dh/Symcon_Belevo_Energiemanagement_testing
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belevo\mh
2026-01-23 10:13:17 +01:00
parent 391184a26e
commit 9319e3a2f8
1 changed files with 122 additions and 226 deletions
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348
Bat_EV_SDL/module.php
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@@ -1,50 +1,39 @@
<?php
<?php
class Bat_EV_SDL extends IPSModule class Bat_EV_SDL extends IPSModule
{ {
public function Create() public function Create()
{ {
parent::Create(); parent::Create();
// Properties // Properties
$this->RegisterPropertyString("Batteries", "[]"); $this->RegisterPropertyString("Batteries", "[]");
$this->RegisterPropertyInteger("SDL_Leistung", 0); // W $this->RegisterPropertyInteger("SDL_Leistung", 0); // W
$this->RegisterPropertyInteger("UpdateInterval", 5); // Minuten $this->RegisterPropertyInteger("UpdateInterval", 5); // Minuten
// Status // Status
$this->RegisterVariableBoolean("State", "Aktiv", "~Switch", 1); $this->RegisterVariableBoolean("State", "Aktiv", "~Switch", 1);
$this->EnableAction("State"); $this->EnableAction("State");
// Prozentwerte // Prozentwerte
$this->RegisterVariableFloat("SDL_Pos", "SDL Energie verfügbar (%)", "", 10); $this->RegisterVariableFloat("SDL_Pos", "SDL Energie verfügbar (%)", "", 10);
$this->RegisterVariableFloat("SoC_EV", "EV Energie verfügbar (%)", "", 11); $this->RegisterVariableFloat("SoC_EV", "EV Energie verfügbar (%)", "", 11);
// Leistungsgrenzen // Leistungsgrenzen
$this->RegisterVariableFloat("P_SDL_max", "SDL max (W)", "", 20); $this->RegisterVariableFloat("P_SDL_max", "SDL max (W)", "", 20);
$this->RegisterVariableFloat("P_SDL_laden", "P SDL laden max (W)", "", 21); $this->RegisterVariableFloat("P_SDL_laden", "P SDL laden max (W)", "", 21);
$this->RegisterVariableFloat("P_SDL_entladen", "P SDL entladen max (W)", "", 22); $this->RegisterVariableFloat("P_SDL_entladen", "P SDL entladen max (W)", "", 22);
$this->RegisterVariableFloat("P_EV_max", "EV max (W)", "", 30); $this->RegisterVariableFloat("P_EV_max", "EV max (W)", "", 30);
$this->RegisterVariableFloat("P_EV_laden", "P EV laden max (W)", "", 31); $this->RegisterVariableFloat("P_EV_laden", "P EV laden max (W)", "", 31);
$this->RegisterVariableFloat("P_EV_entladen", "P EV entladen max (W)", "", 32); $this->RegisterVariableFloat("P_EV_entladen", "P EV entladen max (W)", "", 32);
// Debug // Debug
$this->RegisterVariableString("CalcJSON", "Berechnung (JSON)", "", 99); $this->RegisterVariableString("CalcJSON", "Berechnung (JSON)", "", 99);
// Timer // Timer
$this->RegisterTimer("UpdateTimer", 0, 'GEF_Update($_IPS["TARGET"]);'); $this->RegisterTimer("UpdateTimer", 0, 'GEF_Update($_IPS["TARGET"]);');
} }
public function ApplyChanges() public function ApplyChanges()
{ {
parent::ApplyChanges(); parent::ApplyChanges();
$intervalMin = (int)$this->ReadPropertyInteger("UpdateInterval"); $intervalMin = (int)$this->ReadPropertyInteger("UpdateInterval");
