From f54d3dabeb0dc58b73e7acce800f5c53500d2d74 Mon Sep 17 00:00:00 2001 From: "belevo\\mh" Date: Fri, 17 Apr 2026 15:59:45 +0200 Subject: [PATCH] no message --- Bat_EV_SDL_V3_Beta/module.php | 557 +++++++++++++++++----------------- 1 file changed, 280 insertions(+), 277 deletions(-) diff --git a/Bat_EV_SDL_V3_Beta/module.php b/Bat_EV_SDL_V3_Beta/module.php index d00609a..7aaaa0b 100644 --- a/Bat_EV_SDL_V3_Beta/module.php +++ b/Bat_EV_SDL_V3_Beta/module.php @@ -66,49 +66,43 @@ class Bat_EV_SDL_V3_Beta extends IPSModule throw new Exception("Invalid Ident: " . $Ident); } - public function Update() - { - - + public function Update() +{ + // Reentranzschutz – verhindert parallele Update()-Läufe + $semKey = 'BatEVSDL_Update_' . $this->InstanceID; - // Reentranzschutz – verhindert parallele Update()-Läufe - $semKey = 'BatEVSDL_Update_' . $this->InstanceID; + if (!IPS_SemaphoreEnter($semKey, 5000)) { + $this->SendDebug("Update", "SKIP (Semaphore locked)", 0); + return; + } - if (!IPS_SemaphoreEnter($semKey, 5000)) { - // Überspringen, wenn bereits ein Lauf aktiv ist - $this->SendDebug("Update", "SKIP (Semaphore locked)", 0); - return; + try { + + if (!GetValue($this->GetIDForIdent("State"))) { + return; } + // Cache nur neu bauen, wenn nötig + $this->BuildBatteryCache(false); - - try { - - if (!GetValue($this->GetIDForIdent("State"))) { - return; - } - - // Cache nur neu bauen, wenn nötig - $this->BuildBatteryCache(false); - - $cache = json_decode($this->GetBufferSafe("BatCacheJSON"), true); - if (!is_array($cache) || empty($cache["bats"])) { - $this->WriteAllZero("cache empty/invalid"); - return; - } - + $cache = json_decode($this->GetBufferSafe("BatCacheJSON"), true); + if (!is_array($cache) || empty($cache["bats"])) { + $this->WriteAllZero("cache empty/invalid"); + return; + } // ===================== // Integrator: State laden // ===================== + // Optional für 2s besser: microtime(true) statt time() verwenden $now = time(); $lastTs = (int)$this->GetBufferSafe("Int_LastTs"); - $lastPEV = (float)$this->GetBufferSafe("Int_LastP_EV_W"); // W (+ laden, - entladen) - $lastPSDL = (float)$this->GetBufferSafe("Int_LastP_SDL_W"); // W (+ laden, - entladen) + $lastPEV = (float)$this->GetBufferSafe("Int_LastP_EV_W"); // W (+ laden, - entladen) + $lastPSDL = (float)$this->GetBufferSafe("Int_LastP_SDL_W"); // W (+ laden, - entladen) - $Eev = (float)$this->GetBufferSafe("Int_E_EV_kWh"); // kWh-Konto EV - $Esdl = (float)$this->GetBufferSafe("Int_E_SDL_kWh"); // kWh-Konto SDL + $Eev = (float)$this->GetBufferSafe("Int_E_EV_kWh"); // kWh-Konto EV + $Esdl = (float)$this->GetBufferSafe("Int_E_SDL_kWh"); // kWh-Konto SDL if ($lastTs <= 0) { $lastTs = $now; @@ -120,302 +114,311 @@ class Bat_EV_SDL_V3_Beta extends IPSModule $dtH = ($now - $lastTs) / 3600.0; // Stunden if ($dtH < 0) $dtH = 0.0; - // wenn IPS mal hängt, keine riesen Sprünge integrieren: - if ($dtH > 1.0) $dtH = 1.0; // max 1h, kannst du anpassen + if ($dtH > 1.0) $dtH = 1.0; // Sicherheitskappe + $calc = [ + "inputs" => $cache["inputs"] ?? [], + "batteries" => [], + "total" => [] + ]; + // ===================== + // Summen + // ===================== + $sdlDisKW_ges = 0.0; + $evDisKW_ges = 0.0; + $sdlChKW_ges = 0.0; + $evChKW_ges = 0.0; - $calc = [ - "inputs" => $cache["inputs"] ?? [], - "batteries" => [], - "total" => [] - ]; + $real_kWh_ev_ges = 0.0; + $real_kWh_sdl_ges = 0.0; - // Summen - $sdlDisKW_ges = 0.0; - $evDisKW_ges = 0.0; - $sdlChKW_ges = 0.0; - $evChKW_ges = 0.0; + $SDL_kWh_ges = 0.0; + $EV_kWh_ges = 0.0; + $totalCapKWh = 0.0; - $real_kWh_ev_ges = 0.0; - $real_kWh_sdl_ges = 0.0; + // Für Reset bei SoC=50% (mehrere Batterien): kapazitätsgewichteter Durchschnitt + $socCapSum = 0.0; + $socWeighted = 0.0; - $SDL_kWh_ges = 0.0; - $EV_kWh_ges = 0.0; - $totalCapKWh = 0.0; + foreach ($cache["bats"] as $i => $c) { - foreach ($cache["bats"] as $i => $c) { + $capKWh = (float)($c["capKWh"] ?? 0.0); + if ($capKWh <= 0.0) { + continue; + } - $capKWh = (float)($c["capKWh"] ?? 0.0); - if ($capKWh <= 0.0) { - continue; - } + // dynamisch: SoC lesen + $socVarId = (int)($c["socVarId"] ?? 0); + $socPct = $this->ReadSocPercent($socVarId); - // dynamisch: SoC lesen - $socVarId = (int)($c["socVarId"] ?? 0); - $socPct = $this->ReadSocPercent($socVarId); + $real_kWh = $capKWh / 100.0 * $socPct; - $real_kWh = $capKWh / 100.0 * $socPct; + // SoC für Reset mitteln (gewichtet) + $socWeighted += $socPct * $capKWh; + $socCapSum += $capKWh; - // vorkalkuliert: - $typ = (string)($c["typ"] ?? ("Bat " . ($i + 1))); - $underKWh = (float)($c["underKWh"] ?? 0.0); - $upKWh = (float)($c["upKWh"] ?? 0.0); - $SDL_kWh = (float)($c["SDL_kWh_total"] ?? 0.0); - $EV_kWh = (float)($c["EV_kWh_total"] ?? 0.0); + // vorkalkuliert: + $typ = (string)($c["typ"] ?? ("Bat " . ($i + 1))); + $underKWh = (float)($c["underKWh"] ?? 0.0); + $upKWh = (float)($c["upKWh"] ?? 0.0); + $SDL_kWh = (float)($c["SDL_kWh_total"] ?? 0.0); + $EV_kWh = (float)($c["EV_kWh_total"] ?? 0.0); - $sdlShareKW_laden = (float)($c["sdlShareKW_laden"] ?? 0.0); - $sdlShareKW_entladen = (float)($c["sdlShareKW_entladen"] ?? 0.0); - $evShareKW_laden = (float)($c["evShareKW_laden"] ?? 0.0); - $evShareKW_entladen = (float)($c["evShareKW_entladen"] ?? 0.0); + $sdlShareKW_laden = (float)($c["sdlShareKW_laden"] ?? 0.0); + $sdlShareKW_entladen = (float)($c["sdlShareKW_entladen"] ?? 0.0); + $evShareKW_laden = (float)($c["evShareKW_laden"] ?? 0.0); + $evShareKW_entladen = (float)($c["evShareKW_entladen"] ?? 