Issue #324 - (re)

* Update sk.json

* Update sk.json

.devcontainer/configuration.yaml

@@ -1,5 +1,8 @@
 default_config:
 
+# ffmeg
+ffmpeg:
+
 logger:
     default: info
     logs:
@@ -59,8 +62,8 @@ input_number:
         unit_of_measurement: kW
     fake_valve1:
         name: The valve 1
-        min: 0
-        max: 100
+        min: 10
+        max: 90
         icon: mdi:pipe-valve
         unit_of_measurement: percentage
 

.devcontainer/devcontainer.json

@@ -30,13 +30,8 @@
 				"waderyan.gitblame",
 				"keesschollaart.vscode-home-assistant",
 				"vscode.markdown-math",
-				"yzhang.markdown-all-in-one",
-				"ms-python.vscode-pylance"
+				"yzhang.markdown-all-in-one"
 			],
-			// "mounts": [
-			//	"source=${localWorkspaceFolder}/.devcontainer/configuration.yaml,target=${localWorkspaceFolder}/config/www/community/,type=bind,consistency=cached",
-			//	"source=${localWorkspaceFolder}/custom_components,target=/home/vscode/core/config/custom_components,type=bind,consistency=cached"
-			// ],
 			"settings": {
 				"files.eol": "\n",
 				"editor.tabSize": 4,

.github/ISSUE_TEMPLATE/issue.md

@@ -4,6 +4,8 @@ about: Create a report to help us improve
 
 ---
 
+<!-- This template will allow the maintainer to be efficient and post the more accurante response as possible. There is many types / modes / configuration possible, so the analysis can be very tricky. If don't follow this template, your issue could be rejected without any message. Please help me to help you. -->
+
 <!-- Before you open a new issue, search through the existing issues to see if others have had the same problem.
 
 If you have a simple question or you are not sure this is an issue, don't open an issue but open a new discussion [here](https://github.com/jmcollin78/versatile_thermostat/discussions).
@@ -13,7 +15,7 @@ Check also in the [Troubleshooting](#troubleshooting) paragrah of the README if
 Issues not containing the minimum requirements will be closed:
 
 - Issues without a description (using the header is not good enough) will be closed.
-- Issues without configuration will be closed
+- Issues that don't follow this template could be closed
 
 -->
 

.vscode/settings.json

@@ -14,7 +14,8 @@
     "python.testing.pytestEnabled": true,
     "python.analysis.extraPaths": [
     //    "/home/vscode/core",
-        "/workspaces/versatile_thermostat/custom_components/versatile_thermostat"
+        "/workspaces/versatile_thermostat/custom_components/versatile_thermostat",
+        "/home/vscode/.local/lib/python3.11/site-packages/homeassistant"
     ],
     "python.formatting.provider": "none"
 }

README-fr.md

@@ -17,6 +17,7 @@
   - [HACS installation (recommendé)](#hacs-installation-recommendé)
   - [Installation manuelle](#installation-manuelle)
 - [Configuration](#configuration)
+  - [Création d'un nouveau Versatile Thermostat](#création-dun-nouveau-versatile-thermostat)
   - [Choix des attributs de base](#choix-des-attributs-de-base)
   - [Sélectionnez des entités pilotées](#sélectionnez-des-entités-pilotées)
     - [Pour un thermostat de type ```thermostat_over_switch```](#pour-un-thermostat-de-type-thermostat_over_switch)
@@ -34,6 +35,7 @@
   - [Configurer la gestion de la puissance](#configurer-la-gestion-de-la-puissance)
   - [Configurer la présence ou l'occupation](#configurer-la-présence-ou-loccupation)
   - [Configuration avancée](#configuration-avancée)
+  - [Le contrôle centralisé](#le-contrôle-centralisé)
   - [Synthèse des paramètres](#synthèse-des-paramètres)
 - [Exemples de réglage](#exemples-de-réglage)
   - [Chauffage électrique](#chauffage-électrique)
@@ -63,6 +65,9 @@
   - [Utilisation d'un Heatzy](#utilisation-dun-heatzy)
   - [Utilisation d'un radiateur avec un fil pilote](#utilisation-dun-radiateur-avec-un-fil-pilote)
   - [Seul le premier radiateur chauffe](#seul-le-premier-radiateur-chauffe)
+  - [Le radiateur chauffe alors que la température de consigne est dépassée ou ne chauffe pas alors que la température de la pièce est bien en-dessous de la consigne](#le-radiateur-chauffe-alors-que-la-température-de-consigne-est-dépassée-ou-ne-chauffe-pas-alors-que-la-température-de-la-pièce-est-bien-en-dessous-de-la-consigne)
+    - [Type `over_switch` ou `over_valve`](#type-over_switch-ou-over_valve)
+    - [Type `over_climate`](#type-over_climate)
   - [Régler les paramètres de détection d'ouverture de fenêtre en mode auto](#régler-les-paramètres-de-détection-douverture-de-fenêtre-en-mode-auto)
   - [Pourquoi mon Versatile Thermostat se met en Securite ?](#pourquoi-mon-versatile-thermostat-se-met-en-securite-)
     - [Comment détecter le mode sécurité ?](#comment-détecter-le-mode-sécurité-)
@@ -74,14 +79,16 @@ Ce composant personnalisé pour Home Assistant est une mise à niveau et est une
 
 
 > ![Nouveau](https://github.com/jmcollin78/versatile_thermostat/blob/main/images/new-icon.png?raw=true) _*Nouveautés*_
+> * **Release 5.2** : Ajout d'un `central_mode` permettant de piloter tous les VTherms de façon centralisée [#158](https://github.com/jmcollin78/versatile_thermostat/issues/158).
+> * **Release 5.1** : Limitation des valeurs envoyées aux valves et au température envoyées au climate sous-jacent.
 > * **Release 5.0** : Ajout d'une configuration centrale permettant de mettre en commun les attributs qui peuvent l'être [#239](https://github.com/jmcollin78/versatile_thermostat/issues/239).
 > * **Release 4.3** : Ajout d'un mode auto-fan pour le type `over_climate` permettant d'activer la ventilation si l'écart de température est important [#223](https://github.com/jmcollin78/versatile_thermostat/issues/223).
 > * **Release 4.2** : Le calcul de la pente de la courbe de température se fait maintenant en °/heure et non plus en °/min [#242](https://github.com/jmcollin78/versatile_thermostat/issues/242). Correction de la détection automatique des ouvertures par l'ajout d'un lissage de la courbe de température .
-> * **Release 4.1** : Ajout d'un mode de régulation **Expert** dans lequel l'utilisateur peut spécifier ses propres paramètres d'auto-régulation au lieu d'utiliser les pre-programmés [#194](https://github.com/jmcollin78/versatile_thermostat/issues/194).
-> * **Release 4.0** : Ajout de la prise en charge de la **Versatile Thermostat UI Card**. Voir [Versatile Thermostat UI Card](https://github.com/jmcollin78/versatile-thermostat-ui-card). Ajout d'un mode de régulation **Slow** pour les appareils de chauffage à latence lente [#168](https://github.com/jmcollin78/versatile_thermostat/issues/168). Changement de la façon dont **la puissance est calculée** dans le cas de VTherm avec des équipements multi-sous-jacents [#146](https://github.com/jmcollin78/versatile_thermostat/issues/146). Ajout de la prise en charge de AC et Heat pour VTherm via un interrupteur également [#144](https://github.com/jmcollin78/versatile_thermostat/pull/144)
 <details>
 <summary>Autres versions</summary>
 
+> * **Release 4.1** : Ajout d'un mode de régulation **Expert** dans lequel l'utilisateur peut spécifier ses propres paramètres d'auto-régulation au lieu d'utiliser les pre-programmés [#194](https://github.com/jmcollin78/versatile_thermostat/issues/194).
+> * **Release 4.0** : Ajout de la prise en charge de la **Versatile Thermostat UI Card**. Voir [Versatile Thermostat UI Card](https://github.com/jmcollin78/versatile-thermostat-ui-card). Ajout d'un mode de régulation **Slow** pour les appareils de chauffage à latence lente [#168](https://github.com/jmcollin78/versatile_thermostat/issues/168). Changement de la façon dont **la puissance est calculée** dans le cas de VTherm avec des équipements multi-sous-jacents [#146](https://github.com/jmcollin78/versatile_thermostat/issues/146). Ajout de la prise en charge de AC et Heat pour VTherm via un interrupteur également [#144](https://github.com/jmcollin78/versatile_thermostat/pull/144)
 > * **Release 3.8**: Ajout d'une **fonction d'auto-régulation** pour les thermostats `over climate` dont la régulation est faite par le climate sous-jacent. Cf. [L'auto-régulation](#lauto-régulation) et [#129](https://github.com/jmcollin78/versatile_thermostat/issues/129). Ajout de la **possibilité d'inverser la commande** pour un thermostat `over switch` pour adresser les installations avec fil pilote et diode [#124](https://github.com/jmcollin78/versatile_thermostat/issues/124).
 > * **Release 3.7**: Ajout du type de **Versatile Thermostat `over valve`** pour piloter une vanne TRV directement ou tout autre équipement type gradateur pour le chauffage. La régulation se fait alors directement en agissant sur le pourcentage d'ouverture de l'entité sous-jacente : 0 la vanne est coupée, 100 : la vanne est ouverte à fond. Cf. [#131](https://github.com/jmcollin78/versatile_thermostat/issues/131). Ajout d'une fonction permettant le bypass de la détection d'ouverture [#138](https://github.com/jmcollin78/versatile_thermostat/issues/138). Ajout de la langue Slovaque
 > * **Release 3.6**: Ajout du paramètre `motion_off_delay` pour améliorer la gestion de des mouvements [#116](https://github.com/jmcollin78/versatile_thermostat/issues/116), [#128](https://github.com/jmcollin78/versatile_thermostat/issues/128). Ajout du mode AC (air conditionné) pour un VTherm over switch. Préparation du projet Github pour faciliter les contributions [#127](https://github.com/jmcollin78/versatile_thermostat/issues/127)
@@ -114,7 +121,7 @@ En conséquence toute la phase de paramètrage d'un VTherm a été profondemment
 **Note :** les copies d'écran de la configuration d'un VTherm n'ont pas été mises à jour.
 
 # Merci pour la bière [buymecoffee](https://www.buymeacoffee.com/jmcollin78)
-Un grand merci à @salabur, @pvince83, @bergoglio, @EPicLURcher, @ecolorado66, @Kriss1670, @maia, @f.maymil, @moutte69, @Jerome, @Gunnar M, @Greg.o, @John Burgess, @abyssmal, @capinfo26, @Helge, @MattG pour les bières. Ca fait très plaisir et ça m'encourage à continuer !
+Un grand merci à @salabur, @pvince83, @bergoglio, @EPicLURcher, @ecolorado66, @Kriss1670, @maia, @f.maymil, @moutte69, @Jerome, @Gunnar M, @Greg.o, @John Burgess, @abyssmal, @capinfo26, @Helge, @MattG @Mexx62, @Someone, @Lajull pour les bières. Ca fait très plaisir et ça m'encourage à continuer !
 
 
 # Quand l'utiliser et ne pas l'utiliser
@@ -150,7 +157,8 @@ Ce composant nommé __Versatile thermostat__ gère les cas d'utilisation suivant
 - Ajouter une **gestion de délestage** ou une régulation pour ne pas dépasser une puissance totale définie. Lorsque la puissance maximale est dépassée, un préréglage caché de « puissance » est défini sur l'entité climatique. Lorsque la puissance passe en dessous du maximum, le préréglage précédent est restauré.
 - La **gestion de la présence à domicile**. Cette fonctionnalité vous permet de modifier dynamiquement la température du préréglage en tenant compte d'un capteur de présence de votre maison.
 - Des **services pour interagir avec le thermostat** à partir d'autres intégrations : vous pouvez forcer la présence / la non-présence à l'aide d'un service, et vous pouvez modifier dynamiquement la température des préréglages et changer les paramètres de sécurité.
-- Ajouter des capteurs pour voir les états internes du thermostat.
+- Ajouter des capteurs pour voir les états internes du thermostat,
+- Contrôle centralisé de tous les Versatile Thermostat pour les stopper tous, les passer tous en hors-gel, les forcer en mode Chauffage (l'hiver), les forcer en mode Climatisation (l'été).
 
