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- Gelöst (mit modbus) Regex: Kaco-WR mit Parser auslesen
Gelöst (mit modbus) Regex: Kaco-WR mit Parser auslesen
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Da wird eine Menge Java Skript geladen.
Wahrscheinlich werden die Werte auf anderem Wege abgerufen und dann live in den HTML Text eingetragen.
Du kannst mal eins machen, mit den Web Developer Tools von Chrome oder Edge schauen, welche Daten noch da abgerufen werden und in diesem suchen.
Wenn du Glück hast, werden die Daten als Json oder XML angeliefert. Das wäre dann viel einfacher diese Daten zu extrahieren. -
@oliverio Vielen Dank, auch an @Homoran für die Unterstützung.
Nur nochmals für mein Verständnis, der Parser kann nur Werte auslesen, welche im Quelltext (ich nenne es jetzt mal) im Klartext als z. B. Zahlenwerte etc. zu finden sind, also nicht die evtl. Variablen dafür?Ich habe jetzte versucht mit Edge weiterzukommen, hab aber nur das hier im Tab "Quellen" unter jquery.js gefunden, aber ich denke, dies hilft auch nicht wirklich weiter:
$('#nowValueIn').html(roundCommaSeparated((fields[fields.length - 3] / (65535.0 / 100000.0) / 1000.0), 2) + ' kW'); -
@don_hasso sagte in Regex: Kaco-WR-Daten mit Parser-App auslesen:
der Parser kann nur Werte auslesen, welche im Quelltext (ich nenne es jetzt mal) im Klartext als z. B. Zahlenwerte etc. zu finden sind
korrekt!
ansonsten musst du versuchen, wie @OliverIO schrieb, die javascripte zu analysieren um zu sehen, woher die Werte kommen, und dann diese auch dort abholen, wo das js sie holt.
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Ne anders.
Du öffnest ein neues tab im Browser
Dann öffnEst du die developer Tools
Dann rufst du die Seite auf
Dann gehst du in den Developer Tools auf den netzwerk tab
(Dort sind alle einzelnen Dateien aufgezählt die die Seite lädt.
Der Quelltext ist idr nur der allererste request. Danach kommen css, JavaScript, fonts und auch Daten.)
Dann suchst du den Wert auf der Seite heraus der dich interessiert.https://developer.chrome.com/docs/devtools/search/
Dann rufst du in den Developer Tools die Suche auf und gibst den Wert dort ein. Diese versucht dann in allen einzelnen Dateien nach dem Wert. Hoffe darauf, das der Wert nicht zu oft vorkommt und er nicht verschlüsselt übertragen wird.
Denke auch daran, das Zahlenwerte bei denen der Bruch mit Komma getrennt ist, das hier mit einem Punkt zu suchen ist.
Die Datei die den Wert enthält ist oft ein json oder XML.
Oft stehen in dieser Datei auch die anderen Werte der Seite mit drin.
Um die richtige Datei zu erkennen gehört ein bisschen Kreativität und ist nicht einfach. -
@don_hasso sagte in Regex: Kaco-WR-Daten mit Parser-App auslesen:
$('#nowValueIn').html(roundCommaSeparated((fields[fields.length - 3] / (65535.0 / 100000.0) / 1000.0), 2) + ' kW');Die Zeile, die du hier gefunden hast, scheint tatsächlich den Wert in die HTML Seite einzutragen. Allerdings macht mir die Berechnung etwas Sorge hinsichtlich deiner Suche in den Quelldaten.
Du siehst, der Inhalt des Wertes scheint Aus dem Array fields zukommen. Natürlich weiß ich nicht, was da für eine vor Verarbeitung noch stattfindet. Allerdings sieht man an der Berechnung, dass der Wert wohl nicht genau so vorliegt, wie er nachher angezeigt wird.
Auf jeden Fall scheint der erste mal nicht mit irgendeiner Nachkommastellen notiert zu werden und als Vielfaches von 65.535.
Das solltest du eventuell bei deiner Suche mit berücksichtigen.
Also ein Wert von 2 müsste dann in den Grunddaten mit der folgenden Zahl notiert sein2 * 65.535 * 100.000 * 1.000 = 13.107.000.000.000 -
Ich habe auf github noch was gefunden.
Schau mal im netzwerktab ob du eine Datei namens realtime.csv findest.
Poste diese bitte hier und nenne den gesuchten Wert, der auf der Seite in dem Moment angezeigt wird.
Da diese Datei wahrscheinlich kontinuierlich abgerufen wird, dann immer die neueste bitte. Also von ganz unten aufwärts suchen. -
@oliverio Super! Also die realtime.csv hab ich gefunden und die enhält folgende Werte, der für mich wichtige Wert lautet 7,23 kW.
1685884437;19012;22289;9351;9882;9552;2797;2036;3464;3278;3391;4746;5207;4Hab es nochmals durchgeführt und für unten Stand die Leistung bei 7,17 kW:
1685884842;19499;22392;9698;9793;9344;2658;1991;3271;3239;3395;4647;5168;4 -
leider habe ich den wert noch nicht gefunden
in der github datei werden manche werte durch 1600 und manche durch 200 geteilt.
bei deinem javascript beispiel wird nur durch 1000 geteilt.kannst du mir mal den inhalt der datei senden wo du diese Zeile gefunden hast?
ich vermute es ist die main.js
$('#nowValueIn').html(roundCommaSeparated((fields[fields.length - 3] / (65535.0 / 100000.0) / 1000.0), 2) + ' kW');was einigermaßen in die Nähe kommt wäre Wert nr 10
da wäre das Ergebnis dann gerundet bei den ersten Daten =7,09 und beim 2.=7,24
Nicht das du nicht schnell geschaut hast, falls sich der wert mehrmals pro sekunde ändert -
@oliverio Ja, ich hab auch schon mein Glück mit Excel (und einer weiteren Abfrage bei 6,94 kW) versucht um damit einen Faktor zu identifizieren. Aber der Himmel ist relativ wolkenlos und somit die Werte auch immer sehr ähnlich. Ich werde es später nochmals bei 3 kW rum versuchen. Hier im Spoiler noch die main.js von welcher der Auszug stammt, 6,84 kW und die csv-Werte:
1685886282;18685;22257;9915;9738;9577;2822;1881;3145;3202;3256;4569;5179;4// Configuration of the web GUI var confMode = true; // true = with config button // false = without config button var docReady = false; var langList = 'DEDE,ENUS,ITIT,ESES,FRFR,PTPT,NLNL,CSCZ,TRTR,HUHU,PLPL,RORO,SLSI'; var monthNameList = [ '', '', '', '', '', '', '', '', '', '', '', '' ]; var dayNameMinList = [ '', '', '', '', '', '', '' ]; var nennleistung = ''; var unbekannt = ''; var heute = ''; var dieserMonat = ''; var diesesJahr = ''; var uhrzeit = ''; var tag = ''; var monat = ''; var jahr = ''; var keineDaten = ''; var pvsp1 = ''; var pvsp2 = ''; var pvsp3 = ''; var pvst1 = ''; var pvst2 = ''; var pvst3 = ''; var nsp1 = ''; var nsp2 = ''; var nsp3 = ''; var nst1 = ''; var nst2 = ''; var nst3 = ''; var pvl1 = ''; var pvl2 = ''; var pvl3 = ''; var temperatur = ''; var nl = ''; var gesamtUebersicht = ''; var gesamtAnsicht = ''; var jahresAnsicht = ''; var monatsAnsicht = ''; var tagesAnsicht = ''; var toolAnsicht = ''; var einPhasig = ''; var dreiPhasig = ''; var datumsFormat = 'd.m.y, h:i:s'; // d = day, m = month, y = year, h = hours (24h), H = hours (12h), i = minutes, s = seconds, n = AM/PM var containerOn = false; // Is webpage shown? var startCount = 1; var secCnt = 29; var pauseRealtime = false; var loadingTxt = 'Loading...'; var realTimeReq = false; var realTimeReqCnt = 0; var totalYieldFromCsvHeader = 0; var firstLoadData = true; if (!String.pad) { String.prototype.pad = function(l, s, t) { return s || (s = " "), (l -= this.length) > 0 ? (s = new Array(Math.ceil(l / s.length) + 1).join(s)).substr(0, t = !t ? l : t == 1 ? 