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Merge branch 'master' into async

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Yurii
2025-12-21 12:33:43 +03:00
parent 1d7f85f462 56a8574aba
commit 3b038c4bd1
26 changed files with 1120 additions and 508 deletions
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46
src_data/locales/cn.json
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@@ -243,6 +243,7 @@
"otDhwBurnerHours": "OpenTherm, number of burner operating hours (DHW)",
"otHeatingPumpHours": "OpenTherm, number of pump operating hours (heating)",
"otDhwPumpHours": "OpenTherm, number of pump operating hours (DHW)",
"otCoolingHours": "OpenTherm, number of cooling hours",
"ntcTemp": "NTC 传感器",
"dallasTemp": "DALLAS 传感器",
@@ -352,7 +353,16 @@
},
"heating": {
"hyst": "滞后值<small>(单位:度)</small>",
"hyst": {
"title": "滞回",
"desc": "滞回有助于维持设定的室内温度在使用«Equitherm»和/或«PID»时。强制禁用加热当<code>current indoor > target + value</code>,启用加热当<code>current indoor < (target - value)</code>。",
"value": "值 <small>(以度为单位)</small>",
"action": {
"title": "行动",
"disableHeating": "禁用加热",
"set0target": "设置空目标"
}
},
"turboFactor": "Turbo 模式系数"
},
@@ -367,11 +377,26 @@
},
"equitherm": {
"n": "N 系数",
"k": "K 系数",
"t": {
"title": "T 系数",
"note": "启用PID时此参数无效"
"slope": {
"title": "斜率",
"note": "热损失补偿。主要调谐参数。"
},
"exponent": {
"title": "指数",
"note": "散热器效率。典型值:<code>1.1</code> - 地板采暖,<code>1.2</code> - 铸铁,<code>1.3</code> - 面板散热器,<code>1.4</code> - 对流器。"
},
"shift": {
"title": "偏移",
"note": "补偿额外热损失(例如,在管道中)或额外热源。"
},
"targetDiffFactor": {
"title": "T 因子",
"note": "如果启用 PID则不使用。将目标和当前室内温度之间的差值添加到设定点<code>setpoint = setpoint + ((target - indoor) * T)</code>。"
},
"chart": {
"targetTemp": "目标室内温度",
"setpointTemp": "热载体温度",
"outdoorTemp": "室外温度"
}
},
@@ -429,12 +454,13 @@
"autoFaultReset": "自动报警复位 <small>(不推荐!)</small>",
"autoDiagReset": "自动诊断复位 <small>(不推荐!)</small>",
"setDateAndTime": "同步设置锅炉日期与时间",
"immergasFix": "针对Immergas锅炉的兼容性修复"
"immergasFix": "针对Immergas锅炉的兼容性修复",
"alwaysSendIndoorTemp": "向锅炉发送当前室内温度"
},
"nativeHeating": {
"title": "原生锅炉供暖控制",
"note": "<u>注意:</u> 仅适用于锅炉需接收目标室温并自主调节载热介质温度的场景与固件中的PID及Equithermq气候补偿功能不兼容。"
"nativeOTC": {
"title": "原生热载体温度计算模式",
"note": "仅在锅炉处于 OTC 模式时<u>才</u>工作:需要并接受目标室内温度,并基于内置曲线模式自行调节热载体温度。与 PID 和 Equitherm 不兼容。"
}
},

44
src_data/locales/en.json
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@@ -243,6 +243,7 @@
"otDhwBurnerHours": "OpenTherm, number of burner operating hours (DHW)",
"otHeatingPumpHours": "OpenTherm, number of pump operating hours (heating)",
"otDhwPumpHours": "OpenTherm, number of pump operating hours (DHW)",
"otCoolingHours": "OpenTherm, number of cooling hours",
"ntcTemp": "NTC sensor",
"dallasTemp": "DALLAS sensor",
@@ -352,7 +353,16 @@
},
"heating": {
"hyst": "Hysteresis <small>(in degrees)</small>",
"hyst": {
"title": "Hysteresis",
"desc": "Hysteresis is useful for maintaining a set indoor temp (when using «Equitherm» and/or «PID»). Forces disable heating when <code>current indoor > target + value</code> and enable heating when <code>current indoor < (target - value)</code>.",
"value": "Value <small>(in degrees)</small>",
"action": {
"title": "Action",
"disableHeating": "Disable heating",
"set0target": "Set null target"
}
},
"turboFactor": "Turbo mode coeff."
},
@@ -367,11 +377,26 @@
},
"equitherm": {
"n": "N factor",
"k": "K factor",
"t": {
"slope": {
"title": "Slope",
"note": "Heat loss compensation. Main tuning parameter."