 # Comment installer cet incroyable Thermostat Versatile ?
 
@@ -175,8 +183,17 @@ Ce composant nommé __Versatile thermostat__ gère les cas d'utilisation suivant
 
 # Configuration
 
-Note: aucune configuration dans configuration.yaml n'est nécessaire car toute la configuration est effectuée via l'interface graphique standard lors de l'ajout de l'intégration.
+-- VTherm = Versatile Thermostat dans la suite de ce document --
 
+> ![Astuce](/images/tips.png?raw=true) _*Notes*_
+>
+> Trois façons de configurer les VTherms sont disponibles :
+> 1. Chaque Versatile Thermostat est entièrement configurée de manière indépendante. Choisissez cette option si vous ne souhaitez avoir aucune configuration ou gestion centrale.
+> 2. Certains aspects sont configurés de manière centralisée. Cela permet par ex. définir la température min/max, la détection de fenêtre ouverte,… au niveau d'une instance centrale et unique. Pour chaque VTherm que vous configurez, vous pouvez alors choisir d'utiliser la configuration centrale ou de la remplacer par des paramètres personnalisés.
+> 3. En plus de cette configuration centralisée, tous les VTherm peuvent être contrôlées par une seule entité de type `select`. Cette fonction est nommé `central_mode`. Cela permet de stopper / démarrer / mettre en hors gel / etc tous les VTherms en une seule fois. Pour chaque VTherm, l'utilisateur indique si il est concerné par ce `central_mode`.
+
+
+## Création d'un nouveau Versatile Thermostat
 Cliquez sur le bouton Ajouter une intégration dans la page d'intégration
 
 ![image](https://github.com/jmcollin78/versatile_thermostat/blob/main/images/add-an-integration.png?raw=true)
@@ -187,7 +204,9 @@ Suivez ensuite les étapes de configuration comme suit :
 
 ## Choix des attributs de base
 
-![image](https://github.com/jmcollin78/versatile_thermostat/blob/main/images/config-main.png?raw=true)
+![image](/images/config-main0.png?raw=true)
+
+![image](/images/config-main.png?raw=true)
 
 Donnez les principaux attributs obligatoires :
 1. un nom (sera le nom de l'intégration et aussi le nom de l'entité climate)
@@ -197,7 +216,8 @@ Donnez les principaux attributs obligatoires :
 6. une durée de cycle en minutes. A chaque cycle, le radiateur s'allumera puis s'éteindra pendant une durée calculée afin d'atteindre la température ciblée (voir [preset](#configure-the-preset-temperature) ci-dessous). En mode ```over_climate```, le cycle ne sert qu'à faire des controles de base mais ne régule pas directement la température. C'est le ```climate``` sous-jacent qui le fait,
 7. les températures minimales et maximales du thermostat,
 8. une puissance de l'équipement ce qui va activer les capteurs de puissance et énergie consommée par l'appareil,
-9. la liste des fonctionnalités qui seront utilisées pour ce thermostat. En fonction de vos choix, les écrans de configuration suivants s'afficheront ou pas.
+9. la possibilité de controler le thermostat de façon centralisée. Cf [controle centralisé](#le-contrôle-centralisé),
+10. la liste des fonctionnalités qui seront utilisées pour ce thermostat. En fonction de vos choix, les écrans de configuration suivants s'afficheront ou pas.
 
 > ![Astuce](https://github.com/jmcollin78/versatile_thermostat/blob/main/images/tips.png?raw=true) _*Notes*_
 >  1. avec les types ```over_switch``` et ```over_valve```, les calculs sont effectués à chaque cycle. Donc en cas de changement de conditions, il faudra attendre le prochain cycle pour voir un changement. Pour cette raison, le cycle ne doit pas être trop long. **5 min est une bonne valeur**,
@@ -515,6 +535,21 @@ Voir [exemple de réglages](#examples-tuning) pour avoir des exemples de réglag
 > 4. Pour un usage naturel, le ``security_default_on_percent`` doit être inférieur à ``security_min_on_percent``,
 > 5. Les thermostats de type ``thermostat_over_climate`` ne sont pas concernés par le mode security.
 
+## Le contrôle centralisé
+Depuis la release 5.2, si vous avez défini une configuration centralisée, vous avez une nouvelle entité nommée `select.central_mode` qui permet de piloter tous les VTherms avec une seule action. Pour qu'un VTherm soit contrôlable de façon centralisée, il faut que son attribut de configuration nommé `use_central_mode` soit vrai.
+
+Cette entité se présente sous la forme d'une liste de choix qui contient les choix suivants :
+1. `Auto` : le mode 'normal' dans lequel chaque VTherm se comporte comme dans les versions précédentes,
+2. `Stooped` : tous les VTherms sont mis à l'arrêt (`hvac_off`),
+3. `Heat only` : tous les VTherms sont mis en mode chauffage lorsque ce mode est supporté par le VTherm, sinon il est stoppé,
+3. `Cool only` : tous les VTherms sont mis en mode climatisation lorsque ce mode est supporté par le VTherm, sinon il est stoppé,
+4. `Frost protection` : tous les VTherms sont mis en preset hors-gel lorsque ce preset est supporté par le VTherm, sinon il est stoppé.
+
+Il est donc possible de contrôler tous les VTherms (que ceux que l'on désigne explicitement) avec un seul contrôle.
+Exemple de rendu :
+
+![central_mode](/images/central_mode.png?raw=true)
+
 ## Synthèse des paramètres
 
 | Paramètre                                 | Libellé                                                                           | "over switch" | "over climate"      | "over valve" | "configuration centrale" |
@@ -527,6 +562,7 @@ Voir [exemple de réglages](#examples-tuning) pour avoir des exemples de réglag
 | ``temp_min``                              | Température minimale permise                                                      | X             | X                   | X            | X                        |
 | ``temp_max``                              | Température maximale permise                                                      | X             | X                   | X            | X                        |
 | ``device_power``                          | Puissance de l'équipement                                                         | X             | X                   | X            | -                        |
+| ``use_central_mode``                      | Autorisation du contrôle centralisé                                               | X             | X                   | X            | -                        |
 | ``use_window_feature``                    | Avec détection des ouvertures                                                     | X             | X                   | X            | -                        |
 | ``use_motion_feature``                    | Avec détection de mouvement                                                       | X             | X                   | X            | -                        |
 | ``use_power_feature``                     | Avec gestion de la puissance                                                      | X             | X                   | X            | -                        |
@@ -835,6 +871,8 @@ Les attributs personnalisés sont les suivants :
 | ``valve_open_percent``            | Le pourcentage d'ouverture de la vanne                                                                                                                                   |
 | ``regulated_target_temperature``  | La température de consigne calculée par l'auto-régulation                                                                                                                |
 | ``is_inversed``                   | True si la commande est inversée (fil pilote avec diode)                                                                                                                 |
+| ``is_controlled_by_central_mode`` | True si le VTherm peut être controlé de façon centrale                                                                                                                   |
+| ``last_central_mode``             | Le dernier mode central utilisé (None si le VTherm n'est pas controlé en central)                                                                                        |
 
