Huawei Sun2000 & ioBroker via JS script funktioniert
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@chris_b sagte in Huawei Sun2000 & ioBroker via JS script funktioniert:
@chris_b
Neuste Version des Skripts
Folgende Änderungen sind integriert:- Auslesen von StartupTime und ShutdownTime korrigiert (war beides U16, sollte aber U32 sein).
Wenn für diese Zeiten nicht die kytischen Sekunden angezeigt werden sollen kann auch das hier verwendet werden:
// forcesetState("Solarpower.Huawei.Inverter.StartupTime", getU32(GlobalDataBuffer, 32091), {name: "", unit: ""}); // forcesetState("Solarpower.Huawei.Inverter.ShutdownTime", getU32(GlobalDataBuffer, 32093), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter.StartupTime", new Date(getU32(GlobalDataBuffer, 32091)*1000)); // Sekunden in Datum umgewandelt forcesetState("Solarpower.Huawei.Inverter.ShutdownTime", new Date(getU32(GlobalDataBuffer, 32093)*1000)); // Sekunden in Datum umgewandeltedit: führt zu Warnmeldung:
info: javascript.0 (25837) State value to set for "javascript.0.Solarpower.Huawei.Inverter.StartupTime" has to be one of type "string", "number", "boolean" but received type "object"
--> Javascript ist noch nicht so meins
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@chris_b said in Huawei Sun2000 & ioBroker via JS script funktioniert:
@chris_b
Neuste Version des Skripts
Folgende Änderungen sind integriert:- Auslesen von StartupTime und ShutdownTime korrigiert (war beides U16, sollte aber U32 sein).
- Die Javascript Instanz kann jetzt einfach über die Konstante JavaInst geändert werden.
// define javascript instance; please change according to your setup const JavaInst = "javascript.0.";Link zum Skript:
https://1drv.ms/u/s!AuJox5uVBmw-0iKQFLT0anp0yY1W?e=QXK7VrGuten Morgen.
Ich habe die Version 3 des Skriptes eingespielt und daran aus meiner IP und "String 2 aktiv" nichts geändert (habe also die Tatsache, dass ich keine Batterien habe ignoriert).
Ich bekomme nur die üblichen Warnmeldungen: Protokoll_2023-08-03-7Uhr15.pdf
Ich habe wieder je Moment zwei Screeshots gemacht - einmal das, was mir die EnPAL zeigt (Spiegelbild zu dem was der WR macht).
Einmal nach Start des Skripts und einmal nach ein paar wenigen Minuten. Wie man sieht, hat sich die Sonnensituation während des Abwartens geändert - zu sehen bei EnPAL aber nicht im IOBroker. Das ist der selbe Efekt, den ich habe, seitdem ich hier mit den Skript arbeiten - ich sehe immer nur die Werte beim Starten und dann tut sich nichts mehr.
Start:
Nach kurzer Zeit:
Und jetzt, 10 bis 15 Minuten danach:
Die Werte ändern sich einfach nicht bei mir
Ich kann auch nicht das typische Wechseln der Farbe der Objekte sehen ... wenn sich etwas ändert wird es kurz grün und dann wieder rot. Wechsle ich kurz auf zB Protokoll und dann wieder auf Objekte, dann habe ich den Wechsel auf grün und dann wieder auf rot ... aber die Werte bleiben unverändert.
Wenn ich den kontinuierlichen Verlauf im Protokoll sehe, dann scheint das Skript ja zu laufen. Aber die Werte werden nicht aktualisiert - ein Idee?
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.... habe mir nochmals den ganzen Thread durchgelesen. Un dsiehe da, ich bin nicht alleine mit dem Problem, das keine Werte ausgelesen werden.
Thomas schrieb unter https://forum.iobroker.net/post/931656, dass er einen Workerround definiert hat. Ich habe das einprgrammiert
Also habe ich die besagte function gemäß der Skript Version 3 von gestern Abend gegen die von Thomas vorgeschlagene ersetzt.
Heureca, die Werte rauschen durch das Skript
Auch Alex schrieb unter https://forum.iobroker.net/post/953253 von dem Problem. Er schlug einen Workaround vor, der wiederum bei mir nichts brachte.
Aber jetzt kommt das nächste Phänomen: es wird also gelesen, aber es wird weiterhin nur 1x etwas in die Datenpunkte geschrieben
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.... ich nehme meine Freude zurück
denn ich muste festestellen, dass die vielen, viele Werte im Protokoll immer die selben sind - hier ein Beispiel:
Also nehme ich den zuvor beschriebenen Workaround wieder raus - das scheint es also nicht zu sein.
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Hast du den ganzen javascript-Baum mal gelöscht und dann das Script neu gestartet?
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@r4 said in Huawei Sun2000 & ioBroker via JS script funktioniert:
Hast du den ganzen javascript-Baum mal gelöscht und dann das Script neu gestartet?
Jetzt gerade nochmals … alles unverändert, beim Start des Skriptes werden die Objekte angelegt, die Objekte werden einmalig gefüllt und von da an ändern sich die Werte nicht mehr
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@leonundjulie
Hab ja eigentlich keine Ahnung von dem Zeug.
Aber du kannst ja an diversen Stellen einconsole.log("hier bin ich - " + irgendEineVariable);einsetzen und mal nachschauen, ob sich was tut im Code und ob die Stellen auch erreicht werden...
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@r4 said in Huawei Sun2000 & ioBroker via JS script funktioniert:
@leonundjulie
Hab ja eigentlich keine Ahnung von dem Zeug.
Aber du kannst ja an diversen Stellen einconsole.log("hier bin ich - " + irgendEineVariable);einsetzen und mal nachschauen, ob sich was tut im Code und ob die Stellen auch erreicht werden...
Das ist ein Plan
Für „irgendEineVariable“ setze ich was? Muss ich eine Variable definieren?
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@leonundjulie
Ne, das war ein Platzhalter.
Du kannst " + irgendEineVariable" z.B. an einer Stelle durch " + RegToReadPtr" ersetzen, so dass du die Nummer der aktuell ausgelesenen Werte siehst (die von RegToRead), oder auch weg lassen und statt "hier bin ich - " auch Zahlen oder auch sonstwas hinschreiben, so dass du im Log unten weißt, wo du gerade bist im Code. -
@alle
Wäre es möglich das aktuelle Script zentral, z.B. in #1 abzulegen.
(oder ist dies nicht vom TE)Ich habe momentan nicht mehr den Überblick wo ich das aktuelle finde.
Danke.
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@r4 said in Huawei Sun2000 & ioBroker via JS script funktioniert:
@leonundjulie
Ne, das war ein Platzhalter.