},
"exponent": {
"title": "Exponent",
"note": "Radiator efficiency. Typical values: <code>1.1</code> - Floor heating, <code>1.2</code> - Cast iron, <code>1.3</code> - Panel radiators, <code>1.4</code> - Convectors."
},
"shift": {
"title": "Shift",
"note": "Compensates for additional heat losses (e.g., in pipes) or extra heat sources."
},
"targetDiffFactor": {
"title": "T factor",
"note": "Not used if PID is enabled"
"note": "Not used if PID is enabled. Adds to the setpoint the difference between the target and current indoor temp: <code>setpoint = setpoint + ((target - indoor) * T)</code>."
},
"chart": {
"targetTemp": "Target indoor temperature",
"setpointTemp": "Heat carrier temperature",
"outdoorTemp": "Outdoor temperature"
}
},
@@ -429,12 +454,13 @@
"autoFaultReset": "Auto fault reset <small>(not recommended!)</small>",
"autoDiagReset": "Auto diag reset <small>(not recommended!)</small>",
"setDateAndTime": "Set date & time on boiler",
"immergasFix": "Fix for Immergas boilers"
"immergasFix": "Fix for Immergas boilers",
"alwaysSendIndoorTemp": "Send current indoor temp to boiler"
},
"nativeHeating": {
"title": "Native heating control (boiler)",
"note": "Works <u>ONLY</u> if the boiler requires the desired room temperature and regulates the temperature of the coolant itself. Not compatible with PID and Equitherm regulators in firmware."
"nativeOTC": {
"title": "Native OTC mode",
"note": "Works <u>ONLY</u> if the boiler is in OTC mode: requires and accepts the target indoor temperature and self-regulates the heat carrier temperature based on the built-in curves mode. Incompatible with PID and Equitherm."
}
},

44
src_data/locales/it.json
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@@ -243,6 +243,7 @@
"otDhwBurnerHours": "OpenTherm, numero di ore di funzionamento del bruciatore (ACS)",
"otHeatingPumpHours": "OpenTherm, numero di ore di funzionamento della pompa (riscaldamento)",
"otDhwPumpHours": "OpenTherm, numero di ore di funzionamento della pompa (ACS)",
"otCoolingHours": "OpenTherm, numero di ore di funzionamento della cooling",
"ntcTemp": "Sensore NTC",
"dallasTemp": "Sensore DALLAS",
@@ -352,7 +353,16 @@
},
"heating": {
"hyst": "Isteresi <small>(in gradi)</small>",
"hyst": {
"title": "Isteresi",
"desc": "L'isteresi è utile per mantenere una temperatura interna impostata (quando si utilizza «Equitherm» e/o «PID»). Forza la disabilitazione del riscaldamento quando <code>current indoor > target + value</code> e abilita il riscaldamento quando <code>current indoor < (target - value)</code>.",
"value": "Valore <small>(in gradi)</small>",
"action": {
"title": "Azione",
"disableHeating": "Disabilita riscaldamento",
"set0target": "Imposta target nullo"
}
},
"turboFactor": "Turbo mode coeff."
},
@@ -367,11 +377,26 @@
},
"equitherm": {
"n": "Fattore N",
"k": "Fattore K",
"t": {
"slope": {
"title": "Pendenza",
"note": "Compensazione della perdita di calore. Parametro di regolazione principale."
},
"exponent": {
"title": "Esponente",
"note": "Efficienza del radiatore. Valori tipici: <code>1.1</code> - Riscaldamento a pavimento, <code>1.2</code> - Ghisa, <code>1.3</code> - Radiatori a pannello, <code>1.4</code> - Convettori."
},
"shift": {
"title": "Spostamento",
"note": "Compensa perdite di calore aggiuntive (ad es., nelle tubature) o fonti di calore extra."
},
"targetDiffFactor": {
"title": "Fattore T",
"note": "Non usato se PID è attivato"
"note": "Non utilizzato se PID è abilitato. Aggiunge al setpoint la differenza tra la temperatura target e quella interna attuale: <code>setpoint = setpoint + ((target - indoor) * T)</code>."
