00 00 00 00 00
void Boiler::process_amCommandMessage(std::shared_ptr<const Telegram> telegram) {
// pos 0: return pump in percent
// pos 3: setValveBuffer VB1 0-off, 1-open, 2-close
// pos 2: setValveReturn VR1 0-off, 1-open, 2-close
// pos 6: boiler blocking 0-off, 1-on
}
// 0x0550 AM200 broadcasted message, all 27 bytes unkown
// Rx: 60 00 FF 00 04 50 00 FF 00 FF FF 00 0D 00 01 00 00 00 00 01 03 01 00 03 00 2D 19 C8 02 94 00 4A
// Rx: 60 00 FF 19 04 50 00 FF FF 39
void Boiler::process_amExtraMessage(std::shared_ptr<const Telegram> telegram) {
}
#pragma GCC diagnostic pop
// Boiler(0x08) -> All(0x00), ?(0x0484), data: 00 00 14 28 0D 50 00 00 00 02 02 07 28 01 00 02 05 19 0A 0A 03 0D 07 00 0A
// Boiler(0x08) -> All(0x00), ?(0x0484), data: 01 90 00 F6 28 14 64 00 00 E1 00 1E 00 1E 01 64 01 64 54 20 00 00 (offset 25)
void Boiler::process_HpSilentMode(std::shared_ptr<const Telegram> telegram) {
@@ -1600,175 +1444,6 @@ void Boiler::process_HpDhwSettings(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, wwEcoPlusOffTemp_, 5);
}
// Settings AM200
// pos 12: off(00)/Keelbypass(01)/(hc1pump(02) only standalone)
bool Boiler::set_vr2Config(const char * value, const int8_t id) {
uint8_t v;
if (!Helpers::value2enum(value, v, FL_(enum_vr2Config))) {
return false;
}
write_command(0x54C, 12, v, 0x54C);
return true;
}
// pos 00: Alternate heat source activation: No(00),Yes(01)
bool Boiler::set_ahsActivated(const char * value, const int8_t id) {
bool v;
if (!Helpers::value2bool(value, v)) {
return false;
}
write_command(0x54C, 0, v, 0x54C);
return true;
}
// pos 04: Buffer primary pump->Config pump: No(00),Yes(01)
bool Boiler::set_aPumpConfig(const char * value, const int8_t id) {
bool v;
if (!Helpers::value2bool(value, v)) {
return false;
}
write_command(0x54C, 4, v, 0x54C);
return true;
}
// pos 03: Output for PR1 pump: On/Off(00),PWM(01),PWM invers(02)
bool Boiler::set_aPumpSignal(const char * value, const int8_t id) {
uint8_t v;
if (!Helpers::value2enum(value, v, FL_(enum_aPumpSignal))) {
return false;
}
write_command(0x54C, 3, v, 0x54C);
return true;
}
// pos 21: Min output pump PR1 (%)
bool Boiler::set_aPumpMin(const char * value, const int8_t id) {
int v;
if (!Helpers::value2number(value, v)) {
return false;
}
write_command(0x54C, 21, v, 0x54C);
return true;
}
// pos 01: AHS return temp rise: No(00),Yes(01) (mixer VR1)
bool Boiler::set_tempRise(const char * value, const int8_t id) {
bool v;
if (!Helpers::value2bool(value, v)) {
return false;
}
write_command(0x54C, 1, v, 0x54C);
return true;
}
// pos 06: Set temp return (°C) (VR1)
bool Boiler::set_setReturnTemp(const char * value, const int8_t id) {
int v;
if (!Helpers::value2temperature(value, v)) {
return false;
}
write_command(0x54C, 6, v, 0x54C);
return true;
}
// pos 10/11?: Mixer run time (s) (VR1)
bool Boiler::set_mixRuntime(const char * value, const int8_t id) {
int v;
if (!Helpers::value2number(value, v)) {
return false;
}
uint8_t data[2] = {(uint8_t)(v >> 8), (uint8_t)v};
write_command(0x54C, 8, data, 2, 0x54C);
return true;
}
// pos 07: Set flow temp AHS (°C) (Buffer)
bool Boiler::set_setFlowTemp(const char * value, const int8_t id) {
int v;
if (!Helpers::value2number(value, v)) {
return false;
}
write_command(0x54C, 7, v, 0x54C);
return true;
}
// pos 02: Puffer bypass: No(00), Mischer(01), Ventil(02) (Buffer)
bool Boiler::set_bufBypass(const char * value, const int8_t id) {
uint8_t v;
