Node-Red Control Proxon T300, E3DC, Shelly
Control Proxon T300 hot water storage tank PV priority switching input with ShellyPlus1 via MQTT and Node-Red
Overview of the project
Control of the PV priority switching input of the T300 hot water storage tank of a Proxon ventilation heating system using a ShellyPlus1 via Node-Red and MQTT. The ShellyPlus1 is controlled via Node-Red and MQTT in such a way that the priority switching is activated when an adjustable battery charge and the feed-in reaches an adjustable wattage and deactivated again when the values are undershot. A pushover message is sent on activation and deactivation so that the switching processes can be monitored even when nobody is at home.
On the circuit board of the T300, on which the display is also soldered, there is the terminal block X13. The circuit board is on the back of the display. To access the terminal block, you must first remove the long strip on the front below the display. It is only pressed into the side of the insulation of the device with pointed claws. There are three screws behind it that need to be loosened. You can then remove the entire upper part of the device insulation upwards. The display is inserted into two grooves and must be held firmly when sliding it out to prevent damage. The priority circuit of the PV system is located on terminal block X13. The switching input of the ShellyPlus1 is connected to X13-1 and X13-2. Please remember that this is a potential-free contact. The suitable relay in this case is the ShellyPlus1. The control line can be led out of the T300 through an existing opening at the rear (this can be seen when you have removed the cover and the display) using a two-pole cable (I used a telephone cable). This cable have to bo connected with to the I/O connections of the Shelly 1 (note: only the ShellyPlus1 is potential-free!) and then evaluate all available parameters via the home automation system (battery charge status, current yield and thus switch the PV priority on or off.
The terminal block X13 has 3.3 V at the connection itself. Following Parameters in the installer menu (code 1000) have to be adapted:
In the Installer menu:
Set F22 PV mode to SG (Smart Grid). This activates the digital input
Set F23 PV Eheiz to 5V
Set F24 PV WP to 5V
Set F25 WP Time to 5 min (or what you want, this is the time to wait bevor X13 switches to on)
In the Settings menu:
D05 PV Priority ON
After I contacted Zimmermann, they sent me a CVS file with all the Modbus information, the wiring can be seen on the circuit diagrams that were given to me at the time of acceptance. Please leave me an email via PM and I can send you the CSV file.
Installation, requirements
- Raspberry Pi is required as host for the other requirement
- Install an MQTT Broker (i used Mosquitto)
- Install Node-Red with Dashboard
- Install RSCP to MQTT Dashboard v1.0
- Download on Github here: https://github.com/pvtom/rscp2mqtt-dashboard
- a few of the E3DC MQTT Topics are used in the flow to calculate the adjusted data
- Install node-red-node-pushover – required to send Pushover Messages
- a pushover account should be created, if you want to use it when the trial period ends, you have to pay $5. See Infos here: https://pushover.net/pricing
- Configure ShellyPlus1 and integrate it into the network, so you can use it via MQTT
- Connect the switching input of the Shelly to X13 1 + 2
Documentation to set the T300 Parameters
A PDF-File with the Docu with screenshots is also available here in the project, see below
Node-Red Flow
The flow (Downlod here) is available as a JSON file in the project and can be downloaded or the JSON code can be copied