Du kannst " + irgendEineVariable" z.B. an einer Stelle durch " + RegToReadPtr" ersetzen, so dass du die Nummer der aktuell ausgelesenen Werte siehst (die von RegToRead), oder auch weg lassen und statt "hier bin ich - " auch Zahlen oder auch sonstwas hinschreiben, so dass du im Log unten weißt, wo du gerade bist im Code.Ok, habe angefangen:
Und
Das Ergebnis im Protokoll so aus:
Ideen?
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@leonundjulie
Äh, du hast doch keine Batterie? -
@r4 said in Huawei Sun2000 & ioBroker via JS script funktioniert:
@leonundjulie
Äh, du hast doch keine Batterie?Richtig. Da es mit der Version 2 und von mir heraus kommentierten Batt-Zeilen nicht funktionierte, habe ich die gestern veröffentlichte Version zunächst einmal unverändert gelassen …. muss wohl wieder Zeilen herauskicken … wird dann auch übersichtlicher
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@leonundjulie
alsoconst BatteryUnits = [[0]];und
const RegToRead = [ [32000, 116], // inverter status - read fast // [37000, 68], // battery information - read fast [37100, 114], // meter info - read fast // [37700, 100], // battery information - read fast // [38200, 100], // additional battery information - read fast [30000, 81], // model info, SN, max Power (static info) - read slow // [37800, 100], // additional battery information - read slow // [38300, 100], // additional battery information - read slow // [38400, 100], // additional battery information - read slow // [47081, 2] // additional battery information - read slow //[35300, 40] // inverter power adjustments - do not read ]; const RegFast = 2; // number of register spaces to read fast (must be < RegToRead.length)und (hast du Optimizer?)
function ProcessData() //-------------------- { //console.debug("Processing new data..."); for ( var i = 1; i <= ModBusIDs.length; i++) { ProcessDeviceInfo(i); ProcessInverterStatus(i); //ProcessBattery(i); //ProcessInverterPowerAdjustments(i); //ProcessOptimizers(i); }... aber Fehlermeldung beim Lesen von Register 30000 sollte nicht dauerhaft kommen
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Hallo,
ich habe eine Frage zu folgendem Hinweis im Script:// Enter your battery stack setup. 2 dimensional array, e.g. [[3, 2], [3, 0]] means: // First inverter has two battery stacks with 3 + 2 battery modules // while second inverter has only one battery stack with 3 battery modulesdort steht: 1. Inverter mit 2 stacks und 2 modules, also [3,2]
und: 2. Inverter mit 1 stack und 3 modules; müsste dies dann nicht [1,3] heißen ?Irgendwie passt dies nicht so richtig, oder ich versteh es nicht.
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@r4 said in Huawei Sun2000 & ioBroker via JS script funktioniert:
@leonundjulie
alsoconst BatteryUnits = [[0]];und
const RegToRead = [ [32000, 116], // inverter status - read fast // [37000, 68], // battery information - read fast [37100, 114], // meter info - read fast // [37700, 100], // battery information - read fast // [38200, 100], // additional battery information - read fast [30000, 81], // model info, SN, max Power (static info) - read slow // [37800, 100], // additional battery information - read slow // [38300, 100], // additional battery information - read slow // [38400, 100], // additional battery information - read slow // [47081, 2] // additional battery information - read slow //[35300, 40] // inverter power adjustments - do not read ]; const RegFast = 2; // number of register spaces to read fast (must be < RegToRead.length)und (hast du Optimizer?)
function ProcessData() //-------------------- { //console.debug("Processing new data..."); for ( var i = 1; i <= ModBusIDs.length; i++) { ProcessDeviceInfo(i); ProcessInverterStatus(i); //ProcessBattery(i); //ProcessInverterPowerAdjustments(i); //ProcessOptimizers(i); }... aber Fehlermeldung beim Lesen von Register 30000 sollte nicht dauerhaft kommen
Habe mal eben zwischen Tür und Angel Deinen Ansatz umgesetzt - leider nicht ohne Fehler …. Kann denen aber erst heute Abend nachgehen.
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@leonundjulie
Mit dem Script direkt hat das augenscheinlich nichts zu tun.
Ich bin da erst mal raus. -
Ich habe mal eine ganz andere Spekulation: welche Software Versionen habt Ihr den so auf dem WR respektive auf dem Dongle? Ich frage, weil - wenn es nicht zur erneuten Verschiebung kommt - am kommenden Donnerstag vom Solateur EnPAL (
) ein neuer WR eingebaut wird (der alte fährt bis 150 Resets am Tag wegen „Isolationsfehler“ -> ich glaube zwar, dass die Fehler eine andere Ursache haben, aber die können das aus der Ferne ja besser beurteilen ).Wie dem auch sei, ich will natürlich dafür Sorge tragen, dass dann auch die richtige Software auf den HUAWEI Komponenten drauf ist.
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@leonundjulie
Für Versionsinfos auch hier schauen, man muss nur bisschen suchen...Beim SDongle sind V100R001C00SPC133 bzw. V200R022C10SPC107 derzeit aktuell.
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Guten Tag zusammen,
ich bräuchte mal ein kleines bisschen Unterstützung. Ich möchte das Skript von @Chris_B etwas abspecken. Ich brauche das Zusammenrechnen der Verbrauche zum Beispiel nicht.
