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belevo\mh
2026-01-22 16:31:34 +01:00
parent 519e845eeb
commit f80ebc8367
1 changed files with 251 additions and 237 deletions
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488
Bat_EV_SDL/module.php
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@@ -2,71 +2,63 @@
class Bat_EV_SDL extends IPSModule
{
/* ===========================
* 1) Setup
* =========================== */
public function Create()
{
parent::Create();
// ---- Properties (kommen aus form.json) ----
$this->RegisterPropertyString("Batteries", "[]"); // List JSON
$this->RegisterPropertyInteger("SDL_Leistung", 0); // W
$this->RegisterPropertyInteger("UpdateInterval", 5);
// Properties (aus form.json)
$this->RegisterPropertyString("Batteries", "[]");
$this->RegisterPropertyInteger("SDL_Leistung", 0); // W
$this->RegisterPropertyInteger("UpdateInterval", 5); // Minuten, 0 = aus
// ---- Status / Steuerung ----
// Status
$this->RegisterVariableBoolean("State", "Aktiv", "~Switch", 1);
$this->EnableAction("State");
// ---- Ergebnisse (Gesamt) ----
$this->RegisterVariableFloat("kWh_SDL", "Energie SDL (kWh)", "", 20);
$this->RegisterVariableFloat("kWh_EV", "Energie EV (kWh)", "", 21);
// Ergebnisse
$this->RegisterVariableFloat("kWh_SDL", "SDL Reservebedarf 30min (kWh)", "", 20);
$this->RegisterVariableFloat("kWh_EV", "EV Energie im Fenster (kWh)", "", 21);
$this->RegisterVariableFloat("SoC_SDL", "SoC SDL (%)", "", 12);
$this->RegisterVariableFloat("SoC_EV", "SoC EV (%)", "", 13);
// SDL_OK Quote (wie viele Batterien schaffen beide Richtungen)
$this->RegisterVariableFloat("SoC_SDL", "SDL OK Quote (%)", "", 12);
// EV-Füllstand relativ zum EV-Fenster
$this->RegisterVariableFloat("SoC_EV", "EV Fenster-Füllstand (%)", "", 13);
// Fensterposition: 0% unten (E=Emin), 50% Mitte, 100% oben (E=Emax)
$this->RegisterVariableFloat("SDL_Pos", "SDL Fensterposition (%)", "", 14);
// Leistungsgrenzen (statisch)
$this->RegisterVariableFloat("P_SDL_max", "SDL max (W)", "", 10);
$this->RegisterVariableFloat("P_EV_max", "EV max (W)", "", 11);
$this->RegisterVariableFloat("P_EV_max", "EV max (W)", "", 11);
// Leistungsgrenzen (zustandsabhängig: Fenster / Headroom / Energy)
$this->RegisterVariableFloat("P_EV_laden", "P EV laden max (W)", "", 22);
$this->RegisterVariableFloat("P_EV_entladen", "P EV entladen max (W)", "", 23);
$this->RegisterVariableFloat("P_SDL_laden", "P SDL laden max (W)", "", 24);
$this->RegisterVariableFloat("P_SDL_entladen", "P SDL entladen max (W)", "", 25);
// Optional: Voller JSON-Dump zum Debuggen/Weiterverarbeiten
// Debug JSON
$this->RegisterVariableString("CalcJSON", "Berechnung (JSON)", "", 99);
$this->RegisterTimer("UpdateTimer",0,'GEF_Update($_IPS["TARGET"]);');
// Timer (Prefix aus module.json: "GEF")
$this->RegisterTimer("UpdateTimer", 0, 'GEF_Update($_IPS["TARGET"]);');
}
/* ===========================
* 2) ApplyChanges (Konsole speichern)
* =========================== */
public function ApplyChanges()
{
parent::ApplyChanges();
$intervalMin = (int)$this->ReadPropertyInteger("UpdateInterval");
if ($intervalMin > 0) {
// Minuten → Millisekunden
$this->SetTimerInterval("UpdateTimer", $intervalMin * 60 * 1000);
$this->SendDebug("ApplyChanges", "Timer aktiv: {$intervalMin} min", 0);
} else {
// Timer aus
$this->SetTimerInterval("UpdateTimer", 0);
$this->SendDebug("ApplyChanges", "Timer deaktiviert", 0);
}
// Direkt einmal rechnen
$this->Update();
}
/* ===========================
* 3) RequestAction (WebFront Klicks)
* =========================== */
public function RequestAction($Ident, $Value)
{
switch ($Ident) {
@@ -82,218 +74,231 @@ class Bat_EV_SDL extends IPSModule
}
}
/* ===========================
* 4) Hauptlogik
* =========================== */
/**
* Fenster-Modell:
* Pro Batterie reservieren wir Emin=Ereq und Emax=Cap-Ereq, damit SDL 30 min laden UND entladen kann.