},
"chart": {
"targetTemp": "Temperatura interna target",
"setpointTemp": "Temperatura del vettore termico",
"outdoorTemp": "Temperatura esterna"
}
},
@@ -429,12 +454,13 @@
"autoFaultReset": "Ripristino automatico degli errori <small>(sconsigliato!)</small>",
"autoDiagReset": "Ripristino diagnostico automatica <small>(sconsigliato!)</small>",
"setDateAndTime": "Imposta data e ora sulla caldaia",
"immergasFix": "Fix per caldiaie Immergas"
"immergasFix": "Fix per caldiaie Immergas",
"alwaysSendIndoorTemp": "Invia la temp attuale interna alla caldaia"
},
"nativeHeating": {
"title": "Controllo del riscaldamento nativo (caldaia)",
"note": "Lavora <u>SOLO</u> se la caldaia richiede la temperatura ambiente desiderata e regola autonomamente la temperatura del fluido. Non compatiblile con regolazioni PID e Equitherm del sistema."
"nativeOTC": {
"title": "Modalità nativa di calcolo della temperatura del vettore termico",
"note": "Funziona <u>SOLO</u> se la caldaia è in modalità OTC: richiede e accetta la temperatura interna target e regola autonomamente la temperatura del vettore termico basata sulla modalità curve integrata. Incompatibile con PID e Equitherm."
}
},

48
src_data/locales/nl.json
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@@ -222,6 +222,8 @@
"otDhwBurnerHours": "OpenTherm, aantal branderuren (warm water)",
"otHeatingPumpHours": "OpenTherm, aantal pompuren (verwarming)",
"otDhwPumpHours": "OpenTherm, aantal pompuren (warm water)",
"otCoolingHours": "OpenTherm, aantal cooling",
"ntcTemp": "NTC-sensor",
"dallasTemp": "DALLAS-sensor",
"bluetooth": "BLE-sensor",
@@ -323,7 +325,16 @@
}
},
"heating": {
"hyst": "Hysterese <small>(in graden)</small>",
"hyst": {
"title": "Hysterese",
"desc": "Hysterese is nuttig voor het handhaven van een ingestelde binnentemperatuur (bij gebruik van «Equitherm» en/of «PID»). Forceert uitschakelen van verwarming wanneer <code>current indoor > target + value</code> en inschakelen van verwarming wanneer <code>current indoor < (target - value)</code>.",
"value": "Waarde <small>(in graden)</small>",
"action": {
"title": "Actie",
"disableHeating": "Verwarming uitschakelen",
"set0target": "Stel null target in"
}
},
"turboFactor": "Turbomodus coëff."
},
"emergency": {
@@ -335,11 +346,26 @@
"treshold": "Drempeltijd <small>(sec)</small>"
},
"equitherm": {
"n": "N-factor",
"k": "K-factor",
"t": {
"title": "T-factor",
"note": "Niet gebruikt als PID is ingeschakeld"
"slope": {
"title": "Helling",
"note": "Compensatie voor warmteverlies. Hoofdafstelparameter."
},
"exponent": {
"title": "Exponent",
"note": "Radiator efficiëntie. Typische waarden: <code>1.1</code> - Vloerverwarming, <code>1.2</code> - Gietijzer, <code>1.3</code> - Paneelradiatoren, <code>1.4</code> - Convectors."
},
"shift": {
"title": "Verschuiving",
"note": "Compenseert voor extra warmteverliezen (bijv. in leidingen) of extra warmtebronnen."
},
"targetDiffFactor": {
"title": "T factor",
"note": "Niet gebruikt als PID is ingeschakeld. Voegt aan de setpoint de verschil tussen de target en huidige binnentemperatuur toe: <code>setpoint = setpoint + ((target - indoor) * T)</code>."
},
"chart": {
"targetTemp": "Doel binnentemperatuur",
"setpointTemp": "Warmtedrager temperatuur",
"outdoorTemp": "Buitentemperatuur"
}
},
"pid": {
@@ -394,11 +420,13 @@
"autoFaultReset": "Automatische storingsreset <small>(niet aanbevolen!)</small>",
"autoDiagReset": "Automatische diagnosereset <small>(niet aanbevolen!)</small>",
"setDateAndTime": "Stel datum & tijd in op ketel",
"immergasFix": "Fix voor Immergas-ketels"
"immergasFix": "Fix voor Immergas-ketels",
"alwaysSendIndoorTemp": "Stuur huidige binnentemp naar ketel"
},
"nativeHeating": {
"title": "Natuurlijke verwarmingsregeling (ketel)",
"note": "Werkt <u>ALLEEN</u> als de ketel de gewenste kamertemperatuur vereist en zelf de temperatuur van de warmtedrager regelt. Niet compatibel met PID- en Equitherm-regelaars in de firmware."
"nativeOTC": {
"title": "Native warmtedrager temperatuur berekeningsmodus",
"note": "Werkt <u>ALLEEN</u> als de ketel in OTC-modus is: vereist en accepteert de doel binnentemperatuur en regelt zelf de warmtedrager temperatuur op basis van de ingebouwde curves modus. Incompatibel met PID en Equitherm."