0.0); + // Defaults + $EV_SOC = 0.0; + $SDL_SOC = 0.0; + $sdlDisKW = 0.0; $evDisKW = 0.0; + $sdlChKW = 0.0; $evChKW = 0.0; - // Defaults - $EV_SOC = 0.0; - $SDL_SOC = 0.0; + $real_kWh_ev = 0.0; + $real_kWh_sdl = 0.0; - $sdlDisKW = 0.0; $evDisKW = 0.0; - $sdlChKW = 0.0; $evChKW = 0.0; - - $real_kWh_ev = 0.0; - $real_kWh_sdl = 0.0; - - // --- Deine 3 Fälle --- - if ($underKWh <= $real_kWh && $upKWh >= $real_kWh) { - - + // --- 3 Fälle --- + if ($underKWh <= $real_kWh && $upKWh >= $real_kWh) { + // SDL_SOC im Fenster dynamisch (0..100) $win = ($upKWh - $underKWh); if ($win > 0.0) { - $SDL_SOC = 100.0 * ($real_kWh - $underKWh) / $win; // 0..100 innerhalb Fenster + $SDL_SOC = 100.0 * ($real_kWh - $underKWh) / $win; } else { $SDL_SOC = 0.0; } $SDL_SOC = is_finite($SDL_SOC) ? max(0.0, min(100.0, $SDL_SOC)) : 0.0; - - - if ($EV_kWh > 0.0) { - $EV_SOC = 100.0 * ($real_kWh - $underKWh) / $EV_kWh; - } else { - $EV_SOC = 0.0; // definierter Fallback - } - $EV_SOC = is_finite($EV_SOC) ? max(0.0, min(100.0, $EV_SOC)) : 0.0; - - - - - $sdlDisKW = $sdlShareKW_entladen; - $evDisKW = $evShareKW_entladen; - $sdlChKW = $sdlShareKW_laden; - $evChKW = $evShareKW_laden; - - $real_kWh_ev = $real_kWh - $underKWh; - $real_kWh_sdl = $underKWh; - - } elseif ($upKWh < $real_kWh) { - - $EV_SOC = 100.0; - - $den1 = ($capKWh - $real_kWh + $underKWh); - $den2 = (2.0 * $underKWh); - - if ($den1 > 0.0 && $den2 > 0.0) { - $SDL_SOC = min(100.0, ($den1 / $den2) * 100.0); - } else { - $SDL_SOC = 0.0; - } - $SDL_SOC = is_finite($SDL_SOC) ? max(0.0, min(100.0, $SDL_SOC)) : 0.0; - - $sdlDisKW = $sdlShareKW_entladen; - $evDisKW = $evShareKW_entladen; - $sdlChKW = $sdlShareKW_laden; - $evChKW = 0.0; - - $real_kWh_ev = $capKWh - ($capKWh - $upKWh + $underKWh); - $real_kWh_sdl = ($capKWh - $upKWh + $underKWh) - ($capKWh - $real_kWh); - - } elseif ($underKWh > $real_kWh) { - + // EV_SOC im Fenster dynamisch + if ($EV_kWh > 0.0) { + $EV_SOC = 100.0 * ($real_kWh - $underKWh) / $EV_kWh; + } else { $EV_SOC = 0.0; - - $den = $upKWh + $underKWh; - $SDL_SOC = ($den > 0.0) ? ($real_kWh * 100.0 / $den) : 0.0; - $SDL_SOC = is_finite($SDL_SOC) ? max(0.0, min(100.0, $SDL_SOC)) : 0.0; - - $sdlDisKW = $sdlShareKW_entladen; - $evDisKW = 0.0; - $sdlChKW = $sdlShareKW_laden; - $evChKW = $evShareKW_laden; - - $real_kWh_ev = 0.0; - $real_kWh_sdl = $real_kWh; } + $EV_SOC = is_finite($EV_SOC) ? max(0.0, min(100.0, $EV_SOC)) : 0.0; - // Null/Full - if ($real_kWh <= 0.0) { - $sdlDisKW = 0.0; - $real_kWh_ev = 0.0; - $real_kWh_sdl = 0.0; - } elseif ($real_kWh >= $capKWh) { - $sdlChKW = 0.0; - //$real_kWh_ev = $capKWh - ($upKWh + $underKWh); - //$real_kWh_sdl = $upKWh + $underKWh; + $sdlDisKW = $sdlShareKW_entladen; + $evDisKW = $evShareKW_entladen; + $sdlChKW = $sdlShareKW_laden; + $evChKW = $evShareKW_laden; - $real_kWh_ev = $EV_kWh; - $real_kWh_sdl = $SDL_kWh; + $real_kWh_ev = $real_kWh - $underKWh; + $real_kWh_sdl = $underKWh; + + } elseif ($upKWh < $real_kWh) { + + $EV_SOC = 100.0; + + $den1 = ($capKWh - $real_kWh + $underKWh); + $den2 = (2.0 * $underKWh); + + if ($den1 > 0.0 && $den2 > 0.0) { + $SDL_SOC = min(100.0, ($den1 / $den2) * 100.0); + } else { + $SDL_SOC = 0.0; } + $SDL_SOC = is_finite($SDL_SOC) ? max(0.0, min(100.0, $SDL_SOC)) : 0.0; - $real_kWh_ev = max(0.0, $real_kWh_ev); - $real_kWh_sdl = max(0.0, $real_kWh_sdl); + $sdlDisKW = $sdlShareKW_entladen; + $evDisKW = $evShareKW_entladen; + $sdlChKW = $sdlShareKW_laden; + $evChKW = 0.0; - // Summen - $totalCapKWh += $capKWh; + $real_kWh_ev = $capKWh - ($capKWh - $upKWh + $underKWh); + $real_kWh_sdl = ($capKWh - $upKWh + $underKWh) - ($capKWh - $real_kWh); - $sdlDisKW_ges += $sdlDisKW; - $evDisKW_ges += $evDisKW; - $sdlChKW_ges += $sdlChKW; - $evChKW_ges += $evChKW; + } elseif ($underKWh > $real_kWh) { - $real_kWh_ev_ges += $real_kWh_ev; - $real_kWh_sdl_ges += $real_kWh_sdl; + $EV_SOC = 0.0; - $SDL_kWh_ges += $SDL_kWh; - $EV_kWh_ges += $EV_kWh; + $den = $upKWh + $underKWh; + $SDL_SOC = ($den > 0.0) ? ($real_kWh * 100.0 / $den) : 0.0; + $SDL_SOC = is_finite($SDL_SOC) ? max(0.0, min(100.0, $SDL_SOC)) : 0.0; - $calc["batteries"][] = [ - "idx" => $c["idx"] ?? $i, - "typ" => $typ, - "SoC_varId" => $socVarId, - "SoC_pct" => round($socPct, 3), - "Effektive kWh" => round($real_kWh, 3), + $sdlDisKW = $sdlShareKW_entladen; + $evDisKW = 0.0; + $sdlChKW = $sdlShareKW_laden; + $evChKW = $evShareKW_laden; - "EV_SOC" => round($EV_SOC, 3), - "SDL_SOC" => round($SDL_SOC, 3), - - "EV_kWh" => round($real_kWh_ev, 3), - "SDL_kWh" => round($real_kWh_sdl, 3), - - "under_grenze_kWh" => round($underKWh, 3), - "up_grenze_kWh" => round($upKWh, 3), - - "SDL_Charge_kW" => round($sdlChKW, 3), - "SDL_Discharge_kW" => round($sdlDisKW, 3), - "EV_Charge_kW" => round($evChKW, 3), - "EV_Discharge_kW" => round($evDisKW, 3), - ]; + $real_kWh_ev = 0.0; + $real_kWh_sdl = $real_kWh; } -// =================================================== -// Integrator: nur laufen lassen wenn Soll != 0W -// =================================================== -$pEvSoll = (float)GetValue($this->GetIDForIdent("Nennleistung_Soll_EV")); -$pSdlSoll = (float)GetValue($this->GetIDForIdent("Nennleistung_Soll_SDL")); - -$eps = 1.0; // 1W-Schwellwert -$evActive = (abs($pEvSoll) > $eps); -$sdlActive = (abs($pSdlSoll) > $eps); - -// 1) Initialisierung: Konto beim ersten Mal auf Referenz setzen -if ($this->GetBufferSafe("Int_Init") !