0 : Math.ceil(l / 2)) + this + s.substr(0, l - t) : this; }; } if (!String.trim) { String.prototype.trim = function() { return this.replace(/^\s*/, "").replace(/\s*$/, ""); } } // ----------- change fav icon --------------- document.head = document.head || document.getElementsByTagName('head')[0]; function changeFavicon(src) { var link = document.createElement('link'), oldLink = document.getElementById('favicon'); link.id = 'favicon'; link.rel = 'shortcut icon'; link.href = src; if (oldLink) { document.head.removeChild(oldLink); } document.head.appendChild(link); } // ------------------------------------------ // ----------- disable href --------------- function disableAnchor(objId, disable) { var obj = document.getElementById(objId); if(obj != null) { if(disable) { var href = obj.getAttribute("href"); var onclick = obj.getAttribute("onclick"); //First we store previous value in a new attribute if(href && href != "" && href != null) { obj.setAttribute('href_bak', href); } if(onclick != null) { obj.setAttribute('onclick_back', onclick); obj.setAttribute('onclick', "void(0);"); } obj.removeAttribute('href'); obj.style.color="gray"; //obj.style.addClass('naviItemDisabled'); //obj.style.textDecoration="none"; } else { var hrefBack = obj.getAttribute("href_bak"); var onclickBack = obj.getAttribute("onclick_back"); if(onclickBack !=null ) { obj.setAttribute('onclick', onclickBack); obj.removeAttribute('onclick_back'); } if(hrefBack !=null ) { obj.setAttribute('href', hrefBack); obj.removeAttribute('href_bak'); obj.style.color="#ffffff"; //obj.style.removeClass('naviItemDisabled'); //obj.style.textDecoration="underline"; } } } } // ------------------------------------------ function getRect (o) { var r = { top:0, left:0, width:0, height:0 }; if(!o) return r; else if(typeof o == 'string' ) o = document.getElementById(o); if( typeof o != 'object' ) return r; if(typeof o.offsetTop != 'undefined') { r.height = o.offsetHeight; r.width = o.offsetWidth; r.left = r.top = 0; while (o && o.tagName != 'BODY') { r.top += parseInt( o.offsetTop ); r.left += parseInt( o.offsetLeft ); o = o.offsetParent; } } return r; } function moveDivTo(o, x, y) { if( !o ) return -1; if( o.style ) { o = o.style; } var noPx = document.childNodes ? 'px' : 0; o.left = x + noPx; o.top = y + noPx; return 0; } function str_replace(find, replace, src) { return src.split(find).join(replace); } function getFloatVal(str) { return str_replace(",", ".", str); } function createVersionNumber(number) { var n = number.toString(); n = "V" + n.substring(0,n.length-2) + "." + n.substring(n.length-2,n.length); return n; } function roundCommaSeparated(x, n) { var k = (Math.round(x * 100) / 100).toString(); var p = 0; if (n == 2) { k += (k.indexOf('.') == -1)? '.00' : '00'; var p = k.indexOf('.'); return k.substring(0, p) + ',' + k.substring(p+1, p+3); } else if (n = 1) { k += (k.indexOf('.') == -1)? '.0' : '0'; var p = k.indexOf('.'); return k.substring(0, p) + ',' + k.substring(p+1, p+2); } } function num_format(num, prec) { var n = num.toString(); var nums = n.split('.'); var newNum = ""; if (nums.length > 1) { var dec = nums[1].substring(0, prec); newNum = nums[0] + "," + dec + (nums[1].length < prec ? "0" : ""); } else { newNum = num; } return newNum; } function inList(psString, psList) { var laList = psList.split(','); var i = laList.length; while (i--) { if (laList[i] === psString) return true; } return false; } $( document ).ready(function() { docReady = true; }) var kaco = { csv : '', initCount : 0, mode : '', view : null, tstamp : null, dcCount : 0, acCount : 0, acVoltPhaseMon : 0, acCurrPhaseMon : 0, showAcPhaseMonMode : 0, initDate : new Date(2011, 0, 1, 0, 0, 0), langId : '', pktVer : '', armVersion : '', armChecksum : '', cfgVersion : '', cfgChecksum : '', dspVersion : '', dspChecksum : '', picVersion : '', picChecksum : '', vendorName : '', override : false, dataIndex : null, data : {}, state : {}, langText : {}, noDataMode : false, switchConfMode : function(confMd) { if (confMd == true) { // Navigation bar with "Config" button $("ul#navi").css({ "left" : 30 + "px" }); $("ul#navi li.naviSpacer").css({ "line-height" : 10 + "px", "margin" : 0 + " " + 35 + "px" }); $("#viewConfig").show(); $("#viewConfigSpacer").show(); $("#navi").trigger("create"); $("#navi").show(); } else { // Navigation bar without "Config" button $("ul#navi").css({ "left" : 50 + "px" }); $("ul#navi li.naviSpacer").css({ "line-height" : 15 + "px", "margin" : 0 + " " + 50 + "px" }); $("#viewConfig").hide(); $("#viewConfigSpacer").hide(); $("#navi").trigger("create"); $("#navi").show(); } }, start : function() { // Disbable cache for all jQuery AJAX requests //$.ajaxSetup({ cache: false }); /* Errorhandler $(document).ajaxError(function(e, xhr, opts, err){ var status = (xhr || {}).status; xhr = null; setTimeout(function(){ throw(e.type +' | '+ status +' | '+ opts.url); }, 0); }); */ $('#updateButton').hide(); $('#toggleAdvanced').live('click',function(){ if ($('#extendTable').css('display')=='none') { $('#extendTable').css({'display':'block'}); } else { $('#extendTable').css({'display':'none'}); } }); $('#showPreset1').live('click',function(){ if ($(this).attr('checked')) { $('input').removeAttr('checked'); $('#pac').attr('checked','checked'); $(this).attr('checked','checked'); } else { $('input').removeAttr('checked'); } kaco.updateVisibleDayGraphs(); }); $('#showPreset2').live('click',function() { if ($(this).attr('checked')) { $('input').removeAttr('checked'); $('#pvl1').attr('checked','checked'); if (kaco.dcCount == 2) { $('#pvl2').attr('checked','checked'); } if (kaco.dcCount == 3) { $('#pvl2, #pvl3').attr('checked','checked'); } $(this).attr('checked','checked'); } else { $('input').removeAttr('checked'); } kaco.updateVisibleDayGraphs(); }); $('#showPreset3').live('click',function(){ if ($(this).attr('checked')) { $('input').removeAttr('checked'); $('#pvsp1').attr('checked','checked'); if(kaco.dcCount == 2) { $('#pvsp2').attr('checked','checked'); } if(kaco.dcCount == 3) { $('#pvsp2, #pvsp3').attr('checked','checked'); } $(this).attr('checked','checked'); } else { $('input').removeAttr('checked'); } kaco.updateVisibleDayGraphs(); }); $('.detail').live('click',function(){ $('.preset').removeAttr('checked'); kaco.updateVisibleDayGraphs(); }); $.ajax({ cache: false, url : this.csv + '/initlog.txt', //async : false, context : this, success : kaco.parseInitlog }); $.ajax({ cache: false, url : this.csv + '/meta.csv', //async : false, context : this, success : kaco.parseMeta }); this.tstamp = new Date(); $("#chartContainer").bind("plotclick", function(event, pos, item){ if (item) { var val = item.datapoint[0]; switch (kaco.mode) { case 'ETERNAL': { kaco.tstamp.setYear(val); kaco.switchToYearView(); break; } case 'YEAR': { kaco.tstamp.setMonth(val - 1); kaco.switchToMonthView(); break; } case 'MONTH': { kaco.tstamp.setDate(val); kaco.switchToDayView(true); break; } } } }); $("#chartContainer").bind("plothover", function(event, pos, item){ if (item) { kaco.showHover(item); } else { $("#tooltip").remove(); kaco.dataIndex = null; } }); // Start updater thread //setInterval(function() { kaco.triggerRealtimeUpdate(); }, 30000); setInterval(function() { kaco.triggerRealtimeUpdate(); }, 