}
},
"mqtt": {

44
src_data/locales/ru.json
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@@ -243,6 +243,7 @@
"otDhwBurnerHours": "OpenTherm, кол-во часов работы горелки (ГВС)",
"otHeatingPumpHours": "OpenTherm, кол-во часов работы насоса (отопление)",
"otDhwPumpHours": "OpenTherm, кол-во часов работы насоса (ГВС)",
"otCoolingHours": "OpenTherm, кол-во часов работы охлаждения",
"ntcTemp": "NTC датчик",
"dallasTemp": "DALLAS датчик",
@@ -352,7 +353,16 @@
},
"heating": {
"hyst": "Гистерезис <small>(в градусах)</small>",
"hyst": {
"title": "Гистерезис",
"desc": "Гистерезис полезен для поддержания заданной внутр. темп. (при использовании «ПЗА» и/или «ПИД»). Принудительно откл. отопление, когда <code>current indoor > target + value</code>, и вкл. отопление, когда <code>current indoor < (target - value)</code>.",
"value": "Значение <small>(в градусах)</small>",
"action": {
"title": "Действие",
"disableHeating": "Отключить отопление",
"set0target": "Установить 0 в качестве целевой темп."
}
},
"turboFactor": "Коэфф. турбо режима"
},
@@ -367,11 +377,26 @@
},
"equitherm": {
"n": "Коэффициент N",
"k": "Коэффициент K",
"t": {
"slope": {
"title": "Наклон",
"note": "Компенсация теплопотерь. Основной параметр настройки."
},
"exponent": {
"title": "Экспонента",
"note": "Эффективность радиатора. Типичные значения: <code>1.1</code> - Тёплый пол, <code>1.2</code> - Чугунные радиаторы, <code>1.3</code> - Панельные радиаторы, <code>1.4</code> - Конвекторы."
},
"shift": {
"title": "Смещение",
"note": "Компенсирует дополнительные теплопотери (например, в трубах) или дополнительные источники тепла."
},
"targetDiffFactor": {
"title": "Коэффициент T",
"note": "Не используется, если ПИД включен"
"note": "Не используется, если ПИД включен. Добавляет разницу между целевой и текущей температурой в помещении: <code>setpoint = setpoint + ((target - indoor) * T)</code>."
},
"chart": {
"targetTemp": "Целевая внутренняя температура",
"setpointTemp": "Температура теплоносителя",
"outdoorTemp": "Наружная температура"
}
},
@@ -429,12 +454,13 @@
"autoFaultReset": "Автоматический сброс ошибок <small>(не рекомендуется!)</small>",
"autoDiagReset": "Автоматический сброс диагностики <small>(не рекомендуется!)</small>",
"setDateAndTime": "Устанавливать время и дату на котле",
"immergasFix": "Фикс для котлов Immergas"
"immergasFix": "Фикс для котлов Immergas",
"alwaysSendIndoorTemp": "Передавать текущую темп. в помещении котлу"
},
"nativeHeating": {
"title": "Передать управление отоплением котлу",
"note": "Работает <u>ТОЛЬКО</u> если котел требует и принимает целевую температуру в помещении и сам регулирует температуру теплоносителя на основе встроенного режима кривых. Несовместимо с ПИД и ПЗА."
"nativeOTC": {
"title": "Нативный режим OTC (расчёт температуры теплоносителя)",
"note": "Работает <u>ТОЛЬКО</u> если котел в режиме OTC: требует и принимает целевую температуру в помещении и сам регулирует температуру теплоносителя на основе встроенного режима кривых. Несовместимо с ПИД и ПЗА."