Dies ist mein Ausgangscode:
// From iobroker Forum: "Huawei Sun2000 & ioBroker via JS script funktioniert" // https://forum.iobroker.net/topic/53005/huawei-sun2000-iobroker-via-js-script-funktioniert // createState("javascript.0.Solarpower.Derived.BatteryOverview", "", {read: true, write: true, name: "Battery Overview SOC"}); createState("javascript.0.Solarpower.Derived.HouseConsumption", "", {read: true, write: true, name: "Consumption of House", unit: "W"}); createState("javascript.0.Solarpower.Derived.YieldToday", "", {read: true, write: true, name: "Yield Today", unit: "kW"}); createState("javascript.0.Solarpower.Derived.IsBatteryLoading", 0, {read: true, write: true, name: "Luna 2000 Battery is loading", type: "number"}); createState("javascript.0.Solarpower.Derived.IsGridExporting", 0, {read: true, write: true, name: "Exporting Power to Grid", type: "number"}); createState("javascript.0.Solarpower.Derived.PeakPanelPower", 0, {read: true, write: true, name: "Peak panel power today"}); createState("javascript.0.Solarpower.Derived.GridExportSum", 0, {read: true, write: true, name: "Total export to grid", unit: "kWh"}); createState("javascript.0.Solarpower.Derived.GridImportSum", 0, {read: true, write: true, name: "Total import from grid", unit: "kWh"}); createState("javascript.0.Solarpower.Derived.GridExportToday", 0, {read: true, write: true, name: "Export to grid today", unit: "kWh"}); createState("javascript.0.Solarpower.Derived.GridImportToday", 0, {read: true, write: true, name: "Import from grid today", unit: "kWh"}); createState("javascript.0.Solarpower.Derived.ConsumptionToday", 0, {read: true, write: true, name: "Consumption today", unit: "kWh"}); createState("javascript.0.Solarpower.Derived.ConsumptionSum", 0, {read: true, write: true, name: "Consumption total sum", unit: "kWh"}); createState("javascript.0.Solarpower.Derived.ConsumptionStart", 0, {read: true, write: true, name: "Consumption total sum at start of day", unit: "kWh"}); var ModbusRTU = require("modbus-serial"); var fs = require('fs'); var client = new ModbusRTU(); var testCreateState = 0; var currentinverter = 1; var modbusErrorMessages = [ "Unknown error", "Illegal function (device does not support this read/write function)", "Illegal data address (register not supported by device)", "Illegal data value (value cannot be written to this register)", "Slave device failure (device reports internal error)", "Acknowledge (requested data will be available later)", "Slave device busy (retry request again later)" ]; // open connection to a tcp line client.setTimeout(10000); // Enter your inverter modbus IP and port here: client.connectTCP("192.168.1.108", { port: 502 }); // Enter the Modbus-IDs of your Sun2000 inverters here (example for two inverters): const ModBusIDs = [16, 1]; const ModBusIDs = [1]; // On which Modbus-ID can we reach the power meter? (via Sun2000!) const PowerMeterID = 0; // Enter your battery stack setup. 2 dimensional array, e.g. [[3, 2], [3, 0]] means: // First inverter has two battery stacks with 3 + 2 battery modules // while second inverter has only one battery stack with 3 battery modules const BatteryUnits = [[1, 0]]; // These register spaces need to be read const RegToRead = [ [32000, 116], // inverter status - read fast [37000, 68], // battery information - read fast [37100, 114], // meter info - read fast [37700, 100], // battery information - read fast [38200, 100], // additional battery information - read fast [30000, 81], // model info, SN, max Power (static info) - read slow [37800, 100], // additional battery information - read slow [38300, 100], // additional battery information - read slow [38400, 100] // additional battery information - read slow //[35300, 40] // inverter power adjustments - do not read ]; const RegFast = 5; // number of register spaces to read fast (must be < RegToRead.length) const RegFastMod = 10; // read slow registers every n'th time (mod operator) var RegReadCnt = 0; // Loop counter var RegToReadPtr = 0; // pointer to register spaces var GlobalDataBuffer = new Array(2); for ( var i=0; i < ModBusIDs.length; i++) { GlobalDataBuffer[i] = new Array(50000); // not optimized.... } // Some helper functions function readUnsignedInt16(array) { return array[0]; } function readUnsignedInt32(array) { return array[0] * 256 * 256 + array[1]; } function readSignedInt16(array) { var value = 0; if (array[0] > 32767) value = array[0] - 65535; else value = array[0]; return value; } function readSignedInt32(array) { var value = 0; for (var i = 0; i < 2; i++) { value = (value << 16) | array[i]; } return value; } function getU16(dataarray, index) { return readUnsignedInt16(dataarray.slice(index, index+1)); } function getU32(dataarray, index) { return readUnsignedInt32(dataarray.slice(index, index+2)); } function getI16(dataarray, index) { return readSignedInt16(dataarray.slice(index, index+1)); } function getI32(dataarray, index) { return readSignedInt32(dataarray.slice(index, index+2)); } function getString(dataarray, index, length) { var shortarray = dataarray.slice(index, index+length); var bytearray = []; for (var i = 0; i < length; i++) { bytearray.push(dataarray[index+i] >> 8); bytearray.push(dataarray[index+i] & 0xff); } var value = String.fromCharCode.apply(null, bytearray); return value; } function getZeroTerminatedString(dataarray, index, length) { var shortarray = dataarray.slice(index, index+length); var bytearray = []; for(var i = 0; i < length; i++) { bytearray.push(dataarray[index+i] >> 8); bytearray.push(dataarray[index+i] & 0xff); } var value = String.fromCharCode.apply(null, bytearray); var value2 = new String(value).trim(); return value2; } function forcesetState(objectname, value, options) //------------------------------------------------ // perform createState() only if variable does not yet exist, and perform the check via existsState() only once for each processing round { if (testCreateState == 0) { if (!existsState("javascript.0." + objectname)) { createState(objectname, value, options); } else { setState(objectname, value); } } else { setState(objectname, value); } } // Functions to map registers into ioBreaker objects function ProcessOptimizers(id) //---------------------------- { forcesetState("Solarpower.Huawei.Inverter." + id + ".OptimizerTotalNumber", getU16(GlobalDataBuffer[id-1], 37200), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".OptimizerOnlineNumber", getU16(GlobalDataBuffer[id-1], 