== "1") { - $Eev = $real_kWh_ev_ges; - $Esdl = $real_kWh_sdl_ges; - $this->SetBuffer("Int_Init", "1"); -} - -// 2) Integration (kW*h = kWh) mit LETZTER Leistung aus dem vorherigen Intervall -// (+) laden -> steigt, (-) entladen -> fällt -if ($evActive) { - $Eev += (($lastPEV / 1000.0) * $dtH); -} else { - // Wenn EV aus: sofort auf physikalische Referenz - $Eev = $real_kWh_ev_ges; -} - -if ($sdlActive) { - $Esdl += (($lastPSDL / 1000.0) * $dtH); -} else { - // Wenn SDL aus: sofort auf physikalische Referenz - $Esdl = $real_kWh_sdl_ges; -} - - // 3) Grenzen einhalten (Clamp) - $Eev = ($EV_kWh_ges > 0.0) ? max(0.0, min($EV_kWh_ges, $Eev)) : 0.0; - $Esdl = ($SDL_kWh_ges > 0.0) ? max(0.0, min($SDL_kWh_ges, $Esdl)) : 0.0; - - // 4) Sanftes Wieder-Angleichen (nur wenn aktiv), damit es nicht wegdriftet - // Idee: E := E + alpha*(E_ref - E) - $tauH = 30.0 / 3600.0; // 30 Sekunden Zeitkonstante (weil dein Update in Sekunden ist) - - if ($tauH > 0.0) { - $alpha = 1.0 - exp(-$dtH / $tauH); - $alpha = max(0.0, min(0.2, $alpha)); // max 20% pro Update - - if ($evActive) { - $Eev += $alpha * ($real_kWh_ev_ges - $Eev); - } - if ($sdlActive) { - $Esdl += $alpha * ($real_kWh_sdl_ges - $Esdl); - } - - // nach dem angleichen nochmals clamp - $Eev = ($EV_kWh_ges > 0.0) ? max(0.0, min($EV_kWh_ges, $Eev)) : 0.0; - $Esdl = ($SDL_kWh_ges > 0.0) ? max(0.0, min($SDL_kWh_ges, $Esdl)) : 0.0; + // Null/Full + if ($real_kWh <= 0.0) { + $sdlDisKW = 0.0; + $real_kWh_ev = 0.0; + $real_kWh_sdl = 0.0; + } elseif ($real_kWh >= $capKWh) { + $sdlChKW = 0.0; + $real_kWh_ev = $EV_kWh; + $real_kWh_sdl = $SDL_kWh; } - // 5) Prozentwerte aus den integrierten Konten - $evPosPct = ($EV_kWh_ges > 0.0) ? ($Eev / $EV_kWh_ges * 100.0) : 0.0; - $sdlPosPct = ($SDL_kWh_ges > 0.0) ? ($Esdl / $SDL_kWh_ges * 100.0) : 0.0; + $real_kWh_ev = max(0.0, $real_kWh_ev); + $real_kWh_sdl = max(0.0, $real_kWh_sdl); - // Output setzen - $this->SetIdentValue("SDL_Pos", round($sdlPosPct, 3)); - $this->SetIdentValue("SoC_EV", round($evPosPct, 3)); + // Summen + $totalCapKWh += $capKWh; - $this->SetIdentValue("P_SDL_laden", round($sdlChKW_ges * 1000.0, 0)); - $this->SetIdentValue("P_SDL_entladen", round($sdlDisKW_ges * 1000.0, 0)); - $this->SetIdentValue("P_EV_laden", round($evChKW_ges * 1000.0, 0)); - $this->SetIdentValue("P_EV_entladen", round($evDisKW_ges * 1000.0, 0)); + $sdlDisKW_ges += $sdlDisKW; + $evDisKW_ges += $evDisKW; + $sdlChKW_ges += $sdlChKW; + $evChKW_ges += $evChKW; - $calc["total"] = [ - "SDL_SoC_pct" => round($sdlPosPct, 3), - "EV_SoC_pct" => round($evPosPct, 3), + $real_kWh_ev_ges += $real_kWh_ev; + $real_kWh_sdl_ges += $real_kWh_sdl; - "SDL_kWh_total" => round($SDL_kWh_ges, 3), - "EV_kWh_total" => round($EV_kWh_ges, 3), + $SDL_kWh_ges += $SDL_kWh; + $EV_kWh_ges += $EV_kWh; - "SDL_Charge_kW" => round($sdlChKW_ges, 3), - "SDL_Discharge_kW" => round($sdlDisKW_ges, 3), - "EV_Charge_kW" => round($evChKW_ges, 3), - "EV_Discharge_kW" => round($evDisKW_ges, 