}
},

5
src_data/pages/sensors.html
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@@ -113,6 +113,7 @@
<option value="24" data-i18n>sensors.types.otDhwBurnerHours</option>
<option value="25" data-i18n>sensors.types.otHeatingPumpHours</option>
<option value="26" data-i18n>sensors.types.otDhwPumpHours</option>
<option value="27" data-i18n>sensors.types.otCoolingHours</option>
<option value="50" data-i18n>sensors.types.ntcTemp</option>
<option value="51" data-i18n>sensors.types.dallasTemp</option>
@@ -241,7 +242,9 @@
setCheckboxValue("[name='filtering']", data.filtering, sensorForm);
setInputValue("[name='filteringFactor']", data.filteringFactor, {}, sensorForm);
sensorForm.querySelector("[name='type']").dispatchEvent(new Event("change"));
setTimeout(() => {
sensorForm.querySelector("[name='type']").dispatchEvent(new Event("change"));
}, 10);
setBusy(".form-busy", "form", false, sensorNode);
};

344
src_data/pages/settings.html
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@@ -106,7 +106,7 @@
<option disabled selected data-i18n>settings.system.ntp.timezonePresets</option>
</select>
</div>
</label>
</label>
</fieldset>
<fieldset>
@@ -187,21 +187,48 @@
</div>
<div class="grid">
<label>
<span data-i18n>settings.heating.hyst</span>
<input type="number" inputmode="decimal" name="heating[hysteresis]" min="0" max="5" step="0.05" required>
</label>
<label>
<span data-i18n>settings.heating.turboFactor</span>
<input type="number" inputmode="decimal" name="heating[turboFactor]" min="1.5" max="10" step="0.1" required>
</label>
<label>
<span data-i18n>settings.maxModulation</span>
<input type="number" inputmode="numeric" name="heating[maxModulation]" min="1" max="100" step="1" required>
</label>
</div>
<label>
<span data-i18n>settings.maxModulation</span>
<input type="number" inputmode="numeric" name="heating[maxModulation]" min="1" max="100" step="1" required>
</label>
<hr />
<details>
<summary><b data-i18n>settings.heating.hyst.title</b></summary>
<div>
<fieldset>
<label>
<input type="checkbox" name="heating[hysteresis][enabled]" value="true">
<span data-i18n>settings.enable</span>
</label>
</fieldset>
<div class="grid">
<label>
<span data-i18n>settings.heating.hyst.value</span>
<input type="number" inputmode="decimal" name="heating[hysteresis][value]" min="0" max="5" step="0.05" required>
</label>
<label>
<span data-i18n>settings.heating.hyst.action.title</span>
<select name="heating[hysteresis][action]">
<option value="0" data-i18n>settings.heating.hyst.action.disableHeating</option>
<option value="1" data-i18n>settings.heating.hyst.action.set0target</option>
</select>
</label>
</div>
</div>
<small data-i18n>settings.heating.hyst.desc</small>
</details>
<hr />
@@ -348,21 +375,44 @@
</label>
</fieldset>
<div>
<div>
<canvas id="etChart"></canvas>
</div>
<label>
<div>
<span data-i18n>settings.equitherm.chart.targetTemp</span>: <b class="etChartTargetTempValue"></b>°
</div>
<input class="etChartTargetTemp" type="range" value="0" min="0" max="0" step="0.5">
</label>
</div>
<div class="grid">
<label>
<span data-i18n>settings.equitherm.n</span>
<input type="number" inputmode="decimal" name="equitherm[n_factor]" min="0.001" max="10" step="0.001" required>
<span data-i18n>settings.equitherm.slope.title</span>
<input type="number" inputmode="decimal" name="equitherm[slope]" min="0.001" max="10" step="0.001" required>
<small data-i18n>settings.equitherm.slope.note</small>
</label>
<label>
<span data-i18n>settings.equitherm.k</span>
<input type="number" inputmode="decimal" name="equitherm[k_factor]" min="0" max="10" step="0.01" required>
<span data-i18n>settings.equitherm.exponent.title</span>
<input type="number" inputmode="decimal" name="equitherm[exponent]" min="0.1" max="2" step="0.001" required>
<small data-i18n>settings.equitherm.exponent.note</small>
</label>
</div>
<div class="grid">
<label>
<span data-i18n>settings.equitherm.shift.title</span>
<input type="number" inputmode="decimal" name="equitherm[shift]" min="-15" max="15" step="0.01" required>
<small data-i18n>settings.equitherm.shift.note</small>
</label>
<label>
<span data-i18n>settings.equitherm.t.title</span>