if (!Helpers::value2enum(value, v, FL_(enum_bufBypass))) {
return false;
}
write_command(0x54C, 2, v, 0x54C);
return true;
}
// pos 8/9: Bypass mixer run time: [time] (s) (Buffer)
bool Boiler::set_bufMixRuntime(const char * value, const int8_t id) {
int v;
if (!Helpers::value2number(value, v)) {
return false;
}
uint8_t data[2] = {(uint8_t)(v >> 8), (uint8_t)v};
write_command(0x54C, 10, data, 2, 0x54C);
return true;
}
// pos 20: Konfig WW-Speicher Monovalent(01), Bivalent(02) (buffer)
bool Boiler::set_bufConfig(const char * value, const int8_t id) {
uint8_t v;
if (!Helpers::value2enum(value, v, FL_(enum_bufConfig))) {
return false;
}
write_command(0x54C, 20, v, 0x54C);
return true;
}
// pos 16: Config htg. blocking mode: No(00),Automatic(01),Always block02) (blocking)
bool Boiler::set_blockMode(const char * value, const int8_t id) {
uint8_t v;
if (!Helpers::value2enum(value, v, FL_(enum_blockMode))) {
return false;
}
write_command(0x54C, 16, v, 0x54C);
return true;
}
// pos 17: Config of block terminal: NO(00), NC(01)
bool Boiler::set_blockTerm(const char * value, const int8_t id) {
uint8_t v;
if (!Helpers::value2enum(value, v, FL_(enum_blockTerm))) {
return false;
}
write_command(0x54C, 17, v, 0x54C);
return true;
}
// pos 14?: Hyst. for bolier block (K)
bool Boiler::set_blockHyst(const char * value, const int8_t id) {
int v;
if (!Helpers::value2temperature(value, v, true)) {
return false;
}
write_command(0x54C, 14, v, 0x54C);
return true;
}
// pos 15: Boiler release wait time (min)
bool Boiler::set_releaseWait(const char * value, const int8_t id) {
int v;
if (!Helpers::value2number(value, v)) {
return false;
}
write_command(0x54C, 15, v, 0x54C);
return true;
}
// 0x0550 AM200 broadcasted message, all 27 bytes unkown
// Rx: 60 00 FF 00 04 50 00 FF 00 FF FF 00 0D 00 01 00 00 00 00 01 03 01 00 03 00 2D 19 C8 02 94 00 4A
// Rx: 60 00 FF 19 04 50 00 FF FF 39
/*
* Hybrid heatpump with telegram 0xBB is readable and writeable in boiler and thermostat
* thermostat always overwrites settings in boiler

50
src/devices/boiler.h
View File

@@ -212,35 +212,6 @@ class Boiler : public EMSdevice {
uint8_t maxHeatHeat_;
uint8_t maxHeatDhw_;
// Alternative Heatsource AM200
int16_t cylTopTemp_; // TB1
int16_t cylCenterTemp_; // TB2
int16_t cylBottomTemp_; // TB3
int16_t aFlowTemp_; // TA1
int16_t aRetTemp_; // TR1
uint8_t aPumpMod_; // PR1 - percent
// uint8_t valveByPass_; // VR2
uint8_t valveBuffer_; // VB1
uint8_t valveReturn_; // VR1
// uint8_t heatSource_; // OEV
// Settings:
uint8_t vr2Config_; // pos 12: off(00)/Keelbypass(01)/(hc1pump(02) only standalone)
uint8_t ahsActivated_; // pos 00: Alternate heat source activation: No(00),Yes(01)
uint8_t aPumpConfig_; // pos 04: Buffer primary pump->Config pump: No(00),Yes(01)
uint8_t aPumpSignal_; // pos 03: Output for PR1 pump: On/Off(00),PWM(01),PWM invers(02)
uint8_t aPumpMin_; // pos 21: Min output pump PR1 (%)
uint8_t tempRise_; // pos 01: AHS return temp rise: No(00),Yes(01) (mixer VR1)
uint8_t setReturnTemp_; // pos 06: Set temp return (°C) (VR1)
uint16_t mixRuntime_; // pos 10/11?: Mixer run time (s) (VR1)
// uint8_t setFlowTemp_; // pos 07: Set flow temp AHS (°C) (Buffer)
uint8_t bufBypass_; // pos 02: Puffer bypass: No(00), Mischer(01), Ventil(02) (Buffer)
uint16_t bufMixRuntime_; // pos 8/9: Bypass mixer run time: [time] (s) (Buffer)
uint8_t bufConfig_; // pos 20: Konfig WW-Speicher Monovalent(01), Bivalent(02) (buffer)