Pictures of the Proxon T300 Project
The Flow of the Project (Downlod here):
[ { "id": "0a84b244800e8247", "type": "group", "z": "7ef373a00e10516c", "style": { "stroke": "#999999", "stroke-opacity": "1", "fill": "none", "fill-opacity": "1", "label": true, "label-position": "nw", "color": "#a4a4a4" }, "nodes": [ "05fc060bd26e4089", "dfc61f75940d3c66", "eff750731d0990d5", "2bdb79883b954acb", "02ad5aae205da174", "18452708c0b73fae", "d7f99ac2359e19a3", "a708c32a3446469d", "2fd982002462245e", "33f3eed00bc3718b", "b172759af4d97713", "d7c853e5c3b96baa", "f97416f502395c53", "6d02d08b05d294d1", "3e54535e6aae6d57", "ee0fd2f5b3fc0947", "fc1e048978525d93", "20a63eef0ba4f3c6", "bb87556ffb1b8363", "030e6d5e64bf2215", "e63c3dba1cd08de8", "e4163a6c1a155bb4", "573dde1f82267408", "2c75e1915891a96e", "b2bd78e514f07082", "b5015436dff96404", "4f72183c2032b57f", "1a8d08504ced80b0", "6f42c5bc3d35bcde", "d1a3ea2ff70442c4", "0e94415422a04522", "02fd191bf7410fb6", "3eecca5ce515b52c", "9e8ec577ac9bd8c8", "af696281252ae973", "20dc12569de7555f", "18f60484b67ec067", "22137cec5a557070", "a40133bad02c1719", "fc4917821ea2fc51", "a45718bdbbd4e11d", "9f2ced77c1845ad8", "b2ab691f890f8bd0" ], "x": 14, "y": 19, "w": 1092, "h": 650 }, { "id": "05fc060bd26e4089", "type": "mqtt in", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "", "topic": "Haus/Keller/Shelly/PVBoiler/command/switch:0", "qos": "1", "datatype": "auto-detect", "broker": "88539582a8a310de", "nl": false, "rap": false, "inputs": 0, "x": 220, "y": 100, "wires": [ [ "9f2ced77c1845ad8" ] ] }, { "id": "dfc61f75940d3c66", "type": "mqtt out", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "", "topic": "Haus/Keller/Shelly/PVBoiler/command/switch:0", "qos": "", "retain": "", "respTopic": "", "contentType": "", "userProps": "", "correl": "", "expiry": "", "broker": "88539582a8a310de", "x": 880, "y": 100, "wires": [] }, { "id": "eff750731d0990d5", "type": "comment", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "E3DC Hauskraftwerk - Akku Ladung % + PV Watt auswerten => ShellyPlus1 => Boiler BOOST de- / aktivieren einstellbarem Grenzwert XX % + XXXX Watt", "info": "", "x": 550, "y": 60, "wires": [] }, { "id": "2bdb79883b954acb", "type": "ui_gauge", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "E3DC Akku Ladezustand in %", "group": "3b18bed1450c9878", "order": 2, "width": 6, "height": 5, "gtype": "gage", "title": "E3DC Akku Ladezustand in %", "label": "%", "format": "{{value | number:0}}", "min": 0, "max": "100", "colors": [ "#ff9200", "#e6e600", "#00f900" ], "seg1": "69", "seg2": "71", "diff": false, "className": "", "x": 510, "y": 160, "wires": [] }, { "id": "02ad5aae205da174", "type": "function", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Akku% + Solar Watt Vergleich Grenzwerte", "func": "// Prüfe, ob der Schwellenwert für Akku oder Solar aktualisiert wird\nif (msg.topic === \"threshold\") {\n context.set(\"threshold_akku\", msg.payload);\n} else if (msg.topic === \"thresholdsolar\") {\n context.set(\"threshold_solar\", msg.payload);\n}\n\n// Lade die gespeicherten Schwellwerte aus dem Context\nlet threshold_akku = context.get(\"threshold_akku\");\nlet threshold_solar = context.get(\"threshold_solar\");\n\n// Wenn die Schwellenwerte noch nicht gesetzt sind, nicht weitermachen\nif (threshold_akku === undefined || threshold_solar === undefined) {\n node.warn(\"Schwellwerte nicht gesetzt. Warte auf Threshold.