3), + $calc["batteries"][] = [ + "idx" => $c["idx"] ?? $i, + "typ" => $typ, + "SoC_varId" => $socVarId, + "SoC_pct" => round($socPct, 3), + "Effektive kWh" => round($real_kWh, 3), - "totalCap_kWh" => round($totalCapKWh, 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), + + "under_grenze_kWh" => round($underKWh, 3), + "up_grenze_kWh" => round($upKWh, 3), + + "SDL_Charge_kW" => round($sdlChKW, 3), + "SDL_Discharge_kW" => round($sdlDisKW, 3), + "EV_Charge_kW" => round($evChKW, 3), + "EV_Discharge_kW" => round($evDisKW, 3), ]; - - $this->SetIdentValue("CalcJSON", json_encode($calc, JSON_PRETTY_PRINT)); - $this->ApplySetpoints(); - // ================================== - // Integrator: neue LastP für nächstes Intervall speichern - // ================================== - $aktEV = (float)GetValue($this->GetIDForIdent("Aktuelle_Leistung_EV")); - $aktSDL = (float)GetValue($this->GetIDForIdent("Aktuelle_Leistung_SDL")); - - $this->SetBuffer("Int_LastP_EV_W", (string)$aktEV); - $this->SetBuffer("Int_LastP_SDL_W", (string)$aktSDL); - $this->SetBuffer("Int_LastTs", (string)$now); - - $this->SetBuffer("Int_E_EV_kWh", (string)$Eev); - $this->SetBuffer("Int_E_SDL_kWh", (string)$Esdl); - - - } catch (Throwable $e) { - $this->SendDebug("Update ERROR", $e->getMessage() . " @ " . $e->getFile() . ":" . $e->getLine(), 0); - $this->WriteAllZero("Exception: " . $e->getMessage()); } - finally { - IPS_SemaphoreLeave($semKey); // ✅ Tür immer wieder aufschließen - } + + // ===================== + // Nach foreach: Durchschnitts-SoC + Reset-Logik + // ===================== + $socAvg = ($socCapSum > 0.0) ? ($socWeighted / $socCapSum) : 0.0; + + $resetTarget = 50.0; + $resetTol = 0.5; // bei 2s Update: 0.2..0.5 je nach SoC-Auflösung + + $inWindow = (abs($socAvg - $resetTarget) <= $resetTol); + + $armedStr = $this->GetBufferSafe("Int_ResetArmed"); + $armed = ($armedStr === "") ? true : ($armedStr === "1"); + + $doReset = false; + if ($armed && $inWindow) { + $doReset = true; + $armed = false; + } + if (!$inWindow) { + $armed = true; + } + $this->SetBuffer("Int_ResetArmed", $armed ? "1" : "0"); + + // =================================================== + // Integrator: NUR integrieren wenn Soll != 0W + // Angleichen ist raus: wir setzen bei Soll=0 hart auf Referenz + // =================================================== + $pEvSoll = (float)GetValue($this->GetIDForIdent("Nennleistung_Soll_EV")); + $pSdlSoll = (float)GetValue($this->GetIDForIdent("Nennleistung_Soll_SDL")); + + $eps = 1.0; + $evActive = (abs($pEvSoll) > $eps); + $sdlActive = (abs($pSdlSoll) > $eps); + + // Initialisierung beim ersten Mal + if ($this->GetBufferSafe("Int_Init") !