uint8_t blockMode_; // pos 16: Config htg. blocking mode: No(00),Automatic(01),Always block02) (blocking)
uint8_t blockTerm_; // pos 17: Config of block terminal: NO(00), NC(01)
int8_t blockHyst_; // pos 14?: Hyst. for bolier block (K)
uint8_t releaseWait_; // pos 15: Boiler release wait time (min)
uint8_t auxHeaterOnly_;
uint8_t auxHeaterOff_;
uint8_t auxHeaterStatus_;
@@ -305,11 +276,6 @@ class Boiler : public EMSdevice {
void process_HpInConfig(std::shared_ptr<const Telegram> telegram);
void process_HpHeaterConfig(std::shared_ptr<const Telegram> telegram);
void process_HybridHp(std::shared_ptr<const Telegram> telegram);
void process_amTempMessage(std::shared_ptr<const Telegram> telegram);
void process_amStatusMessage(std::shared_ptr<const Telegram> telegram);
void process_amSettingMessage(std::shared_ptr<const Telegram> telegram);
void process_amCommandMessage(std::shared_ptr<const Telegram> telegram);
void process_amExtraMessage(std::shared_ptr<const Telegram> telegram);
void process_HpSilentMode(std::shared_ptr<const Telegram> telegram);
void process_HpAdditionalHeater(std::shared_ptr<const Telegram> telegram);
void process_HpValve(std::shared_ptr<const Telegram> telegram);
@@ -361,22 +327,6 @@ class Boiler : public EMSdevice {
bool set_emergency_temp(const char * value, const int8_t id);
bool set_emergency_ops(const char * value, const int8_t id);
bool set_vr2Config(const char * value, const int8_t id); // pos 12: off(00)/Keelbypass(01)/(hc1pump(02) only standalone)
bool set_ahsActivated(const char * value, const int8_t id); // pos 00: Alternate heat source activation: No(00),Yes(01)
bool set_aPumpConfig(const char * value, const int8_t id); // pos 04: Buffer primary pump->Config pump: No(00),Yes(01)
bool set_aPumpSignal(const char * value, const int8_t id); // pos 03: Output for PR1 pump: On/Off(00),PWM(01),PWM invers(02)
bool set_aPumpMin(const char * value, const int8_t id); // pos 21: Min output pump PR1 (%)
bool set_tempRise(const char * value, const int8_t id); // pos 01: AHS return temp rise: No(00),Yes(01) (mixer VR1)
bool set_setReturnTemp(const char * value, const int8_t id); // pos 06: Set temp return (°C) (VR1)
bool set_mixRuntime(const char * value, const int8_t id); // pos 10/11?: Mixer run time (s) (VR1)
bool set_setFlowTemp(const char * value, const int8_t id); // pos 07: Set flow temp AHS (°C) (Buffer)
bool set_bufBypass(const char * value, const int8_t id); // pos 02: Puffer bypass: No(00), Mischer(01), Ventil(02) (Buffer)
bool set_bufMixRuntime(const char * value, const int8_t id); // pos 8/9: Bypass mixer run time: [time] (s) (Buffer)
bool set_bufConfig(const char * value, const int8_t id); // pos 20: Konfig WW-Speicher Monovalent(01), Bivalent(02) (buffer)
bool set_blockMode(const char * value, const int8_t id); // pos 16: Config htg. blocking mode: No(00),Automatic(01),Always block02) (blocking)
bool set_blockTerm(const char * value, const int8_t id); // pos 17: Config of block terminal: NO(00), NC(01)
bool set_blockHyst(const char * value, const int8_t id); // pos 14?: Hyst. for bolier block (K)
bool set_releaseWait(const char * value, const int8_t id); // pos 15: Boiler release wait time (min)
bool set_HpInLogic(const char * value, const int8_t id);
inline bool set_HpIn1Logic(const char * value, const int8_t id) {
return set_HpInLogic(value, 1);

365
src/devices/heatsource.cpp Normal file
View File

@@ -0,0 +1,365 @@
/*
* 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 "heatsource.h"