\");\n return null;\n}\n\n// Prüfe, ob die Nachricht vom Akku oder der Solareinspeisung stammt\nif (msg.topic === \"Haus/Keller/e3dc/battery/soc\") {\n context.set(\"battery_soc\", msg.payload);\n}\nif (msg.topic === \"Haus/Keller/e3dc/solar/power\") {\n context.set(\"solar_power\", msg.payload);\n}\n\n// Lade die aktuellen Werte für Akku und Solar aus dem Context\nlet battery_soc = context.get(\"battery_soc\");\nlet solar_power = context.get(\"solar_power\");\n\n// Wenn keine gültigen Werte für Akku oder Solar vorhanden sind, nicht weitermachen\nif (battery_soc === undefined || solar_power === undefined) {\n node.warn(\"Werte für Akku oder Einspeisung nicht vorhanden. Warte auf Eingabewerte.\");\n return null;\n}\n\n// Debug-Ausgabe für Akku, Solar und Threshold-Werte\nnode.warn(\"Akkustand: \" + battery_soc + \"%, Einspeisung: \" + solar_power + \" Watt, Grenzwert Akku: \" + threshold_akku + \" %, Grenzwert Einspeisung: \" + threshold_solar + \" Watt\");\n\n// Prüfe, ob beide Werte die Schwellenwerte erfüllen\nif (battery_soc >= threshold_akku && solar_power >= threshold_solar) {\n node.warn(\"Bedingungen erfüllt: Shelly wird eingeschaltet.\");\n return {\n topic: \"Haus/Keller/Shelly/PVBoiler/command/switch:0\",\n payload: \"on\",\n led: \"on\" // LED Payload\n };\n} else {\n node.warn(\"Bedingungen NICHT erfüllt: Shelly wird ausgeschaltet.\");\n return {\n topic: \"Haus/Keller/Shelly/PVBoiler/command/switch:0\",\n payload: \"off\",\n led: \"off\" // LED Payload\n };\n}\n", "outputs": 1, "timeout": "", "noerr": 0, "initialize": "", "finalize": "", "libs": [], "x": 540, "y": 280, "wires": [ [ "d7f99ac2359e19a3", "18452708c0b73fae", "2c75e1915891a96e", "0e94415422a04522", "a40133bad02c1719" ] ] }, { "id": "18452708c0b73fae", "type": "mqtt out", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "ShellyPlus1 PV Vorrang Boiler BOOST", "topic": "Haus/Keller/Shelly/PVBoiler/command/switch:0", "qos": "2", "retain": "true", "respTopic": "", "contentType": "", "userProps": "", "correl": "", "expiry": "", "broker": "88539582a8a310de", "x": 930, "y": 140, "wires": [] }, { "id": "d7f99ac2359e19a3", "type": "debug", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "on / off von Function", "active": true, "tosidebar": true, "console": false, "tostatus": true, "complete": "true", "targetType": "full", "statusVal": "payload", "statusType": "auto", "x": 960, "y": 180, "wires": [] }, { "id": "a708c32a3446469d", "type": "inject", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Schwelle Akku", "props": [ { "p": "payload" } ], "repeat": "", "crontab": "", "once": false, "onceDelay": 0.1, "topic": "", "payload": "8", "payloadType": "num", "x": 140, "y": 480, "wires": [ [ "2fd982002462245e" ] ] }, { "id": "2fd982002462245e", "type": "ui_slider", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Grenzwert Akku einstellen", "label": "Grenzwert %", "tooltip": "", "group": "3b18bed1450c9878", "order": 5, "width": 6, "height": 3, "passthru": true, "outs": "end", "topic": "threshold", "topicType": "str", "min": "20", "max": 100, "step": "2", "className": "", "x": 370, "y": 480, "wires": [ [ "33f3eed00bc3718b", "02ad5aae205da174", "02fd191bf7410fb6" ] ] }, { "id": "33f3eed00bc3718b", "type": "ui_text", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "group": "3b18bed1450c9878", "order": 7, "width": 5, "height": 2, "name": "", "label": "BOOST beenden unter (Akku)", "format": "{{msg.payload}} %", "layout": "col-center", "className": "", "style": true, "font": "Arial Black,Arial Black,Gadget,sans-serif", "fontSize": "18", "color": "#ff9200", "x": 950, "y": 480, "wires": [] }, { "id": "b172759af4d97713", "type": "mqtt in", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "", "topic": "Haus/Keller/e3dc/battery/power", "qos": "2", "datatype": "auto-detect", "broker": "88539582a8a310de", "nl": false, "rap": true, "rh": 