<input type="number" inputmode="decimal" name="equitherm[t_factor]" min="0" max="10" step="0.01" required>
<small data-i18n>settings.equitherm.t.note</small>
<span data-i18n>settings.equitherm.targetDiffFactor.title</span>
<input type="number" inputmode="decimal" name="equitherm[targetDiffFactor]" min="0" max="10" step="0.01" required>
<small data-i18n>settings.equitherm.targetDiffFactor.note</small>
</label>
</div>
@@ -418,7 +468,7 @@
<span data-i18n>settings.temp.min</span>
<input type="number" inputmode="decimal" name="pid[minTemp]" min="0" max="0" step="1" required>
</label>
<label>
<span data-i18n>settings.temp.max</span>
<input type="number" inputmode="numeric" name="pid[maxTemp]" min="0" max="0" step="1" required>
@@ -447,12 +497,12 @@
<span data-i18n>settings.pid.deadband.p_multiplier</span>
<input type="number" inputmode="decimal" name="pid[deadband][p_multiplier]" min="0" max="5" step="0.001" required>
</label>
<label>
<span data-i18n>settings.pid.deadband.i_multiplier</span>
<input type="number" inputmode="decimal" name="pid[deadband][i_multiplier]" min="0" max="1" step="0.001" required>
</label>
<label>
<span data-i18n>settings.pid.deadband.d_multiplier</span>
<input type="number" inputmode="decimal" name="pid[deadband][d_multiplier]" min="0" max="1" step="0.001" required>
@@ -464,7 +514,7 @@
<span data-i18n>settings.pid.deadband.thresholdHigh</span>
<input type="number" inputmode="decimal" name="pid[deadband][thresholdHigh]" min="0" max="5" step="0.01" required>
</label>
<label>
<span data-i18n>settings.pid.deadband.thresholdLow</span>
<input type="number" inputmode="decimal" name="pid[deadband][thresholdLow]" min="0" max="5" step="0.01" required>
@@ -636,17 +686,22 @@
<span data-i18n>settings.ot.options.immergasFix</span>
</label>
<label>
<input type="checkbox" name="opentherm[options][alwaysSendIndoorTemp]" value="true">
<span data-i18n>settings.ot.options.alwaysSendIndoorTemp</span>
</label>
<hr />
<label>
<input type="checkbox" name="opentherm[options][nativeHeatingControl]" value="true">
<span data-i18n>settings.ot.nativeHeating.title</span><br />
<small data-i18n>settings.ot.nativeHeating.note</small>
<input type="checkbox" name="opentherm[options][nativeOTC]" value="true">
<span data-i18n>settings.ot.nativeOTC.title</span><br />
<small data-i18n>settings.ot.nativeOTC.note</small>
</label>
</fieldset>
</div>
</details>
<br />
<button type="submit" data-i18n>button.save</button>
</form>
@@ -860,11 +915,163 @@
</footer>
<script src="/static/app.js?{BUILD_TIME}"></script>
<script src="/static/chart.js?{BUILD_TIME}"></script>
<script>
document.addEventListener('DOMContentLoaded', async () => {
const lang = new Lang(document.getElementById('lang'));
lang.build();
let etChart = null;
let etChartConfig = {
slope: null,
exponent: null,
shift: null,
unitSystem: null,
targetTemp: null,
minTemp: null,
maxTemp: null,
decimated: false
};
const hasNeedDecimationChart = () => {
return window.innerWidth <= 800;
}
const makeEquithermChart = () => {
if (etChart == null) {
const ctx = document.getElementById('etChart').getContext('2d');
try {
etChart = new Chart(ctx, {
type: 'line',
data: {
datasets: [{
borderColor: (context) => {
const chart = context.chart;
const { ctx, chartArea } = chart;
if (!chartArea) {
return;
}
const gradient = ctx.createLinearGradient(0, chartArea.bottom, 0, chartArea.top);
gradient.addColorStop(0, 'rgba(1, 114, 173, 1)');
gradient.addColorStop(0.5, 'rgba(255, 99, 132, 1)');
return gradient;
},
borderWidth: 3,
fill: false,
tension: 0.1,
pointRadius: 2,
pointHoverRadius: 4,
indexAxis: "x",
data: []
}]
},
options: {
responsive: true,
resizeDelay: 500,
parsing: false,
interaction: {
mode: 'nearest',
intersect: false
},
plugins: {
tooltip: {
enabled: true,
position: 'nearest',
displayColors: false,
callbacks: {
title: (items) => {
return `${i18n("settings.equitherm.chart.outdoorTemp")}: ${items[0].label}`;
}
}
},
legend: {
display: false
}
},
scales: {
x: {
display: true,
type: "linear",
reverse: true,
title: {
display: true
},
ticks: {
stepSize: 1,
format: {
style: "unit",
unit: "degree",
unitDisplay: "narrow"
}
}
},
y: {
display: true,
title: {
display: true
},
ticks: {
format: {
style: "unit",