namespace emsesp {
REGISTER_FACTORY(Heatsource, EMSdevice::DeviceType::HEATSOURCE);
Heatsource::Heatsource(uint8_t device_type, uint8_t device_id, uint8_t product_id, const char * version, const char * name, uint8_t flags, uint8_t brand)
: EMSdevice(device_type, device_id, product_id, version, name, flags, brand) {
register_telegram_type(0x54D, "AmTemperatures", false, MAKE_PF_CB(process_amTempMessage));
register_telegram_type(0x54E, "AmStatus", false, MAKE_PF_CB(process_amStatusMessage));
register_telegram_type(0x54F, "AmCommand", false, MAKE_PF_CB(process_amCommandMessage)); // not broadcasted, but actually not used
register_telegram_type(0x550, "AmExtra", false, MAKE_PF_CB(process_amExtraMessage));
register_telegram_type(0x54C, "AmSettings", true, MAKE_PF_CB(process_amSettingMessage)); // not broadcasted
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&curFlowTemp_,
DeviceValueType::SHORT,
DeviceValueNumOp::DV_NUMOP_DIV10,
FL_(sysFlowTemp),
DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &retTemp_, DeviceValueType::SHORT, DeviceValueNumOp::DV_NUMOP_DIV10, FL_(sysRetTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &aFlowTemp_, DeviceValueType::SHORT, DeviceValueNumOp::DV_NUMOP_DIV10, FL_(aFlowTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &aRetTemp_, DeviceValueType::SHORT, DeviceValueNumOp::DV_NUMOP_DIV10, FL_(aRetTemp), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&cylTopTemp_,
DeviceValueType::SHORT,
DeviceValueNumOp::DV_NUMOP_DIV10,
FL_(aCylTopTemp),
DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&cylCenterTemp_,
DeviceValueType::SHORT,
DeviceValueNumOp::DV_NUMOP_DIV10,
FL_(aCylCenterTemp),
DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&cylBottomTemp_,
DeviceValueType::SHORT,
DeviceValueNumOp::DV_NUMOP_DIV10,
FL_(aCylBottomTemp),
DeviceValueUOM::DEGREES);
// register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &valveByPass_, DeviceValueType::BOOL, nullptr, FL_(valveByPass), DeviceValueUOM::NONE);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &valveBuffer_, DeviceValueType::UINT, FL_(valveBuffer), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &valveReturn_, DeviceValueType::UINT, FL_(valveReturn), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &aPumpMod_, DeviceValueType::UINT, FL_(aPumpMod), DeviceValueUOM::PERCENT);
// register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &heatSource_, DeviceValueType::BOOL, nullptr, FL_(heatSource), DeviceValueUOM::NONE);
// Settings:
register_device_value(
DeviceValueTAG::TAG_DEVICE_DATA, &vr2Config_, DeviceValueType::ENUM, FL_(enum_vr2Config), FL_(vr2Config), DeviceValueUOM::NONE, MAKE_CF_CB(set_vr2Config));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &ahsActivated_, DeviceValueType::BOOL, FL_(ahsActivated), DeviceValueUOM::NONE, MAKE_CF_CB(set_ahsActivated));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &aPumpConfig_, DeviceValueType::BOOL, FL_(aPumpConfig), DeviceValueUOM::NONE, MAKE_CF_CB(set_aPumpConfig));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&aPumpSignal_,
DeviceValueType::ENUM,
FL_(enum_aPumpSignal),
FL_(aPumpSignal),
DeviceValueUOM::NONE,
MAKE_CF_CB(set_aPumpSignal));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &aPumpMin_, DeviceValueType::UINT, FL_(aPumpMin), DeviceValueUOM::PERCENT, MAKE_CF_CB(set_aPumpMin), 12, 50);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &tempRise_, DeviceValueType::BOOL, FL_(tempRise), DeviceValueUOM::NONE, MAKE_CF_CB(set_tempRise));