0, "inputs": 0, "x": 170, "y": 568, "wires": [ [ "3e54535e6aae6d57" ] ] }, { "id": "d7c853e5c3b96baa", "type": "ui_gauge", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Batterie Be- Entladung in Watt", "group": "3b18bed1450c9878", "order": 4, "width": 6, "height": 5, "gtype": "gage", "title": "Batterie Be- Entladung in Watt", "label": "Watt", "format": "{{value | number:0}}", "min": "-500", "max": "1000", "colors": [ "#ff2600", "#e6e600", "#60c453" ], "seg1": "0", "seg2": "400", "diff": false, "className": "", "x": 950, "y": 568, "wires": [] }, { "id": "f97416f502395c53", "type": "mqtt in", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "", "topic": "Haus/Keller/e3dc/home/power", "qos": "2", "datatype": "auto-detect", "broker": "88539582a8a310de", "nl": false, "rap": true, "rh": 0, "inputs": 0, "x": 170, "y": 628, "wires": [ [ "573dde1f82267408" ] ] }, { "id": "6d02d08b05d294d1", "type": "ui_gauge", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Hausverbrauch aktuell in Watt", "group": "3b18bed1450c9878", "order": 1, "width": 6, "height": 5, "gtype": "gage", "title": "Hausverbrauch aktuell in Watt", "label": "Watt", "format": "{{value | number:0}}", "min": "0", "max": "4500", "colors": [ "#00b500", "#e6e600", "#ca3838" ], "seg1": "500", "seg2": "1500", "diff": false, "className": "", "x": 950, "y": 628, "wires": [] }, { "id": "3e54535e6aae6d57", "type": "function", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Dynamische Werte für Gauge", "func": "const value = msg.payload;\n\n// Rundung auf ganze Zahlen\nconst roundedValue = Math.round(value);\n\nconst absValue = Math.abs(roundedValue);\n\n// Berechnung des maxWert, 120% vom absoluten Wert, immer im positiven Bereich\nlet maxWert = Math.round(absValue * 1.2 + 200);\n\n// Berechnung des minWert, abhängig davon, ob value positiv oder negativ ist\nlet minWert = roundedValue < 0 ? Math.round(-absValue * 1.5) : Math.round(-absValue * 0.5);\n\nlet minSeg = Math.round(absValue * 0.4); // 40% vom absoluten Wert\nlet maxSeg = Math.round(absValue * 0.8); // 80% vom absoluten Wert\n\n// Debug-Ausgabe zur Überprüfung\n// node.warn(\"Akku Ladung - Max Wert: \" + maxWert + \", Min Wert: \" + minWert + \", Min Seg: \" + minSeg + \", Max Seg: \" + maxSeg);\n\nmsg = {\n ui_control: {\n gtype: \"gage\",\n min: minWert,\n max: maxWert,\n colors: [\"red\", \"orange\", \"green\"],\n seg1: minSeg,\n seg2: maxSeg\n },\n // Sende die gerundeten Werte an das ui_gauge\n payload: roundedValue\n};\n\nreturn msg;\n", "outputs": 1, "timeout": "", "noerr": 0, "initialize": "", "finalize": "", "libs": [], "x": 520, "y": 568, "wires": [ [ "d7c853e5c3b96baa" ] ] }, { "id": "ee0fd2f5b3fc0947", "type": "mqtt in", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Einspeisung Wert", "topic": "Haus/Keller/e3dc/solar/power", "qos": "2", "datatype": "auto-detect", "broker": "88539582a8a310de", "nl": false, "rap": true, "rh": 0, "inputs": 0, "x": 120, "y": 220, "wires": [ [ "b2bd78e514f07082", "6f42c5bc3d35bcde", "02ad5aae205da174" ] ] }, { "id": "fc1e048978525d93", "type": "ui_gauge", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Einspeisung Watt", "group": "3b18bed1450c9878", "order": 3, "width": 6, "height": 5, "gtype": "gage", "title": "E3DC Solar Strom Einspeisung in Watt", "label": "Watt", "format": "{{value | number:0}}", "min": 0, "max": "100", "colors": [ "#ff9200", "#e6e600", "#00f900" ], "seg1": "69", "seg2": "71", "diff": false, "className": "", "x": 630, "y": 240, "wires": [] }, { "id": "20a63eef0ba4f3c6", "type": "ui_led", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "order": 10, "group": "3b18bed1450c9878", "width": 