unit: "degree",
unitDisplay: "narrow"
}
}
}
}
}
});
} catch (error) {
console.log(error);
}
}
if (!etChart) {
return;
}
let data = [];
etChartConfig.decimated = hasNeedDecimationChart();
for (let value = 30; value >= -30; value -= etChartConfig.decimated ? 2 : 1) {
const outdoorTemp = etChartConfig.unitSystem == 0 ? value : c2f(value);
data.push({
x: parseFloat(outdoorTemp.toFixed(1)),
y: parseFloat(calculateEquithermTemp(outdoorTemp).toFixed(1))
});
}
etChart.data.datasets[0].data = data;
etChart.data.datasets[0].label = i18n("settings.equitherm.chart.setpointTemp");
etChart.options.scales.x.title.text = i18n("settings.equitherm.chart.outdoorTemp");
etChart.options.scales.y.title.text = i18n("settings.equitherm.chart.setpointTemp");
etChart.update();
}
const calculateEquithermTemp = (outdoorTemp) => {
const tempDelta = etChartConfig.targetTemp - outdoorTemp;
const maxPoint = etChartConfig.targetTemp - (
etChartConfig.maxTemp - etChartConfig.targetTemp
) / etChartConfig.slope;
const sf = (etChartConfig.maxTemp - etChartConfig.targetTemp) / Math.pow(
etChartConfig.targetTemp - maxPoint,
1 / etChartConfig.exponent
);
const result = etChartConfig.targetTemp + etChartConfig.shift + sf * (
tempDelta >= 0
? Math.pow(tempDelta, 1 / etChartConfig.exponent)
: -(Math.pow(-(tempDelta), 1 / etChartConfig.exponent))
);
return Math.max(Math.min(result, etChartConfig.maxTemp), etChartConfig.minTemp);
}
const fillData = (data) => {
// System
setSelectValue("[name='system[logLevel]']", data.system.logLevel);
@@ -908,8 +1115,9 @@
setCheckboxValue("[name='opentherm[options][autoFaultReset]']", data.opentherm.options.autoFaultReset);
setCheckboxValue("[name='opentherm[options][autoDiagReset]']", data.opentherm.options.autoDiagReset);
setCheckboxValue("[name='opentherm[options][setDateAndTime]']", data.opentherm.options.setDateAndTime);
setCheckboxValue("[name='opentherm[options][nativeHeatingControl]']", data.opentherm.options.nativeHeatingControl);
setCheckboxValue("[name='opentherm[options][nativeOTC]']", data.opentherm.options.nativeOTC);
setCheckboxValue("[name='opentherm[options][immergasFix]']", data.opentherm.options.immergasFix);
setCheckboxValue("[name='opentherm[options][alwaysSendIndoorTemp]']", data.opentherm.options.alwaysSendIndoorTemp);
setBusy('#ot-settings-busy', '#ot-settings', false);
// MQTT
@@ -956,7 +1164,9 @@
"min": data.system.unitSystem == 0 ? 1 : 33,
"max": data.system.unitSystem == 0 ? 100 : 212
});
setInputValue("[name='heating[hysteresis]']", data.heating.hysteresis);
setCheckboxValue("[name='heating[hysteresis][enabled]']", data.heating.hysteresis.enabled);
setInputValue("[name='heating[hysteresis][value]']", data.heating.hysteresis.value);
setSelectValue("[name='heating[hysteresis][action]']", data.heating.hysteresis.action);
setInputValue("[name='heating[turboFactor]']", data.heating.turboFactor);
setInputValue("[name='heating[maxModulation]']", data.heating.maxModulation);
setInputValue("[name='heating[overheatProtection][highTemp]']", data.heating.overheatProtection.highTemp, {
@@ -995,7 +1205,7 @@
setBusy('#dhw-settings-busy', '#dhw-settings', false);
// Emergency mode
if (data.opentherm.options.nativeHeatingControl) {
if (data.opentherm.options.nativeOTC) {
setInputValue("[name='emergency[target]']", data.emergency.target, {
"min": data.system.unitSystem == 0 ? 5 : 41,
"max": data.system.unitSystem == 0 ? 40 : 104
@@ -1012,9 +1222,10 @@
// Equitherm
setCheckboxValue("[name='equitherm[enabled]']", data.equitherm.enabled);
setInputValue("[name='equitherm[n_factor]']", data.equitherm.n_factor);
setInputValue("[name='equitherm[k_factor]']", data.equitherm.k_factor);
setInputValue("[name='equitherm[t_factor]']", data.equitherm.t_factor);
setInputValue("[name='equitherm[slope]']", data.equitherm.slope);
setInputValue("[name='equitherm[exponent]']", data.equitherm.exponent);
setInputValue("[name='equitherm[shift]']", data.equitherm.shift);
setInputValue("[name='equitherm[targetDiffFactor]']", data.equitherm.targetDiffFactor);
setBusy('#equitherm-settings-busy', '#equitherm-settings', false);
// PID
@@ -1038,6 +1249,24 @@
setInputValue("[name='pid[deadband][thresholdHigh]']", data.pid.deadband.thresholdHigh);