37201), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".OptimizerFeatureData", getU16(GlobalDataBuffer[id-1], 37202), {name: "", unit: ""}); } function ProcessInverterPowerAdjustments(id) //------------------------------------------ { forcesetState("Solarpower.Huawei.Inverter." + id + ".ActiveAdjustement.ActiveAdjustementMode", getU16(GlobalDataBuffer[id-1], 35300), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".ActiveAdjustement.ActiveAdjustementValue", getU32(GlobalDataBuffer[id-1], 35301), {name: "", unit: ""}); // Note: This might be an error in the manual. It says register 35302 with quantity 2, but on 35303 is already the next value. forcesetState("Solarpower.Huawei.Inverter." + id + ".ActiveAdjustement.ActiveAdjustementCommand", getU16(GlobalDataBuffer[id-1], 35303), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".ActiveAdjustement.ReactiveAdjustementMode", getU16(GlobalDataBuffer[id-1], 35304), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".ActiveAdjustement.ReactiveAdjustementValue", getU32(GlobalDataBuffer[id-1], 35305), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".ActiveAdjustement.ReactiveAdjustementCommand",getU16(GlobalDataBuffer[id-1], 35307), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".ActiveAdjustement.PowerMeterActivePower", getI32(GlobalDataBuffer[id-1], 35313), {name: "", unit: ""}); } function ProcessBattery(id) //------------------------- { // Battery registers 1-15 (Stack 1 related) if ( BatteryUnits[id-1][0] > 0) { forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.RunningStatus", getU16(GlobalDataBuffer[id-1], 37000), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.ChargeAndDischargePower", getI32(GlobalDataBuffer[id-1], 37001), {name: "Charge and Discharge Power", unit: "W"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.BusVoltage", getU16(GlobalDataBuffer[id-1], 37003) / 10, {name: "Busvoltage", unit: "V"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.BatterySOC", getU16(GlobalDataBuffer[id-1], 37004) / 10, {name: "Battery SOC", unit: "%"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.WorkingMode", getU16(GlobalDataBuffer[id-1], 37006), {name: "Working Mode", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.RatedChargePower", getU32(GlobalDataBuffer[id-1], 37007), {name: "", unit: "W"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.RatedDischargePower", getU32(GlobalDataBuffer[id-1], 37009), {name: "", unit: "W"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.FaultID", getU16(GlobalDataBuffer[id-1], 37014), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.CurrentDayChargeCapacity", getU32(GlobalDataBuffer[id-1], 37015) * 10, {name: "", unit: "Wh"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.CurrentDayDischargeCapacity", getU32(GlobalDataBuffer[id-1], 37017) * 10, {name: "", unit: "Wh"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.BusCurrent", getI16(GlobalDataBuffer[id-1], 37021) / 10, {name: "Buscurrent", unit: "A"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.BatteryTemperature", getI16(GlobalDataBuffer[id-1], 37022) / 10, {name: "Battery Temperatue", unit: "°C"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.RemainingChargeDischargeTime",getU16(GlobalDataBuffer[id-1], 37025), {name: "", unit: "mins"}); //forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.DCDCversion", getZeroTerminatedString(GlobalDataBuffer[id-1], 37026, 10), {name: "", unit: ""}); //forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.BMSversion", getZeroTerminatedString(GlobalDataBuffer[id-1], 37036, 10), {name: "", unit: ""}); } // Battery registers 16+17 (Storage-related) forcesetState("Solarpower.Huawei.Inverter." + id + ".Battery.MaximumChargePower", getU32(GlobalDataBuffer[id-1], 37046), {name: "", unit: "W"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Battery.MaximumDischargePower", getU32(GlobalDataBuffer[id-1], 37048), {name: "", unit: "W"}); // Battery register 18-20 (Stack 1 related) if (BatteryUnits[id-1][0] > 0) { forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.SN", getZeroTerminatedString(GlobalDataBuffer[id-1], 37052, 10), {name: "Serialnumber", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.TotalCharge", getU32(GlobalDataBuffer[id-1], 37066) * 10, {name: "", unit: "Wh"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.TotalDischarge", getU32(GlobalDataBuffer[id-1], 37068) * 10, {name: "", unit: "Wh"}); } // Battery register 21-31 (Stack 2 related) if ( BatteryUnits[id-1][1] > 0) { forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.2.SN", getZeroTerminatedString(GlobalDataBuffer[id-1], 37700, 10), {name: "Serialnumber", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.2.BatterySOC", getU16(GlobalDataBuffer[id-1], 37738) / 10, {name: "", unit: "%"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.2.RunningStatus", getU16(GlobalDataBuffer[id-1], 37741), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.2.ChargeAndDischargePower", getI32(GlobalDataBuffer[id-1], 37743), {name: "", unit: "W"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.2.CurrentDayChargeCapacity", getU32(GlobalDataBuffer[id-1], 37746) / 100, {name: "", unit: "kWh"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.2.CurrentDayDischargeCapacity", getU32(GlobalDataBuffer[id-1], 37748) / 100, {name: "", unit: "kWh"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.2.BusVoltage", getU16(GlobalDataBuffer[id-1], 37750) / 10, {name: "", unit: "V"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.2.BusCurrent", getI16(GlobalDataBuffer[id-1], 37751) / 10, {name: "", unit: "A"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.2.BatteryTemperature", getI16(GlobalDataBuffer[id-1], 37752) / 10, {name: "", unit: "°C"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.2.TotalCharge", getU32(GlobalDataBuffer[id-1], 37753) * 10, {name: "", unit: "Wh"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.2.TotalDischarge", getU32(GlobalDataBuffer[id-1], 37755) * 10, {name: "", unit: "Wh"}); } // Battery register 32-41 (Storage related) forcesetState("Solarpower.Huawei.Inverter." + id + ".Battery.RatedCapacity", getU32(GlobalDataBuffer[id-1], 37758) / 1, {name: "", unit: "Wh"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Battery.SOC", getU16(GlobalDataBuffer[id-1], 37760) / 10, {name: "", unit: "%"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Battery.RunningStatus", getU16(GlobalDataBuffer[id-1], 37762) / 1, {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Battery.BusVoltage", getU16(GlobalDataBuffer[id-1], 