 # Quelques résultats
 
@@ -1008,6 +1046,10 @@ Remplacez les valeurs entre [[ ]] par les votres.
             step: day
 ```
 
+Exemple de courbes obtenues avec Plotly :
+
+![image](/images/plotly-curves.png?raw=true)
+
 ## Et toujours de mieux en mieux avec l'AappDaemon NOTIFIER pour notifier les évènements
 Cette automatisation utilise l'excellente App Daemon nommée NOTIFIER développée par Horizon Domotique que vous trouverez en démonstration [ici](https://www.youtube.com/watch?v=chJylIK0ASo&ab_channel=HorizonDomotique) et le code est [ici](https://github.com/jlpouffier/home-assistant-config/blob/master/appdaemon/apps/notifier.py). Elle permet de notifier les utilisateurs du logement lorsqu'un des évènements touchant à la sécurité survient sur un des Versatile Thermostats.
 
@@ -1156,6 +1198,19 @@ Exemple :
 En mode `over_switch` si plusieurs radiateurs sont configurés pour un même VTherm, l'alllumage va se faire de façon séquentiel pour lisser au plus possible les pics de consommation.
 Cela est tout à fait normal et voulu. C'est décrit ici : [Pour un thermostat de type ```thermostat_over_switch```](#pour-un-thermostat-de-type-thermostat_over_switch)
 
+## Le radiateur chauffe alors que la température de consigne est dépassée ou ne chauffe pas alors que la température de la pièce est bien en-dessous de la consigne
+
+### Type `over_switch` ou `over_valve`
+Avec un VTherm de type `over_switch` ou `over_valve`, ce défaut montre juste que les paramètres de l'algorithme TPI sont mal réglés. Voir [Algorithme TPI](#algorithme-tpi) pour optimiser les réglages.
+
+### Type `over_climate`
+Avec un VTherm de type `over_climate`, la régulation est faite par le `climate` sous-jacent directement et VTherm se contente de lui transmettre les consignes. Donc si le radiateur chauffe alors que la température de consigne est dépassée, c'est certainement que sa mesure de température interne est biaisée. Ca arrive très souvent avec les TRV et les clims réversibles qui ont un capteur de température interne, soit trop près de l'élément de chauffe (donc trop froid l'hiver).
+
+Exemple de discussion autour de ces sujets: [#316](https://github.com/jmcollin78/versatile_thermostat/issues/316), [#312](https://github.com/jmcollin78/versatile_thermostat/discussions/312), [#278](https://github.com/jmcollin78/versatile_thermostat/discussions/278)
+
+Pour s'en sortir, VTherm est équipé d'une fonction nommée auto-régulation qui permet d'adapter la consigne envoyée au sous-jacent jusqu'à ce que la consigne soit respectée. Cette fonction permet de compenser le biais de mesure des thermomètres internes. Si le biais est important la régulation doit être importante. Voir [L'auto-régulation](#lauto-régulation) pour configurer l'auto-régulation.
+
+
 ## Régler les paramètres de détection d'ouverture de fenêtre en mode auto
 
 Si vous n'arrivez pas à régler la fonction de détection des ouvertures en mode auto (cf. [auto](#le-mode-auto)), vous pouvez essayer de modifier les paramètres de l'algorithme de lissage de la température.

README.md

@@ -17,6 +17,7 @@
   - [HACS installation (recommended)](#hacs-installation-recommended)
   - [Manual installation](#manual-installation)
 - [Configuration](#configuration)
+  - [Creation of a new Versatile Thermostat](#creation-of-a-new-versatile-thermostat)
   - [Minimal configuration update](#minimal-configuration-update)
   - [Select the driven entity](#select-the-driven-entity)
     - [For a ```thermostat_over_switch``` type thermostat](#for-a-thermostat_over_switch-type-thermostat)
@@ -34,6 +35,7 @@
   - [Configure the power management](#configure-the-power-management)
   - [Configure presence or occupancy](#configure-presence-or-occupancy)
   - [Advanced configuration](#advanced-configuration)
+  - [Centralized control](#centralized-control)
   - [Parameters synthesis](#parameters-synthesis)
 - [Examples tuning](#examples-tuning)
   - [Electrical heater](#electrical-heater)
@@ -63,6 +65,9 @@
   - [Using a Heatzy](#using-a-heatzy)
   - [Using a Heatsink with a Pilot Wire](#using-a-heatsink-with-a-pilot-wire)
   - [Only the first radiator heats](#only-the-first-radiator-heats)
+  - [The radiator heats up even though the setpoint temperature is exceeded or does not heat up even though the room temperature is well below the setpoint](#the-radiator-heats-up-even-though-the-setpoint-temperature-is-exceeded-or-does-not-heat-up-even-though-the-room-temperature-is-well-below-the-setpoint)
+    - [Type `over_switch` or `over_valve`](#type-over_switch-or-over_valve)
+    - [Type `over_climate`](#type-over_climate)
   - [Adjust window opening detection parameters in auto mode](#adjust-window-opening-detection-parameters-in-auto-mode)
   - [Why does my Versatile Thermostat go into Safety?](#why-does-my-versatile-thermostat-go-into-safety)
     - [How to detect safety mode?](#how-to-detect-safety-mode)
@@ -74,16 +79,18 @@
 This custom component for Home Assistant is an upgrade and is a complete rewrite of the component "Awesome thermostat" (see [Github](https://github.com/dadge/awesome_thermostat)) with addition of features.
 
 >![New](https://github.com/jmcollin78/versatile_thermostat/blob/main/images/new-icon.png?raw=true) _*News*_
+> * **Release 5.2**: Added a `central_mode` allowing all VTherms to be controlled centrally [#158](https://github.com/jmcollin78/versatile_thermostat/issues/158).
+> * **Release 5.1**: Limitation of the values sent to the valves and the temperature sent to the underlying climate.
 > * **Release 5.0**: Added a central configuration allowing the sharing of attributes that can be shared [#239](https://github.com/jmcollin78/versatile_thermostat/issues/239).
 > * **Release 4.3**: Added an auto-fan mode for the `over_climate` type allowing ventilation to be activated if the temperature difference is significant [#223](https://github.com/jmcollin78/versatile_thermostat/issues/223).
 > * **Release 4.2**: The calculation of the slope of the temperature curve is now done in °/hour and no longer in °/min [#242](https://github.com/jmcollin78/versatile_thermostat/issues/242). Correction of automatic detection of openings by adding smoothing of the temperature curve.
+<details>
+<summary>Others releases</summary>
+
 > * **Release 4.1**: Added an **Expert** regulation mode in which the user can specify their own auto-regulation parameters instead of using the pre-programmed ones [#194]( https://github.com/jmcollin78/versatile_thermostat/issues/194).
 > * **Release 4.0**: Added the support of **Versatile Thermostat UI Card**. See [Versatile Thermostat UI Card](https://github.com/jmcollin78/versatile-thermostat-ui-card). Added a **Slow** regulation mode for slow latency heating devices [#168](https://github.com/jmcollin78/versatile_thermostat/issues/168). Change the way **the power is calculated** in case of VTherm with multi-underlying equipements [#146](https://github.com/jmcollin78/versatile_thermostat/issues/146). Added the support of AC and Heat for VTherm over switch alse [#144](https://github.com/jmcollin78/versatile_thermostat/pull/144)
 > * **Release 3.8**: Added a **self-regulation function** for `over climate` thermostats whose regulation is done by the underlying climate. See [Self-regulation](#self-regulation) and [#129](https://github.com/jmcollin78/versatile_thermostat/issues/129). Added the possibility of **inverting the command** for an `over switch` thermostat to address installations with pilot wire and diode [#124](https://github.com/jmcollin78/versatile_thermostat/issues/124).
 > * **Release 3.7**: Addition of the **Versatile Thermostat type `over valve`** to control a TRV valve directly or any other dimmer type equipment for heating. Regulation is then done directly by acting on the opening percentage of the underlying entity: 0 the valve is cut off, 100: the valve is fully opened. See [#131](https://github.com/jmcollin78/versatile_thermostat/issues/131). Added a function allowing the bypass of opening detection [#138](https://github.com/jmcollin78/versatile_thermostat/issues/138). Added Slovak language
-<details>
-<summary>Others releases</summary>
-
 > * **Release 3.6**: Added the `motion_off_delay` parameter to improve motion management [#116](https://github.com/jmcollin78/versatile_thermostat/issues/116), [#128](https://github.com/jmcollin78/versatile_thermostat/issues/128). Added AC (air conditioning) mode for a VTherm over switch. Preparing the Github project to facilitate contributions [#127](https://github.com/jmcollin78/versatile_thermostat/issues/127)
 > * **Release 3.5**: Multiple thermostats when using "thermostat over another thermostat" mode [#113](https://github.com/jmcollin78/versatile_thermostat/issues/113)
 > * **Release 3.4**: bug fixes and expose preset temperatures for AC mode [#103](https://github.com/jmcollin78/versatile_thermostat/issues/103)
@@ -114,7 +121,7 @@ Consequently, the entire configuration phase of a VTherm has been profoundly mod
 **Note:** the VTherm configuration screenshots have not been updated.
 
 # Thanks for the beer [buymecoffee](https://www.buymeacoffee.com/jmcollin78)
-Many thanks to @salabur, @pvince83, @bergoglio, @EPicLURcher, @ecolorado66, @Kriss1670, @maia, @f.maymil, @moutte69, @Jerome, @Gunnar M, @Greg.o, @John Burgess, @abyssmal, @capinfo26, @Helge, @MattG for the beers. It's very nice and encourages me to continue!
+Many thanks to @salabur, @pvince83, @bergoglio, @EPicLURcher, @ecolorado66, @Kriss1670, @maia, @f.maymil, @moutte69, @Jerome, @Gunnar M, @Greg.o, @John Burgess, @abyssmal, @capinfo26, @Helge, @MattG, @MattG, @Mexx62, @Someone, @Lajull for the beers. It's very nice and encourages me to continue!
 
 # When to use / not use
 This thermostat can control 3 types of equipment:
@@ -150,7 +157,8 @@ This component named __Versatile thermostat__ manage the following use cases :
 - Add **power shedding management** or regulation to avoid exceeding a defined total power. When max power is exceeded, a hidden 'power' preset is set on the climate entity. When power goes below the max, the previous preset is restored.
 - Add **home presence management**. This feature allows you to dynamically change the temperature of preset considering a occupancy sensor of your home.
 - Add **services to interact with the thermostat** from others integration: you can force the presence / un-presence using a service, and you can dynamically change the temperature of the presets and change dynamically the safety parameters.
-- Add sensors to see the internal states of the thermostat
+- Add sensors to see the internal states of the thermostat,
+- Centralized control of all Versatile Thermostats to stop them all, switch them all to frost protection, force them into Heating mode (winter), force them into Cooling mode (summer).
 
 # How to install this incredible Versatile Thermostat ?
 
@@ -175,8 +183,17 @@ This component named __Versatile thermostat__ manage the following use cases :
 
 # Configuration
 
-Note: no configuration in configuration.yaml is needed because all configuration is done through the standard GUI when adding the integration.
+-- VTherm = Versatile Thermostat in the remainder of this document --
 
+> ![Tip](https://github.com/jmcollin78/versatile_thermostat/blob/main/images/tips.png?raw=true) _*Notes*_
+>
+> Three ways to configure VTherms are available:
+> 1. Each Versatile Thermostat is completely independently configured. Choose this option if you do not want to have any central configuration or management.
+> 2. Some aspects are configured centrally. This allows e.g. define the min/max temperature, open window detection, etc. at the level of a single central instance. For each VTherm you configure, you can then choose to use the central configuration or override it with custom settings.
+> 3. In addition to this centralized configuration, all VTherms can be controlled by a single entity of type `select`. This function is named `central_mode`. This allows you to stop / start / freeze / etc. all VTherms at once. For each VTherm, the user indicates whether he is affected by this `central_mode`.
+
+
+## Creation of a new Versatile Thermostat
 Click on Add integration button in the integration page
 ![image](https://github.com/jmcollin78/versatile_thermostat/blob/main/images/add-an-integration.png?raw=true)
 
@@ -185,7 +202,10 @@ The configuration can be change through the same interface. Simply select the th
 Then follow the configurations steps as follow:
 
 ## Minimal configuration update
-![image](https://github.com/jmcollin78/versatile_thermostat/blob/main/images/config-main.png?raw=true)
+
+![image](/images/config-main0.png?raw=true)
+
+![image](/images/config-main.png?raw=true)
 
 Give the main mandatory attributes:
 1. a name (will be the name of the integration and also the name of the climate entity)
@@ -195,7 +215,8 @@ Give the main mandatory attributes:
 6. a cycle duration in minutes. On each cycle, the heater will cycle on and then off for a calculated time to reach the target temperature (see [preset](#configure-the-preset-temperature) below). In ```over_climate``` mode, the cycle is only used to carry out basic controls but does not directly regulate the temperature. It's the underlying climate that does it,
 7. minimum and maximum thermostat temperatures,
 8. the power of the l'équipement which will activate the power and energy sensors of the device,
-9. the list of features that will be used for this thermostat. Depending on your choices, the following configuration screens will appear or not.
+9. the possibility of controlling the thermostat centrally. Cf [centralized control](#centralized-control),
+10. the list of features that will be used for this thermostat. Depending on your choices, the following configuration screens will appear or not.
 
 > ![Tip](https://github.com/jmcollin78/versatile_thermostat/blob/main/images/tips.png?raw=true) _*Notes*_
 > 1. With the ```thermostat_over_switch``` type, calculation are done at each cycle. So in case of conditions change, you will have to wait for the next cycle to see a change. For this reason, the cycle should not be too long. **5 min is a good value**,
@@ -500,6 +521,21 @@ See [example tuning](#examples-tuning) for common tuning examples
 > 4. For natural usage, the ``security_default_on_percent`` should be less than ``security_min_on_percent``,
 > 5. Thermostat of type ``thermostat_over_climate`` are not concerned by the safety feature.
 
+## Centralized control
+Since release 5.2, if you have defined a centralized configuration, you have a new entity named `select.central_mode` which allows you to control all VTherms with a single action. For a VTherm to be centrally controllable, its configuration attribute named `use_central_mode` must be true.
+
+This entity is presented in the form of a list of choices which contains the following choices:
+1. `Auto`: the 'normal' mode in which each VTherm behaves as in previous versions,
+2. `Stooped`: all VTherms are turned off (`hvac_off`),
+3. `Heat only`: all VTherms are put in heating mode when this mode is supported by the VTherm, otherwise it is stopped,
+3. `Cool only`: all VTherms are put in cooling mode when this mode is supported by the VTherm, otherwise it is stopped,
+4. `Frost protection`: all VTherms are put in frost protection preset when this preset is supported by the VTherm, otherwise it is stopped.
+
+It is therefore possible to control all VTherms (only those explicitly designated) with a single control.
+Example rendering:
+
+![central_mode](/images/central_mode.png?raw=true)
+
 ## Parameters synthesis
 
 | Paramètre                                 | Libellé                                                                       | "over switch" | "over climate"      | "over valve" | "central configuration" |
@@ -512,6 +548,7 @@ See [example tuning](#examples-tuning) for common tuning examples
 | ``temp_min``                              | Minimal temperature allowed                                                   | X             | X                   | X            | X                       |
 | ``temp_max``                              | Maximal temperature allowed                                                   | X             | X                   | X            | X                       |
 | ``device_power``                          | Total device power                                                            | X             | X                   | X            | -                       |
+| ``use_central_mode``                      | Allow the centralized control                                                 | X             | X                   | X            | -                       |
 | ``use_window_feature``                    | Use window detection                                                          | X             | X                   | X            | -                       |
 | ``use_motion_feature``                    | Use motion detection                                                          | X             | X                   | X            | -                       |
 | ``use_power_feature``                     | Use power management                                                          | X             | X                   | X            | -                       |
@@ -819,6 +856,8 @@ Custom attributes are the following:
 | ``valve_open_percent``            | The opening percentage of the valve                                                                                              |
 | ``regulated_target_temperature``  | The self-regulated target temperature calculated                                                                                 |
 | ``is_inversed``                   | True if the command is inversed (pilot wire with diode)                                                                          |
+| ``is_controlled_by_central_mode`` | True if the VTherm can be centrally controlled                                                                                   |
+| ``last_central_mode``             | The last central mode used (None if the VTherm is not centrally controlled)                                                      |
 
 # Some results
 
@@ -991,6 +1030,11 @@ Replace values in [[ ]] by yours.
             step: day
 ```
 
+Example of graph obtained with Plotly :
+
+![image](/images/plotly-curves.png?raw=true)
+
+
 ## And always better and better with the NOTIFIER daemon app to notify events
 This automation uses the excellent App Daemon named NOTIFIER developed by Horizon Domotique that you will find in demonstration [here](https://www.youtube.com/watch?v=chJylIK0ASo&ab_channel=HorizonDomotique) and the code is [here](https ://github.com/jlpouffier/home-assistant-config/blob/master/appdaemon/apps/notifier.py). It allows you to notify the users of the accommodation when one of the events affecting safety occurs on one of the Versatile Thermostats.
 
@@ -1136,7 +1180,19 @@ Example :
 
 ## Only the first radiator heats
 In `over_switch` mode if several radiators are configured for the same VTherm, switching on will be done sequentially to smooth out consumption peaks as much as possible.
-This is completely normal and desired. It is described here: [For a thermostat of type ``thermostat_over_switch```](#for-a-thermostat-of-type-thermostat_over_switch)
+This is completely normal and desired. It is described here: [For a thermostat of type ``thermostat_over_switch```](#for-a-thermostat-of-type-thermostat_over_switch)v
+
+## The radiator heats up even though the setpoint temperature is exceeded or does not heat up even though the room temperature is well below the setpoint
+
+### Type `over_switch` or `over_valve`
+With a VTherm of type `over_switch` or `over_valve`, this fault just shows that the parameters of the TPI algorithm are incorrectly set. See [TPI Algorithm](#tpi-algorithm) to optimize the settings.
+
+### Type `over_climate`
+With an `over_climate` type VTherm, the regulation is done by the underlying `climate` directly and VTherm simply transmits the instructions to it. So if the radiator heats up when the set temperature is exceeded, it is certainly because its internal temperature measurement is biased. This happens very often with TRVs and reversible air conditioning units which have an internal temperature sensor, or too close to the heating element (therefore too cold in winter).
+
+Example of discussion around these topics: [#316](https://github.com/jmcollin78/versatile_thermostat/issues/316), [#312](https://github.com/jmcollin78/versatile_thermostat/discussions/312 ), [#278](https://github.com/jmcollin78/versatile_thermostat/discussions/278)
+
+To get around this, VTherm is equipped with a function called self-regulation which allows the instruction sent to the underlying to be adapted until the target temperature is respected. This function compensates for the measurement bias of internal thermometers. If the bias is important the regulation must be important. See [Self-regulation](#self-regulation) to configure self-regulation.
 