* EV darf nur zwischen Emin..Emax arbeiten.
*/
public function Update()
{
if (!GetValue($this->GetIDForIdent("State"))) {
return;
}
$batteries = json_decode($this->ReadPropertyString("Batteries"), true);
if (!is_array($batteries) || count($batteries) === 0) {
$this->SendDebug("Update", "Keine Batterien konfiguriert.", 0);
$this->WriteEmptyResults();
return;
}
$sdlPowerW = (int)$this->ReadPropertyInteger("SDL_Leistung");
if ($sdlPowerW < 0) $sdlPowerW = 0;
$reserveH = 0.5; // FIX: 30 Minuten
$eps = 0.0001;
// 1) Summe Max-Leistung aller Batterien
$sumBatPowerW = 0;
foreach ($batteries as $b) {
$p = (int)($b["powerbat"] ?? 0);
if ($p > 0) $sumBatPowerW += $p;
}
if ($sumBatPowerW <= 0) {
$this->SendDebug("Update", "Summe powerbat ist 0 bitte Leistungen setzen.", 0);
$this->WriteEmptyResults();
return;
}
// SDL nicht größer als physikalisch möglich
if ($sdlPowerW > $sumBatPowerW) {
$this->SendDebug("Update", "SDL_Leistung ($sdlPowerW W) > SummeBatPower ($sumBatPowerW W) -> begrenze.", 0);
$sdlPowerW = $sumBatPowerW;
}
// Summen (Leistung)
$P_SDL_max_W = 0.0;
$P_EV_max_W = 0.0;
$P_SDL_laden_W = 0.0;
$P_SDL_entladen_W = 0.0;
$P_EV_laden_W = 0.0;
$P_EV_entladen_W = 0.0;
// Summen (Energie/Fenster)
$sumSDL_req_kWh = 0.0; // Summe Ereq (Reservebedarf 30 min)
$sumEVcap_kWh = 0.0; // Summe EV-Fensterkapazität = Sum(Cap - 2*Ereq)
$sumEV_kWh = 0.0; // Summe EV-Energie im Fenster
$sumSDL_ok_count = 0; // wie viele Batterien erfüllen beide Richtungen
$sumBat_count = 0;
$calc = [];
foreach ($batteries as $idx => $b) {
$typ = (string)($b["typ"] ?? ("Bat#" . ($idx + 1)));
$pBatW = (int)($b["powerbat"] ?? 0);
$capKWh = (float)($b["capazity"] ?? 0);
$socVar = (int)($b["soc"] ?? 0);
if ($pBatW <= 0 || $capKWh <= 0) {
$calc[] = ["typ" => $typ, "skip" => "powerbat<=0 oder capacity<=0"];
continue;
}
$sumBat_count++;
// SDL Anteil Leistung proportional
$pSDL_W_raw = ($sdlPowerW * $pBatW) / $sumBatPowerW;
$pSDL_W = min($pSDL_W_raw, (float)$pBatW);
if ($pSDL_W < 0) $pSDL_W = 0.0;
// EV Anteil Leistung ist Rest
$pEV_W = max(0.0, $pBatW - $pSDL_W);
$P_SDL_max_W += $pSDL_W;
$P_EV_max_W += $pEV_W;
// Reservebedarf für 30 Minuten (kWh)
$Ereq_kWh = ($pSDL_W * $reserveH) / 1000.0;
$sumSDL_req_kWh += $Ereq_kWh;
// Aktuelle Energie aus SoC
$socPct = $this->ReadSocPercent($socVar);
$E_kWh = ($socPct / 100.0) * $capKWh;
// Reserviertes Fenster für SDL
$Emin = $Ereq_kWh;
$Emax = $capKWh - $Ereq_kWh;
// EV-Fensterkapazität (kann 0 werden wenn Cap < 2*Ereq)
$EVcap = max(0.0, $Emax - $Emin);
$sumEVcap_kWh += $EVcap;
// EV-Energie innerhalb Fenster: clamp(E - Emin, 0..EVcap)
$EV_kWh = 0.0;
if ($EVcap > $eps) {
$EV_kWh = min(max($E_kWh - $Emin, 0.0), $EVcap);
}
$sumEV_kWh += $EV_kWh;
// SDL kann 30min ENTladen?