register_device_value(
DeviceValueTAG::TAG_DEVICE_DATA, &setReturnTemp_, DeviceValueType::UINT, FL_(setReturnTemp), DeviceValueUOM::DEGREES, MAKE_CF_CB(set_setReturnTemp), 40, 75);
register_device_value(
DeviceValueTAG::TAG_DEVICE_DATA, &mixRuntime_, DeviceValueType::USHORT, FL_(mixRuntime), DeviceValueUOM::SECONDS, MAKE_CF_CB(set_mixRuntime), 0, 600);
register_device_value(
DeviceValueTAG::TAG_DEVICE_DATA, &setFlowTemp_, DeviceValueType::UINT, FL_(setFlowTemp), DeviceValueUOM::DEGREES, MAKE_CF_CB(set_setFlowTemp), 40, 75);
register_device_value(
DeviceValueTAG::TAG_DEVICE_DATA, &bufBypass_, DeviceValueType::ENUM, FL_(enum_bufBypass), FL_(bufBypass), DeviceValueUOM::NONE, MAKE_CF_CB(set_bufBypass));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&bufMixRuntime_,
DeviceValueType::USHORT,
FL_(bufMixRuntime),
DeviceValueUOM::SECONDS,
MAKE_CF_CB(set_bufMixRuntime),
0,
600);
register_device_value(
DeviceValueTAG::TAG_DEVICE_DATA, &bufConfig_, DeviceValueType::ENUM, FL_(enum_bufConfig), FL_(bufConfig), DeviceValueUOM::NONE, MAKE_CF_CB(set_bufConfig));
register_device_value(
DeviceValueTAG::TAG_DEVICE_DATA, &blockMode_, DeviceValueType::ENUM, FL_(enum_blockMode), FL_(blockMode), DeviceValueUOM::NONE, MAKE_CF_CB(set_blockMode));
register_device_value(
DeviceValueTAG::TAG_DEVICE_DATA, &blockTerm_, DeviceValueType::ENUM, FL_(enum_blockTerm), FL_(blockTerm), DeviceValueUOM::NONE, MAKE_CF_CB(set_blockTerm));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &blockHyst_, DeviceValueType::INT, FL_(blockHyst), DeviceValueUOM::DEGREES_R, MAKE_CF_CB(set_blockHyst), 0, 50);
register_device_value(
DeviceValueTAG::TAG_DEVICE_DATA, &releaseWait_, DeviceValueType::UINT, FL_(releaseWait), DeviceValueUOM::MINUTES, MAKE_CF_CB(set_releaseWait), 0, 240);
}
/*
* alternative heatingsource AM200
*/
// 0x054D AM200 temperatures
// Rx: 60 00 FF 00 04 4D 0103 0108 8000 00C6 0127 0205 8000 0200 0000 8000 6C
// TB4 TR2 TA1 TR1 TB1 TB2* TB3
void Heatsource::process_amTempMessage(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, curFlowTemp_, 0); // TB4
has_update(telegram, retTemp_, 2); // TR2
has_update(telegram, aFlowTemp_, 6);
has_update(telegram, aRetTemp_, 8);
has_update(telegram, cylTopTemp_, 10);
has_update(telegram, cylCenterTemp_, 12);
has_update(telegram, cylBottomTemp_, 14);
}
// 0x054E AM200 status (6 bytes long)
// Rx: 60 00 FF 00 04 4E 00 00 00 00 00 00 86
void Heatsource::process_amStatusMessage(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, aPumpMod_, 0); // PR1
// offset 1: bitfield 01-pump on, 02-VR1 opening, 04-VR1 closing, 08-VB1 opening, 10-VB1 closing
// uint8_t stat = aPump_ | setValveBuffer_ << 3 | setValveReturn_ << 1;
// if (telegram->read_value(stat, 1)) {
// has_update(aPump_, stat & 0x01);
// has_update(valveBuffer_, (stat >> 3) & 0x03);
// has_update(valveReturn_, (stat >> 1) & 0x03);
// }
// actually we dont know the offset of VR2
// has_update(telegram, valveBypass_, ?); // VR2
has_update(telegram, valveReturn_, 4); // VR1, percent
has_update(telegram, valveBuffer_, 5); // VB1, percent
}
// 0x054C AM200 not broadcasted message, 23 bytes long
// data: 00 01 01 00 01 00 41 4B 00 5A 00 5A 00 01 05 3C 00 00 5A 00 01 23 00
void Heatsource::process_amSettingMessage(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, vr2Config_, 12); // pos 12: off(00)/bypass(01)