 ## Adjust window opening detection parameters in auto mode
 

custom_components/versatile_thermostat/base_thermostat.py

@@ -116,6 +116,11 @@ from .const import (
     ATTR_TOTAL_ENERGY,
     PRESET_AC_SUFFIX,
     DEFAULT_SHORT_EMA_PARAMS,
+    CENTRAL_MODE_AUTO,
+    CENTRAL_MODE_STOPPED,
+    CENTRAL_MODE_HEAT_ONLY,
+    CENTRAL_MODE_COOL_ONLY,
+    CENTRAL_MODE_FROST_PROTECTION,
 )
 
 from .config_schema import *  # pylint: disable=wildcard-import, unused-wildcard-import
@@ -158,6 +163,8 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
             frozenset(
                 {
                     "is_on",
+                    "is_controlled_by_central_mode",
+                    "last_central_mode",
                     "type",
                     "frost_temp",
                     "eco_temp",
@@ -273,6 +280,9 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
         self._now = None
 
         self._attr_fan_mode = None
+
+        self._is_central_mode = None
+        self._last_central_mode = None
         self.post_init(entry_infos)
 
     def clean_central_config_doublon(self, config_entry, central_config) -> dict:
@@ -400,7 +410,8 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
         )
         self._window_auto_max_duration = entry_infos.get(CONF_WINDOW_AUTO_MAX_DURATION)
         self._window_auto_on = (
-            self._window_auto_open_threshold is not None
+            self._window_sensor_entity_id is None
+            and self._window_auto_open_threshold is not None
             and self._window_auto_open_threshold > 0.0
             and self._window_auto_close_threshold is not None
             and self._window_auto_max_duration is not None
@@ -434,6 +445,8 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
         self._presence_on = self._presence_sensor_entity_id is not None
 
         if self._ac_mode:
+            # Added by https://github.com/jmcollin78/versatile_thermostat/pull/144
+            # Some over_switch can do both heating and cooling
             self._hvac_list = [HVACMode.HEAT, HVACMode.COOL, HVACMode.OFF]
         else:
             self._hvac_list = [HVACMode.HEAT, HVACMode.OFF]
@@ -552,6 +565,10 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
             short_ema_params.get("max_alpha"),
         )
 
+        self._is_central_mode = not (
+            entry_infos.get(CONF_USE_CENTRAL_MODE) is False
+        )  # Default value (None) is True
+
         _LOGGER.debug(
             "%s - Creation of a new VersatileThermostat entity: unique_id=%s",
             self,
@@ -1130,6 +1147,17 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
         """True if the VTherm is on (! HVAC_OFF)"""
         return self.hvac_mode and self.hvac_mode != HVACMode.OFF
 
+    @property
+    def is_controlled_by_central_mode(self) -> bool:
+        """Returns True if this VTherm can be controlled by the central_mode"""
+        return self._is_central_mode
+
+    @property
+    def last_central_mode(self) -> str | None:
+        """Returns the last central_mode taken into account.
+        Is None if the VTherm is not controlled by central_mode"""
+        return self._last_central_mode
+
     def underlying_entity_id(self, index=0) -> str | None:
         """The climate_entity_id. Added for retrocompatibility reason"""
         if index < self.nb_underlying_entities:
@@ -1177,11 +1205,11 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
             )
 
         # If AC is on maybe we have to change the temperature in force mode, but not in frost mode (there is no Frost protection possible in AC mode)
-        if self._ac_mode:
+        if self._hvac_mode == HVACMode.COOL:
             if self.preset_mode != PRESET_FROST_PROTECTION:
                 await self._async_set_preset_mode_internal(self._attr_preset_mode, True)
             else:
-                await self._async_set_preset_mode_internal(PRESET_ECO, True)
+                await self._async_set_preset_mode_internal(PRESET_ECO, True, False)
 
         if need_control_heating and sub_need_control_heating:
             await self.async_control_heating(force=True)
@@ -1195,12 +1223,17 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
         self.async_write_ha_state()
         self.send_event(EventType.HVAC_MODE_EVENT, {"hvac_mode": self._hvac_mode})
 
-    async def async_set_preset_mode(self, preset_mode):
+    @overrides
+    async def async_set_preset_mode(self, preset_mode, overwrite_saved_preset=True):
         """Set new preset mode."""
-        await self._async_set_preset_mode_internal(preset_mode)
+        await self._async_set_preset_mode_internal(
+            preset_mode, force=False, overwrite_saved_preset=overwrite_saved_preset
+        )
         await self.async_control_heating(force=True)
 
-    async def _async_set_preset_mode_internal(self, preset_mode, force=False):
+    async def _async_set_preset_mode_internal(
+        self, preset_mode, force=False, overwrite_saved_preset=True
+    ):
         """Set new preset mode."""
         _LOGGER.info("%s - Set preset_mode: %s force=%s", self, preset_mode, force)
         if (
@@ -1215,10 +1248,10 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
             # I don't think we need to call async_write_ha_state if we didn't change the state
             return
 
-        # In security mode don't change preset but memorise the new expected preset when security will be off
+        # In safety mode don't change preset but memorise the new expected preset when security will be off
         if preset_mode != PRESET_SECURITY and self._security_state:
             _LOGGER.debug(
-                "%s - is in security mode. Just memorise the new expected ", self
+                "%s - is in safety mode. Just memorise the new expected ", self
             )
             if preset_mode not in HIDDEN_PRESETS:
                 self._saved_preset_mode = preset_mode
@@ -1242,7 +1275,8 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
 
         self.reset_last_temperature_time(old_preset_mode)
 
-        self.save_preset_mode()
+        if overwrite_saved_preset:
+            self.save_preset_mode()
         self.recalculate()
         self.send_event(EventType.PRESET_EVENT, {"preset": self._attr_preset_mode})
 
@@ -1442,16 +1476,19 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
             else:
                 if not self._window_state:
                     _LOGGER.info(
-                        "%s - Window is closed. Restoring hvac_mode '%s'",
+                        "%s - Window is closed. Restoring hvac_mode '%s' if central_mode is not STOPPED",
                         self,
                         self._saved_hvac_mode,
                     )
-                    await self.restore_hvac_mode(True)
+                    if self.last_central_mode != CENTRAL_MODE_STOPPED:
+                        await self.restore_hvac_mode(True)
                 elif self._window_state:
                     _LOGGER.info(
                         "%s - Window is open. Set hvac_mode to '%s'", self, HVACMode.OFF
                     )
-                    self.save_hvac_mode()
+                    if self.last_central_mode in [CENTRAL_MODE_AUTO, None]:
+                        self.save_hvac_mode()
+
                     await self.async_set_hvac_mode(HVACMode.OFF)
             self.update_custom_attributes()
 
@@ -1604,7 +1641,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
                 state.last_changed.astimezone(self._current_tz),
             )
 
-            # try to restart if we were in security mode
+            # try to restart if we were in safety mode
             if self._security_state:
                 await self.check_security()
 
@@ -1631,7 +1668,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
                 state.last_changed.astimezone(self._current_tz),
             )
 
-            # try to restart if we were in security mode
+            # try to restart if we were in safety mode
             if self._security_state:
                 await self.check_security()
         except ValueError as ex:
@@ -1816,8 +1853,8 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
             slope if slope is not None else 0.0,
         )
 
-        if self.window_bypass_state:
-            _LOGGER.info("%s - Window auto event is ignored because bypass is ON", self)
+        if self.window_bypass_state or not self.is_window_auto_enabled:
+            _LOGGER.info("%s - Window auto event is ignored because bypass is ON or window auto detection is disabled", self)
             return
 
         if (
@@ -1998,6 +2035,67 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
 
         return self._overpowering_state
 
+    async def check_central_mode(self, new_central_mode, old_central_mode) -> None:
+        """Take into account a central mode change"""
+        if not self.is_controlled_by_central_mode:
+            self._last_central_mode = None
+            return
+
+        _LOGGER.info(
+            "%s - Central mode have change from %s to %s",
+            self,
+            old_central_mode,
+            new_central_mode,
+        )
+
+        self._last_central_mode = new_central_mode
+
+        def save_all():
+            """save preset and hvac_mode"""
+            self.save_preset_mode()
+            self.save_hvac_mode()
+
+        if new_central_mode == CENTRAL_MODE_AUTO:
+            if self.window_state is not STATE_ON:
+                await self.restore_hvac_mode()
+                await self.restore_preset_mode()
+
+            return
+
+        if old_central_mode == CENTRAL_MODE_AUTO and self.window_state is not STATE_ON:
+            save_all()
+
+        if new_central_mode == CENTRAL_MODE_STOPPED:
+            await self.async_set_hvac_mode(HVACMode.OFF)
+            return
+
+        if new_central_mode == CENTRAL_MODE_COOL_ONLY:
+            if HVACMode.COOL in self.hvac_modes:
+                await self.async_set_hvac_mode(HVACMode.COOL)
+            else:
+                await self.async_set_hvac_mode(HVACMode.OFF)
+            return
+
+        if new_central_mode == CENTRAL_MODE_HEAT_ONLY:
+            if HVACMode.HEAT in self.hvac_modes:
+                await self.async_set_hvac_mode(HVACMode.HEAT)
+            else:
+                await self.async_set_hvac_mode(HVACMode.OFF)
+            return
+
+        if new_central_mode == CENTRAL_MODE_FROST_PROTECTION:
+            if (
+                PRESET_FROST_PROTECTION in self.preset_modes
+                and HVACMode.HEAT in self.hvac_modes
+            ):
+                await self.async_set_hvac_mode(HVACMode.HEAT)
+                await self.async_set_preset_mode(
+                    PRESET_FROST_PROTECTION, overwrite_saved_preset=False
+                )
+            else:
+                await self.async_set_hvac_mode(HVACMode.OFF)
+            return
+
     def _set_now(self, now: datetime):
         """Set the now timestamp. This is only for tests purpose"""
         self._now = now
@@ -2064,7 +2162,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
         if shouldStartSecurity:
             if shouldClimateBeInSecurity:
                 _LOGGER.warning(
-                    "%s - No temperature received for more than %.1f minutes (dt=%.1f, dext=%.1f) and underlying climate is %s. Set it into security mode",
+                    "%s - No temperature received for more than %.1f minutes (dt=%.1f, dext=%.1f) and underlying climate is %s. Setting it into safety mode",
                     self,
                     self._security_delay_min,
                     delta_temp,
@@ -2073,13 +2171,13 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
                 )
             elif shouldSwitchBeInSecurity:
                 _LOGGER.warning(
-                    "%s - No temperature received for more than %.1f minutes (dt=%.1f, dext=%.1f) and on_percent (%.2f) is over defined value (%.2f). Set it into security mode",
+                    "%s - No temperature received for more than %.1f minutes (dt=%.1f, dext=%.1f) and on_percent (%.2f %%) is over defined value (%.2f %%). Set it into safety mode",
                     self,
                     self._security_delay_min,
                     delta_temp,
                     delta_ext_temp,
-                    self._prop_algorithm.on_percent,
-                    self._security_min_on_percent,
+                    self._prop_algorithm.on_percent * 100,
+                    self._security_min_on_percent * 100,
                 )
 
             self.send_event(
@@ -2097,7 +2195,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
                 },
             )
 
-        # Start security mode
+        # Start safety mode
         if shouldStartSecurity:
             self._security_state = True
             self.save_hvac_mode()
@@ -2125,10 +2223,10 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
                 },
             )
 
-        # Stop security mode
+        # Stop safety mode
         if shouldStopSecurity:
             _LOGGER.warning(
-                "%s - End of security mode. restoring hvac_mode to %s and preset_mode to %s",
+                "%s - End of safety mode. restoring hvac_mode to %s and preset_mode to %s",
                 self,
                 self._saved_hvac_mode,
                 self._saved_preset_mode,
@@ -2239,6 +2337,8 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
             "hvac_mode": self.hvac_mode,
             "preset_mode": self.preset_mode,
             "type": self._thermostat_type,
+            "is_controlled_by_central_mode": self.is_controlled_by_central_mode,
+            "last_central_mode": self.last_central_mode,
             "frost_temp": self._presets[PRESET_FROST_PROTECTION],
             "eco_temp": self._presets[PRESET_ECO],
             "boost_temp": self._presets[PRESET_BOOST],
@@ -2374,11 +2474,11 @@ class BaseThermostat(ClimateEntity, RestoreEntity):
             entity_id: climate.thermostat_2
         """
         _LOGGER.info(
-            "%s - Calling service_set_security, delay_min: %s, min_on_percent: %s, default_on_percent: %s",
+            "%s - Calling service_set_security, delay_min: %s, min_on_percent: %s %%, default_on_percent: %s %%",
             self,
             delay_min,
-            min_on_percent,
-            default_on_percent,
+            min_on_percent * 100,
+            default_on_percent * 100,
         )
         if delay_min:
             self._security_delay_min = delay_min

custom_components/versatile_thermostat/config_flow.py

@@ -86,7 +86,10 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
 
         # VTherm API should have been initialized before arriving here
         vtherm_api = VersatileThermostatAPI.get_vtherm_api()
-        self._central_config = vtherm_api.find_central_configuration()
+        if vtherm_api is not None:
+            self._central_config = vtherm_api.find_central_configuration()
+        else:
+            self._central_config = None
 
         self._init_feature_flags(infos)
         self._init_central_config_flags(infos)
@@ -119,6 +122,7 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
             CONF_USE_WINDOW_CENTRAL_CONFIG,
             CONF_USE_MOTION_CENTRAL_CONFIG,
             CONF_USE_POWER_CENTRAL_CONFIG,
+            CONF_USE_PRESETS_CENTRAL_CONFIG,
             CONF_USE_PRESENCE_CENTRAL_CONFIG,
             CONF_USE_ADVANCED_CENTRAL_CONFIG,
         ):
@@ -167,7 +171,7 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
             _LOGGER.error(
                 "Only one window detection method should be used. Use window_sensor or auto window open detection but not both"
             )
-            raise WindowOpenDetectionMethod(CONF_WINDOW_SENSOR)
+            raise WindowOpenDetectionMethod(CONF_WINDOW_AUTO_OPEN_THRESHOLD)
 