6, "height": 3, "label": "ShellyPlus1 AN / AUS", "labelPlacement": "left", "labelAlignment": "center", "colorForValue": [ { "color": "#ff0000", "value": "false", "valueType": "bool" }, { "color": "#00f900", "value": "true", "valueType": "bool" } ], "allowColorForValueInMessage": true, "shape": "circle", "showGlow": true, "name": "ShellyPlus1 AN / AUS", "x": 960, "y": 280, "wires": [] }, { "id": "bb87556ffb1b8363", "type": "mqtt in", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Akku Ladung", "topic": "Haus/Keller/e3dc/battery/soc", "qos": "2", "datatype": "auto-detect", "broker": "88539582a8a310de", "nl": false, "rap": true, "rh": 0, "inputs": 0, "x": 110, "y": 160, "wires": [ [ "2bdb79883b954acb", "02ad5aae205da174", "1a8d08504ced80b0" ] ] }, { "id": "030e6d5e64bf2215", "type": "inject", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Schwelle Solar", "props": [ { "p": "payload" } ], "repeat": "", "crontab": "", "once": false, "onceDelay": 0.1, "topic": "", "payload": "500", "payloadType": "num", "x": 140, "y": 519, "wires": [ [ "e63c3dba1cd08de8" ] ] }, { "id": "e63c3dba1cd08de8", "type": "ui_slider", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Solar Grenzwert Watt einstellen", "label": "Grenzwert Watt", "tooltip": "", "group": "3b18bed1450c9878", "order": 6, "width": 6, "height": 3, "passthru": true, "outs": "end", "topic": "thresholdsolar", "topicType": "str", "min": "150", "max": "3000", "step": "25", "className": "", "x": 430, "y": 520, "wires": [ [ "e4163a6c1a155bb4", "02ad5aae205da174", "3eecca5ce515b52c" ] ] }, { "id": "e4163a6c1a155bb4", "type": "ui_text", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "group": "3b18bed1450c9878", "order": 9, "width": 5, "height": 2, "name": "", "label": "BOOST beenden unter (Solar)", "format": "{{msg.payload}} Watt", "layout": "col-center", "className": "", "style": true, "font": "Arial Black,Arial Black,Gadget,sans-serif", "fontSize": "18", "color": "#ff9200", "x": 950, "y": 519, "wires": [] }, { "id": "573dde1f82267408", "type": "function", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Dynamische Werte für Gauge", "func": "const value = msg.payload;\n\n// Rundung auf ganze Zahlen\nconst roundedValue = Math.round(value);\n\nconst absValue = Math.abs(roundedValue);\n\n// Berechnung des maxWert, 120% vom absoluten Wert, immer im positiven Bereich\nlet maxWert = Math.round(absValue * 1.2 + 200);\n\n// Berechnung des minWert, abhängig davon, ob value positiv oder negativ ist\nlet minWert = roundedValue < 0 ? Math.round(-absValue * 1.5) : Math.round(-absValue * 0.5);\n\nlet minSeg = Math.round(absValue * 0.4); // 40% vom absoluten Wert\nlet maxSeg = Math.round(absValue * 0.8); // 80% vom absoluten Wert\n\n// Debug-Ausgabe zur Überprüfung\n// node.warn(\"Haus Verbrauch - Max Wert: \" + maxWert + \", Min Wert: \" + minWert + \", Min Seg: \" + minSeg + \", Max Seg: \" + maxSeg);\n\nmsg = {\n ui_control: {\n gtype: \"gage\",\n min: minWert,\n max: maxWert,\n colors: [\"red\", \"orange\", \"green\"],\n seg1: minSeg,\n seg2: maxSeg\n },\n // Sende die gerundeten Werte an das ui_gauge\n payload: roundedValue\n};\n\nreturn msg;\n", "outputs": 1, "timeout": "", "noerr": 0, "initialize": "", "finalize": "", "libs": [], "x": 520, "y": 628, "wires": [ [ "6d02d08b05d294d1" ] ] }, { "id": "2c75e1915891a96e", "type": "function", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "LED Farbe steuern", "func": "var led = msg.payload;\nif (led == \"on\") {\n msg.payload = true;\n} else if (led == \"off\") {\n msg.payload = false;\n}\nreturn msg;", "outputs": 1, "timeout": 0, "noerr": 