$this->SetTimerInterval("UpdateTimer", ($intervalMin > 0) ? $intervalMin * 60 * 1000 : 0); $this->SetTimerInterval("UpdateTimer", ($intervalMin > 0) ? $intervalMin * 60 * 1000 : 0);
$this->Update(); $this->Update();
} }
public function RequestAction($Ident, $Value) public function RequestAction($Ident, $Value)
{ {
if ($Ident === "State") { if ($Ident === "State") {
@@ -56,56 +45,35 @@ class Bat_EV_SDL extends IPSModule
} }
throw new Exception("Invalid Ident: " . $Ident); throw new Exception("Invalid Ident: " . $Ident);
} }
public function Update() public function Update()
{ {
if (!GetValue($this->GetIDForIdent("State"))) { if (!GetValue($this->GetIDForIdent("State"))) {
return; return;
} }
$batteries = json_decode($this->ReadPropertyString("Batteries"), true); $batteries = json_decode($this->ReadPropertyString("Batteries"), true);
if (!is_array($batteries)) { if (!is_array($batteries)) {
$batteries = []; $batteries = [];
} }
$sdlTotalW = (float)$this->ReadPropertyInteger("SDL_Leistung"); // W $sdlTotalW = (float)$this->ReadPropertyInteger("SDL_Leistung"); // W
if ($sdlTotalW < 0) $sdlTotalW = 0.0; if ($sdlTotalW < 0) $sdlTotalW = 0;
$sdlTotalkW = $sdlTotalW/1000;
$hours = 0.5; // 30 Minuten // 30 Minuten Fenster
$hours = 0.5;
// Summe Batterie-Maxleistungen // Summe Batterie-Maxleistungen
$sumBatPowerW = 0.0; $sumBatPowerW = 0.0;
foreach ($batteries as $b) { foreach ($batteries as $b) {
$p = (float)($b["powerbat"] ?? 0); $p = (float)($b["powerbat"] ?? 0);
if ($p > 0) $sumBatPowerW += $p; if ($p > 0) $sumBatPowerW += $p;
} }
if ($sumBatPowerW <= 0.0) { if ($sumBatPowerW <= 0.0) {
$this->WriteAllZero("sumBatPowerW=0"); $this->WriteAllZero("sumBatPowerW=0");
return; return;
} }
$sumBatPowerkW = $sumBatPowerW/1000;
// Einheiten //--------------------------------------------
$sdlTotalkW = $sdlTotalW / 1000.0; $real_kWh = 0.0;
$sumBatPowerkW = $sumBatPowerW / 1000.0; //-------------------------------
// Totals (dein Modell)
$totalCapKWh = 0.0;
$real_kWh_ev_ges = 0.0;
$real_kWh_sdl_ges = 0.0;
$SDL_kWh_ges = 0.0; // Summe (2*under)
$EV_kWh_ges = 0.0; // Summe (cap - 2*under)
$sdlDisKW_ges = 0.0;
$evDisKW_ges = 0.0;
$sdlChKW_ges = 0.0;
$evChKW_ges = 0.0;
$pSDLmaxKW_ges = 0.0; // Summe SDL-Anteile (kW)
$pEVmaxKW_ges = 0.0; // Summe EV-Anteile (kW)
$calc = [ $calc = [
"inputs" => [ "inputs" => [
"SDL_Leistung_W" => round($sdlTotalW, 0), "SDL_Leistung_W" => round($sdlTotalW, 0),
@@ -115,235 +83,170 @@ class Bat_EV_SDL extends IPSModule
"batteries" => [], "batteries" => [],
"total" => [] "total" => []
]; ];
// Meine initalisierte Variablen
$EV_SOC = 0.0;
$SDL_SOC =0.0;
$sdlDisKW = 0.0; // SDL-
$evDisKW = 0.0; // EV-
$sdlChKW = 0.0; // SDL+
$evChKW = 0.0; //EV+
$sdlDisKW_ges = 0.0; // SDL- gesamt
$evDisKW_ges = 0.0; // EV- gesamt
$sdlChKW_ges = 0.0; // SDL+ gesamt
$evChKW_ges = 0.0; //EV+ gesamt
$real_kWh_ev_ges = 0.0;
$real_kWh_sdl_ges = 0.0;
$SDL_kWh_ges = 0.0;
$EV_kWh_ges = 0.0;
$real_kWh_ev = 0.0;
$real_kWh_sdl = 0.0;