         # Check that is USE_CENTRAL config is used, that a central config exists
         if self._central_config is None:
@@ -360,7 +364,7 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
             schema = schema_ac_or_not
         elif user_input and user_input.get(CONF_USE_PRESETS_CENTRAL_CONFIG) is False:
             next_step = self.async_step_spec_presets
-            schema = schema_ac_or_not
+            schema = STEP_PRESETS_DATA_SCHEMA
 
         return await self.generic_step("presets", schema, user_input, next_step)
 
@@ -404,7 +408,11 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
             next_step = self.async_step_motion
         # If comes from async_step_spec_window
         elif self._infos.get(COMES_FROM) == "async_step_spec_window":
-            schema = STEP_CENTRAL_WINDOW_DATA_SCHEMA
+            # If we have a window sensor don't display the auto window parameters
+            if self._infos.get(CONF_WINDOW_SENSOR) is not None:
+                schema = STEP_CENTRAL_WINDOW_WO_AUTO_DATA_SCHEMA
+            else:
+                schema = STEP_CENTRAL_WINDOW_DATA_SCHEMA
         elif user_input and user_input.get(CONF_USE_WINDOW_CENTRAL_CONFIG) is False:
             next_step = self.async_step_spec_window
 
@@ -419,6 +427,8 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
         )
 
         schema = STEP_CENTRAL_WINDOW_DATA_SCHEMA
+        if self._infos.get(CONF_WINDOW_SENSOR) is not None:
+            schema = STEP_CENTRAL_WINDOW_WO_AUTO_DATA_SCHEMA
 
         self._infos[COMES_FROM] = "async_step_spec_window"
 

custom_components/versatile_thermostat/config_schema.py

@@ -42,6 +42,7 @@ STEP_MAIN_DATA_SCHEMA = vol.Schema(  # pylint: disable=invalid-name
         ),
         vol.Required(CONF_CYCLE_MIN, default=5): cv.positive_int,
         vol.Optional(CONF_DEVICE_POWER, default="1"): vol.Coerce(float),
+        vol.Optional(CONF_USE_CENTRAL_MODE, default=True): cv.boolean,
         vol.Optional(CONF_USE_WINDOW_FEATURE, default=False): cv.boolean,
         vol.Optional(CONF_USE_MOTION_FEATURE, default=False): cv.boolean,
         vol.Optional(CONF_USE_POWER_FEATURE, default=False): cv.boolean,
@@ -195,6 +196,12 @@ STEP_CENTRAL_WINDOW_DATA_SCHEMA = vol.Schema(  # pylint: disable=invalid-name
     }
 )
 
+STEP_CENTRAL_WINDOW_WO_AUTO_DATA_SCHEMA = vol.Schema(  # pylint: disable=invalid-name
+    {
+        vol.Optional(CONF_WINDOW_DELAY, default=30): cv.positive_int,
+    }
+)
+
 STEP_MOTION_DATA_SCHEMA = vol.Schema(  # pylint: disable=invalid-name
     {
         vol.Optional(CONF_MOTION_SENSOR): selector.EntitySelector(

custom_components/versatile_thermostat/const.py

@@ -35,7 +35,12 @@ HIDDEN_PRESETS = [PRESET_POWER, PRESET_SECURITY]
 
 DOMAIN = "versatile_thermostat"
 
-PLATFORMS: list[Platform] = [Platform.CLIMATE, Platform.BINARY_SENSOR, Platform.SENSOR]
+PLATFORMS: list[Platform] = [
+    Platform.CLIMATE,
+    Platform.BINARY_SENSOR,
+    Platform.SENSOR,
+    Platform.SELECT,
+]
 
 CONF_HEATER = "heater_entity_id"
 CONF_HEATER_2 = "heater_entity2_id"
@@ -113,6 +118,8 @@ CONF_USE_PRESENCE_CENTRAL_CONFIG = "use_presence_central_config"
 CONF_USE_PRESETS_CENTRAL_CONFIG = "use_presets_central_config"
 CONF_USE_ADVANCED_CENTRAL_CONFIG = "use_advanced_central_config"
 
+CONF_USE_CENTRAL_MODE = "use_central_mode"
+
 DEFAULT_SHORT_EMA_PARAMS = {
     "max_alpha": 0.5,
     # In sec
@@ -242,6 +249,7 @@ ALL_CONF = (
         CONF_USE_POWER_CENTRAL_CONFIG,
         CONF_USE_PRESENCE_CENTRAL_CONFIG,
         CONF_USE_ADVANCED_CENTRAL_CONFIG,
+        CONF_USE_CENTRAL_MODE,
     ]
     + CONF_PRESETS_VALUES
     + CONF_PRESETS_AWAY_VALUES
@@ -297,6 +305,19 @@ AUTO_FAN_DEACTIVATED_MODES = ["mute", "auto", "low"]
 
 CENTRAL_CONFIG_NAME = "Central configuration"
 
+CENTRAL_MODE_AUTO = "Auto"
+CENTRAL_MODE_STOPPED = "Stopped"
+CENTRAL_MODE_HEAT_ONLY = "Heat only"
+CENTRAL_MODE_COOL_ONLY = "Cool only"
+CENTRAL_MODE_FROST_PROTECTION = "Frost protection"
+CENTRAL_MODES = [
+    CENTRAL_MODE_AUTO,
+    CENTRAL_MODE_STOPPED,
+    CENTRAL_MODE_HEAT_ONLY,
+    CENTRAL_MODE_COOL_ONLY,
+    CENTRAL_MODE_FROST_PROTECTION,
+]
+
 
 #  A special regulation parameter suggested by @Maia here: https://github.com/jmcollin78/versatile_thermostat/discussions/154
 class RegulationParamSlow:

custom_components/versatile_thermostat/manifest.json

@@ -14,6 +14,6 @@
   "quality_scale": "silver",
   "requirements": [],
   "ssdp": [],
-  "version": "4.3.0",
+  "version": "5.2.0",
   "zeroconf": []
 }

custom_components/versatile_thermostat/prop_algorithm.py

@@ -140,27 +140,27 @@ class PropAlgorithm:
         self._off_time_sec = self._cycle_min * 60 - self._on_time_sec
 
     def set_security(self, default_on_percent: float):
-        """Set a default value for on_percent (used for security mode)"""
+        """Set a default value for on_percent (used for safety mode)"""
         self._security = True
         self._default_on_percent = default_on_percent
         self._calculate_internal()
 
     def unset_security(self):
-        """Unset the security mode"""
+        """Unset the safety mode"""
         self._security = False
         self._calculate_internal()
 
     @property
     def on_percent(self) -> float:
         """Returns the percentage the heater must be ON
-        In security mode this value is overriden with the _default_on_percent
+        In safety mode this value is overriden with the _default_on_percent
         (1 means the heater will be always on, 0 never on)"""  # pylint: disable=line-too-long
         return round(self._on_percent, 2)
 
     @property
     def calculated_on_percent(self) -> float:
         """Returns the calculated percentage the heater must be ON
-        Calculated means NOT overriden even in security mode
+        Calculated means NOT overriden even in safety mode
         (1 means the heater will be always on, 0 never on)"""  # pylint: disable=line-too-long
         return round(self._calculated_on_percent, 2)
 

custom_components/versatile_thermostat/select.py

@@ -0,0 +1,134 @@
+# pylint: disable=unused-argument
+
+""" Implements the VersatileThermostat select component """
+import logging
+
+from homeassistant.const import EVENT_HOMEASSISTANT_START
+from homeassistant.core import HomeAssistant, CoreState, callback
+
+from homeassistant.components.climate import ClimateEntity, DOMAIN as CLIMATE_DOMAIN
+from homeassistant.components.select import SelectEntity
+from homeassistant.helpers.device_registry import DeviceInfo, DeviceEntryType
+from homeassistant.config_entries import ConfigEntry
+from homeassistant.helpers.restore_state import RestoreEntity
+from homeassistant.helpers.entity_platform import AddEntitiesCallback
+from homeassistant.helpers.entity_component import EntityComponent
+
+
+from custom_components.versatile_thermostat.base_thermostat import BaseThermostat
+from .const import (
+    DOMAIN,
+    DEVICE_MANUFACTURER,
+    CONF_NAME,
+    CONF_THERMOSTAT_TYPE,
+    CONF_THERMOSTAT_CENTRAL_CONFIG,
+    CENTRAL_MODE_AUTO,
+    CENTRAL_MODES,
+    overrides,
+)
+
+_LOGGER = logging.getLogger(__name__)
+
+
+async def async_setup_entry(
+    hass: HomeAssistant,
+    entry: ConfigEntry,
+    async_add_entities: AddEntitiesCallback,
+) -> None:
+    """Set up the VersatileThermostat selects with config flow."""
+    _LOGGER.debug(
+        "Calling async_setup_entry entry=%s, data=%s", entry.entry_id, entry.data
+    )
+
+    unique_id = entry.entry_id
+    name = entry.data.get(CONF_NAME)
+    vt_type = entry.data.get(CONF_THERMOSTAT_TYPE)
+
+    if vt_type != CONF_THERMOSTAT_CENTRAL_CONFIG:
+        return
+
+    entities = [
+        CentralModeSelect(hass, unique_id, name, entry.data),
+    ]
+
+    async_add_entities(entities, True)
+
+
+class CentralModeSelect(SelectEntity, RestoreEntity):
+    """Representation of a Energy sensor which exposes the energy"""
+
+    def __init__(self, hass: HomeAssistant, unique_id, name, entry_infos) -> None:
+        """Initialize the energy sensor"""
+        self._config_id = unique_id
+        self._device_name = entry_infos.get(CONF_NAME)
+        self._attr_name = "Central Mode"
+        self._attr_unique_id = "central_mode"
+        self._attr_options = CENTRAL_MODES
+        self._attr_current_option = CENTRAL_MODE_AUTO
+
+    @property
+    def icon(self) -> str | None:
+        return "mdi:form-select"
+
+    @property
+    def device_info(self) -> DeviceInfo:
+        """Return the device info."""
+        return DeviceInfo(
+            entry_type=DeviceEntryType.SERVICE,
+            identifiers={(DOMAIN, self._config_id)},
+            name=self._device_name,
+            manufacturer=DEVICE_MANUFACTURER,
+            model=DOMAIN,
+        )
+
+    @overrides
+    async def async_added_to_hass(self) -> None:
+        await super().async_added_to_hass()
+
+        old_state = await self.async_get_last_state()
+        _LOGGER.debug(
+            "%s - Calling async_added_to_hass old_state is %s", self, old_state
+        )
+        if old_state is not None:
+            self._attr_current_option = old_state.state
+
+        @callback
+        async def _async_startup_internal(*_):
+            _LOGGER.debug("%s - Calling async_startup_internal", self)
+            await self.notify_central_mode_change()
+
+        if self.hass.state == CoreState.running:
+            await _async_startup_internal()
+        else:
+            self.hass.bus.async_listen_once(
+                EVENT_HOMEASSISTANT_START, _async_startup_internal
+            )
+
+    @overrides
+    async def async_select_option(self, option: str) -> None:
+        """Change the selected option."""
+        old_option = self._attr_current_option
+
+        if option == old_option:
+            return
+
+        if option in CENTRAL_MODES:
+            self._attr_current_option = option
+            await self.notify_central_mode_change(old_central_mode=old_option)
+
+    async def notify_central_mode_change(self, old_central_mode=None):
+        """Notify all VTherm that the central_mode have change"""
+        # Update all VTherm states
+        component: EntityComponent[ClimateEntity] = self.hass.data[CLIMATE_DOMAIN]
+        for entity in component.entities:
+            if isinstance(entity, BaseThermostat):
+                _LOGGER.debug(
+                    "Changing the central_mode. We have find %s to update",
+                    entity.name,
+                )
+                await entity.check_central_mode(
+                    self._attr_current_option, old_central_mode
+                )
+
+    def __str__(self):
+        return f"VersatileThermostat-{self.name}"