has_update(telegram, ahsActivated_, 0); // pos 00: Alternate heat source activation: No(00),Yes(01)
has_update(telegram, aPumpConfig_, 4); // pos 04: Buffer primary pump->Config pump: No(00),Yes(01)
has_update(telegram, aPumpSignal_, 3); // pos 03: Output for PR1 pump: On/Off(00),PWM(01),PWM invers(02)
has_update(telegram, aPumpMin_, 21); // pos 21: Min output pump PR1 (%)
has_update(telegram, tempRise_, 1); // pos 01: AHS return temp rise: No(00),Yes(01) (mixer VR1)
has_update(telegram, setReturnTemp_, 6); // pos 06: Set temp return (°C) (VR1)
has_update(telegram, mixRuntime_, 8); // pos 8/9: Mixer run time (s) (VR1)
has_update(telegram, setFlowTemp_, 7); // pos 07: Set flow temp AHS (°C) (Buffer)
has_update(telegram, bufBypass_, 2); // pos 02: Puffer bypass: No(00), Mischer(01), Ventil(02) (Buffer)
has_update(telegram, bufMixRuntime_, 10); // pos 10/11: Bypass mixer run time: [time] (s) (Buffer)
has_update(telegram, bufConfig_, 20); // pos 20: Konfig WW-Speicher Monovalent(01), Bivalent(02) (buffer)
has_update(telegram, blockMode_, 16); // pos 16: Config htg. blocking mode: No(00),Automatic(01),Always block02) (blocking)
has_update(telegram, blockTerm_, 17); // pos 17: Config of block terminal: NO(00), NC(01)
has_update(telegram, blockHyst_, 14); // pos 14?: Hyst. for bolier block (K)
has_update(telegram, releaseWait_, 15); // pos 15: Boiler release wait time (min)
}
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
// 0x054F AM200 not broadcasted message, 7 bytes long
// Boiler(0x60) -> Me(0x0B), amCommand(0x054F), data: 00 00 00 00 00 00 00
void Heatsource::process_amCommandMessage(std::shared_ptr<const Telegram> telegram) {
// pos 0: return pump in percent
// pos 3: setValveBuffer VB1 0-off, 1-open, 2-close
// pos 2: setValveReturn VR1 0-off, 1-open, 2-close
// pos 6: boiler blocking 0-off, 1-on
}
// 0x0550 AM200 broadcasted message, all 27 bytes unkown
// Rx: 60 00 FF 00 04 50 00 FF 00 FF FF 00 0D 00 01 00 00 00 00 01 03 01 00 03 00 2D 19 C8 02 94 00 4A
// Rx: 60 00 FF 19 04 50 00 FF FF 39
void Heatsource::process_amExtraMessage(std::shared_ptr<const Telegram> telegram) {
}
#pragma GCC diagnostic pop
// Settings AM200
// pos 12: off(00)/Keelbypass(01)/(hc1pump(02) only standalone)
bool Heatsource::set_vr2Config(const char * value, const int8_t id) {
uint8_t v;
if (!Helpers::value2enum(value, v, FL_(enum_vr2Config))) {
return false;
}
write_command(0x54C, 12, v, 0x54C);
return true;
}
// pos 00: Alternate heat source activation: No(00),Yes(01)
bool Heatsource::set_ahsActivated(const char * value, const int8_t id) {
bool v;
if (!Helpers::value2bool(value, v)) {
return false;
}
write_command(0x54C, 0, v, 0x54C);
return true;
}
// pos 04: Buffer primary pump->Config pump: No(00),Yes(01)
bool Heatsource::set_aPumpConfig(const char * value, const int8_t id) {
bool v;
if (!Helpers::value2bool(value, v)) {
return false;
}
write_command(0x54C, 4, v, 0x54C);
return true;
}
// pos 03: Output for PR1 pump: On/Off(00),PWM(01),PWM invers(02)
bool Heatsource::set_aPumpSignal(const char * value, const int8_t id) {
uint8_t v;
if (!Helpers::value2enum(value, v, FL_(enum_aPumpSignal))) {
return false;
}
write_command(0x54C, 3, v, 0x54C);
return true;
}
// pos 21: Min output pump PR1 (%)
bool Heatsource::set_aPumpMin(const char * value, const int8_t id) {
int v;
if (!Helpers::value2number(value, v)) {
return false;
}
write_command(0x54C, 21, v, 0x54C);
return true;
}