== "1") { + $Eev = $real_kWh_ev_ges; + $Esdl = $real_kWh_sdl_ges; + $this->SetBuffer("Int_Init", "1"); + } + + // Reset bei SoC~50%: hart auf Referenz (du akzeptierst Sprung) + if ($doReset) { + $Eev = $real_kWh_ev_ges; + $Esdl = $real_kWh_sdl_ges; + } + + // Integration nur wenn aktiv, sonst hart auf Referenz + if ($evActive) { + $Eev += (($lastPEV / 1000.0) * $dtH); + } else { + $Eev = $real_kWh_ev_ges; + } + + if ($sdlActive) { + $Esdl += (($lastPSDL / 1000.0) * $dtH); + } else { + $Esdl = $real_kWh_sdl_ges; + } + + // Clamp: Grenzen strikt einhalten (SDL reserviert!) + $Eev = ($EV_kWh_ges > 0.0) ? max(0.0, min($EV_kWh_ges, $Eev)) : 0.0; + $Esdl = ($SDL_kWh_ges > 0.0) ? max(0.0, min($SDL_kWh_ges, $Esdl)) : 0.0; + + // Prozentwerte aus den Konten + $evPosPct = ($EV_kWh_ges > 0.0) ? ($Eev / $EV_kWh_ges * 100.0) : 0.0; + $sdlPosPct = ($SDL_kWh_ges > 0.0) ? ($Esdl / $SDL_kWh_ges * 100.0) : 0.0; + + // Output setzen + $this->SetIdentValue("SDL_Pos", round($sdlPosPct, 3)); + $this->SetIdentValue("SoC_EV", round($evPosPct, 3)); + + // Maximalleistungen setzen (wie gehabt) + $this->SetIdentValue("P_SDL_laden", round($sdlChKW_ges * 1000.0, 0)); + $this->SetIdentValue("P_SDL_entladen", round($sdlDisKW_ges * 1000.0, 0)); + $this->SetIdentValue("P_EV_laden", round($evChKW_ges * 1000.0, 0)); + $this->SetIdentValue("P_EV_entladen", round($evDisKW_ges * 1000.0, 0)); + + $calc["total"] = [ + "SDL_SoC_pct" => round($sdlPosPct, 3), + "EV_SoC_pct" => round($evPosPct, 3), + + "SDL_kWh_total" => round($SDL_kWh_ges, 3), + "EV_kWh_total" => round($EV_kWh_ges, 3), + + "SDL_Charge_kW" => round($sdlChKW_ges, 3), + "SDL_Discharge_kW" => round($sdlDisKW_ges, 3), + "EV_Charge_kW" => round($evChKW_ges, 3), + "EV_Discharge_kW" => round($evDisKW_ges, 3), + + "totalCap_kWh" => round($totalCapKWh, 3), + + "socAvg" => round($socAvg, 3), + "doReset" => $doReset ? 1 : 0 + ]; + + $this->SetIdentValue("CalcJSON", json_encode($calc, JSON_PRETTY_PRINT)); + + // Setpoints schreiben + $this->ApplySetpoints(); + + // ================================== + // Integrator: neue LastP für nächstes Intervall speichern + // ================================== + $aktEV = (float)GetValue($this->GetIDForIdent("Aktuelle_Leistung_EV")); + $aktSDL = (float)GetValue($this->GetIDForIdent("Aktuelle_Leistung_SDL")); + + $this->SetBuffer("Int_LastP_EV_W", (string)$aktEV); + $this->SetBuffer("Int_LastP_SDL_W", (string)$aktSDL); + $this->SetBuffer("Int_LastTs", (string)$now); + + $this->SetBuffer("Int_E_EV_kWh", (string)$Eev); + $this->SetBuffer("Int_E_SDL_kWh", (string)$Esdl); + + } catch (Throwable $e) { + $this->SendDebug("Update ERROR", $e->getMessage() . " @ " . $e->getFile() . ":" . $e->getLine(), 0); + $this->WriteAllZero("Exception: " . $e->getMessage()); + } finally { + IPS_SemaphoreLeave($semKey); } +} private function BuildBatteryCache(bool $force): void {