$EV_SOC = 0.0;
$SDL_SOC = 0.0;
$sdlDisKW = 0.0;
$evDisKW = 0.0;
$sdlChKW = 0.0;
$evChKW = 0.0;
$totalCapKWh = 0.0;
foreach ($batteries as $idx => $b) { foreach ($batteries as $idx => $b) {
// pro Batterie reset
$EV_SOC = 0.0;
$SDL_SOC = 0.0;
$sdlDisKW = 0.0;
$evDisKW = 0.0;
$sdlChKW = 0.0;
$evChKW = 0.0;
$real_kWh_ev = 0.0;
$real_kWh_sdl = 0.0;
// Eingaben
$pBatW = max(0.0, (float)($b["powerbat"] ?? 0)); $pBatW = max(0.0, (float)($b["powerbat"] ?? 0));
$pBatkW = $pBatW / 1000.0; $pBatkW = $pBatW/1000;
$capKWh = max(0.0, (float)($b["capazity"] ?? 0)); $capKWh = max(0.0, (float)($b["capazity"] ?? 0));
// soc ist SelectVariable -> Variable-ID
$socVarId = (int)($b["soc"] ?? 0); $socVarId = (int)($b["soc"] ?? 0);
$socPct = (float)$this->ReadSocPercent($socVarId); $socPct = $this->ReadSocPercent($socVarId);
if ($socPct < 0.0) $socPct = 0.0;
if ($socPct > 100.0) $socPct = 100.0; //--------------Meine Berechnung, so wie ich es möchte------------------------
$totalCapKWh += $capKWh; $sdlShareKW = $sdlTotalkW/$sumBatPowerkW*$pBatkW; // SDL Power
$evShareKW = $pBatkW - $sdlShareKW ; // EV Power
$underKWh = $sdlShareKW * $hours;// untere GRenze für SDL
$upKWh = $capKWh - $underKWh ; // obere Grenze für SDL
$SDL_kWh = 2*$underKWh; //SDL kWh
$EV_kWH = $capKWh - 2*$underKWh; // EV kWh
$real_kWh = $capKWh/100 * $socPct;// Jetziger Füllstand in kWh
// SDL/EV Power Verteilung (proportional nach Leistung) if ($underKWh < $real_kWh && $upKWh > $real_kWh ){
$sdlShareKW = ($sumBatPowerkW > 0.0) ? ($sdlTotalkW / $sumBatPowerkW * $pBatkW) : 0.0; $SDL_SOC = 50;
if ($sdlShareKW < 0.0) $sdlShareKW = 0.0; $EV_SOC = ($real_kWh - $underKWh) * 100 / $capKWh;
if ($sdlShareKW > $pBatkW) $sdlShareKW = $pBatkW; $sdlDisKW = $sdlShareKW; // SDL-
$evDisKW = $evShareKW; // EV-
$evShareKW = max(0.0, $pBatkW - $sdlShareKW); $sdlChKW = $sdlShareKW; // SDL+
$evChKW = $evShareKW; //EV+
// Grenzen / Zonen // Reale kWh für EV und SDl
$underKWh = $sdlShareKW * $hours; // SDL Reserve für 30min $real_kWh_ev = $real_kWh - $underKWh;
$upKWh = $capKWh - $underKWh; // obere Grenze (deine Definition)
$SDL_kWh = 2.0 * $underKWh; // SDL-Zonenbreite
$EV_kWh = $capKWh - 2.0 * $underKWh; // EV-Zonenbreite
if ($EV_kWh < 0.0) $EV_kWh = 0.0;
$real_kWh = $capKWh * ($socPct / 100.0); // aktueller Inhalt
// Zonenlogik
if ($real_kWh <= $underKWh) {
// untere Zone: EV = 0
$EV_SOC = 0.0;
$den = 2.0 * $underKWh;
$SDL_SOC = ($den > 0.0) ? ($real_kWh * 100.0 / $den) : 0.0;
$sdlDisKW = $sdlShareKW;
$evDisKW = 0.0;
$sdlChKW = $sdlShareKW;
$evChKW = $evShareKW;
$real_kWh_ev = 0.0;
$real_kWh_sdl = $real_kWh;
} elseif ($real_kWh < $upKWh) {
// mittlere Zone: SDL fix 50, EV wächst
$SDL_SOC = 50.0;
// EV_SOC bezogen auf EV_kWh (wenn du lieber capKWh willst: / $capKWh)
$EV_SOC = ($EV_kWh > 0.0) ? (($real_kWh - $underKWh) * 100.0 / $EV_kWh) : 0.0;
if ($EV_SOC < 0.0) $EV_SOC = 0.0;
if ($EV_SOC > 100.0) $EV_SOC = 100.0;
$sdlDisKW = $sdlShareKW;
$evDisKW = $evShareKW;
$sdlChKW = $sdlShareKW;