$canSDLdischarge = ($E_kWh + $eps) >= $Emin;
// SDL kann 30min LADEN?
$canSDLcharge = (($capKWh - $E_kWh) + $eps) >= $Ereq_kWh; // equivalent E_kWh <= Emax
// EV kann ENTladen? (nur wenn über Emin)
$canEVdischarge = ($E_kWh - $Emin) > $eps;
// EV kann LADEN? (nur wenn unter Emax)
$canEVcharge = ($Emax - $E_kWh) > $eps;
// Leistungsmaxima (dein Wunsch)
if ($canSDLdischarge) $P_SDL_entladen_W += $pSDL_W;
if ($canSDLcharge) $P_SDL_laden_W += $pSDL_W;
if ($canEVdischarge) $P_EV_entladen_W += $pEV_W;
if ($canEVcharge) $P_EV_laden_W += $pEV_W;
// SDL "OK" wenn beide Richtungen 30min gehen
$sdlOK = ($canSDLdischarge && $canSDLcharge);
if ($sdlOK) $sumSDL_ok_count++;
// Debug / Detail
$calc[] = [
"typ" => $typ,
"pBat_W" => $pBatW,
"cap_kWh" => round($capKWh, 3),
"soc_pct" => round($socPct, 2),
"E_kWh" => round($E_kWh, 3),
"pSDL_W" => round($pSDL_W, 0),
"Ereq_kWh" => round($Ereq_kWh, 3),
"Emin_kWh" => round($Emin, 3),
"Emax_kWh" => round($Emax, 3),
"pEV_W" => round($pEV_W, 0),
"EVcap_kWh" => round($EVcap, 3),
"EV_kWh" => round($EV_kWh, 3),
"canSDLcharge_30min" => $canSDLcharge,
"canSDLdischarge_30min" => $canSDLdischarge,
"canEVcharge" => $canEVcharge,
"canEVdischarge" => $canEVdischarge,
"SDL_OK_both_directions" => $sdlOK
];
}
// SoC_EV = EV-Energie / EV-Fensterkapazität
$socEV = ($sumEVcap_kWh > $eps) ? ($sumEV_kWh / $sumEVcap_kWh) * 100.0 : 0.0;
// SoC_SDL als "OK-Quote" (wie viele Batterien schaffen beide Richtungen)
// Wenn du stattdessen "Leistungs-gewichtete" Quote willst, sag Bescheid.