37763) / 10, {name: "", unit: "V"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Battery.BusCurrent", getI16(GlobalDataBuffer[id-1], 37764) / 10, {name: "", unit: "A"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Battery.ChargeAndDischargePower", getI32(GlobalDataBuffer[id-1], 37765) / 1, {name: "", unit: "W"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Battery.TotalCharge", getU32(GlobalDataBuffer[id-1], 37780) * 10, {name: "", unit: "Wh"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Battery.TotalDischarge", getU32(GlobalDataBuffer[id-1], 37782) * 10, {name: "", unit: "Wh"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Battery.CurrentDayChargeCapacity", getU32(GlobalDataBuffer[id-1], 37784) * 10, {name: "", unit: "Wh"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Battery.CurrentDayDischargeCapacity", getU32(GlobalDataBuffer[id-1], 37786) * 10, {name: "Current DayDiscarge ", unit: "Wh"}); // Battery registers 42+43 (Battery stack related) if (BatteryUnits[id-1][1] > 0) { forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.2.SoftwareVersion", getZeroTerminatedString(GlobalDataBuffer[id-1], 37814, 8), {name: "Softwareversion", unit: ""}); } if (BatteryUnits[id-1][0] > 0) { forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack.1.SoftwareVersion", getZeroTerminatedString(GlobalDataBuffer[id-1], 37799, 8), {name: "Softwareversion", unit: ""}); } // Registers 44 to 98: (Battery pack related) for(var i = 1; i <= 2; i++) { if(BatteryUnits[id-1][i-1] >= 0) { for(var j = 1; j <= BatteryUnits[id-1][i-1]; j++) { //[[38200, 38242, 38284] [38326, 38368, 38410]]; (+42 for each battery pack, +126 for each stack) forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack." + i + ".Battery" + j + ".SN", getZeroTerminatedString(GlobalDataBuffer[id-1], 38200+(i-1)*126+(j-1)*42, 6), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack." + i + ".Battery" + j + ".FirmwareVersion", getZeroTerminatedString(GlobalDataBuffer[id-1], 38210+(i-1)*126+(j-1)*42, 8), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack." + i + ".Battery" + j + ".WorkingStatus", getU16(GlobalDataBuffer[id-1], 38228+(i-1)*126+(j-1)*42), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack." + i + ".Battery" + j + ".BatterySOC", getU16(GlobalDataBuffer[id-1], 38229+(i-1)*126+(j-1)*42) / 10, {name: "", unit: "%"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack." + i + ".Battery" + j + ".ChargeAndDischargePower", getI32(GlobalDataBuffer[id-1], 38233+(i-1)*126+(j-1)*42) / 1000, {name: "", unit: "kW"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack." + i + ".Battery" + j + ".Voltage", getU16(GlobalDataBuffer[id-1], 38235+(i-1)*126+(j-1)*42) / 10, {name: "", unit: "V"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack." + i + ".Battery" + j + ".Current", getI16(GlobalDataBuffer[id-1], 38236+(i-1)*126+(j-1)*42) / 10, {name: "", unit: "A"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack." + i + ".Battery" + j + ".TotalCharge", getU32(GlobalDataBuffer[id-1], 38238+(i-1)*126+(j-1)*42) * 10, {name: "", unit: "Wh"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Batterystack." + i + ".Battery" + j + ".TotalDischarge", getU32(GlobalDataBuffer[id-1], 38240+(i-1)*126+(j-1)*42) * 10, {name: "", unit: "Wh"}); // [[38452, 38454, 38456][38458, 38460, 38462]] ( +2 for each pack, +6 for each stack) createState("Solarpower.Huawei.Inverter." + id + ".Batterystack." + i + ".Battery" + j + ".MaxTemperature", getI16(GlobalDataBuffer[id-1], 38452+(i-1)*6+(j-1)*2) / 10, {name: "", unit: "°C"}); createState("Solarpower.Huawei.Inverter." + id + ".Batterystack." + i + ".Battery" + j + ".MinTemperature", getI16(GlobalDataBuffer[id-1], 38453+(i-1)*6+(j-1)*2) / 10, {name: "", unit: "°C"}); } } } // Battery registers 110-141 are not supported by this script yet! } function ProcessPowerMeterStatus() //-------------------------------- { forcesetState("Solarpower.Huawei.Meter.Status", getU16(GlobalDataBuffer[PowerMeterID], 37100), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Meter.VoltageL1", getI32(GlobalDataBuffer[PowerMeterID], 37101) / 10, {name: "", unit: "V"}); forcesetState("Solarpower.Huawei.Meter.VoltageL2", getI32(GlobalDataBuffer[PowerMeterID], 37103) / 10, {name: "", unit: "V"}); forcesetState("Solarpower.Huawei.Meter.VoltageL3", getI32(GlobalDataBuffer[PowerMeterID], 37105) / 10, {name: "", unit: "V"}); forcesetState("Solarpower.Huawei.Meter.CurrentL1", getI32(GlobalDataBuffer[PowerMeterID], 37107) / 100, {name: "", unit: "A"}); forcesetState("Solarpower.Huawei.Meter.CurrentL2", getI32(GlobalDataBuffer[PowerMeterID], 37109) / 100, {name: "", unit: "A"}); forcesetState("Solarpower.Huawei.Meter.CurrentL3", getI32(GlobalDataBuffer[PowerMeterID], 37111) / 100, {name: "", unit: "A"}); forcesetState("Solarpower.Huawei.Meter.ActivePower", getI32(GlobalDataBuffer[PowerMeterID], 37113) / 1, {name: "", unit: "W"}); forcesetState("Solarpower.Huawei.Meter.ReactivePower", getI32(GlobalDataBuffer[PowerMeterID], 37115) / 1, {name: "", unit: "Var"}); forcesetState("Solarpower.Huawei.Meter.PowerFactor", getI16(GlobalDataBuffer[PowerMeterID], 37117) / 1000, {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Meter.GridFrequency", getI16(GlobalDataBuffer[PowerMeterID], 37118) / 100, {name: "", unit: "Hz"}); forcesetState("Solarpower.Huawei.Meter.PositiveActiveEnergy", getI32(GlobalDataBuffer[PowerMeterID], 37119) * 10, {name: "", unit: "Wh"}); forcesetState("Solarpower.Huawei.Meter.ReverseActiveEnergy", getI32(GlobalDataBuffer[PowerMeterID], 37121) * 10, {name: "", unit: "Wh"}); forcesetState("Solarpower.Huawei.Meter.AccumulatedReactivePower", getI32(GlobalDataBuffer[PowerMeterID], 37123) / 100, {name: "", unit: "kVarh"}); //forcesetState("Solarpower.Huawei.Meter.MeterType", getU16(GlobalDataBuffer[PowerMeterID], 37125), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Meter.VoltageL1-L2", getI32(GlobalDataBuffer[PowerMeterID], 37126) / 10, {name: "", unit: "V"}); forcesetState("Solarpower.Huawei.Meter.VoltageL2-L3", getI32(GlobalDataBuffer[PowerMeterID], 37128) / 10, {name: "", unit: "V"}); forcesetState("Solarpower.Huawei.Meter.VoltageL3-L1", getI32(GlobalDataBuffer[PowerMeterID], 37130) / 10, {name: "", unit: "V"}); forcesetState("Solarpower.Huawei.Meter.ActivePowerL1", getI32(GlobalDataBuffer[PowerMeterID], 37132) / 1, {name: "", unit: "W"}); forcesetState("Solarpower.Huawei.Meter.ActivePowerL2", getI32(GlobalDataBuffer[PowerMeterID], 37134) / 1, {name: "", unit: "W"}); forcesetState("Solarpower.Huawei.Meter.ActivePowerL3", getI32(GlobalDataBuffer[PowerMeterID], 37136) / 1, {name: "", unit: "W"}); //forcesetState("Solarpower.Huawei.Meter.MeterModel", getU16(GlobalDataBuffer[PowerMeterID], 37138), {name: "", unit: ""}); } function ProcessInverterStatus(id) //-------------------------------- { forcesetState("Solarpower.Huawei.Inverter." + id + ".State1", getU16(GlobalDataBuffer[id-1], 32000), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".State2", getU16(GlobalDataBuffer[id-1], 32001), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".State3", getU16(GlobalDataBuffer[id-1], 32002), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Alarm1", getU16(GlobalDataBuffer[id-1], 32008), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Alarm2", getU16(GlobalDataBuffer[id-1], 32009), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Alarm3", getU16(GlobalDataBuffer[id-1], 32010), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".String.1_Voltage", getI16(GlobalDataBuffer[id-1], 32016) / 10 , {name: "", unit: "V"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".String.1_Current", getI16(GlobalDataBuffer[id-1], 32017) / 100 , {name: "", unit: "A"}); //forcesetState("Solarpower.Huawei.Inverter." + id + ".String.2_Voltage", getI16(GlobalDataBuffer[id-1], 32018) / 10 , {name: "", unit: "V"}); //forcesetState("Solarpower.Huawei.Inverter." + id + ".String.2_Current", getI16(GlobalDataBuffer[id-1], 32019) / 100 , {name: "", unit: "A"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".InputPower", getI32(GlobalDataBuffer[id-1], 32064) / 1000, {name: "", unit: "kW"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Grid.L1-L2_Voltage", getU16(GlobalDataBuffer[id-1], 32066) / 10 , {name: "", unit: "V"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Grid.L2-L3_Voltage", getU16(GlobalDataBuffer[id-1], 32067) / 10 , {name: "", unit: "V"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Grid.L3-L1_Voltage", getU16(GlobalDataBuffer[id-1], 32068) / 10 , {name: "", unit: "V"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Grid.L1_Voltage", getU16(GlobalDataBuffer[id-1], 32069) / 10 , {name: "", unit: "V"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Grid.L2_Voltage", getU16(GlobalDataBuffer[id-1], 32070) / 10 , {name: "", unit: "V"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Grid.L3_Voltage", getU16(GlobalDataBuffer[id-1], 32071) / 10 , {name: "", unit: "V"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Grid.L1_Current", getI32(GlobalDataBuffer[id-1], 32072) / 1000, {name: "", unit: "A"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Grid.L2_Current", getI32(GlobalDataBuffer[id-1], 32074) / 1000, {name: "", unit: "A"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Grid.L3_Current", getI32(GlobalDataBuffer[id-1], 32076) / 1000, {name: "", unit: "A"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".PeakActivePowerDay", getI32(GlobalDataBuffer[id-1], 32078) / 1000, {name: "", unit: "kW"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".ActivePower", getI32(GlobalDataBuffer[id-1], 32080) / 1000, {name: "", unit: "kW"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".ReactivePower", getI32(GlobalDataBuffer[id-1], 32082) / 1000, {name: "", unit: "kVar"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".PowerFactor", getI16(GlobalDataBuffer[id-1], 32084) / 1000, {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".GridFrequency", getU16(GlobalDataBuffer[id-1], 32085) / 100 , {name: "", unit: "Hz"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".Efficiency", getU16(GlobalDataBuffer[id-1], 32086) / 100 , {name: "", unit: "%"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".InternalTemperature", getI16(GlobalDataBuffer[id-1], 32087) / 10 , {name: "", unit: "°C"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".InsulationResistance", getU16(GlobalDataBuffer[id-1], 32088) / 1000, {name: "", unit: "MOhm"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".DeviceStatus", getU16(GlobalDataBuffer[id-1], 32089), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".FaultCode", getU16(GlobalDataBuffer[id-1], 32090), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".StartupTime", getU16(GlobalDataBuffer[id-1], 32091), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".ShutdownTime", getU16(GlobalDataBuffer[id-1], 32093), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".AccumulatedEnergyYield", getU32(GlobalDataBuffer[id-1], 32106) * 10, {name: "", unit: "Wh"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".DailyEnergyYield", getU32(GlobalDataBuffer[id-1], 32114) * 10, {name: "", unit: "Wh"}); } function ProcessDeviceInfo(id) //---------------------------- { // Note: Manual says its quantitiy is 15, but that is the number (+1) of 8bit characters forcesetState("Solarpower.Huawei.Inverter." + id + ".Model", getZeroTerminatedString(GlobalDataBuffer[id-1], 30000, 8), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".SN", getZeroTerminatedString(GlobalDataBuffer[id-1], 30015, 6), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".PN", getZeroTerminatedString(GlobalDataBuffer[id-1], 30025, 6), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".ModelID", getU16(GlobalDataBuffer[id-1], 30070), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".PVStrings", getU16(GlobalDataBuffer[id-1], 30071), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".MPPTrackers", getU16(GlobalDataBuffer[id-1], 30072), {name: "", unit: ""}); forcesetState("Solarpower.Huawei.Inverter." + id + ".MaxRatedPower", getU32(GlobalDataBuffer[id-1], 30073) / 1000, {name: "", unit: "kW"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".MaxActivePower", getU32(GlobalDataBuffer[id-1], 30075) / 1000, {name: "", unit: "kW"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".MaxApparentPower", getU32(GlobalDataBuffer[id-1], 30077) / 1000, {name: "", unit: "kVA"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".MaxReactivePowerToGrid", getI32(GlobalDataBuffer[id-1], 30079) / 1000, {name: "", unit: "kVAr"}); forcesetState("Solarpower.Huawei.Inverter." + id + ".MaxReactivePowerFromGrid",getI32(GlobalDataBuffer[id-1], 30081) / 1000, {name: "", unit: "kVAr"}); } function readRegisterSpace(id, address, length) //--------------------------------------------- { client.setID(ModBusIDs[id-1]); client.readHoldingRegisters(address, length, function(err, data) { if (err) { console.warn("Error received reading