custom_components/versatile_thermostat/strings.json

@@ -24,6 +24,7 @@
           "temp_min": "Minimal temperature allowed",
           "temp_max": "Maximal temperature allowed",
           "device_power": "Device power",
+          "use_central_mode": "Enable the control by central entity (need central config)",
           "use_window_feature": "Use window detection",
           "use_motion_feature": "Use motion detection",
           "use_power_feature": "Use power management",
@@ -31,6 +32,7 @@
           "use_main_central_config": "Use central main configuration"
         },
         "data_description": {
+          "use_central_mode": "Check to enable the control of the VTherm with the select central_mode entities",
           "use_main_central_config": "Check to use the central main configuration. Uncheck to use a specific main configuration for this VTherm",
           "external_temperature_sensor_entity_id": "Outdoor temperature sensor entity id. Not used if central configuration is selected"
         }
@@ -121,7 +123,7 @@
       },
       "window": {
         "title": "Window management",
-        "description": "Open window management.\nLeave corresponding entity_id empty if not used\nYou can also configure automatic window open detection based on temperature decrease",
+        "description": "Open window management.\nYou can also configure automatic window open detection based on temperature decrease",
         "data": {
           "window_sensor_entity_id": "Window sensor entity id",
           "window_delay": "Window sensor delay (seconds)",
@@ -131,7 +133,7 @@
           "use_window_central_config": "Use central window configuration"
         },
         "data_description": {
-          "window_sensor_entity_id": "Leave empty if no window sensor should be used",
+          "window_sensor_entity_id": "Leave empty if no window sensor should be used and to use the automatic detection",
           "window_delay": "The delay in seconds before sensor detection is taken into account",
           "window_auto_open_threshold": "Recommended value: between 3 and 10. Leave empty if automatic window open detection is not used",
           "window_auto_close_threshold": "Recommended value: 0. Leave empty if automatic window open detection is not used",
@@ -141,7 +143,7 @@
       },
       "motion": {
         "title": "Motion management",
-        "description": "Motion sensor management. Preset can switch automatically depending on motion detection\nLeave corresponding entity_id empty if not used.\nmotion_preset and no_motion_preset should be set to the corresponding preset name",
+        "description": "Motion sensor management. Preset can switch automatically depending on motion detection\nmotion_preset and no_motion_preset should be set to the corresponding preset name",
         "data": {
           "motion_sensor_entity_id": "Motion sensor entity id",
           "motion_delay": "Activation delay",
@@ -161,7 +163,7 @@
       },
       "power": {
         "title": "Power management",
-        "description": "Power management attributes.\nGives the power and max power sensor of your home.\nThen specify the power consumption of the heater when on.\nAll sensors and device power should have the same unit (kW or W).\nLeave corresponding entity_id empty if not used.",
+        "description": "Power management attributes.\nGives the power and max power sensor of your home.\nThen specify the power consumption of the heater when on.\nAll sensors and device power should have the same unit (kW or W).",
         "data": {
           "power_sensor_entity_id": "Power",
           "max_power_sensor_entity_id": "Max power",
@@ -177,7 +179,7 @@
       },
       "presence": {
         "title": "Presence management",
-        "description": "Presence management attributes.\nGives the a presence sensor of your home (true is someone is present).\nThen specify either the preset to use when presence sensor is false or the offset in temperature to apply.\nIf preset is given, the offset will not be used.\nLeave corresponding entity_id empty if not used.",
+        "description": "Presence management attributes.\nGives the a presence sensor of your home (true is someone is present) and give the corresponding temperature preset setting.",
         "data": {
           "presence_sensor_entity_id": "Presence sensor",
           "eco_away_temp": "Eco preset",
@@ -254,6 +256,7 @@
           "temp_min": "Minimal temperature allowed",
           "temp_max": "Maximal temperature allowed",
           "device_power": "Device power",
+          "use_central_mode": "Enable the control by central entity (need central config)",
           "use_window_feature": "Use window detection",
           "use_motion_feature": "Use motion detection",
           "use_power_feature": "Use power management",
@@ -261,6 +264,7 @@
           "use_main_central_config": "Use central main configuration"
         },
         "data_description": {
+          "use_central_mode": "Check to enable the control of the VTherm with the select central_mode entities",
           "use_main_central_config": "Check to use the central main configuration. Uncheck to use a specific configuration for this VTherm",
           "external_temperature_sensor_entity_id": "Outdoor temperature sensor entity id. Not used if central configuration is selected"
         }
@@ -361,7 +365,7 @@
           "use_window_central_config": "Use central window configuration"
         },
         "data_description": {
-          "window_sensor_entity_id": "Leave empty if no window sensor should be used",
+          "window_sensor_entity_id": "Leave empty if no window sensor should be used and to use the automatic detection",
           "window_delay": "The delay in seconds before sensor detection is taken into account",
           "window_auto_open_threshold": "Recommended value: between 3 and 10. Leave empty if automatic window open detection is not used",
           "window_auto_close_threshold": "Recommended value: 0. Leave empty if automatic window open detection is not used",
@@ -371,7 +375,7 @@
       },
       "motion": {
         "title": "Motion - {name}",
-        "description": "Motion management. Preset can switch automatically depending of a motion detection\nLeave corresponding entity_id empty if not used.\nmotion_preset and no_motion_preset should be set to the corresponding preset name",
+        "description": "Motion management. Preset can switch automatically depending of a motion detection\nmotion_preset and no_motion_preset should be set to the corresponding preset name",
         "data": {
           "motion_sensor_entity_id": "Motion sensor entity id",
           "motion_delay": "Activation delay",
@@ -391,7 +395,7 @@
       },
       "power": {
         "title": "Power - {name}",
-        "description": "Power management attributes.\nGives the power and max power sensor of your home.\nThen specify the power consumption of the heater when on.\nAll sensors and device power should have the same unit (kW or W).\nLeave corresponding entity_id empty if not used.",
+        "description": "Power management attributes.\nGives the power and max power sensor of your home.\nThen specify the power consumption of the heater when on.\nAll sensors and device power should have the same unit (kW or W).",
         "data": {
           "power_sensor_entity_id": "Power",
           "max_power_sensor_entity_id": "Max power",
@@ -407,12 +411,13 @@
       },
       "presence": {
         "title": "Presence - {name}",
-        "description": "Presence management attributes.\nGives the a presence sensor of your home (true is someone is present).\nThen specify either the preset to use when presence sensor is false or the offset in temperature to apply.\nIf preset is given, the offset will not be used.\nLeave corresponding entity_id empty if not used.",
+        "description": "Presence management attributes.\nGives the a presence sensor of your home (true is someone is present) and give the corresponding temperature preset setting.",
         "data": {
           "presence_sensor_entity_id": "Presence sensor",
           "eco_away_temp": "Eco away preset",
           "comfort_away_temp": "Comfort away preset",
           "boost_away_temp": "Boost away preset",
+          "frost_away_temp": "Frost protection preset",
           "eco_ac_away_temp": "Eco away preset in AC mode",
           "comfort_ac_away_temp": "Comfort away preset in AC mode",
           "boost_ac_away_temp": "Boost away preset in AC mode",

custom_components/versatile_thermostat/thermostat_climate.py

@@ -136,6 +136,11 @@ class ThermostatOverClimate(BaseThermostat):
 
     async def _send_regulated_temperature(self, force=False):
         """Sends the regulated temperature to all underlying"""
+
+        if self.hvac_mode == HVACMode.OFF:
+            _LOGGER.debug("%s - don't send regulated temperature cause VTherm is off ")
+            return
+
         _LOGGER.info(
             "%s - Calling ThermostatClimate._send_regulated_temperature force=%s",
             self,
@@ -234,45 +239,45 @@ class ThermostatOverClimate(BaseThermostat):
             await self.async_set_fan_mode(self._auto_deactivated_fan_mode)
 
     @overrides
-    def post_init(self, entry_infos):
+    def post_init(self, config_entry):
         """Initialize the Thermostat"""
 
-        super().post_init(entry_infos)
+        super().post_init(config_entry)
         for climate in [
             CONF_CLIMATE,
             CONF_CLIMATE_2,
             CONF_CLIMATE_3,
             CONF_CLIMATE_4,
         ]:
-            if entry_infos.get(climate):
+            if config_entry.get(climate):
                 self._underlyings.append(
                     UnderlyingClimate(
                         hass=self._hass,
                         thermostat=self,
-                        climate_entity_id=entry_infos.get(climate),
+                        climate_entity_id=config_entry.get(climate),
                     )
                 )
 
         self.choose_auto_regulation_mode(
-            entry_infos.get(CONF_AUTO_REGULATION_MODE)
-            if entry_infos.get(CONF_AUTO_REGULATION_MODE) is not None
+            config_entry.get(CONF_AUTO_REGULATION_MODE)
+            if config_entry.get(CONF_AUTO_REGULATION_MODE) is not None
             else CONF_AUTO_REGULATION_NONE
         )
 
         self._auto_regulation_dtemp = (
-            entry_infos.get(CONF_AUTO_REGULATION_DTEMP)
-            if entry_infos.get(CONF_AUTO_REGULATION_DTEMP) is not None
+            config_entry.get(CONF_AUTO_REGULATION_DTEMP)
+            if config_entry.get(CONF_AUTO_REGULATION_DTEMP) is not None
             else 0.5
         )
         self._auto_regulation_period_min = (
-            entry_infos.get(CONF_AUTO_REGULATION_PERIOD_MIN)
-            if entry_infos.get(CONF_AUTO_REGULATION_PERIOD_MIN) is not None
+            config_entry.get(CONF_AUTO_REGULATION_PERIOD_MIN)
+            if config_entry.get(CONF_AUTO_REGULATION_PERIOD_MIN) is not None
             else 5
         )
 
         self._auto_fan_mode = (
-            entry_infos.get(CONF_AUTO_FAN_MODE)
-            if entry_infos.get(CONF_AUTO_FAN_MODE) is not None
+            config_entry.get(CONF_AUTO_FAN_MODE)
+            if config_entry.get(CONF_AUTO_FAN_MODE) is not None
             else CONF_AUTO_FAN_NONE
         )
 

custom_components/versatile_thermostat/thermostat_switch.py

@@ -48,9 +48,9 @@ class ThermostatOverSwitch(BaseThermostat):
     )
 
     # useless for now
-    # def __init__(self, hass: HomeAssistant, unique_id, name, entry_infos) -> None:
+    # def __init__(self, hass: HomeAssistant, unique_id, name, config_entry) -> None:
     #    """Initialize the thermostat over switch."""
-    #    super().__init__(hass, unique_id, name, entry_infos)
+    #    super().__init__(hass, unique_id, name, config_entry)
     _is_inversed: bool = None
 
     @property
@@ -72,10 +72,10 @@ class ThermostatOverSwitch(BaseThermostat):
             return None
 
     @overrides
-    def post_init(self, entry_infos):
+    def post_init(self, config_entry):
         """Initialize the Thermostat"""
 
-        super().post_init(entry_infos)
+        super().post_init(config_entry)
 
         self._prop_algorithm = PropAlgorithm(
             self._proportional_function,
@@ -85,13 +85,13 @@ class ThermostatOverSwitch(BaseThermostat):
             self._minimal_activation_delay,
         )
 
-        lst_switches = [entry_infos.get(CONF_HEATER)]
-        if entry_infos.get(CONF_HEATER_2):
-            lst_switches.append(entry_infos.get(CONF_HEATER_2))
-        if entry_infos.get(CONF_HEATER_3):
-            lst_switches.append(entry_infos.get(CONF_HEATER_3))
-        if entry_infos.get(CONF_HEATER_4):
-            lst_switches.append(entry_infos.get(CONF_HEATER_4))
+        lst_switches = [config_entry.get(CONF_HEATER)]
+        if config_entry.get(CONF_HEATER_2):
+            lst_switches.append(config_entry.get(CONF_HEATER_2))
+        if config_entry.get(CONF_HEATER_3):
+            lst_switches.append(config_entry.get(CONF_HEATER_3))
+        if config_entry.get(CONF_HEATER_4):
+            lst_switches.append(config_entry.get(CONF_HEATER_4))
 
         delta_cycle = self._cycle_min * 60 / len(lst_switches)
         for idx, switch in enumerate(lst_switches):
@@ -104,7 +104,7 @@ class ThermostatOverSwitch(BaseThermostat):
                 )
             )
 
-        self._is_inversed = entry_infos.get(CONF_INVERSE_SWITCH) is True
+        self._is_inversed = config_entry.get(CONF_INVERSE_SWITCH) is True
         self._should_relaunch_control_heating = False
 
     @overrides

custom_components/versatile_thermostat/thermostat_valve.py

@@ -3,7 +3,10 @@
 import logging
 from datetime import timedelta
 
-from homeassistant.helpers.event import async_track_state_change_event, async_track_time_interval
+from homeassistant.helpers.event import (
+    async_track_state_change_event,
+    async_track_time_interval,
+)
 from homeassistant.core import callback
 from homeassistant.components.climate import HVACMode
 
@@ -16,39 +19,53 @@ from .underlyings import UnderlyingValve
 
 _LOGGER = logging.getLogger(__name__)
 
+
 class ThermostatOverValve(BaseThermostat):
     """Representation of a class for a Versatile Thermostat over a Valve"""
 