$socSDL = ($sumBat_count > 0) ? ($sumSDL_ok_count / $sumBat_count) * 100.0 : 0.0;
// Setzen der Ergebnisvariablen
SetValue($this->GetIDForIdent("kWh_SDL"), round($sumSDL_req_kWh, 3));
SetValue($this->GetIDForIdent("kWh_EV"), round($sumEV_kWh, 3));
SetValue($this->GetIDForIdent("SoC_SDL"), round($socSDL, 2));
SetValue($this->GetIDForIdent("SoC_EV"), round($socEV, 2));
SetValue($this->GetIDForIdent("P_SDL_max"), round($P_SDL_max_W, 0));
SetValue($this->GetIDForIdent("P_EV_max"), round($P_EV_max_W, 0));
SetValue($this->GetIDForIdent("P_SDL_laden"), round($P_SDL_laden_W, 0));
SetValue($this->GetIDForIdent("P_SDL_entladen"), round($P_SDL_entladen_W, 0));
SetValue($this->GetIDForIdent("P_EV_laden"), round($P_EV_laden_W, 0));
SetValue($this->GetIDForIdent("P_EV_entladen"), round($P_EV_entladen_W, 0));
// JSON Debug / Buffer
$out = [
"SDL_W" => $sdlPowerW,
"Reserve_h" => $reserveH,
"SumBatPower_W" => $sumBatPowerW,
"SumSDL_req_kWh" => round($sumSDL_req_kWh, 3),
"SumEVcap_kWh" => round($sumEVcap_kWh, 3),
"SumEV_kWh" => round($sumEV_kWh, 3),
"SoC_SDL_pct" => round($socSDL, 2),
"SoC_EV_pct" => round($socEV, 2),
"P_SDL_max_W" => round($P_SDL_max_W, 0),
"P_EV_max_W" => round($P_EV_max_W, 0),
"P_SDL_laden_W" => round($P_SDL_laden_W, 0),
"P_SDL_entladen_W" => round($P_SDL_entladen_W, 0),
"P_EV_laden_W" => round($P_EV_laden_W, 0),
"P_EV_entladen_W" => round($P_EV_entladen_W, 0),
"batteries" => $calc
];
$json = json_encode($out, JSON_UNESCAPED_UNICODE | JSON_PRETTY_PRINT);
SetValue($this->GetIDForIdent("CalcJSON"), $json);
$this->SetBuffer("BatteryCalc", $json);
$this->SendDebug("Update", $json, 0);
{
if (!GetValue($this->GetIDForIdent("State"))) {
return;
}
$batteries = json_decode($this->ReadPropertyString("Batteries"), true);
if (!is_array($batteries) || count($batteries) === 0) {
$this->SendDebug("Update", "Keine Batterien konfiguriert.", 0);
$this->WriteEmptyResults();
return;
}
$sdlPowerW = (int)$this->ReadPropertyInteger("SDL_Leistung");
if ($sdlPowerW < 0) $sdlPowerW = 0;
/* ===========================
* 5) Helper
* =========================== */
$reserveH = 0.5; // FIX: 30 Minuten
$eps = 0.0001;
// Summe Batterie-Maxleistungen
$sumBatPowerW = 0;
foreach ($batteries as $b) {
$p = (int)($b["powerbat"] ?? 0);
if ($p > 0) $sumBatPowerW += $p;
}
if ($sumBatPowerW <= 0) {
$this->SendDebug("Update", "Summe powerbat ist 0 bitte Leistungen setzen.", 0);
$this->WriteEmptyResults();
return;
}
// SDL begrenzen (physikalisch)
if ($sdlPowerW > $sumBatPowerW) {
$this->SendDebug("Update", "SDL_Leistung ($sdlPowerW W) > SummeBatPower ($sumBatPowerW W) -> begrenze.", 0);
$sdlPowerW = $sumBatPowerW;
}
// Summen Leistung
$P_SDL_max_W = 0.0;
$P_EV_max_W = 0.0;
$P_SDL_laden_W = 0.0;
$P_SDL_entladen_W = 0.0;
$P_EV_laden_W = 0.0;
$P_EV_entladen_W = 0.0;
// Summen Energie / Fenster