$evChKW = $evShareKW;
$real_kWh_ev = $real_kWh - $underKWh;
$real_kWh_sdl = $underKWh; $real_kWh_sdl = $underKWh;
} else { } elseif ($upKWh < $real_kWh) {
// obere Zone: EV voll, SDL wächst $EV_SOC = 100;
$EV_SOC = 100.0; $SDL_SOC = ($capKWh - $EV_kWH) / (2*$underKWh) * 100;
$sdlDisKW = $sdlShareKW; // SDL-
$SDL_SOC = ($underKWh > 0.0) $evDisKW = $evShareKW; // EV-
? (50.0 + (($real_kWh - $upKWh) * 50.0 / $underKWh)) $sdlChKW = $sdlShareKW; // SDL+
: 100.0; $evChKW = 0; //EV+
// Reale kWh für EV und SDl
if ($SDL_SOC < 0.0) $SDL_SOC = 0.0; $real_kWh_ev = $real_kWh - 2*$underKWh;
if ($SDL_SOC > 100.0) $SDL_SOC = 100.0; $real_kWh_sdl = (2 * $underKWh) - ($capKWh - $real_kWh);
} elseif ($underKWh > $real_kWh) {
$sdlDisKW = $sdlShareKW; $EV_SOC = 0;
$evDisKW = $evShareKW; $den = 2 * $underKWh;
$SDL_SOC = ($den > 0) ? ($real_kWh * 100 / $den) : 0.0;
$sdlChKW = $sdlShareKW; $sdlDisKW = $sdlShareKW; // SDL-
$evChKW = 0.0; $evDisKW = 0; // EV-
$sdlChKW = $sdlShareKW; // SDL+
$real_kWh_ev = max(0.0, $real_kWh - 2.0*$underKWh); $evChKW = $evShareKW; //EV+
$real_kWh_sdl = min($SDL_kWh, $real_kWh); // Reale kWh für EV und SDl
$real_kWh_ev = 0;
$real_kWh_sdl = $real_kWh;
} }
// leer/voll Sicherheitskorrektur // Null SoC für sdl Power abdecken
if ($real_kWh <= 0.000001) { if ($real_kWh <= 0) {
$sdlDisKW = 0.0; $sdlDisKW = 0;
$evDisKW = 0.0; // Reale kWh für EV und SDl
$real_kWh_ev = 0.0; $real_kWh_ev = 0;
$real_kWh_sdl = 0.0; $real_kWh_sdl = 0;
$EV_SOC = 0.0; } elseif ($real_kWh >= $capKWh) {
$SDL_SOC = 0.0; $sdlChKW = 0;
// Reale kWh für EV und SDl
$real_kWh_ev = $capKWh - 2* $underKWh;
$real_kWh_sdl = 2 * $underKWh ;
} }
$totalCapKWh += $capKWh;
if ($capKWh > 0.0 && $real_kWh >= $capKWh - 0.000001) { // Berechnungen für Leistungen laden und entladen gesamt haft
$sdlChKW = 0.0; $sdlDisKW_ges += $sdlDisKW;
$evChKW = 0.0; $evDisKW_ges += $evDisKW;
$sdlChKW_ges += $sdlChKW;
$real_kWh_ev = $EV_kWh; $evChKW_ges += $evChKW;
$real_kWh_sdl = $SDL_kWh; $real_kWh_ev_ges += $real_kWh_ev;
$EV_SOC = 100.0; $real_kWh_sdl_ges += $real_kWh_sdl ;
$SDL_SOC = 100.0; // gesamte kWh über alle Batterien für EV und SDL berechnet
} $SDL_kWh_ges += $SDL_kWh; //SDL kWh geamt
$EV_kWh_ges += $EV_kWH; // EV kWh
// Totals //--------------------------------------------------------------------------------
$pSDLmaxKW_ges += $sdlShareKW; // von mir angepasst
$pEVmaxKW_ges += $evShareKW;
$sdlDisKW_ges += $sdlDisKW;
$evDisKW_ges += $evDisKW;
$sdlChKW_ges += $sdlChKW;
$evChKW_ges += $evChKW;
$real_kWh_ev_ges += $real_kWh_ev;
$real_kWh_sdl_ges += $real_kWh_sdl;
$SDL_kWh_ges += $SDL_kWh;
$EV_kWh_ges += $EV_kWh;
// Debug pro Batterie
$calc["batteries"][] = [ $calc["batteries"][] = [
"idx" => $idx, "idx" => $idx,
"typ" => (string)($b["typ"] ?? ("Bat " . ($idx + 1))), "typ" => (string)($b["typ"] ?? ("Bat " . ($idx + 1))),
"P_bat_W" => round($pBatW, 0),
"P_bat_W" => round($pBatW, 0), "Cap_kWh" => round($capKWh, 3),
"Cap_kWh" => round($capKWh, 3),