-    _entity_component_unrecorded_attributes = BaseThermostat._entity_component_unrecorded_attributes.union(frozenset(
-        {
-            "is_over_valve", "underlying_valve_0", "underlying_valve_1",
-            "underlying_valve_2", "underlying_valve_3", "on_time_sec", "off_time_sec",
-            "cycle_min", "function", "tpi_coef_int", "tpi_coef_ext"
-        }))
+    _entity_component_unrecorded_attributes = (
+        BaseThermostat._entity_component_unrecorded_attributes.union(
+            frozenset(
+                {
+                    "is_over_valve",
+                    "underlying_valve_0",
+                    "underlying_valve_1",
+                    "underlying_valve_2",
+                    "underlying_valve_3",
+                    "on_time_sec",
+                    "off_time_sec",
+                    "cycle_min",
+                    "function",
+                    "tpi_coef_int",
+                    "tpi_coef_ext",
+                }
+            )
+        )
+    )
 
     # Useless for now
-    # def __init__(self, hass: HomeAssistant, unique_id, name, entry_infos) -> None:
+    # def __init__(self, hass: HomeAssistant, unique_id, name, config_entry) -> None:
     #    """Initialize the thermostat over switch."""
-    #    super().__init__(hass, unique_id, name, entry_infos)
+    #    super().__init__(hass, unique_id, name, config_entry)
 
     @property
     def is_over_valve(self) -> bool:
-        """ True if the Thermostat is over_valve"""
+        """True if the Thermostat is over_valve"""
         return True
 
     @property
     def valve_open_percent(self) -> int:
-        """ Gives the percentage of valve needed"""
+        """Gives the percentage of valve needed"""
         if self._hvac_mode == HVACMode.OFF:
             return 0
         else:
             return round(max(0, min(self.proportional_algorithm.on_percent, 1)) * 100)
 
     @overrides
-    def post_init(self, entry_infos):
-        """ Initialize the Thermostat"""
+    def post_init(self, config_entry):
+        """Initialize the Thermostat"""
 
-        super().post_init(entry_infos)
+        super().post_init(config_entry)
         self._prop_algorithm = PropAlgorithm(
             self._proportional_function,
             self._tpi_coef_int,
@@ -57,21 +74,17 @@ class ThermostatOverValve(BaseThermostat):
             self._minimal_activation_delay,
         )
 
-        lst_valves = [entry_infos.get(CONF_VALVE)]
-        if entry_infos.get(CONF_VALVE_2):
-            lst_valves.append(entry_infos.get(CONF_VALVE_2))
-        if entry_infos.get(CONF_VALVE_3):
-            lst_valves.append(entry_infos.get(CONF_VALVE_3))
-        if entry_infos.get(CONF_VALVE_4):
-            lst_valves.append(entry_infos.get(CONF_VALVE_4))
+        lst_valves = [config_entry.get(CONF_VALVE)]
+        if config_entry.get(CONF_VALVE_2):
+            lst_valves.append(config_entry.get(CONF_VALVE_2))
+        if config_entry.get(CONF_VALVE_3):
+            lst_valves.append(config_entry.get(CONF_VALVE_3))
+        if config_entry.get(CONF_VALVE_4):
+            lst_valves.append(config_entry.get(CONF_VALVE_4))
 
         for _, valve in enumerate(lst_valves):
             self._underlyings.append(
-                UnderlyingValve(
-                    hass=self._hass,
-                    thermostat=self,
-                    valve_entity_id=valve
-                )
+                UnderlyingValve(hass=self._hass, thermostat=self, valve_entity_id=valve)
             )
 
         self._should_relaunch_control_heating = False
@@ -89,7 +102,7 @@ class ThermostatOverValve(BaseThermostat):
                 async_track_state_change_event(
                     self.hass, [valve.entity_id], self._async_valve_changed
                 )
-        )
+            )
 
         # Start the control_heating
         # starts a cycle
@@ -107,29 +120,34 @@ class ThermostatOverValve(BaseThermostat):
         This method just log the change. It changes nothing to avoid loops.
         """
         new_state = event.data.get("new_state")
-        _LOGGER.debug("%s - _async_valve_changed new_state is %s", self, new_state.state)
+        _LOGGER.debug(
+            "%s - _async_valve_changed new_state is %s", self, new_state.state
+        )
 
     @overrides
     def update_custom_attributes(self):
-        """ Custom attributes """
+        """Custom attributes"""
         super().update_custom_attributes()
-        self._attr_extra_state_attributes["valve_open_percent"] = self.valve_open_percent
+        self._attr_extra_state_attributes[
+            "valve_open_percent"
+        ] = self.valve_open_percent
         self._attr_extra_state_attributes["is_over_valve"] = self.is_over_valve
-        self._attr_extra_state_attributes["underlying_valve_0"] = (
-                self._underlyings[0].entity_id)
+        self._attr_extra_state_attributes["underlying_valve_0"] = self._underlyings[
+            0
+        ].entity_id
         self._attr_extra_state_attributes["underlying_valve_1"] = (
-                self._underlyings[1].entity_id if len(self._underlyings) > 1 else None
-            )
+            self._underlyings[1].entity_id if len(self._underlyings) > 1 else None
+        )
         self._attr_extra_state_attributes["underlying_valve_2"] = (
-                self._underlyings[2].entity_id if len(self._underlyings) > 2 else None
-            )
+            self._underlyings[2].entity_id if len(self._underlyings) > 2 else None
+        )
         self._attr_extra_state_attributes["underlying_valve_3"] = (
-                self._underlyings[3].entity_id if len(self._underlyings) > 3 else None
-            )
+            self._underlyings[3].entity_id if len(self._underlyings) > 3 else None
+        )
 
         self._attr_extra_state_attributes[
-                "on_percent"
-            ] = self._prop_algorithm.on_percent
+            "on_percent"
+        ] = self._prop_algorithm.on_percent
         self._attr_extra_state_attributes[
             "on_time_sec"
         ] = self._prop_algorithm.on_time_sec
@@ -162,9 +180,7 @@ class ThermostatOverValve(BaseThermostat):
         )
 
         for under in self._underlyings:
-            under.set_valve_open_percent(
-                self._prop_algorithm.on_percent
-            )
+            under.set_valve_open_percent()
 
         self.update_custom_attributes()
         self.async_write_ha_state()
@@ -185,4 +201,4 @@ class ThermostatOverValve(BaseThermostat):
             self,
             added_energy,
             self._total_energy,
-        )
+        )

custom_components/versatile_thermostat/translations/en.json

@@ -24,6 +24,7 @@
           "temp_min": "Minimal temperature allowed",
           "temp_max": "Maximal temperature allowed",
           "device_power": "Device power",
+          "use_central_mode": "Enable the control by central entity (need central config)",
           "use_window_feature": "Use window detection",
           "use_motion_feature": "Use motion detection",
           "use_power_feature": "Use power management",
@@ -31,6 +32,7 @@
           "use_main_central_config": "Use central main configuration"
         },
         "data_description": {
+          "use_central_mode": "Check to enable the control of the VTherm with the select central_mode entities",
           "use_main_central_config": "Check to use the central main configuration. Uncheck to use a specific main configuration for this VTherm",
           "external_temperature_sensor_entity_id": "Outdoor temperature sensor entity id. Not used if central configuration is selected"
         }
@@ -121,7 +123,7 @@
       },
       "window": {
         "title": "Window management",
-        "description": "Open window management.\nLeave corresponding entity_id empty if not used\nYou can also configure automatic window open detection based on temperature decrease",
+        "description": "Open window management.\nYou can also configure automatic window open detection based on temperature decrease",
         "data": {
           "window_sensor_entity_id": "Window sensor entity id",
           "window_delay": "Window sensor delay (seconds)",
@@ -131,7 +133,7 @@
           "use_window_central_config": "Use central window configuration"
         },
         "data_description": {
-          "window_sensor_entity_id": "Leave empty if no window sensor should be used",
+          "window_sensor_entity_id": "Leave empty if no window sensor should be used and to use the automatic detection",
           "window_delay": "The delay in seconds before sensor detection is taken into account",
           "window_auto_open_threshold": "Recommended value: between 3 and 10. Leave empty if automatic window open detection is not used",
           "window_auto_close_threshold": "Recommended value: 0. Leave empty if automatic window open detection is not used",
@@ -141,7 +143,7 @@
       },
       "motion": {
         "title": "Motion management",
-        "description": "Motion sensor management. Preset can switch automatically depending on motion detection\nLeave corresponding entity_id empty if not used.\nmotion_preset and no_motion_preset should be set to the corresponding preset name",
+        "description": "Motion sensor management. Preset can switch automatically depending on motion detection\nmotion_preset and no_motion_preset should be set to the corresponding preset name",
         "data": {
           "motion_sensor_entity_id": "Motion sensor entity id",
           "motion_delay": "Activation delay",
@@ -161,7 +163,7 @@
       },
       "power": {
         "title": "Power management",
-        "description": "Power management attributes.\nGives the power and max power sensor of your home.\nThen specify the power consumption of the heater when on.\nAll sensors and device power should have the same unit (kW or W).\nLeave corresponding entity_id empty if not used.",
+        "description": "Power management attributes.\nGives the power and max power sensor of your home.\nThen specify the power consumption of the heater when on.\nAll sensors and device power should have the same unit (kW or W).",
         "data": {
           "power_sensor_entity_id": "Power",
           "max_power_sensor_entity_id": "Max power",
@@ -177,7 +179,7 @@
       },
       "presence": {
         "title": "Presence management",
-        "description": "Presence management attributes.\nGives the a presence sensor of your home (true is someone is present).\nThen specify either the preset to use when presence sensor is false or the offset in temperature to apply.\nIf preset is given, the offset will not be used.\nLeave corresponding entity_id empty if not used.",
+        "description": "Presence management attributes.\nGives the a presence sensor of your home (true is someone is present) and give the corresponding temperature preset setting.",
         "data": {
           "presence_sensor_entity_id": "Presence sensor",
           "eco_away_temp": "Eco preset",
@@ -254,6 +256,7 @@
           "temp_min": "Minimal temperature allowed",
           "temp_max": "Maximal temperature allowed",
           "device_power": "Device power",
+          "use_central_mode": "Enable the control by central entity (need central config)",
           "use_window_feature": "Use window detection",
           "use_motion_feature": "Use motion detection",
           "use_power_feature": "Use power management",
@@ -261,6 +264,7 @@
           "use_main_central_config": "Use central main configuration"
         },
         "data_description": {
+          "use_central_mode": "Check to enable the control of the VTherm with the select central_mode entities",
           "use_main_central_config": "Check to use the central main configuration. Uncheck to use a specific configuration for this VTherm",
           "external_temperature_sensor_entity_id": "Outdoor temperature sensor entity id. Not used if central configuration is selected"
         }
@@ -361,7 +365,7 @@
           "use_window_central_config": "Use central window configuration"
         },
         "data_description": {
-          "window_sensor_entity_id": "Leave empty if no window sensor should be used",
+          "window_sensor_entity_id": "Leave empty if no window sensor should be used and to use the automatic detection",
           "window_delay": "The delay in seconds before sensor detection is taken into account",
           "window_auto_open_threshold": "Recommended value: between 3 and 10. Leave empty if automatic window open detection is not used",
           "window_auto_close_threshold": "Recommended value: 0. Leave empty if automatic window open detection is not used",
@@ -371,7 +375,7 @@
       },
       "motion": {
         "title": "Motion - {name}",
-        "description": "Motion management. Preset can switch automatically depending of a motion detection\nLeave corresponding entity_id empty if not used.\nmotion_preset and no_motion_preset should be set to the corresponding preset name",
+        "description": "Motion management. Preset can switch automatically depending of a motion detection\nmotion_preset and no_motion_preset should be set to the corresponding preset name",
         "data": {
           "motion_sensor_entity_id": "Motion sensor entity id",
           "motion_delay": "Activation delay",
@@ -391,7 +395,7 @@
       },
       "power": {
         "title": "Power - {name}",
-        "description": "Power management attributes.\nGives the power and max power sensor of your home.\nThen specify the power consumption of the heater when on.\nAll sensors and device power should have the same unit (kW or W).\nLeave corresponding entity_id empty if not used.",
+        "description": "Power management attributes.\nGives the power and max power sensor of your home.\nThen specify the power consumption of the heater when on.\nAll sensors and device power should have the same unit (kW or W).",
         "data": {
           "power_sensor_entity_id": "Power",
           "max_power_sensor_entity_id": "Max power",
@@ -407,12 +411,13 @@
       },
       "presence": {
         "title": "Presence - {name}",
-        "description": "Presence management attributes.\nGives the a presence sensor of your home (true is someone is present).\nThen specify either the preset to use when presence sensor is false or the offset in temperature to apply.\nIf preset is given, the offset will not be used.\nLeave corresponding entity_id empty if not used.",
+        "description": "Presence management attributes.\nGives the a presence sensor of your home (true is someone is present) and give the corresponding temperature preset setting.",
         "data": {
           "presence_sensor_entity_id": "Presence sensor",
           "eco_away_temp": "Eco away preset",
           "comfort_away_temp": "Comfort away preset",
           "boost_away_temp": "Boost away preset",
+          "frost_away_temp": "Frost protection preset",
           "eco_ac_away_temp": "Eco away preset in AC mode",
           "comfort_ac_away_temp": "Comfort away preset in AC mode",
           "boost_ac_away_temp": "Boost away preset in AC mode",