// pos 01: AHS return temp rise: No(00),Yes(01) (mixer VR1)
bool Heatsource::set_tempRise(const char * value, const int8_t id) {
bool v;
if (!Helpers::value2bool(value, v)) {
return false;
}
write_command(0x54C, 1, v, 0x54C);
return true;
}
// pos 06: Set temp return (°C) (VR1)
bool Heatsource::set_setReturnTemp(const char * value, const int8_t id) {
int v;
if (!Helpers::value2temperature(value, v)) {
return false;
}
write_command(0x54C, 6, v, 0x54C);
return true;
}
// pos 10/11?: Mixer run time (s) (VR1)
bool Heatsource::set_mixRuntime(const char * value, const int8_t id) {
int v;
if (!Helpers::value2number(value, v)) {
return false;
}
uint8_t data[2] = {(uint8_t)(v >> 8), (uint8_t)v};
write_command(0x54C, 8, data, 2, 0x54C);
return true;
}
// pos 07: Set flow temp AHS (°C) (Buffer)
bool Heatsource::set_setFlowTemp(const char * value, const int8_t id) {
int v;
if (!Helpers::value2number(value, v)) {
return false;
}
write_command(0x54C, 7, v, 0x54C);
return true;
}
// pos 02: Puffer bypass: No(00), Mischer(01), Ventil(02) (Buffer)
bool Heatsource::set_bufBypass(const char * value, const int8_t id) {
uint8_t v;
if (!Helpers::value2enum(value, v, FL_(enum_bufBypass))) {
return false;
}
write_command(0x54C, 2, v, 0x54C);
return true;
}
// pos 8/9: Bypass mixer run time: [time] (s) (Buffer)
bool Heatsource::set_bufMixRuntime(const char * value, const int8_t id) {
int v;
if (!Helpers::value2number(value, v)) {
return false;
}
uint8_t data[2] = {(uint8_t)(v >> 8), (uint8_t)v};
write_command(0x54C, 10, data, 2, 0x54C);
return true;
}
// pos 20: Konfig WW-Speicher Monovalent(01), Bivalent(02) (buffer)
bool Heatsource::set_bufConfig(const char * value, const int8_t id) {
uint8_t v;
if (!Helpers::value2enum(value, v, FL_(enum_bufConfig))) {
return false;
}
write_command(0x54C, 20, v, 0x54C);
return true;
}
// pos 16: Config htg. blocking mode: No(00),Automatic(01),Always block02) (blocking)
bool Heatsource::set_blockMode(const char * value, const int8_t id) {
uint8_t v;
if (!Helpers::value2enum(value, v, FL_(enum_blockMode))) {
return false;
}
write_command(0x54C, 16, v, 0x54C);
return true;
}
// pos 17: Config of block terminal: NO(00), NC(01)
bool Heatsource::set_blockTerm(const char * value, const int8_t id) {
uint8_t v;
if (!Helpers::value2enum(value, v, FL_(enum_blockTerm))) {
return false;
}
write_command(0x54C, 17, v, 0x54C);
return true;
}
// pos 14?: Hyst. for bolier block (K)
bool Heatsource::set_blockHyst(const char * value, const int8_t id) {
int v;
if (!Helpers::value2temperature(value, v, true)) {
return false;
}
write_command(0x54C, 14, v, 0x54C);
return true;
}
// pos 15: Boiler release wait time (min)
bool Heatsource::set_releaseWait(const char * value, const int8_t id) {
int v;
if (!Helpers::value2number(value, v)) {
return false;
}
write_command(0x54C, 15, v, 0x54C);
return true;
}
/*
bool Heatsource::set_valveBuffer(const char * value, const int8_t id) {
uint8_t v;
if (!Helpers::value2enum(value, v, FL_(enum_am200valve))) {
return false;
}
write_command(0x54F, 3, v, 0x54F);
return true;
}
bool Heatsource::set_valveReturn(const char * value, const int8_t id) {
uint8_t v;
if (!Helpers::value2enum(value, v, FL_(enum_am200valve))) {
return false;
}
write_command(0x54F, 2, v, 0x54F);
return true;
}
*/
} // namespace emsesp

92
src/devices/heatsource.h Normal file
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@@ -0,0 +1,92 @@
/*
* 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/>.