1000); // Timer for web config 500ms setInterval(function() { kaco.triggerWebConfig(); }, 500); // Timer for web config 1 Min setInterval(function() { kaco.trigger1MinTimerWebConfig(); }, 60000); // Init graph without loading of data this.switchToDayView(false); //this.switchConfMode(confMode); paraData[paraIndexWebgui][PARA_OFFS] = DEBUG; switchDebug(paraData[paraIndexWebgui][PARA_OFFS]); }, showHover : function(item) { var x = item.pageX + 10; var y = item.pageY + 10; var contents = item.datapoint[1].toFixed(2); if (this.dataIndex != item.dataIndex) { this.dataIndex = item.dataIndex; $("#tooltip").remove(); $('<div id="tooltip">' + contents + '</div>').css({ position : 'absolute', display : 'none', top : y, left : x, border : '1px solid #fdd', padding : '2px', 'background-color' : '#ccc', opacity : 0.9 }).appendTo("body").fadeIn(200); } }, parseInitlog: function(data) { var fields = data.split(';'); kaco.initCount++; }, parseStatus : function(data) { var lines = data.split('\r'); for (var x = 0; x < lines.length; x++) { var entry = lines[x].split(' '); this.state[entry[0].trim()] = entry[1].trim(); } if (kaco.initCount < 4) kaco.initCount++; }, parseLangText : function(data) { var lines = data.split('\r'); for (var x = 0; x < lines.length; x++) { var entry = lines[x].split(' '); this.langText[entry[0].trim()] = entry[1].trim(); } for (var i=0; i<12; i++) { monthNameList[i] = this.langText[i]; } unbekannt = this.langText[13]; heute = this.langText[14]; dieserMonat = this.langText[15]; diesesJahr = this.langText[16]; uhrzeit = this.langText[17]; $('#axisLabel').html(uhrzeit); tag = this.langText[18]; monat = this.langText[19]; jahr = this.langText[20]; keineDaten = this.langText[21]; pvsp1 = this.langText[22]; pvsp2 = this.langText[23]; pvsp3 = this.langText[24]; pvst1 = this.langText[25]; pvst2 = this.langText[26]; pvst3 = this.langText[27]; nsp1 = this.langText[28]; nsp2 = this.langText[29]; nsp3 = this.langText[30]; nst1 = this.langText[31]; nst2 = this.langText[32]; nst3 = this.langText[33]; pvl1 = this.langText[34]; pvl2 = this.langText[35]; pvl3 = this.langText[36]; temperatur = this.langText[37]; nl = this.langText[38]; parameter = this.langText[39]; gesamtAnsicht = this.langText[41]; jahresAnsicht = this.langText[42]; monatsAnsicht = this.langText[43]; tagesAnsicht = this.langText[44]; toolAnsicht = this.langText[39]; $('#viewDay').attr('title',this.langText[44]); $('a#viewDay').text(this.langText[44]); $('#viewMonth').attr('title',this.langText[43]); $('a#viewMonth').text(this.langText[43]); $('#viewYear').attr('title',this.langText[42]); $('a#viewYear').text(this.langText[42]); $('#viewEternal').attr('title',this.langText[41]); $('a#viewEternal').text(this.langText[41]); $('#viewConfig').attr('title',this.langText[39]); $('a#viewConfig').text(this.langText[39]); $('#currentScreenTitle').html(this.view.getTitle(this.tstamp)); nennleistung = this.langText[12]; dreiPhasig = this.langText[46]; einPhasig = this.langText[45]; var type = roundCommaSeparated((this.acPower / 1000), 2) + ' kW ' + nennleistung + ', '; if (this.acCount == 3) { type += dreiPhasig; $("input.a3").css( { display : 'block' }); } else { type += einPhasig; } $('#type').html(type); $('th#devName').text(this.langText[48]); $('th#devAddr').text(this.langText[49]); $('th#devTyp').text(this.langText[50]); $('th#devNetAddr').text(this.langText[51]); $('th#devSerNo').text(this.langText[52]); $('th#devMacAddr').text(this.langText[53]); $('th#dataRev').text(this.langText[54]); $('#lblHrefGoToFirst').attr('title',this.langText[63]); $('#lblAltGoToFirst').attr('alt',this.langText[64]); $('#lblHrefGoOneBack').attr('title',this.langText[65]); $('#lblAltGoOneBack').attr('alt',this.langText[66]); $('#lblHrefGoOneFwd').attr('title',this.langText[67]); $('#lblAltGoOneFwd').attr('alt',this.langText[68]); $('#lblHrefGoToLast').attr('title',this.langText[69]); $('#lblAltGoToLast').attr('alt',this.langText[70]); $('#toTodayLink').attr('title',this.langText[71]); $('#lblAltGoToday').attr('alt',this.langText[72]); $('h3#lblValueState').text(this.langText[73]); $('h3#lblLiveValues').text(this.langText[74]); $('th#lblValueGen').text(this.langText[75]); $('th#lblValueIn').text(this.langText[76]); $('h3#lblYields').text(this.langText[77]); $('h3#lblChooseView').text(this.langText[78]); $('td#lblGridPower').text(this.langText[79]); $('td#lblGenPower').text(this.langText[80]); $('td#lblGenVolt').text(this.langText[81]); $('a#toggleAdvanced').text(this.langText[82]); $('label#lblSelGenVolt').text(this.langText[83]); $('label#lblSelGenCurr').text(this.langText[84]); $('label#lblSelGenPow').text(this.langText[85]); $('label#lblSelGridVolt').text(this.langText[86]); $('label#lblSelGridCurr').text(this.langText[87]); $('label#lblSelGridPow').text(this.langText[88]); $('label#lblSelDevTemp').text(this.langText[89]); document.getElementById("dlLinkSpan").innerHTML=this.langText[90]; var mon; if (this.acVoltPhaseMon == 3) { mon = dreiPhasig; } else { mon = einPhasig; } $('#mon').html(mon); $('th#devMon').text(this.langText[91]); $('th#cntryGrid').text(this.langText[92]); $('th#pktVersion').text(this.langText[93]); loadingTxt = this.langText[94]; for (var i=0; i<7; i++) { dayNameMinList[i] = this.langText[95+i]; } if ((this.mode != 'TOOL') && (this.mode != 'PARAINPUT')) { /* // Refresh date and time $.ajax({ url : this.csv + '/realtime.csv', context : this, success : kaco.refreshStatus }); logAddMsg('<-: # URL: /realtime.csv'); */ // Show webpage if (containerOn == false) { containerOn = true; $("#container").show(); } // refresh the chart with loading of the data this.switchToDayView(true); } else kaco.updateCurrentLabel('DAY'); $("#calendar").datepicker({ buttonImage : 'btn_cal.gif', buttonImageOnly : true, gotoCurrent : true, showOn : 'button', changeYear : true, maxDate : new Date(), minDate : this.initDate, monthNames: monthNameList, dayNamesMin: dayNameMinList, beforeShow : function(input, inst) { $("#calendar").datepicker("setDate", kaco.tstamp); }, onSelect : function() { var tmpDate = new Date(); var pickedDate = $('#calendar').attr('value'); tmpDate.setFullYear(pickedDate.substring(6,10)); tmpDate.setDate(pickedDate.substring(3,5)); tmpDate.setMonth((pickedDate.substring(0,2)-1)); kaco.tstamp = tmpDate; kaco.switchToDayView(true); } }); if (kaco.initCount < 4) kaco.initCount++; }, loadLang : function(langName) { $.ajax({ url : kaco.csv + 'psta' + langName + '.txt', context : kaco, success : kaco.parseStatus }); $.ajax({ url : kaco.csv + 'lang' + langName + '.txt', context : kaco, success : kaco.parseLangText }); }, changeLangTo : function(langName) { var tmpLangName = langName.toUpperCase(); if (inList(tmpLangName,langList) == false) langName = "enUS"; if (langName != lang.gui1) { lang.gui1 = langName; kaco.langId = langName; this.loadLang(langName); } }, parseMeta : function(data) { /* 0.) Serial 1.) Device type 2.) MAC address 3.) IP address (IPv4) 4.) Inverter RS485 address (Range 1-31) 5.) Anzahl AC-Phasen (Range 1-3) 6.) DC entries (Range 1-3) 7.) AC nominal power [W] 8.) AC voltage phases monitoring (1: Show 1 phase voltage; 3: Show 3 phase voltages) 9.) AC current phases monitoring (1: Show 1 phase current; 3: Show 3 phase currents) 10.) Show AC phases monitoring mode (0: Hide; 1: Show) 11.) Language ID (ISO 639) 12.) SW packet version (for example 101 for 1.01) 13.) ARM SW-Version (for example 101 for 1.01) 14.) ARM SW-Version checksum 15.) CFG SW-Version (for example 10001 for 1.0001) 16.) CFG SW-Version checksum 17.) DSP SW-Version (for example 123 for 1.23) 18.) DSP SW-Version checksum 19.) PIC SW-Version (for example 123 for 1.23) 20.) PIC SW-Version checksum 21.) Vendor name (for example 'KACO', 'SCHUECO', ...) 