address " + address + " from id: " + ModBusIDs[id-1] + " with error: " + modbusErrorMessages[err.modbusCode]); } else { //console.debug("Read data from id/address " + ModBusIDs[id-1] + "/" + address + "\nData is: " + data.data); for (var i = 0; i < length; i++) GlobalDataBuffer[id-1][address+i] = data.data[i]; } }); } function ProcessData() //-------------------- { //console.debug("Processing new data..."); for ( var i = 1; i <= ModBusIDs.length; i++) { ProcessDeviceInfo(i); ProcessInverterStatus(i); ProcessBattery(i); //ProcessInverterPowerAdjustments(i); ProcessOptimizers(i); } ProcessPowerMeterStatus(); // get SOC of first battery stack and combine to one string var BatOverview = ""; for(var j = 1; j <= BatteryUnits[0][0]; j++) { if (j > 1) BatOverview += ", "; BatOverview += getState("javascript.0.Solarpower.Huawei.Inverter.1.Batterystack.1.Battery" + j + ".BatterySOC").val + "%"; } setState("javascript.0.Solarpower.Derived.BatteryOverview", BatOverview); // determine peak panel power var PanelPower = getState("javascript.0.Solarpower.Huawei.Inverter.1.InputPower").val; var PanelMax = getState("javascript.0.Solarpower.Derived.PeakPanelPower").val; if (PanelPower > PanelMax) setState("javascript.0.Solarpower.Derived.PeakPanelPower", PanelPower); // determine power used by house setState("javascript.0.Solarpower.Derived.HouseConsumption", getState("javascript.0.Solarpower.Huawei.Inverter.1.ActivePower").val * 1000 - getState("javascript.0.Solarpower.Huawei.Meter.ActivePower").val); // determine yield today setState("javascript.0.Solarpower.Derived.YieldToday", getState("javascript.0.Solarpower.Huawei.Inverter.1.DailyEnergyYield").val + getState("javascript.0.Solarpower.Huawei.Inverter.1.Batterystack.1.CurrentDayChargeCapacity").val - getState("javascript.0.Solarpower.Huawei.Inverter.1.Batterystack.1.CurrentDayDischargeCapacity").val) // determine if battery is loading setState("javascript.0.Solarpower.Derived.IsBatteryLoading", getState("javascript.0.Solarpower.Huawei.Inverter.1.Batterystack.1.ChargeAndDischargePower").val > 0 ? 0 : 1); // determine if power is imported or exported setState("javascript.0.Solarpower.Derived.IsGridExporting", getState("javascript.0.Solarpower.Huawei.Meter.ActivePower").val > 0 ? 1 : 0); // compute export and import today setState("javascript.0.Solarpower.Derived.GridExportToday", getState("javascript.0.Solarpower.Huawei.Meter.PositiveActiveEnergy").val - getState("javascript.0.Solarpower.Derived.GridExportSum").val); setState("javascript.0.Solarpower.Derived.GridImportToday", getState("javascript.0.Solarpower.Huawei.Meter.ReverseActiveEnergy").val - getState("javascript.0.Solarpower.Derived.GridImportSum").val); // compute consumption today setState("javascript.0.Solarpower.Derived.ConsumptionSum", getState("javascript.0.Solarpower.Huawei.Inverter.1.AccumulatedEnergyYield").val + getState("javascript.0.Solarpower.Huawei.Meter.ReverseActiveEnergy").val - getState("javascript.0.Solarpower.Huawei.Meter.PositiveActiveEnergy").val); setState("javascript.0.Solarpower.Derived.ConsumptionToday", getState("javascript.0.Solarpower.Derived.ConsumptionSum").val - getState("javascript.0.Solarpower.Derived.ConsumptionStart").val); testCreateState = 1; // do not check on createState any more } setInterval(function() // ------------------- // This is the main function triggering a read via modbus-tcp every 5000 ms (see end of SetInterval) // Processing of data is triggered as soon as one complete set of registers is copied // with 5 seconds, new values are displyed every 50 seconds { //console.debug("Triggering read of inverter " + currentinverter + " at address " + RegToRead[RegToReadPtr][0] + " with length " + RegToRead[RegToReadPtr][1]); readRegisterSpace(currentinverter, RegToRead[RegToReadPtr][0], RegToRead[RegToReadPtr][1]); // determine if all or only fast registers should be read var CurLength = RegFast; if ((RegReadCnt % RegFastMod) == 0) CurLength = RegToRead.length RegToReadPtr++; if (RegToReadPtr >= CurLength) { RegToReadPtr = 0; // go through all inverters, if there are several currentinverter++ if (currentinverter > ModBusIDs.length) { currentinverter = 1; ProcessData(); //if (CurLength == RegFast) log("Processing done (FAST)!", "info"); else log("Processing done (SLOW)!", "info"); RegReadCnt++; } } }, 5000); // one minute before midnight - perform housekeeping actions schedule("59 23 * * *", function () { // reset peak power for next day setState("javascript.0.Solarpower.Derived.PeakPanelPower", 0); // copy current export/import kWh - used to compute daily import/export in kWh setState("javascript.0.Solarpower.Derived.GridExportSum", getState("javascript.0.Solarpower.Huawei.Meter.PositiveActiveEnergy").val); setState("javascript.0.Solarpower.Derived.GridImportSum", getState("javascript.0.Solarpower.Huawei.Meter.ReverseActiveEnergy").val); // copy consumption Sum to Start for the next day setState("javascript.0.Solarpower.Derived.ConsumptionStart", getState("javascript.0.Solarpower.Derived.ConsumptionSum").val); // log important iformation to file SolarPowerLogging(); }); function SolarPowerLogging() //-------------------------- // write values of today in file { // get var log1 = getState("javascript.0.Solarpower.Derived.YieldToday").val; var log2 = getState("javascript.0.Solarpower.Derived.GridExportToday").val; var log3 = getState("javascript.0.Solarpower.Derived.GridImportToday").val; var log4 = getState("javascript.0.Solarpower.Derived.ConsumptionToday").val; // Zerlege Datum und Zeit in Variable var now = new Date(); var year = now.getFullYear(); var month = addZero(now.getMonth() + 1); var day = addZero(now.getDate()); var currDate = day + '.' + month + '.' + year; var string = " "; // create string that is appended to the file string = currDate + ";" + log1.toFixed(3) + ";" + log2.toFixed(3) + ";" + log3.toFixed(3) + ";" + log4.toFixed(3) + "\n"; fs.appendFileSync("/opt/iobroker/iobroker-data/SolarpowerLog.csv", string); // erzeuge Log-Eintrag log("Solerpower log:" + string, "info"); } function addZero(Num) //----------------- // if number <10 add zero values at the beginning of numbers { if (Num < 10) Num = "0" + Num; return Num; }Wenn ich nun folgende, für mich unwichtige Teile, entferne