*/
#ifndef EMSESP_HEATSOURCE_H
#define EMSESP_HEATSOURCE_H
#include "emsesp.h"
namespace emsesp {
class Heatsource : public EMSdevice {
public:
Heatsource(uint8_t device_type, uint8_t device_id, uint8_t product_id, const char * version, const char * name, uint8_t flags, uint8_t brand);
private:
uint16_t curFlowTemp_; // Current flow temperature
uint16_t retTemp_; // Return temperature
int16_t cylTopTemp_; // TB1
int16_t cylCenterTemp_; // TB2
int16_t cylBottomTemp_; // TB3
int16_t aFlowTemp_; // TA1
int16_t aRetTemp_; // TR1
uint8_t aPumpMod_; // PR1 - percent
uint8_t valveBuffer_; // VB1
uint8_t valveReturn_; // VR1
// uint8_t valveBypass_; // VR2 position unknown
// uint8_t heatSource_; // OEV
// Settings:
uint8_t vr2Config_; // pos 12: off(00)/Keelbypass(01)/(hc1pump(02) only standalone)
uint8_t ahsActivated_; // pos 00: Alternate heat source activation: No(00),Yes(01)
uint8_t aPumpConfig_; // pos 04: Buffer primary pump->Config pump: No(00),Yes(01)
uint8_t aPumpSignal_; // pos 03: Output for PR1 pump: On/Off(00),PWM(01),PWM invers(02)
uint8_t aPumpMin_; // pos 21: Min output pump PR1 (%)
uint8_t tempRise_; // pos 01: AHS return temp rise: No(00),Yes(01) (mixer VR1)
uint8_t setReturnTemp_; // pos 06: Set temp return (°C) (VR1)
uint16_t mixRuntime_; // pos 10/11?: Mixer run time (s) (VR1)
uint8_t setFlowTemp_; // pos 07: Set flow temp AHS (°C) (Buffer)
uint8_t bufBypass_; // pos 02: Puffer bypass: No(00), Mischer(01), Ventil(02) (Buffer)
uint16_t bufMixRuntime_; // pos 8/9: Bypass mixer run time: [time] (s) (Buffer)
uint8_t bufConfig_; // pos 20: Konfig WW-Speicher Monovalent(01), Bivalent(02) (buffer)
uint8_t blockMode_; // pos 16: Config htg. blocking mode: No(00),Automatic(01),Always block02) (blocking)
uint8_t blockTerm_; // pos 17: Config of block terminal: NO(00), NC(01)
int8_t blockHyst_; // pos 14?: Hyst. for bolier block (K)
uint8_t releaseWait_; // pos 15: Boiler release wait time (min)
void process_amTempMessage(std::shared_ptr<const Telegram> telegram);
void process_amStatusMessage(std::shared_ptr<const Telegram> telegram);
void process_amSettingMessage(std::shared_ptr<const Telegram> telegram);
void process_amCommandMessage(std::shared_ptr<const Telegram> telegram);
void process_amExtraMessage(std::shared_ptr<const Telegram> telegram);
bool set_vr2Config(const char * value, const int8_t id); // pos 12: off(00)/Keelbypass(01)/(hc1pump(02) only standalone)
bool set_ahsActivated(const char * value, const int8_t id); // pos 00: Alternate heat source activation: No(00),Yes(01)
bool set_aPumpConfig(const char * value, const int8_t id); // pos 04: Buffer primary pump->Config pump: No(00),Yes(01)
bool set_aPumpSignal(const char * value, const int8_t id); // pos 03: Output for PR1 pump: On/Off(00),PWM(01),PWM invers(02)
bool set_aPumpMin(const char * value, const int8_t id); // pos 21: Min output pump PR1 (%)
bool set_tempRise(const char * value, const int8_t id); // pos 01: AHS return temp rise: No(00),Yes(01) (mixer VR1)
bool set_setReturnTemp(const char * value, const int8_t id); // pos 06: Set temp return (°C) (VR1)
bool set_mixRuntime(const char * value, const int8_t id); // pos 10/11?: Mixer run time (s) (VR1)
bool set_setFlowTemp(const char * value, const int8_t id); // pos 07: Set flow temp AHS (°C) (Buffer)
bool set_bufBypass(const char * value, const int8_t id); // pos 02: Puffer bypass: No(00), Mischer(01), Ventil(02) (Buffer)
bool set_bufMixRuntime(const char * value, const int8_t id); // pos 8/9: Bypass mixer run time: [time] (s) (Buffer)
bool set_bufConfig(const char * value, const int8_t id); // pos 20: Konfig WW-Speicher Monovalent(01), Bivalent(02) (buffer)
bool set_blockMode(const char * value, const int8_t id); // pos 16: Config htg. blocking mode: No(00),Automatic(01),Always block02) (blocking)
bool set_blockTerm(const char * value, const int8_t id); // pos 17: Config of block terminal: NO(00), NC(01)
bool set_blockHyst(const char * value, const int8_t id); // pos 14?: Hyst. for bolier block (K)
bool set_releaseWait(const char * value, const int8_t id); // pos 15: Boiler release wait time (min)
bool set_valveBuffer(const char * value, const int8_t id);
bool set_valveReturn(const char * value, const int8_t id);
};
} // namespace emsesp
#endif