"SoC_varId" => $socVarId, "SoC_varId" => $socVarId,
"SoC_pct" => round($socPct, 3), "SoC_pct" => round($socPct, 3),
"real_kWh" => round($real_kWh, 3), "EV_SOC"=> round($EV_SOC, 3),
"SDL_SOC"=> round($SDL_SOC, 3),
"EV_kWh"=> round($real_kWh_ev, 3),
"SDL_kWh"=> round($real_kWh_sdl, 3),
"SDL_Power_kW" => round($sdlShareKW, 3), "SDL_Power_kW" => round($sdlShareKW, 3),
"EV_Power_kW" => round($evShareKW, 3), "EV_Power_kW" => round($evShareKW, 3),
"under_grenze_kWh" => round($underKWh, 3), "under_grenze_kWh" => round($underKWh, 3),
"up_grenze_kWh" => round($upKWh, 3), "up_grenze_kWh" => round($upKWh, 3),
"SDL_kWh_zone" => round($SDL_kWh, 3),
"EV_kWh_zone" => round($EV_kWh, 3),
"SDL_SOC" => round($SDL_SOC, 3),
"EV_SOC" => round($EV_SOC, 3),
"SDL_kWh" => round($real_kWh_sdl, 3),
"EV_kWh" => round($real_kWh_ev, 3),
"SDL_Charge_kW" => round($sdlChKW, 3), "SDL_Charge_kW" => round($sdlChKW, 3),
"SDL_Discharge_kW" => round($sdlDisKW, 3), "SDL_Discharge_kW" => round($sdlDisKW, 3),
"EV_Charge_kW" => round($evChKW, 3), "EV_Charge_kW" => round($evChKW, 3),
"EV_Discharge_kW" => round($evDisKW, 3), "EV_Discharge_kW" => round($evDisKW, 3),
]; ];
} }
// Prozentwerte nach deinem Ansatz (Division absichern!)
$evPosPct = ($EV_kWh_ges > 0.000001) ? ($real_kWh_ev_ges * 100.0 / $EV_kWh_ges) : 0.0;
$sdlPosPct = ($SDL_kWh_ges > 0.000001) ? ($real_kWh_sdl_ges * 100.0 / $SDL_kWh_ges) : 0.0;
$evPosPct = $real_kWh_ev_ges/ $EV_kWh_ges *100 ;
$sdlPosPct = $real_kWh_sdl_ges/ $SDL_kWh_ges *100 ;
// Variablen setzen // Variablen setzen
$this->SetIdentValue("SDL_Pos", round($sdlPosPct, 3)); $this->SetIdentValue("SDL_Pos", round($sdlPosPct, 3));
$this->SetIdentValue("SoC_EV", round($evPosPct, 3)); $this->SetIdentValue("SoC_EV", round($evPosPct, 3));
// W-Variablen
// Leistungsvariablen (in W)
$this->SetIdentValue("P_SDL_max", round($pSDLmaxKW_ges * 1000.0, 0)); $this->SetIdentValue("P_SDL_laden", round($sdlChKW_ges * 1000.0, 0));
$this->SetIdentValue("P_SDL_laden", round($sdlChKW_ges * 1000.0, 0)); $this->SetIdentValue("P_SDL_entladen", round($sdlDisKW_ges * 1000.0, 0));
$this->SetIdentValue("P_SDL_entladen", round($sdlDisKW_ges * 1000.0, 0));
$this->SetIdentValue("P_EV_laden", round($evChKW_ges * 1000.0, 0));
$this->SetIdentValue("P_EV_max", round($pEVmaxKW_ges * 1000.0, 0)); $this->SetIdentValue("P_EV_entladen", round($evDisKW_ges * 1000.0, 0));
$this->SetIdentValue("P_EV_laden", round($evChKW_ges * 1000.0, 0));
$this->SetIdentValue("P_EV_entladen", round($evDisKW_ges * 1000.0, 0));
$calc["total"] = [ $calc["total"] = [
"SDL_SoC_pct" => round($sdlPosPct, 3), "SDL_SoC_pct" => round($sdlPosPct, 3),
"EV_SoC_pct" => round($evPosPct, 3), "EV_SoC_pct" => round($evPosPct, 3),
"SDL_kWh_pct" => round($SDL_kWh_ges, 3),
"SDL_kWh_total" => round($real_kWh_sdl_ges, 3), "EV_kWh_pct" => round($EV_kWh_ges, 3),
"EV_kWh_total" => round($real_kWh_ev_ges, 3),
"SDL_kWh_zone_total" => round($SDL_kWh_ges, 3),
"EV_kWh_zone_total" => round($EV_kWh_ges, 3),