22.) WebConfig active/inactive */ var fields = data.split(';'); $('#serial').html(fields[0]); $('#name').html(fields[1]); $('#mac').html(fields[2]); $('#network').html(fields[3]); $('#rsid').html(fields[4]); this.acCount = parseInt(fields[5]); this.dcCount = parseInt(fields[6]); this.acPower = parseInt(fields[7]); this.acVoltPhaseMon = parseInt(fields[8]); this.acCurrPhaseMon = parseInt(fields[9]); this.showAcPhaseMonMode = parseInt(fields[10]); if (this.showAcPhaseMonMode == 1) { $("#devMon").show(); $("#mon").show(); } else { $("#devMon").hide(); $("#mon").hide(); } this.langId = fields[11]; lang.inverterOrg = this.langId; $('#pktVer').html(createVersionNumber(fields[12])); this.armVersion = parseInt(fields[13]); this.armChecksum = parseInt(fields[14]); this.cfgVersion = parseInt(fields[15]); this.cfgChecksum = parseInt(fields[16]); this.dspVersion = parseInt(fields[17]); this.dspChecksum = parseInt(fields[18]); this.picVersion = parseInt(fields[19]); this.picChecksum = parseInt(fields[20]); this.vendorName = fields[21].toUpperCase(); confMode = (Number(fields[22]) == 0) ? false : true; this.switchConfMode(confMode); this.changeLangTo(kaco.langId); var type = roundCommaSeparated((this.acPower / 1000), 2) + ' kW ' + nennleistung + ', '; if (this.acVoltPhaseMon == 3) { $("input.aVolt2, input.aVolt3").css({ display : 'inline' }); } if (this.acCurrPhaseMon == 3) { $("input.aCurr2, input.aCurr3").css({ display : 'inline' }); } $('#type').html(type); if (this.dcCount == 2) { $("input.d2").css({ display : 'inline' }); } if (this.dcCount == 3) { $("input.d2, input.d3").css({ display : 'inline' }); } // Set Vendor specific display if ((this.vendorName == 'KACO') || (this.vendorName == 'SUNPOWER') || (this.vendorName == 'BLUEPLANET')) { document.getElementById("logo").src = 'kacologo.gif'; document.getElementById("logo").alt = 'KACO new energy Logo'; document.title = 'KACO new energy'; document.getElementById("hr1").style.background = '#D0D6D8'; document.getElementById("hr1").style.color = '#D0D6D8'; document.getElementById("hr2").style.background = '#D0D6D8'; document.getElementById("hr2").style.color = '#D0D6D8'; document.getElementById("headerBox").style.background = "#e9eaec url(kacobggr.gif) bottom left repeat-x"; document.getElementById("logoBox").style.background = '#ffffff'; document.getElementsByClassName("greyBox")[0].style.background = "#e9eaec url(kacobggr.gif) bottom left repeat-x"; document.getElementsByClassName("greyBox")[1].style.background = "#e9eaec url(kacobggr.gif) bottom left repeat-x"; document.getElementById("chartContainer").style.background = '#f9f9f9 url(kacobgch.jpg) no-repeat center center'; changeFavicon('kacofavi.ico'); } else if (this.vendorName == 'SCHUECO') { document.getElementById("logo").src = 'schulogo.gif'; document.getElementById("logo").alt = 'Schüco International Logo'; document.title = 'Schüco International'; document.getElementById('hr1').style.background = '#40464b'; document.getElementById('hr1').style.color = '#40464b'; document.getElementById('hr2').style.background = '#40464b'; document.getElementById('hr2').style.color = '#40464b'; document.getElementById("headerBox").style.background = '#cccccc'; document.getElementById("logoBox").style.background = '#40464b'; document.getElementsByClassName("greyBox")[0].style.background = "#cccccc"; document.getElementsByClassName("greyBox")[1].style.background = "#cccccc"; document.getElementById("chartContainer").style.background = '#f9f9f9 url(schubgch.jpg) no-repeat center center'; changeFavicon('kacofavi.ico'); } else if (this.vendorName == 'INVENTUX') { document.getElementById("logo").src = 'invelogo.gif'; document.getElementById("logo").alt = 'Inventux Technologies AG Logo'; document.title = 'Inventux Technologies AG'; document.getElementById("hr1").style.background = '#D0D6D8'; document.getElementById("hr1").style.color = '#D0D6D8'; document.getElementById("hr2").style.background = '#D0D6D8'; document.getElementById("hr2").style.color = '#D0D6D8'; document.getElementById("headerBox").style.background = "#e9eaec url(kacobggr.gif) bottom left repeat-x"; document.getElementById("logoBox").style.background = '#ffffff'; document.getElementsByClassName("greyBox")[0].style.background = "#e9eaec url(invebggr.gif) bottom left repeat-x"; document.getElementsByClassName("greyBox")[1].style.background = "#e9eaec url(invebggr.gif) bottom left repeat-x"; document.getElementById("chartContainer").style.background = '#f9f9f9 url(invebgch.jpg) no-repeat center center'; changeFavicon('invefavi.ico'); } else if (this.vendorName == 'WUERTH') { document.getElementById("logo").src = 'wuerlogo.gif'; document.getElementById("logo").alt = 'Würth Solar Logo'; document.title = 'Würth Solar'; document.getElementById("hr1").style.background = '#b9b9a0'; document.getElementById("hr1").style.color = '#b9b9a0'; document.getElementById("hr2").style.background = '#b9b9a0'; document.getElementById("hr2").style.color = '#b9b9a0'; document.getElementById("headerBox").style.background = "#d8d7cc"; document.getElementById("logoBox").style.background = '#ffffff'; document.getElementsByClassName("greyBox")[0].style.background = "#d8d7cc"; document.getElementsByClassName("greyBox")[1].style.background = "#d8d7cc"; document.getElementById("chartContainer").style.background = '#f9f9f9 url(wuerbgch.jpg) no-repeat center center'; changeFavicon('kacofavi.ico'); } if ((this.dcCount > 2) || (this.acVoltPhaseMon > 2)) { $("#textLabel1").show(); $("#textLabel2").show(); $("#textLabel3").show(); } else if (this.dcCount > 1 || this.acVoltPhaseMon > 1) { $("#textLabel1").show(); $("#textLabel2").show(); $("#textLabel3").hide(); } else { $("#textLabel1").show(); $("#textLabel2").hide(); $("#textLabel3").hide(); } // Initialization of the language for webConfig here already necessary // for correct display of the time-out dialog box initCfgLang(); if (confMode) sendSetPara(99); $('#logo').load(function() { kaco.initCount++; }); if (firstLoadData == true) { setTimeout(function(){ $.ajax({ cache: false, url : kaco.csv + '/realtime.csv', //async : false, context : kaco, success:function(data){ kaco.refreshStatus(data); }, }); }, 500); firstLoadData = false; } }, parseMetaLang : function(data) { /* 11.) Language ID (ISO 639) */ var fields = data.split(';'); this.langId = fields[11]; this.changeLangTo(kaco.langId); changeCfgLangTo(kaco.langId); }, triggerRealtimeUpdate : function() { if ((this.initCount < 4) || (docReady == false)) return; if (pauseRealtime == false) { if (secCnt > 0) { if ((autoRefresh == true) && ((secCnt == 4) || (secCnt == 14) || (secCnt == 24)) && (quitCfg == false)) maskRefresh(true); secCnt--; } else { secCnt = 29; if (startCount > 0) { startCount--; } else { $.ajax({ cache: false, url : this.csv + '/realtime.csv', context : this, success : kaco.refreshStatus }); if ($('#rtDbgMsg').attr('checked')) logAddMsg('<-: # URL: /realtime.csv'); triggerTimeout(0,answerTimeout); realTimeReq = true; } } } /* Debug else { if ($('#rtDbgMsg').attr('checked')) logAddMsg('+++ Realtime Pause'); } */ }, triggerWebConfig : function() { if ((this.initCount < 4) || (docReady == false)) return; zyclicTimerWebConfig(); }, trigger1MinTimerWebConfig : function() { if ((this.initCount < 4) || (docReady == false)) return; zyclic1MinTimerWebConfig(); }, refreshStatus : function(data) { var fields = data.split(';'); var tDate = new Date(fields[0]*1000); var tmpMonth = (tDate.getUTCMonth() + 1); var tmpAMPM = 'AM'; var tmpHours24 = (tDate.getUTCHours()); var tmpHours12 = tmpHours24; if ($('#rtDbgMsg').attr('checked')) logAddMsg("->: " + data); if (tmpHours12>12) { tmpHours12 = tmpHours12-12; tmpAMPM = 'PM'; } var dateString = datumsFormat.replace('d', String(tDate.getUTCDate()).pad(2,'0')) .replace('m', String(tmpMonth).pad(2,'0')) .replace('y', tDate.getUTCFullYear()) .replace('h', String(tmpHours24).pad(2,'0')) .replace('H', String(tmpHours12).pad(2,'0')) .replace('i', String(tDate.getUTCMinutes()).pad(2,'0')) .replace('s', String(tDate.getUTCSeconds()).pad(2,'0')) .replace('n', tmpAMPM); $('#today').html(dateString); var gen = []; for (var t = 1; t <= this.dcCount; t++) { gen.push(roundCommaSeparated(((fields[t] / (65535.0 / 1600.0)) * ((fields[t + this.dcCount + this.acCount]) / (65535.0 / 200.0)) / 1000.0), 2)); } $('#nowValueGen').html(gen.join(' kW<br/>') + ' kW'); $('#nowValueIn').html(roundCommaSeparated((fields[fields.length - 3] / (65535.0 / 100000.0) / 1000.0), 2) + ' kW'); var st = fields[fields.length - 1].trim(); if (this.state[st]) { $('#nowValueState').html(this.state[st]); } else { $('#nowValueState').html(unbekannt); } // Show webpage if (containerOn == false) { containerOn = true; $("#container").show(); } stopTimeout(0); if (realTimeReq == true) { realTimeReq = false; if (realTimeReqCnt > 0) realTimeReqCnt--; } if ((timeoutDlgActive) && (activeMaskIndex != 0)) { closeDlgBox(); } }, goToToday : function() { this.loadData(this.view.getToday(this.tstamp)); this.updateCurrentLabel(this.mode); }, goBack : function() { this.loadData(this.view.getPrevious(this.tstamp)); this.updateCurrentLabel(this.mode); }, goForward : function() { this.loadData(this.view.getNext(this.tstamp)); this.updateCurrentLabel(this.mode); }, goFastForward : function() { this.loadData(this.view.getNextFast(this.tstamp)); this.updateCurrentLabel(this.mode); }, goFastBack : function() { this.loadData(this.view.getPreviousFast(this.tstamp)); this.updateCurrentLabel(this.mode); }, updateCurrentLabel : function(dataViewMode) { var label; switch (dataViewMode) { case 'DAY': { label = heute; if ((new Date).getMonth() != this.tstamp.getMonth() || (new Date).getFullYear() != this.tstamp.getFullYear() || (new Date).getDate() != this.tstamp.getDate()) { label = this.tstamp.getDate() + '. ' + monthNameList[this.tstamp.getMonth()] + ' ' + this.tstamp.getFullYear(); } break; } case 'MONTH': { label = dieserMonat; if ((new Date).getMonth() != this.tstamp.getMonth() || (new Date).getFullYear() != this.tstamp.getFullYear()) { label = monthNameList[this.tstamp.getMonth()] + ' ' + this.tstamp.getFullYear(); } break; } case 'YEAR': { label = diesesJahr; if ((new Date).getFullYear() != this.tstamp.getFullYear()) { label = this.tstamp.getFullYear(); } break; } } $('#dayLabel').html(label); }, switchToDayView : function(with_load) { pauseRealtime = false; if (this.mode == 'TOOL') sendSetPara(99); this.mode = 'DAY'; this.view = dayView; this.view.range.min = (this.initDate); $("#chart").show(); $('#axisLabel').html(uhrzeit); $('#chartBarNavi').show(); $('#graphselector').show(); $('#calenderLink').show(); $('.fastfwd').show(); if (with_load == true) this.loadData(this.view.getCurrent(this.tstamp)); else $('#currentScreenTitle').html(this.view.getTitle(this.tstamp)); this.updateCurrentLabel(this.mode); $('#toTodayLink').css('visibility','visible'); $("#tool").hide(); $("#paraInput").hide(); disableAnchor('viewConfig', false); }, switchToMonthView : function() { pauseRealtime = false; if (this.mode == 'TOOL') sendSetPara(99); this.mode = 'MONTH'; this.view = monthView; this.view.range.min = (this.initDate); $("#chart").show(); $('#axisLabel').html(tag); $('#chartBarNavi').show(); $('.fastfwd').show(); $('#graphselector').hide(); $('#calenderLink').hide(); this.loadData(this.view.getCurrent(this.tstamp)); this.updateCurrentLabel(this.mode); $('#toTodayLink').css('visibility','hidden'); $("#tool").hide(); $("#paraInput").hide(); disableAnchor('viewConfig', false); }, switchToYearView : function() { pauseRealtime = false; if (this.mode == 'TOOL') sendSetPara(99); this.mode = 'YEAR'; this.view = yearView; this.view.range.min = (this.initDate); $("#chart").show(); $('#axisLabel').html(monat); $('#chartBarNavi').show(); $('#calenderLink').hide(); $('#graphselector').hide(); $('.fastfwd').hide(); this.loadData(this.view.getCurrent(this.tstamp)); this.updateCurrentLabel(this.mode); $('#toTodayLink').css('visibility','hidden'); $("#tool").hide(); $("#paraInput").hide(); disableAnchor('viewConfig', false); }, switchToEternalView : function() { pauseRealtime = false; if (this.mode == 'TOOL') sendSetPara(99); this.mode = 'ETERNAL'; this.view = eternalView; this.view.range.min = (this.initDate); $("#chart").show(); $('#axisLabel').html(jahr); $('#dayLabel').html(gesamtUebersicht); $('#graphselector').hide(); $('#chartBarNavi').hide(); this.loadData('eternal'); $('#toTodayLink').css('visibility','hidden'); $("#tool").hide(); $("#paraInput").hide(); disableAnchor('viewConfig', false); }, switchToToolView : function() { if (this.mode != 'TOOL') { this.mode = 'TOOL'; $("#chart").show(); rect = getRect (document.getElementById('chart')); $("#chart").hide(); retval = moveDivTo (document.getElementById('tool'), rect.left + 20, rect.top + 10); this.view = toolView; $('#graphselector').hide(); $('#chartBarNavi').hide(); $('#calenderLink').hide(); $('#toTodayLink').css('visibility','hidden'); if (dataViewDisabled == false) { disableAnchor('viewDay', true); disableAnchor('viewMonth', true); disableAnchor('viewYear', true); disableAnchor('viewEternal', true); disableAnchor('viewConfig', true); dataViewDisabled = true; } waitMsgStat = 0; testCnt = 0; treeActive = false; $("#tool").show(); $("#tree").hide(); initMask(); $("#paraInput").show(); $("#result-text").html(''); $("#result-text").css({'background-color' : 'white'}); $("#result-text").show(); if (paraData[paraIndexWebgui][PARA_OFFS] == true) { $("#dbg-text").show(); } } }, updateVisibleDayGraphs : function() { if ((this.mode != 'TOOL') && (this.mode != 'PARAINPUT')) this.drawGraph(this.data); }, loadData : function(src) { pauseRealtime = true; this.showLoading(); openThrobberBox(); // load data in standard data view try { var path = this.csv + '/' + src + '.CSV'; $('#currentScreenTitle').html(this.view.getTitle(this.tstamp)); $.ajax( { cache: false, url : path, context : this, /*success : kaco.parseData, error : kaco.noData*/ success:function(data){ kaco.parseData(data); closeThrobberBox(); }, timeout: 120000, /* 120 s = 2 Min */ error: function(jqXHR, textStatus, errorThrown) { closeThrobberBox(); if(textStatus==="timeout") { //do something on timeout this.dataTimeOut(); return false; } else { this.noData(); return false; } } }); $('#downloadLink').attr('href', this.csv + '/' + src + '.CSV'); return true; } catch (e) { closeThrobberBox(); this.noData(); return false; } }, noData : function() { kaco.noDataMode = true; $("#tooltip").remove(); $('#downloadLink').attr('href', 'javascript:alert("'+keineDaten+'");'); $('#graphselector').hide(); $('#axisLabel').hide(); $('#chartContainer').html('<p class="nodata">'+keineDaten+'</p>'); $('#dayValue').html(''); $('#dayLabel').html(''); pauseRealtime = false; }, dataTimeOut : function() { kaco.noDataMode = true; $("#tooltip").remove(); $('#downloadLink').attr('href', 'javascript:alert("load data timeout");'); $('#graphselector').hide(); $('#axisLabel').hide(); $('#chartContainer').html('<p class="nodata">load data timeout</p>'); $('#dayValue').html(''); $('#dayLabel').html(''); pauseRealtime = false; }, showLoading : function() { $("#tooltip").remove(); $('#downloadLink').attr('href', 'javascript:alert(" '+loadingTxt+' ");'); $('#graphselector').hide(); $('#axisLabel').hide(); $('#chartContainer').html('<p class="loading">'+loadingTxt+' </p>'); $('#dayValue').html(''); $('#dayLabel').html(''); }, parseData : function(res) { var lines = res.split('\r'); var values = []; // Read the total yield value from the CSV header totalYieldFromCsvHeader = getFloatVal(lines[1].split(';')[4]); // Skip the first 3 lines (contain meta data and column headers) for (var t = 3; t < lines.length; t++) { values[t - 3] = lines[t].split(';'); } if ((values.length == 0) || ((values.length == 1) && (values[0] == ""))) { this.noData(); } else { switch (this.mode) { case 'ETERNAL': case 'MONTH': case 'YEAR': { this.data = this.parseGrouped(values); break; } case 'DAY': { this.data = this.parseDay(values); $('#graphselector').show(); break; } } this.drawGraph(this.data); if (this.noDataMode) { this.noDataMode = false; switch (this.mode) { case 'ETERNAL': this.switchToEternalView(); break; case 'YEAR': this.switchToMonthView(); break; case 'MONTH': this.switchToMonthView(); break; case 'DAY': this.switchToDayView(true); break; } } } pauseRealtime = false; }, parseGrouped : function(values) { var curValue = 0; var flag = false; var tmp = []; for (var x = 0; x < values.length - 1; x++) { var data = values[x]; var time = data[0].split("/"); var day = 1, month = 0, year = 0; if (time.length == 3) { day = time[0]; month = time[1] - 1; year = time[2]; } else if (time.length == 2) { month = time[0] - 1; year = time[1]; } else { year = data[0]; } var d = new Date(year, month, day, 0, 0, 0); curValue += parseInt(data[1]); var tick; switch (this.mode) { case 'YEAR': { tick = d.getMonth() + 1; break; } case 'MONTH': { tick = d.getDate(); break; } case 'ETERNAL': { tick = d.getFullYear(); break; } default: { tick = d; } } tmp.push([tick, (data[1]/1000)]); if (flag) break; } var curValueCalculated = 0 if (parseInt(curValue) > 0) { curValueCalculated = curValue / 1000; } //$('#dayValue').html(roundCommaSeparated(curValueCalculated, 1) + ' kWh'); // use the total yield value from the CSV header not the calculated value fron this JS-Script $('#dayValue').html(roundCommaSeparated(totalYieldFromCsvHeader, 1) + ' kWh'); return tmp; }, parseDay : function(values) { var tmp = { 'pvsp1' : { label : pvsp1, data : [], yaxis : 1, color : 'rgb(255,0,0)' }, 'pvsp2' : { label : pvsp2, data : [], yaxis : 1, color : 'rgb(255,128,128)' }, 'pvsp3' : { label : pvsp3, data : [], yaxis : 1, color : 'rgb(255,192,192)' }, 'pvst1' : { label: pvst1, data : [], yaxis : 2, color : 'rgb(0,255,0)' }, 'pvst2' : { label: pvst2, data : [], yaxis : 2, color : 'rgb(128,255,128)' }, 'pvst3' : { label: pvst3, data : [], yaxis : 2, color : 'rgb(192,255,192)' }, 'nsp1' : { label : nsp1, data : [], yaxis : 3, color : 'rgb(0,0,255)' }, 'nsp2' : { label : nsp2, data : [], yaxis : 3, color : 'rgb(128,128,255)' }, 'nsp3' : { label : nsp3, data : [], yaxis : 3, color : 'rgb(192,192,255)' }, 'nst1' : { label : nst1, data : [], yaxis : 9, color: 'rgb(255,255,0)' }, 'nst2' : { label : nst2, data : [], yaxis : 9, color: 'rgb(255,255,128)' }, 'nst3' : { label : nst3, data : [], yaxis : 9, color: 'rgb(255,255,192)' }, 'pvl1' : { label : pvl1, data : [], yaxis : 5, color : 'rgb(255,128,0)' }, 'pvl2' : { label : pvl2, data : [], yaxis : 5, color : 'rgb(255,192,64)' }, 'pvl3' : { label : pvl3, data : [], yaxis : 5, color : 'rgb(255,255,0)' }, 'temp' : { label : temperatur, data : [], yaxis : 6, color : 'rgb(0,0,0)' }, 'nl' : { label : nl, data : [], yaxis : 7, color : 'rgb(0,255,255)' } }; for (var x = 0; x < values.length - 1; x++) { var data = values[x]; if (data[0] == 0) continue; // Zeitstempel var time = data[0].split(":"); // data[0] Time (07:31:13) var tstamp = new Date(this.tstamp.getFullYear(),this.tstamp.getMonth(),this.tstamp.getDate(),time[0],time[1],time[2]); tstamp.setHours(tstamp.getHours() - (tstamp.getTimezoneOffset() / 60)); if ((this.dcCount == 1) && (this.acVoltPhaseMon == 3)) { /* data[1] UDC1 (12345.6) - DC-Voltage 1, MPPT1 [V] data[2] IDC1 (123.45) - DC-Current 1, MPPT1 [A] data[3] PDC1 (123456) - DC-Power 1, MPPT1 [W] data[4] UAC1 (12345.6) - AC-Voltage 1, Phase 1 [V] data[5] IAC1 (123.45) - AC-Current 1, Phase 1 [A] data[6] UAC2 (12345.6) - AC-Voltage 2, Phase 2 [V] data[7] IAC2 (123.45) - AC-Current 2, Phase 2 [A] data[8] UAC3 (12345.6) - AC-Voltage 3, Phase 3 [V] data[9] IAC3 (123.45) - AC-Current 3, Phase 3 [A] data[10] PDC (12345) - DC-Power total [W] data[11] PAC (12345) - AC-Power total [W] data[12] T (123.45) - Circuit board temperatur */ // DC Spannung tmp.pvsp1.data.push([tstamp, getFloatVal(data[1])]); // DC Strom tmp.pvst1.data.push([tstamp, getFloatVal(data[2])]); // AC Spannung tmp.nsp1.data.push([tstamp, getFloatVal(data[4])]); tmp.nsp2.data.push([tstamp, getFloatVal(data[6])]); tmp.nsp3.data.push([tstamp, getFloatVal(data[8])]); // AC Strom tmp.nst1.data.push([tstamp, getFloatVal(data[5])]); if (this.acCount != 1) { tmp.nst2.data.push([ tstamp, getFloatVal(data[7])]); tmp.nst3.data.push([ tstamp, getFloatVal(data[9])]); } // DC Leistung tmp.pvl1.data.push([tstamp, getFloatVal(data[3]) / 1000]); // AC Leistung tmp.nl.data.push([tstamp, getFloatVal(data[11]) / 1000]); // Gerätetemperatur tmp.temp.data.push([tstamp, getFloatVal(data[12])]); } else if ((this.dcCount == 2) && (this.acVoltPhaseMon == 3)) { /* data[1] UDC1 (12345.6) - DC-Voltage 1, MPPT1 [V] data[2] IDC1 (123.45) - DC-Current 