0, "initialize": "", "finalize": "", "libs": [], "x": 910, "y": 240, "wires": [ [ "20a63eef0ba4f3c6" ] ] }, { "id": "b2bd78e514f07082", "type": "function", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Dynamische Werte", "func": "const value = msg.payload;\n\n// Rundung auf ganze Zahlen\nconst roundedValue = Math.round(value);\n\nconst absValue = Math.abs(roundedValue);\n\n// Berechnung des maxWert, 120% vom absoluten Wert, immer im positiven Bereich\nlet maxWert = Math.round(absValue * 1.2 + 200);\n\n// Berechnung des minWert, abhängig davon, ob value positiv oder negativ ist\nlet minWert = roundedValue < 0 ? Math.round(-absValue * 1.5) : Math.round(-absValue * 0.5);\n\nlet minSeg = Math.round(absValue * 0.4); // 40% vom absoluten Wert\nlet maxSeg = Math.round(absValue * 0.8); // 80% vom absoluten Wert\n\n// Debug-Ausgabe zur Überprüfung\n// node.warn(\"Einspeisung - Max Wert: \" + maxWert + \", Min Wert: \" + minWert + \", Min Seg: \" + minSeg + \", Max Seg: \" + maxSeg);\n\nmsg = {\n ui_control: {\n gtype: \"gage\",\n min: minWert,\n max: maxWert,\n colors: [\"red\", \"orange\", \"green\"],\n seg1: minSeg,\n seg2: maxSeg\n },\n // Sende die gerundeten Werte an das ui_gauge\n payload: roundedValue\n};\n\nreturn msg;\n", "outputs": 1, "timeout": "", "noerr": 0, "initialize": "", "finalize": "", "libs": [], "x": 430, "y": 240, "wires": [ [ "fc1e048978525d93" ] ] }, { "id": "b5015436dff96404", "type": "ui_text", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "group": "3b18bed1450c9878", "order": 8, "width": 2, "height": 2, "name": "", "label": "&&", "format": "", "layout": "col-center", "className": "", "style": true, "font": "Arial Black,Arial Black,Gadget,sans-serif", "fontSize": "24", "color": "#ff9200", "x": 730, "y": 596, "wires": [] }, { "id": "4f72183c2032b57f", "type": "pushover", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "PV BOOST an", "device": "HandyX", "title": "PV Boiler Aktivierung", "priority": 0, "sound": "climb", "url": "", "url_title": "", "html": false, "x": 1000, "y": 340, "wires": [] }, { "id": "1a8d08504ced80b0", "type": "debug", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "%", "active": true, "tosidebar": true, "console": false, "tostatus": true, "complete": "true", "targetType": "full", "statusVal": "topic:payload", "statusType": "auto", "x": 550, "y": 200, "wires": [] }, { "id": "6f42c5bc3d35bcde", "type": "debug", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "W", "active": true, "tosidebar": true, "console": false, "tostatus": true, "complete": "true", "targetType": "full", "statusVal": "topic:payload", "statusType": "auto", "x": 350, "y": 200, "wires": [] }, { "id": "d1a3ea2ff70442c4", "type": "change", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Text bauen", "rules": [ { "t": "set", "p": "payload", "pt": "msg", "to": "BOOST wurde aktiviert", "tot": "str" } ], "action": "", "property": "", "from": "", "to": "", "reg": false, "x": 810, "y": 340, "wires": [ [ "4f72183c2032b57f" ] ] }, { "id": "0e94415422a04522", "type": "function", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Prüfe Zustand ON", "func": "// Hole den letzten bekannten Zustand\nlet lastState = context.get('lastState') || 'off';\n\n// Aktueller Zustand\nlet currentState = msg.payload;\n\n// Wenn der letzte Zustand 'off' war und der neue Zustand 'on' ist, Nachricht senden\nif (lastState === 'off' && currentState === 'on') {\n // Zustand aktualisieren\n context.set('lastState', 'on');\n return [msg, null]; // Nachricht weiterleiten\n} else {\n // Zustand aktualisieren (bei 'off' oder wiederholtem 'on')\n context.set('lastState', currentState);\n return [null, null]; // Keine