createState("javascript.0.Solarpower.Derived.BatteryOverview", "", {read: true, write: true, name: "Battery Overview SOC"}); createState("javascript.0.Solarpower.Derived.HouseConsumption", "", {read: true, write: true, name: "Consumption of House", unit: "W"}); createState("javascript.0.Solarpower.Derived.YieldToday", "", {read: true, write: true, name: "Yield Today", unit: "kW"}); createState("javascript.0.Solarpower.Derived.IsBatteryLoading", 0, {read: true, write: true, name: "Luna 2000 Battery is loading", type: "number"}); createState("javascript.0.Solarpower.Derived.IsGridExporting", 0, {read: true, write: true, name: "Exporting Power to Grid", type: "number"}); createState("javascript.0.Solarpower.Derived.PeakPanelPower", 0, {read: true, write: true, name: "Peak panel power today"}); createState("javascript.0.Solarpower.Derived.GridExportSum", 0, {read: true, write: true, name: "Total export to grid", unit: "kWh"}); createState("javascript.0.Solarpower.Derived.GridImportSum", 0, {read: true, write: true, name: "Total import from grid", unit: "kWh"}); createState("javascript.0.Solarpower.Derived.GridExportToday", 0, {read: true, write: true, name: "Export to grid today", unit: "kWh"}); createState("javascript.0.Solarpower.Derived.GridImportToday", 0, {read: true, write: true, name: "Import from grid today", unit: "kWh"}); createState("javascript.0.Solarpower.Derived.ConsumptionToday", 0, {read: true, write: true, name: "Consumption today", unit: "kWh"}); createState("javascript.0.Solarpower.Derived.ConsumptionSum", 0, {read: true, write: true, name: "Consumption total sum", unit: "kWh"}); createState("javascript.0.Solarpower.Derived.ConsumptionStart", 0, {read: true, write: true, name: "Consumption total sum at start of day", unit: "kWh"});// one minute before midnight - perform housekeeping actions schedule("59 23 * * *", function () { // reset peak power for next day setState("javascript.0.Solarpower.Derived.PeakPanelPower", 0); // copy current export/import kWh - used to compute daily import/export in kWh setState("javascript.0.Solarpower.Derived.GridExportSum", getState("javascript.0.Solarpower.Huawei.Meter.PositiveActiveEnergy").val); setState("javascript.0.Solarpower.Derived.GridImportSum", getState("javascript.0.Solarpower.Huawei.Meter.ReverseActiveEnergy").val); // copy consumption Sum to Start for the next day setState("javascript.0.Solarpower.Derived.ConsumptionStart", getState("javascript.0.Solarpower.Derived.ConsumptionSum").val); // log important iformation to file SolarPowerLogging(); }); function SolarPowerLogging() //-------------------------- // write values of today in file { // get var log1 = getState("javascript.0.Solarpower.Derived.YieldToday").val; var log2 = getState("javascript.0.Solarpower.Derived.GridExportToday").val; var log3 = getState("javascript.0.Solarpower.Derived.GridImportToday").val; var log4 = getState("javascript.0.Solarpower.Derived.ConsumptionToday").val; // Zerlege Datum und Zeit in Variable var now = new Date(); var year = now.getFullYear(); var month = addZero(now.getMonth() + 1); var day = addZero(now.getDate()); var currDate = day + '.' + month + '.' + year; var string = " "; // create string that is appended to the file string = currDate + ";" + log1.toFixed(3) + ";" + log2.toFixed(3) + ";" + log3.toFixed(3) + ";" + log4.toFixed(3) + "\n"; fs.appendFileSync("/opt/iobroker/iobroker-data/SolarpowerLog.csv", string); // erzeuge Log-Eintrag log("Solerpower log:" + string, "info"); } function addZero(Num) //----------------- // if number <10 add zero values at the beginning of numbers { if (Num < 10) Num = "0" + Num; return Num; }function ProcessData() //-------------------- { //console.debug("Processing new data..."); for ( var i = 1; i <= ModBusIDs.length; i++) { ProcessDeviceInfo(i); ProcessInverterStatus(i); ProcessBattery(i); //ProcessInverterPowerAdjustments(i); ProcessOptimizers(i); } ProcessPowerMeterStatus(); // get SOC of first battery stack and combine to one string var BatOverview = ""; for(var j = 1; j <= BatteryUnits[0][0]; j++) { if (j > 1) BatOverview += ", "; BatOverview += getState("javascript.0.Solarpower.Huawei.Inverter.1.Batterystack.1.Battery" + j + ".BatterySOC").val + "%"; } setState("javascript.0.Solarpower.Derived.BatteryOverview", BatOverview); // determine peak panel power var PanelPower = getState("javascript.0.Solarpower.Huawei.Inverter.1.InputPower").val; var PanelMax = getState("javascript.0.Solarpower.Derived.PeakPanelPower").val; if (PanelPower > PanelMax) setState("javascript.0.Solarpower.Derived.PeakPanelPower", PanelPower); // determine power used by house setState("javascript.0.Solarpower.Derived.HouseConsumption", getState("javascript.0.Solarpower.Huawei.Inverter.1.ActivePower").val * 1000 - getState("javascript.0.Solarpower.Huawei.Meter.ActivePower").val); // determine yield today setState("javascript.0.Solarpower.Derived.YieldToday", getState("javascript.0.Solarpower.Huawei.Inverter.1.DailyEnergyYield").val + getState("javascript.0.Solarpower.Huawei.Inverter.1.Batterystack.1.CurrentDayChargeCapacity").val - getState("javascript.0.Solarpower.Huawei.Inverter.1.Batterystack.1.CurrentDayDischargeCapacity").val) // determine if battery is loading setState("javascript.0.Solarpower.Derived.IsBatteryLoading", getState("javascript.0.Solarpower.Huawei.Inverter.1.Batterystack.1.ChargeAndDischargePower").val > 0 ? 0 : 1); // determine if power is imported or exported setState("javascript.0.Solarpower.Derived.IsGridExporting", getState("javascript.0.Solarpower.Huawei.Meter.ActivePower").val > 0 ? 1 : 0); // compute export and import today setState("javascript.0.Solarpower.Derived.GridExportToday", getState("javascript.0.Solarpower.Huawei.Meter.PositiveActiveEnergy").val - getState("javascript.0.Solarpower.Derived.GridExportSum").val); setState("javascript.0.Solarpower.Derived.GridImportToday", getState("javascript.0.Solarpower.Huawei.Meter.ReverseActiveEnergy").val - getState("javascript.0.Solarpower.Derived.GridImportSum").val); // compute consumption today setState("javascript.0.Solarpower.Derived.ConsumptionSum", getState("javascript.0.Solarpower.Huawei.Inverter.1.AccumulatedEnergyYield").val + getState("javascript.0.Solarpower.Huawei.Meter.ReverseActiveEnergy").val - getState("javascript.0.Solarpower.Huawei.Meter.PositiveActiveEnergy").val); setState("javascript.0.Solarpower.Derived.ConsumptionToday", getState("javascript.0.Solarpower.Derived.ConsumptionSum").val - getState("javascript.0.Solarpower.Derived.ConsumptionStart").val); testCreateState = 1; // do not check on createState any more }Arbeitet das Skript nicht mehr. Ich bekomme aber kein Protokoll und auch keine Daten in den Objekten. Aber was genau fehlt mir, damit ich nun die Daten bekomme?
Viele Grüße
Martin