1, MPPT1 [A] data[3] PDC1 (123456) - DC-Power 1, MPPT1 [W] data[4] UDC2 (12345.6) - DC-Voltage 2, MPPT2 [V] data[5] IDC2 (123.45) - DC-Current 2, MPPT2 [A] data[6] PDC2 (123456) - DC-Power 2, MPPT2 [W] data[7] UAC1 (12345.6) - AC-Voltage 1, Phase 1 [V] data[8] IAC1 (123.45) - AC-Current 1, Phase 1 [A] data[9] UAC2 (12345.6) - AC-Voltage 2, Phase 2 [V] data[10] IAC2 (123.45) - AC-Current 2, Phase 2 [A] data[11] UAC3 (12345.6) - AC-Voltage 3, Phase 3 [V] data[12] IAC3 (123.45) - AC-Current 3, Phase 3 [A] data[13] PDC (12345) - DC-Power total [W] data[14] PAC (12345) - AC-Power total [W] data[15] T (123.45) - Circuit board temperatur */ // DC Spannung tmp.pvsp1.data.push([tstamp, getFloatVal(data[1])]); tmp.pvsp2.data.push([tstamp, getFloatVal(data[4])]); // DC Strom tmp.pvst1.data.push([tstamp, getFloatVal(data[2])] ); tmp.pvst2.data.push([tstamp, getFloatVal(data[5])] ); // AC Spannung tmp.nsp1.data.push([tstamp, getFloatVal(data[7])]); tmp.nsp2.data.push([tstamp, getFloatVal(data[9])]); tmp.nsp3.data.push([tstamp, getFloatVal(data[11])]); // AC Strom tmp.nst1.data.push([tstamp, getFloatVal(data[8])]); if (this.acCount != 1) { tmp.nst2.data.push( [ tstamp, getFloatVal(data[10]) ]); tmp.nst3.data.push( [ tstamp, getFloatVal(data[12]) ]); } // DC Leistung tmp.pvl1.data.push([tstamp, getFloatVal(data[3]) / 1000]); tmp.pvl2.data.push([tstamp, getFloatVal(data[6]) / 1000]); // AC Leistung tmp.nl.data.push([tstamp, getFloatVal(data[14]) / 1000]); // Gerätetemperatur tmp.temp.data.push([tstamp, getFloatVal(data[15])]); } else if ((this.dcCount == 3) && (this.acVoltPhaseMon == 3)) { /* data[0] Time (07:31:13) data[1] UDC1 (12345.6) - DC-Voltage 1, MPPT1 [V] data[2] IDC1 (123.45) - DC-Current 1, MPPT1 [A] data[3] PDC1 (123456) - DC-Power 1, MPPT1 [W] data[4] UDC2 (12345.6) - DC-Voltage 2, MPPT2 [V] data[5] IDC2 (123.45) - DC-Current 2, MPPT2 [A] data[6] PDC2 (123456) - DC-Power 2, MPPT2 [W] data[7] UDC3 (12345.6) - DC-Voltage 3, MPPT3 [V] data[8] IDC3 (123.45) - DC-Current 3, MPPT3 [A] data[9] PDC3 (123456) - DC-Power 3, MPPT3 [W] data[10] UAC1 (12345.6) - AC-Voltage 1, Phase 1 [V] data[11] IAC1 (123.45) - AC-Current 1, Phase 1 [A] data[12] UAC2 (12345.6) - AC-Voltage 2, Phase 2 [V] data[13] IAC2 (123.45) - AC-Current 2, Phase 2 [A] data[14] UAC3 (12345.6) - AC-Voltage 3, Phase 3 [V] data[15] IAC3 (123.45) - AC-Current 3, Phase 3 [A] data[16] PDC (12345) - DC-Power total [W] data[17] PAC (12345) - AC-Power total [W] data[18] T (123.45) - Circuit board temperatur */ // DC Spannung tmp.pvsp1.data.push([tstamp, getFloatVal(data[1])]); tmp.pvsp2.data.push([tstamp, getFloatVal(data[4])]); tmp.pvsp3.data.push([tstamp, getFloatVal(data[7])]); // DC Strom tmp.pvst1.data.push([tstamp, getFloatVal(data[2])]); tmp.pvst2.data.push([tstamp, getFloatVal(data[5])]); tmp.pvst3.data.push([tstamp, getFloatVal(data[8])]); // AC Spannung tmp.nsp1.data.push([tstamp, getFloatVal(data[10])]); tmp.nsp2.data.push([tstamp, getFloatVal(data[12])]); tmp.nsp3.data.push([tstamp, getFloatVal(data[14])]); // AC Strom tmp.nst1.data.push([tstamp, getFloatVal(data[11])]); tmp.nst2.data.push([tstamp, getFloatVal(data[13])]); tmp.nst3.data.push([tstamp, getFloatVal(data[15])]); // DC Leistung tmp.pvl1.data.push([tstamp, getFloatVal(data[3]) / 1000]); tmp.pvl2.data.push([tstamp, getFloatVal(data[6]) / 1000]); tmp.pvl3.data.push([tstamp, getFloatVal(data[9]) / 1000]); // AC Leistung tmp.nl.data.push([tstamp, getFloatVal(data[17]) / 1000]); // Gerätetemperatur tmp.temp.data.push([tstamp, getFloatVal(data[18])]); } else if ((this.dcCount == 1) && (this.acVoltPhaseMon == 1)) { /* data[0] Time (07:31:13) data[1] UDC1 (12345.6) - DC-Voltage 1, MPPT1 [V] data[2] IDC1 (123.45) - DC-Current 1, MPPT1 [A] data[3] PDC1 (123456) - DC-Power 1, MPPT1 [W] data[4] UAC1 (12345.6) - AC-Voltage 1, Phase 1 [V] data[5] IAC1 (123.45) - AC-Current 1, Phase 1 [A] data[6] PDC (12345) - DC-Power total [W] data[7] PAC (12345) - AC-Power total [W] data[8] T (123.45) - Circuit board temperatur */ // DC Spannung tmp.pvsp1.data.push([tstamp, getFloatVal(data[1])]); // DC Strom tmp.pvst1.data.push([tstamp, getFloatVal(data[2])]); // AC Spannung tmp.nsp1.data.push([tstamp, getFloatVal(data[4])]); // AC Strom tmp.nst1.data.push([tstamp, getFloatVal(data[5])]); // DC Leistung tmp.pvl1.data.push([tstamp, getFloatVal(data[3]) / 1000]); // AC Leistung tmp.nl.data.push([tstamp, getFloatVal(data[7]) / 1000]); // Gerätetemperatur tmp.temp.data.push([tstamp, getFloatVal(data[8])]); } else if ((this.dcCount == 2) && (this.acVoltPhaseMon == 1)) { /* data[0] Time (07:31:13) data[1] UDC1 (12345.6) - DC-Voltage 1, MPPT1 [V] data[2] IDC1 (123.45) - DC-Current 1, MPPT1 [A] data[3] PDC1 (123456) - DC-Power 1, MPPT1 [W] data[4] UDC2 (12345.6) - DC-Voltage 2, MPPT2 [V] data[5] IDC2 (123.45) - DC-Current 2, MPPT2 [A] data[6] PDC2 (123456) - DC-Power 2, MPPT2 [W] data[7] UAC1 (12345.6) - AC-Voltage 1, Phase 1 [V] data[8] IAC1 (123.45) - AC-Current 1, Phase 1 [A] data[9] PDC (12345) - DC-Power total [W] data[10] PAC (12345) - AC-Power total [W] data[11] T (123.45) - Circuit board temperatur */ // DC Spannung tmp.pvsp1.data.push([tstamp, getFloatVal(data[1])]); tmp.pvsp2.data.push([tstamp, getFloatVal(data[4])]); // DC Strom tmp.pvst1.data.push([tstamp, getFloatVal(data[2])]); tmp.pvst2.data.push([tstamp, getFloatVal(data[5])]); // AC Spannung tmp.nsp1.data.push([tstamp, getFloatVal(data[7])]); // AC Strom tmp.nst1.data.push([tstamp, getFloatVal(data[8])]); // DC Leistung tmp.pvl1.data.push([tstamp, getFloatVal(data[3]) / 1000]); tmp.pvl2.data.push([tstamp, getFloatVal(data[6]) / 1000]); // AC Leistung tmp.nl.data.push([tstamp, getFloatVal(data[10]) / 1000]); // Gerätetemperatur tmp.temp.data.push([tstamp, getFloatVal(data[11])]); } else if ((this.dcCount == 3) && (this.acVoltPhaseMon == 1)) { /* data[0] Time (07:31:13) data[1] UDC1 (12345.6) - DC-Voltage 1, MPPT1 [V] data[2] IDC1 (123.45) - DC-Current 1, MPPT1 [A] data[3] PDC1 (123456) - DC-Power 1, MPPT1 [W] data[4] UDC2 (12345.6) - DC-Voltage 2, MPPT2 [V] data[5] IDC2 (123.45) - DC-Current 2, MPPT2 [A] data[6] PDC2 (123456) - DC-Power 2, MPPT2 [W] data[7] UDC3 (12345.6) - DC-Voltage 3, MPPT3 [V] data[8] IDC3 (123.45) - DC-Current 3, MPPT3 [A] data[9] PDC3 (123456) - DC-Power 3, MPPT3 [W] data[10] UAC1 (12345.6) - AC-Voltage 1, Phase 1 [V] data[11] IAC1 (123.45) - AC-Current 1, Phase 1 [A] data[12] PDC (12345) - DC-Power total [W] data[13] PAC (12345) - AC-Power total [W] data[14] T (123.45) - Circuit board temperatur */ // DC Spannung tmp.pvsp1.data.push([tstamp, getFloatVal(data[1])]); tmp.pvsp2.data.push([tstamp, getFloatVal(data[4])]); tmp.pvsp3.data.push([tstamp, getFloatVal(data[7])]); // DC Strom tmp.pvst1.data.push([tstamp, getFloatVal(data[2])]); tmp.pvst2.data.push([tstamp, getFloatVal(data[5])]); tmp.pvst3.data.push([tstamp, getFloatVal(data[8])]); // AC Spannung tmp.nsp1.data.push([tstamp, getFloatVal(data[10])]); // AC Strom tmp.nst1.data.push([tstamp, getFloatVal(data[11])]); // DC Leistung tmp.pvl1.data.push([tstamp, getFloatVal(data[3]) / 1000]); tmp.pvl2.data.push([tstamp, getFloatVal(data[6]) / 