"SDL_Charge_kW" => round($sdlChKW_ges, 3), "SDL_Charge_kW" => round($sdlChKW_ges, 3),
"SDL_Discharge_kW" => round($sdlDisKW_ges, 3), "SDL_Discharge_kW" => round($sdlDisKW_ges, 3),
"EV_Charge_kW" => round($evChKW_ges, 3), "EV_Charge_kW" => round($evChKW_ges, 3),
"EV_Discharge_kW" => round($evDisKW_ges, 3), "EV_Discharge_kW" => round($evDisKW_ges, 3),
"totalCap_kWh" => round($totalCapKWh, 3)
"P_SDL_max_kW" => round($pSDLmaxKW_ges, 3),
"P_EV_max_kW" => round($pEVmaxKW_ges, 3),
"totalCap_kWh" => round($totalCapKWh, 3)
]; ];
$this->SetIdentValue("CalcJSON", json_encode($calc, JSON_PRETTY_PRINT)); $this->SetIdentValue("CalcJSON", json_encode($calc, JSON_PRETTY_PRINT));
} }
// ---------------- Helpers ---------------- // ---------------- Helpers ----------------
private function WriteAllZero(string $reason): void private function WriteAllZero(string $reason): void
{ {
$this->SetIdentValue("SDL_Pos", 0.0); $this->SetIdentValue("SDL_Pos", 0.0);
$this->SetIdentValue("SoC_EV", 0.0); $this->SetIdentValue("SoC_EV", 0.0);
$this->SetIdentValue("P_SDL_max", 0.0); $this->SetIdentValue("P_SDL_max", 0.0);
$this->SetIdentValue("P_SDL_laden", 0.0); $this->SetIdentValue("P_SDL_laden", 0.0);
$this->SetIdentValue("P_SDL_entladen", 0.0); $this->SetIdentValue("P_SDL_entladen", 0.0);
$this->SetIdentValue("P_EV_max", 0.0); $this->SetIdentValue("P_EV_max", 0.0);
$this->SetIdentValue("P_EV_laden", 0.0); $this->SetIdentValue("P_EV_laden", 0.0);
$this->SetIdentValue("P_EV_entladen", 0.0); $this->SetIdentValue("P_EV_entladen", 0.0);
$this->SetIdentValue("CalcJSON", json_encode(["error" => $reason], JSON_PRETTY_PRINT)); $this->SetIdentValue("CalcJSON", json_encode(["error" => $reason], JSON_PRETTY_PRINT));
} }
private function SetIdentValue(string $ident, $value): void private function SetIdentValue(string $ident, $value): void
{ {
$id = @$this->GetIDForIdent($ident); $id = @$this->GetIDForIdent($ident);
@@ -353,34 +256,27 @@ class Bat_EV_SDL extends IPSModule
} }
SetValue($id, $value); SetValue($id, $value);
} }
private function ReadSocPercent(int $varId): float private function ReadSocPercent(int $varId): float
{ {
// Falls jemand statt Variable direkt 0..100 einträgt // Falls jemand statt Variable direkt 0..100 einträgt
if ($varId >= 0 && $varId <= 100) { if ($varId >= 0 && $varId <= 100) {
return (float)$varId; return (float)$varId;
} }
if ($varId <= 0 || !IPS_VariableExists($varId)) { if ($varId <= 0 || !IPS_VariableExists($varId)) {
return 0.0; return 0.0;
} }
$v = GetValue($varId); $v = GetValue($varId);
if (!is_numeric($v)) { if (!is_numeric($v)) {
return 0.0; return 0.0;
} }
$soc = (float)$v; $soc = (float)$v;
// 0..1 -> 0..100
// 0..1 -> 0..100 (Achtung: wenn dein Sensor 1 = 1% liefert, muss das raus!)
if ($soc >= 0.0 && $soc <= 1.0) { if ($soc >= 0.0 && $soc <= 1.0) {
$soc *= 100.0; $soc *= 100.0;
} }
if ($soc < 0.0) $soc = 0.0; if ($soc < 0.0) $soc = 0.0;
if ($soc > 100.0) $soc = 100.0; if ($soc > 100.0) $soc = 100.0;
return $soc; return $soc;
} }
} }
?> ?>