$sumSDL_req_kWh = 0.0; // Summe Ereq (Reservebedarf 30 min)
$sumEVcap_kWh = 0.0; // Summe EV-Fensterkapazität = Cap - 2*Ereq
$sumEV_kWh = 0.0; // Summe EV-Energie innerhalb Fenster
// SDL OK Quote
$sumSDL_ok_count = 0;
$sumBat_count = 0;
// SDL Fensterposition
$sumPos = 0.0;
$countPos = 0;
$calc = [];
foreach ($batteries as $idx => $b) {
$typ = (string)($b["typ"] ?? ("Bat#" . ($idx + 1)));
$pBatW = (int)($b["powerbat"] ?? 0);
$capKWh = (float)($b["capazity"] ?? 0);
$socVar = (int)($b["soc"] ?? 0);
if ($pBatW <= 0 || $capKWh <= 0) {
$calc[] = ["typ" => $typ, "skip" => "powerbat<=0 oder capacity<=0"];
continue;
}
$sumBat_count++;
// SDL Anteil Leistung proportional
$pSDL_W_raw = ($sdlPowerW * $pBatW) / $sumBatPowerW;
$pSDL_W = min($pSDL_W_raw, (float)$pBatW);
if ($pSDL_W < 0) $pSDL_W = 0.0;
// EV Anteil Leistung ist Rest
$pEV_W = max(0.0, $pBatW - $pSDL_W);
$P_SDL_max_W += $pSDL_W;
$P_EV_max_W += $pEV_W;
// Ereq für 30 Minuten (kWh)
$Ereq_kWh = ($pSDL_W * $reserveH) / 1000.0;
$sumSDL_req_kWh += $Ereq_kWh;
// Aktuelle Energie aus SoC
$socPct = $this->ReadSocPercent($socVar);
$E_kWh = ($socPct / 100.0) * $capKWh;
// Reserviertes SDL-Fenster
$Emin = $Ereq_kWh;
$Emax = $capKWh - $Ereq_kWh;
// EV Fensterkapazität
$EVcap = max(0.0, $Emax - $Emin); // = cap - 2*Ereq
$sumEVcap_kWh += $EVcap;
// EV Energie im Fenster: clamp(E - Emin, 0..EVcap)
$EV_kWh = 0.0;
if ($EVcap > $eps) {
$EV_kWh = min(max($E_kWh - $Emin, 0.0), $EVcap);
}
$sumEV_kWh += $EV_kWh;
// SDL kann 30min entladen / laden?
$canSDLdischarge = ($E_kWh + $eps) >= $Emin; // E >= Ereq
$canSDLcharge = (($capKWh - $E_kWh) + $eps) >= $Ereq_kWh; // Cap-E >= Ereq <=> E <= Emax
// EV kann laden / entladen im Fenster?
$canEVdischarge = ($E_kWh - $Emin) > $eps; // E > Emin
$canEVcharge = ($Emax - $E_kWh) > $eps; // E < Emax
if ($canSDLdischarge) $P_SDL_entladen_W += $pSDL_W;
if ($canSDLcharge) $P_SDL_laden_W += $pSDL_W;
if ($canEVdischarge) $P_EV_entladen_W += $pEV_W;
if ($canEVcharge) $P_EV_laden_W += $pEV_W;
// SDL OK wenn beide Richtungen 30min möglich sind
$sdlOK = ($canSDLdischarge && $canSDLcharge);
if ($sdlOK) $sumSDL_ok_count++;
// SDL Fensterposition (0..100)
$posPct = 0.0;
$range = ($Emax - $Emin);
if ($range > $eps) {
$pos = ($E_kWh - $Emin) / $range; // 0..1
if ($pos < 0) $pos = 0;
if ($pos > 1) $pos = 1;
$posPct = $pos * 100.0;
$sumPos += $posPct;
$countPos++;
}
$calc[] = [
"typ" => $typ,
"pBat_W" => $pBatW,
"cap_kWh" => round($capKWh, 3),
"soc_pct" => round($socPct, 2),
"E_kWh" => round($E_kWh, 3),
"pSDL_W" => round($pSDL_W, 0),
"Ereq_kWh" => round($Ereq_kWh, 3),
"Emin_kWh" => round($Emin, 3),
"Emax_kWh" => round($Emax, 3),
"pEV_W" => round($pEV_W, 0),
"EVcap_kWh" => round($EVcap, 3),
"EV_kWh" => round($EV_kWh, 3),
"canSDLcharge_30min" => $canSDLcharge,
"canSDLdischarge_30min" => $canSDLdischarge,