1000]); tmp.pvl3.data.push([tstamp, getFloatVal(data[9]) / 1000]); // AC Leistung tmp.nl.data.push([tstamp, getFloatVal(data[13]) / 1000]); // Gerätetemperatur tmp.temp.data.push([tstamp, getFloatVal(data[14])]); } } var curValue = 0; var diff = 5; for (var xx = 0; xx < tmp.nl.data.length; xx++) { if (xx > 0) { diff = ((tmp.nl.data[xx][0].getTime() - tmp.nl.data[xx-1][0].getTime())/60000); } curValue += tmp.nl.data[xx][1] * diff; } var curValueCalculated = 0; if (parseInt(curValue) > 0) { curValueCalculated = curValue / 60.0; } //$('#dayValue').html(roundCommaSeparated(curValueCalculated, 1) + ' kWh'); // use the total yield value from the CSV header not the calculated value fron this JS-Script $('#dayValue').html(roundCommaSeparated(totalYieldFromCsvHeader, 1) + ' kWh'); return tmp; }, drawGraph : function(data) { if (this.override) { $("outOfBoundInfo").show(); } else { $("outOfBoundInfo").hide(); } this.override = false; var config = this.view.getChartConfig(data); if (config != undefined) { $.plot($("#chartContainer"), config.chart, config.options); $('#axisLabel').show(); } } } var toolView = { getTitle : function(tstamp) { return toolAnsicht; } } var eternalView = { range : { min : (new Date(2006, 0, 1, 0, 0, 0)).getTime(), max : (new Date()).getTime() }, getTitle : function(tstamp) { return gesamtAnsicht; }, getChartConfig : function(data) { var ticks = []; var min = 0; var max = 25000; if (data.length > 0) { for(var xyz = 0; xyz < data.length; ++xyz) { ticks.push(data[xyz][0]); } return { chart : [ { label : 'E [kWh]', data : data, bars : { show : true, barWidth : 0.5, align : 'center' } } ], options : { grid : { clickable : true, hoverable : true, autoHighlight : true }, legend : { position : 'nw' }, xaxis : { ticks : ticks, tickDecimals : 0, max : data[data.length-1][0] + 1, min : data[0][0] - 1 }, colors : [ "#003871" ] } }; } }, getCurrent : function(tstamp) { if (tstamp.getTime() < this.range.min) { kaco.override = true; tstamp.setTime(this.range.min); } if (tstamp.getTime() > this.range.max) { kaco.override = true; tstamp.setTime(this.range.max); } return tstamp.getFullYear(); }, getPrevious : function(tstamp) { tstamp.setFullYear(tstamp.getFullYear() - 1); return this.getCurrent(tstamp); }, getNext : function(tstamp) { tstamp.setFullYear(tstamp.getFullYear() + 1); return this.getCurrent(tstamp); } } var yearView = { range : { min : (new Date(2008, 0, 1, 0, 0, 0)).getTime(), max : (new Date()).getTime() }, getTitle : function(tstamp) { return jahresAnsicht + ' ' + tstamp.getFullYear(); }, getChartConfig : function(data) { return { chart : [ { label : 'E [kWh]', data : data, bars : { show : true, barWidth : 0.5, align : 'center' } } ], options : { grid : { clickable : true, hoverable : true, autoHighlight : true }, legend : { position : 'nw', opacity : 0.4, style : 'bar' }, xaxis : { ticks : [ 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 ], tickDecimals : 0, max : 13, min : 0 }, colors : [ "#003871" ] } }; }, getCurrent : function(tstamp) { if (tstamp.getTime() < this.range.min) { kaco.override = true; tstamp.setTime(this.range.min); } if (tstamp.getTime() > this.range.max) { kaco.override = true; tstamp.setTime(this.range.max); } return tstamp.getFullYear(); }, getPrevious : function(tstamp) { tstamp.setFullYear(tstamp.getFullYear() - 1); return this.getCurrent(tstamp); }, getNext : function(tstamp) { tstamp.setFullYear(tstamp.getFullYear() + 1); return this.getCurrent(tstamp); } } var monthView = { range : { min : (new Date(2009, 0, 1, 0, 0, 0)).getTime(), max : (new Date()).getTime() }, getTitle : function(tstamp) { return monatsAnsicht + ' ' + monthNameList[tstamp.getMonth()] + ' ' + tstamp.getFullYear(); }, getChartConfig : function(data) { var tmp = yearView.getChartConfig(data); tmp.options.xaxis = { ticks : [ 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31 ], tickDecimals : 0, max : 32, min : 0 } return tmp; }, getCurrent : function(tstamp) { if (tstamp.getTime() < this.range.min) { kaco.override = true; tstamp.setTime(this.range.min); } if (tstamp.getTime() > this.range.max) { kaco.override = true; tstamp.setTime(this.range.max); } var m = (tstamp.getMonth() + 1) + ''; return tstamp.getFullYear() + '' + m.pad(2, '0'); }, getPrevious : function(tstamp) { tstamp.setMonth(tstamp.getMonth() - 1); return this.getCurrent(tstamp); }, getNext : function(tstamp) { tstamp.setMonth(tstamp.getMonth() + 1); return this.getCurrent(tstamp); }, getPreviousFast : function(tstamp) { tstamp.setYear(tstamp.getFullYear() - 1); return this.getCurrent(tstamp); }, getNextFast : function(tstamp) { tstamp.setYear(tstamp.getFullYear() + 1); return this.getCurrent(tstamp); } }; var dayView = { range : { min : (new Date(2012, 1, 1, 0, 0, 0)).getTime(), max : (new Date()).getTime() }, getTitle : function(tstamp) { return tagesAnsicht + ' ' + tstamp.getDate() + '. ' + monthNameList[tstamp.getMonth()] + ' ' + tstamp.getFullYear(); }, getChartConfig : function(data) { /* * var label; switch (kaco.dayGraph) { case 'pvsp1': case 'pvsp2': case * 'pvsp3': { label = 'U [V]'; break; } * * case 'pvst1': case 'pvst2': case 'pvst3': { label = 'I [A]'; break; } * * case 'nsp1': case 'nsp2': case 'nsp3': { label = 'U [V]'; break; } * * case 'nst1': case 'nst2': case 'nst3': { label = 'I [A]'; break; } * * case 'nfr': { label = 'F [Hz]'; break; } case 'temp': { label = 'T * [°C]'; break; } case 'nl': { label = "P [kW]"; break; } } */ var showData = []; $('#graphselector').find("input:checked").each(function() { var key = $(this).attr("value"); if (key && data[key]) showData.push(data[key]); }); return { chart : showData, /* * { label: label, data: data, lines: { show: true } }, */ options : { grid : { clickable : true, hoverable : true, autoHighlight : true }, legend : { position : 'nw' }, xaxis : { mode : 'time', timeformat : '%h:%M' }, yaxis : { position : "left", min : 0, max : null }, } }; }, getCurrent : function(tstamp) { if (tstamp.getTime() < this.range.min) { kaco.override = true; tstamp.setTime(this.range.min); } if (tstamp.getTime() > this.range.max) { kaco.override = true; tstamp.setTime(this.range.max); } var m = (tstamp.getMonth() + 1) + ''; var d = tstamp.getDate() + ''; return tstamp.getFullYear() + '' + m.pad(2, '0') + d.pad(2, '0'); }, getPrevious : function(tstamp) { tstamp.setDate(tstamp.getDate() - 1); return this.getCurrent(tstamp); }, getNext : function(tstamp) { tstamp.setDate(tstamp.getDate() + 1); return this.getCurrent(tstamp); }, getPreviousFast : function(tstamp) { tstamp.setMonth(tstamp.getMonth() - 1); return this.getCurrent(tstamp); }, getToday : function(tstamp) { tstamp = new Date(); kaco.tstamp = tstamp; return this.getCurrent(tstamp); }, getNextFast : function(tstamp) { tstamp.setMonth(tstamp.getMonth() + 1); return this.getCurrent(tstamp); } }; -
Bitte noch die code Tags setzen
Sonst werden uU Teile verschlucktKennst du das?
https://forum.iobroker.net/topic/42163/kaco-wechselrichter-und-modbus -
@oliverio
Nein, den Thread kannte ich nicht. Aber jetzt läuft es über modbus. Nochmals vielen Dank!