setInputValue("[name='pid[deadband][thresholdLow]']", data.pid.deadband.thresholdLow);
setBusy('#pid-settings-busy', '#pid-settings', false);
const etMinTemp = parseInt(data.system.unitSystem == 0 ? 5 : 41);
const etMaxTemp = parseInt(data.system.unitSystem == 0 ? 30 : 86);
const etTargetTemp = constrain(parseFloat(data.heating.target), etMinTemp, etMaxTemp);
setInputValue(".etChartTargetTemp", etTargetTemp.toFixed(1), {
"min": etMinTemp,
"max": etMaxTemp
});
etChartConfig.slope = data.equitherm.slope;
etChartConfig.exponent = data.equitherm.exponent;
etChartConfig.shift = data.equitherm.shift;
etChartConfig.unitSystem = data.system.unitSystem;
etChartConfig.minTemp = data.heating.minTemp;
etChartConfig.maxTemp = data.heating.maxTemp;
makeEquithermChart();
};
try {
@@ -1067,7 +1296,7 @@
cache: "no-cache",
credentials: "include"
});
if (!response.ok) {
throw new Error('Response not valid');
}
@@ -1090,6 +1319,57 @@
} catch (error) {
console.log(error);
}
document.querySelector(".etChartTargetTemp").addEventListener("input", async (event) => {
setValue('.etChartTargetTempValue', parseFloat(event.target.value).toFixed(1));
});
document.querySelector(".etChartTargetTemp").addEventListener("change", async (event) => {
if (!event.target.checkValidity()) {
return;
}
etChartConfig.targetTemp = parseFloat(event.target.value);
setValue('.etChartTargetTempValue', etChartConfig.targetTemp.toFixed(1));
makeEquithermChart();
});
document.querySelector("[name='equitherm[slope]']").addEventListener("change", async (event) => {
if (!event.target.checkValidity()) {
return;
}
etChartConfig.slope = parseFloat(event.target.value);
makeEquithermChart();
});
document.querySelector("[name='equitherm[exponent]']").addEventListener("change", async (event) => {
if (!event.target.checkValidity()) {
return;
}
etChartConfig.exponent = parseFloat(event.target.value);
makeEquithermChart();
});
document.querySelector("[name='equitherm[shift]']").addEventListener("change", async (event) => {
if (!event.target.checkValidity()) {
return;
}
etChartConfig.shift = parseFloat(event.target.value);
makeEquithermChart();
});
window.addEventListener('resize', async (event) => {
if (etChart) {
etChart.resize();
if (etChartConfig.decimated != hasNeedDecimationChart()) {
makeEquithermChart();
}
}
});
});
</script>
</body>

14
src_data/scripts/chart.js Normal file
View File

File diff suppressed because one or more lines are too long

38
src_data/scripts/utils.js
View File

@@ -5,8 +5,13 @@ const setupForm = (formSelector, onResultCallback = null, noCastItems = []) => {
}
form.querySelectorAll('input').forEach(item => {
item.addEventListener('change', (e) => {
e.target.setAttribute('aria-invalid', !e.target.checkValidity());
item.addEventListener('change', (event) => {
if (!event.target.checkValidity()) {
event.target.setAttribute('aria-invalid', true);
} else if (event.target.hasAttribute('aria-invalid')) {
event.target.removeAttribute('aria-invalid');
}
})
});
@@ -636,6 +641,10 @@ const setCheckboxValue = (selector, value, parent = undefined) => {
}
item.checked = value;
setTimeout(() => {
item.dispatchEvent(new Event("change"));
}, 10);
}
const setRadioValue = (selector, value, parent = undefined) => {
@@ -649,7 +658,14 @@ const setRadioValue = (selector, value, parent = undefined) => {
}
for (let item of items) {
item.checked = item.value == value;
const checked = item.value == value;
if (item.checked != checked) {
item.checked = checked;
setTimeout(() => {
item.dispatchEvent(new Event("change"));
}, 10);
}
}
}
@@ -664,13 +680,17 @@ const setInputValue = (selector, value, attrs = {}, parent = undefined) => {
}
for (let item of items) {
item.value = value;
if (attrs instanceof Object) {
for (let attrKey of Object.keys(attrs)) {
item.setAttribute(attrKey, attrs[attrKey]);
}
}
item.value = value;
setTimeout(() => {
item.dispatchEvent(new Event("change"));
}, 10);
}
}
@@ -859,4 +879,12 @@ function dec2hex(i) {
function constrain(amt, low, high) {
return ((amt) < (low) ? (low) : ((amt) > (high) ? (high) : (amt)));
}
function c2f(value) {
return (9 / 5) * value + 32;
}
function f2c(value) {
return (value - 32) * (5 / 9);
}