"canEVcharge" => $canEVcharge,
"canEVdischarge" => $canEVdischarge,
"SDL_OK_both_directions" => $sdlOK,
"SDL_window_pos_pct" => round($posPct, 2)
];
}
// EV-Füllstand bezogen auf EV-Fenster
$socEV = ($sumEVcap_kWh > $eps) ? ($sumEV_kWh / $sumEVcap_kWh) * 100.0 : 0.0;
// SDL OK Quote (Batterie-Quote)
$socSDLok = ($sumBat_count > 0) ? ($sumSDL_ok_count / $sumBat_count) * 100.0 : 0.0;
// SDL Fensterposition (Durchschnitt)
$sdlPos = ($countPos > 0) ? ($sumPos / $countPos) : 0.0;
// Ausgabe
SetValue($this->GetIDForIdent("kWh_SDL"), round($sumSDL_req_kWh, 3));
SetValue($this->GetIDForIdent("kWh_EV"), round($sumEV_kWh, 3));
SetValue($this->GetIDForIdent("SoC_SDL"), round($socSDLok, 2));
SetValue($this->GetIDForIdent("SoC_EV"), round($socEV, 2));
SetValue($this->GetIDForIdent("SDL_Pos"), round($sdlPos, 2));
SetValue($this->GetIDForIdent("P_SDL_max"), round($P_SDL_max_W, 0));
SetValue($this->GetIDForIdent("P_EV_max"), round($P_EV_max_W, 0));
SetValue($this->GetIDForIdent("P_SDL_laden"), round($P_SDL_laden_W, 0));
SetValue($this->GetIDForIdent("P_SDL_entladen"), round($P_SDL_entladen_W, 0));
SetValue($this->GetIDForIdent("P_EV_laden"), round($P_EV_laden_W, 0));
SetValue($this->GetIDForIdent("P_EV_entladen"), round($P_EV_entladen_W, 0));
$out = [
"SDL_W" => $sdlPowerW,
"Reserve_h" => $reserveH,
"SumBatPower_W" => $sumBatPowerW,
"SumSDL_req_kWh" => round($sumSDL_req_kWh, 3),
"SumEVcap_kWh" => round($sumEVcap_kWh, 3),
"SumEV_kWh" => round($sumEV_kWh, 3),
"SDL_OK_quote_pct" => round($socSDLok, 2),
"SDL_window_pos_pct" => round($sdlPos, 2),
"EV_window_fill_pct" => round($socEV, 2),
"P_SDL_max_W" => round($P_SDL_max_W, 0),
"P_EV_max_W" => round($P_EV_max_W, 0),
"P_SDL_laden_W" => round($P_SDL_laden_W, 0),
"P_SDL_entladen_W" => round($P_SDL_entladen_W, 0),
"P_EV_laden_W" => round($P_EV_laden_W, 0),
"P_EV_entladen_W" => round($P_EV_entladen_W, 0),
"batteries" => $calc
];
$json = json_encode($out, JSON_UNESCAPED_UNICODE | JSON_PRETTY_PRINT);
SetValue($this->GetIDForIdent("CalcJSON"), $json);
$this->SetBuffer("BatteryCalc", $json);
$this->SendDebug("Update", $json, 0);
}
/**
* SoC in Prozent (0..100).
@@ -328,10 +333,19 @@ class Bat_EV_SDL extends IPSModule
{
SetValue($this->GetIDForIdent("kWh_SDL"), 0.0);
SetValue($this->GetIDForIdent("kWh_EV"), 0.0);
SetValue($this->GetIDForIdent("SoC_SDL"), 0.0);
SetValue($this->GetIDForIdent("SoC_EV"), 0.0);
SetValue($this->GetIDForIdent("SDL_Pos"), 0.0);
SetValue($this->GetIDForIdent("P_SDL_max"), 0.0);
SetValue($this->GetIDForIdent("P_EV_max"), 0.0);
SetValue($this->GetIDForIdent("P_EV_laden"), 0.0);
SetValue($this->GetIDForIdent("P_EV_entladen"), 0.0);
SetValue($this->GetIDForIdent("P_SDL_laden"), 0.0);
SetValue($this->GetIDForIdent("P_SDL_entladen"), 0.0);
SetValue($this->GetIDForIdent("CalcJSON"), "{}");
$this->SetBuffer("BatteryCalc", "{}");
}