Nachricht senden\n}\n", "outputs": 1, "timeout": "", "noerr": 0, "initialize": "", "finalize": "", "libs": [], "x": 470, "y": 320, "wires": [ [ "d1a3ea2ff70442c4", "9e8ec577ac9bd8c8" ] ], "info": "// Hole den letzten bekannten Zustand\nlet lastState = context.get('lastState') || 'off';\n\n// Aktueller Zustand\nlet currentState = msg.payload;\n\n// Debug-Ausgabe für Akku, Solar und Threshold-Werte\nnode.warn(\"Letzter Zustand: \" + lastState + \", Aktueller Zustand: \" + currentState);\n\n// Wenn der letzte Zustand 'off' war und der neue Zustand 'on' ist, Nachricht senden\nif (lastState === 'off' && currentState === 'on') {\n // Zustand aktualisieren\n context.set('lastState', 'on');\n return msg; // Nachricht weiterleiten\n} else {\n // Zustand aktualisieren (bei 'off' oder wiederholtem 'on')\n context.set('lastState', currentState);\n return null; // Keine Nachricht senden\n}" }, { "id": "02fd191bf7410fb6", "type": "debug", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Grenze Akku", "active": true, "tosidebar": true, "console": false, "tostatus": true, "complete": "true", "targetType": "full", "statusVal": "payload", "statusType": "auto", "x": 450, "y": 420, "wires": [] }, { "id": "3eecca5ce515b52c", "type": "debug", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Grenze Einspeisung", "active": true, "tosidebar": true, "console": false, "tostatus": true, "complete": "true", "targetType": "full", "statusVal": "payload", "statusType": "auto", "x": 680, "y": 420, "wires": [] }, { "id": "9e8ec577ac9bd8c8", "type": "debug", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Zustand", "active": true, "tosidebar": true, "console": false, "tostatus": true, "complete": "true", "targetType": "full", "statusVal": "payload", "statusType": "auto", "x": 640, "y": 320, "wires": [] }, { "id": "af696281252ae973", "type": "inject", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Verbinden", "props": [ { "p": "action", "v": "connect", "vt": "str" } ], "repeat": "", "crontab": "", "once": true, "onceDelay": "2", "topic": "", "x": 130, "y": 280, "wires": [ [ "20dc12569de7555f" ] ] }, { "id": "20dc12569de7555f", "type": "mqtt in", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Alle E3DC Topics", "topic": "", "qos": "0", "datatype": "utf8", "broker": "88539582a8a310de", "nl": false, "rap": true, "rh": 0, "inputs": 1, "x": 160, "y": 380, "wires": [ [ "22137cec5a557070" ] ] }, { "id": "18f60484b67ec067", "type": "inject", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "MQTT Subscribe", "props": [ { "p": "action", "v": "subscribe", "vt": "str" }, { "p": "topic", "vt": "str" } ], "repeat": "", "crontab": "", "once": true, "onceDelay": "3", "topic": "Haus/Keller/e3dc/#", "x": 150, "y": 320, "wires": [ [ "20dc12569de7555f" ] ] }, { "id": "22137cec5a557070", "type": "debug", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "E3DC Topics", "active": false, "tosidebar": true, "console": false, "tostatus": false, "complete": "payload", "targetType": "msg", "statusVal": "", "statusType": "auto", "x": 250, "y": 420, "wires": [] }, { "id": "a40133bad02c1719", "type": "function", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Prüfe Zustand OFF", "func": "// Hole den letzten bekannten Zustand\nlet lastState = context.get('lastState') || 'on';\n\n// Aktueller Zustand\nlet currentState = msg.payload;\n\n// Debug-Ausgabe für Akku, Solar und Threshold-Werte\nnode.warn(\"Letzter Zustand: \" + lastState + \", Aktueller Zustand: \" + currentState);\n\n// Wenn der letzte Zustand 'on' war und der neue Zustand 'off' ist, Nachricht senden\nif (lastState === 'on' && currentState === 'off') {\n // Zustand aktualisieren\n context.set('lastState', 'off');\n return msg; // Nachricht weiterleiten\n} else {\n // Zustand aktualisieren (bei 'on' oder wiederholtem 'off')\n context.set('lastState', currentState);\n return null; // Keine Nachricht senden\n}", "outputs": 1, "timeout": "", "noerr": 0, "initialize": "", "finalize": "", "libs": [], "x": 470, "y": 360, "wires": [ [ "fc4917821ea2fc51", "a45718bdbbd4e11d" ] ], "info": "// Hole den letzten bekannten Zustand\nlet lastState = context.get('lastState') || 'on';\n\n// Aktueller Zustand\nlet currentState = msg.payload;\n\n// Debug-Ausgabe für Akku, Solar und Threshold-Werte\nnode.warn(\"Letzter Zustand: \" + lastState + \", Aktueller Zustand: \" + currentState);\n\n// Wenn der letzte Zustand 'on' war und der neue Zustand 'off' ist, Nachricht senden\nif (lastState === 'on' && currentState === 'off') {\n // Zustand aktualisieren\n context.set('lastState', 'off');\n return msg; // Nachricht weiterleiten\n} else {\n // Zustand aktualisieren (bei 'on' oder wiederholtem 'off')\n context.set('lastState', currentState);\n return null; // Keine Nachricht senden\n}\n" }, { "id": "fc4917821ea2fc51", "type": "change", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Text bauen", "rules": [ { "t": "set", "p": "payload", "pt": "msg", "to": "Bolier heizen wurde deaktiviert", "tot": "str" } ], "action": "", "property": "", "from": "", "to": "", "reg": false, "x": 810, "y": 380, "wires": [ [ "b2ab691f890f8bd0" ] ] }, { "id": "a45718bdbbd4e11d", "type": "debug", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Zustand", "active": true, "tosidebar": true, "console": false, "tostatus": true, "complete": "true", "targetType": "full", "statusVal": "payload", "statusType": "auto", "x": 640, "y": 360, "wires": [] }, { "id": "9f2ced77c1845ad8", "type": "ui_switch", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "Shelly AN / AUS", "label": "Shelly AN / AUS (manuell)", "tooltip": "", "group": "3b18bed1450c9878", "order": 11, "width": 12, "height": 3, "passthru": false, "decouple": "true", "topic": "", "topicType": "str", "style": "", "onvalue": "on", "onvalueType": "str", "onicon": "fa-power-off fa-2x", "oncolor": "green", "offvalue": "off", "offvalueType": "str", "officon": "fa-power-off fa-2x", "offcolor": "red", "animate": true, "className": "", "x": 540, "y": 100, "wires": [ [ "dfc61f75940d3c66", "2c75e1915891a96e" ] ] }, { "id": "b2ab691f890f8bd0", "type": "pushover", "z": "7ef373a00e10516c", "g": "0a84b244800e8247", "name": "PV BOOST aus", "device": "HandyX", "title": "PV Boiler Aktivierung", "priority": 0, "sound": "falling", "url": "", "url_title": "", "html": false, "x": 1000, "y": 380, "wires": [] }, { "id": "88539582a8a310de", "type": "mqtt-broker", "name": "Raspi Mosquitto", "broker": "raspberrypi", "port": "1883", "clientid": "", "autoConnect": true, "usetls": false, "protocolVersion": "4", "keepalive": "60", "cleansession": true, "autoUnsubscribe": true, "birthTopic": "", "birthQos": "0", "birthRetain": "false", "birthPayload": "", "birthMsg": {}, "closeTopic": "", "closeQos": "0", "closeRetain": "false", "closePayload": "", "closeMsg": {}, "willTopic": "", "willQos": "0", "willRetain": "false", "willPayload": "", "willMsg": {}, "userProps": "", "sessionExpiry": "" }, { "id": "3b18bed1450c9878", "type": "ui_group", "name": "Warmwasser Boiler BOOST Steuerung", "tab": "af215acfc79f52e9", "order": 1, "disp": true, "width": "18", "collapse": false, "className": "" }, { "id": "af215acfc79f52e9", "type": "ui_tab", "name": "ShellyPlus Boiler BOOST Steuerung", "icon": "wi-wu-hazy", "order": 2, "disabled": false, "hidden": false } ]