custom_components/versatile_thermostat/translations/fr.json

@@ -24,6 +24,7 @@
           "temp_min": "Température minimale permise",
           "temp_max": "Température maximale permise",
           "device_power": "Puissance de l'équipement",
+          "use_central_mode": "Autoriser le controle par une entity centrale ('nécessite une config. centrale`)",
           "use_window_feature": "Avec détection des ouvertures",
           "use_motion_feature": "Avec détection de mouvement",
           "use_power_feature": "Avec gestion de la puissance",
@@ -31,7 +32,8 @@
           "use_main_central_config": "Utiliser la configuration centrale principale"
         },
         "data_description": {
-          "external_temperature_sensor_entity_id": "Entity id du capteur de température extérieure. N'est pas utilisé si la configuration centrale est utilisée",
+          "use_central_mode": "Cochez pour autoriser le contrôle du VTherm par la liste déroulante 'central_mode' de l'entité configuration centrale",
+          "external_temperature_sensor_entity_id": "Entity id du capteur de température extérieure.",
           "use_main_central_config": "Cochez pour utiliser la configuration centrale principale. Décochez et saisissez les attributs pour utiliser une configuration spécifique principale"
         }
       },
@@ -121,7 +123,7 @@
       },
       "window": {
         "title": "Gestion d'une ouverture",
-        "description": "Coupe le radiateur si l'ouverture est ouverte.\nLaissez l'entity id vide si non utilisé.",
+        "description": "Coupe le radiateur si l'ouverture est ouverte.\nLaissez l'id d'entité vide pour utiliser la détection automatique.",
         "data": {
           "window_sensor_entity_id": "Détecteur d'ouverture (entity id)",
           "window_delay": "Délai avant extinction (secondes)",
@@ -131,7 +133,7 @@
           "use_window_central_config": "Utiliser la configuration centrale des ouvertures"
         },
         "data_description": {
-          "window_sensor_entity_id": "Laissez vide si vous n'avez de détecteur",
+          "window_sensor_entity_id": "Laissez vide si vous n'avez de détecteur et pour utiliser la détection automatique",
           "window_delay": "Le délai (en secondes) avant que le changement du détecteur soit pris en compte",
           "window_auto_open_threshold": "Valeur recommandée: entre 3 et 10. Laissez vide si vous n'utilisez pas la détection automatique",
           "window_auto_close_threshold": "Valeur recommandée: 0. Laissez vide si vous n'utilisez pas la détection automatique",
@@ -141,17 +143,17 @@
       },
       "motion": {
         "title": "Gestion de la détection de mouvement",
-        "description": "Le preset s'ajuste automatiquement si un mouvement est détecté\nLaissez l'entity id vide si non utilisé.\n'Preset mouvement' et 'Preset sans mouvement' doivent être choisis avec les preset à utiliser.",
+        "description": "Le preset s'ajuste automatiquement si un mouvement est détecté\n'Preset mouvement' et 'Preset sans mouvement' doivent être choisis avec les preset à utiliser.",
         "data": {
           "motion_sensor_entity_id": "Détecteur de mouvement",
           "motion_delay": "Délai d'activation",
           "motion_off_delay": "Délai de désactivation",
           "motion_preset": "Preset si mouvement",
-          "no_motion_preset": "Preset si pas de mouvement",
+          "no_motion_preset": "Preset sans mouvement",
           "use_motion_central_config": "Utiliser la condfiguration centrale du mouvement"
         },
         "data_description": {
-          "motion_sensor_entity_id": "Détecteur de mouvement entity id",
+          "motion_sensor_entity_id": "Id d'entité du détecteur de mouvement",
           "motion_delay": "Délai avant activation lorsqu'un mouvement est détecté (secondss)",
           "motion_off_delai": "Délai avant désactivation lorsqu'aucun mouvement n'est détecté (secondes)",
           "motion_preset": "Preset à utiliser si mouvement détecté",
@@ -177,7 +179,7 @@
       },
       "presence": {
         "title": "Gestion de la présence",
-        "description": "Donnez un capteur de présence (true si quelqu'un est présent).\nEnsuite spécifiez soit un preset à utiliser, soit un offset de température à appliquer lorsque personne n'est présent.\nSi le préset est utilisé, l'offset ne sera pas pris en compte.\nLaissez l'entity id vide si la gestion de la présence est non utilisée.",
+        "description": "Donnez un capteur de présence (true si quelqu'un est présent) et les températures cibles à utiliser en cas d'absence.",
         "data": {
           "presence_sensor_entity_id": "Capteur de présence",
           "eco_away_temp": "preset Eco",
@@ -190,7 +192,7 @@
           "use_presence_central_config": "Utiliser la configuration centrale de la présence"
         },
         "data_description": {
-          "presence_sensor_entity_id": "Capteur de présence entity id (true si quelqu'un est présent)",
+          "presence_sensor_entity_id": "Id d'entité du capteur de présence",
           "eco_away_temp": "Température en preset Eco en cas d'absence",
           "comfort_away_temp": "Température en preset Comfort en cas d'absence",
           "boost_away_temp": "Température en preset Boost en cas d'absence",
@@ -254,6 +256,7 @@
           "temp_min": "Température minimale permise",
           "temp_max": "Température maximale permise",
           "device_power": "Puissance de l'équipement",
+          "use_central_mode": "Autoriser le controle par une entity centrale ('nécessite une config. centrale`)",
           "use_window_feature": "Avec détection des ouvertures",
           "use_motion_feature": "Avec détection de mouvement",
           "use_power_feature": "Avec gestion de la puissance",
@@ -261,6 +264,7 @@
           "use_main_central_config": "Utiliser la configuration centrale"
         },
         "data_description": {
+          "use_central_mode": "Cochez pour autoriser le contrôle du VTherm par la liste déroulante 'central_mode' de l'entité configuration centrale",
           "use_main_central_config": "Cochez pour utiliser la configuration centrale. Décochez et saisissez les attributs pour utiliser une configuration spécifique",
           "external_temperature_sensor_entity_id": "Entity id du capteur de température extérieure. N'est pas utilisé si la configuration centrale est utilisée"
         }
@@ -345,7 +349,7 @@
       },
       "window": {
         "title": "Ouverture - {name}",
-        "description": "Gestion des ouvertures. Coupe le radiateur si l'ouverture est ouverte.",
+        "description": "Coupe le radiateur si l'ouverture est ouverte.\nLaissez l'id d'entité vide pour utiliser la détection automatique.",
         "data": {
           "window_sensor_entity_id": "Détecteur d'ouverture (entity id)",
           "window_delay": "Délai avant extinction (secondes)",
@@ -355,7 +359,7 @@
           "use_window_central_config": "Utiliser la configuration centrale des ouvertures"
         },
         "data_description": {
-          "window_sensor_entity_id": "Laissez vide si vous n'avez de détecteur",
+          "window_sensor_entity_id": "Laissez vide si vous n'avez de détecteur et pour utiliser la détection automatique",
           "window_delay": "Le délai (en secondes) avant que le changement du détecteur soit pris en compte",
           "window_auto_open_threshold": "Valeur recommandée: entre 3 et 10. Laissez vide si vous n'utilisez pas la détection automatique",
           "window_auto_close_threshold": "Valeur recommandée: 0. Laissez vide si vous n'utilisez pas la détection automatique",
@@ -371,11 +375,11 @@
           "motion_delay": "Délai d'activation",
           "motion_off_delay": "Délai de désactivation",
           "motion_preset": "Preset si mouvement",
-          "no_motion_preset": "Preset si pas de mouvement",
+          "no_motion_preset": "Preset sans mouvement",
           "use_motion_central_config": "Utiliser la condfiguration centrale du mouvement"
         },
         "data_description": {
-          "motion_sensor_entity_id": "Détecteur de mouvement entity id",
+          "motion_sensor_entity_id": "Id d'entité du détecteur de mouvement",
           "motion_delay": "Délai avant activation lorsqu'un mouvement est détecté (secondss)",
           "motion_off_delai": "Délai avant désactivation lorsqu'aucun mouvement n'est détecté (secondes)",
           "motion_preset": "Preset à utiliser si mouvement détecté",
@@ -401,7 +405,7 @@
       },
       "presence": {
         "title": "Présence - {name}",
-        "description": "Gestion de la présence. Le capteur de présence doit être true ou home si quelqu'un est présent.",
+        "description": "Donnez un capteur de présence (true si quelqu'un est présent) et les températures cibles à utiliser en cas d'absence.",
         "data": {
           "presence_sensor_entity_id": "Capteur de présence",
           "eco_away_temp": "preset Eco",
@@ -414,7 +418,7 @@
           "use_presence_central_config": "Utiliser la configuration centrale de la présence"
         },
         "data_description": {
-          "presence_sensor_entity_id": "Capteur de présence entity id (true si quelqu'un est présent)",
+          "presence_sensor_entity_id": "Id d'entité du capteur de présence",
           "eco_away_temp": "Température en preset Eco en cas d'absence",
           "comfort_away_temp": "Température en preset Comfort en cas d'absence",
           "boost_away_temp": "Température en preset Boost en cas d'absence",

custom_components/versatile_thermostat/translations/sk.json

@@ -4,6 +4,15 @@
     "flow_title": "Všestranná konfigurácia termostatu",
     "step": {
       "user": {
+        "title": "Typ všestranného termostatu",
+        "data": {
+          "thermostat_type": "Typ termostatu"
+        },
+        "data_description": {
+          "thermostat_type": "Len jeden centrálny typ konfigurácie je možný"
+        }
+      },
+      "main": {
         "title": "Pridajte nový všestranný termostat",
         "description": "Hlavné povinné atribúty",
         "data": {
@@ -15,10 +24,17 @@
           "temp_min": "Minimálna povolená teplota",
           "temp_max": "Maximálna povolená teplota",
           "device_power": "Napájanie zariadenia",
+          "use_central_mode": "Povoliť ovládanie centrálnou entitou (potrebná centrálna konfigurácia)",
           "use_window_feature": "Použite detekciu okien",
           "use_motion_feature": "Použite detekciu pohybu",
           "use_power_feature": "Použite správu napájania",
-          "use_presence_feature": "Použite detekciu prítomnosti"
+          "use_presence_feature": "Použite detekciu prítomnosti",
+          "use_main_central_config": "Použite centrálnu hlavnú konfiguráciu"
+        },
+        "data_description": {
+          "use_central_mode": "Zaškrtnutím povolíte ovládanie VTherm pomocou vybraných entít central_mode",
+          "use_main_central_config": "Začiarknite, ak chcete použiť centrálnu hlavnú konfiguráciu. Zrušte začiarknutie, ak chcete použiť špecifickú hlavnú konfiguráciu pre tento VTherm",
+          "external_temperature_sensor_entity_id": "ID entity snímača vonkajšej teploty. Nepoužíva sa, ak je zvolená centrálna konfigurácia"
         }
       },
       "type": {
@@ -39,11 +55,11 @@
           "valve_entity2_id": "2. ventil číslo",
           "valve_entity3_id": "3. ventil číslo",
           "valve_entity4_id": "4. ventil číslo",
-          "auto_regulation_mode": "Self-regulation",
-          "auto_regulation_dtemp": "Regulation threshold",
-          "auto_regulation_periode_min": "Regulation minimal period",
-          "inverse_switch_command": "Inverse switch command",
-          "auto_fan_mode": " Auto fan mode"
+          "auto_regulation_mode": "Samoregulácia",
+          "auto_regulation_dtemp": "Regulačný prah",
+          "auto_regulation_periode_min": "Regulačné minimálne obdobie",
+          "inverse_switch_command": "Inverzný prepínací príkaz",
+          "auto_fan_mode": "Režim automatického ventilátora"
         },
         "data_description": {
           "heater_entity_id": "ID entity povinného ohrievača",
@@ -60,11 +76,11 @@
           "valve_entity2_id": "2. ventil číslo entity id",
           "valve_entity3_id": "3. ventil číslo entity id",
           "valve_entity4_id": "4. ventil číslo entity id",
-          "auto_regulation_mode": "Auto adjustment of the target temperature",
-          "auto_regulation_dtemp": "The threshold in ° under which the temperature change will not be send",
-          "auto_regulation_periode_min": "Duration in minutes between two regulation update",
-          "inverse_switch_command": "For switch with pilot wire and diode you may need to inverse the command",
-          "auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
+          "auto_regulation_mode": "Automatické nastavenie cieľovej teploty",
+          "auto_regulation_dtemp": "Hranica v °, pod ktorou sa zmena teploty neodošle",
+          "auto_regulation_periode_min": "Trvanie v minútach medzi dvoma aktualizáciami predpisov",
+          "inverse_switch_command": "V prípade spínača s pilotným vodičom a diódou možno budete musieť príkaz invertovať",
+          "auto_fan_mode": "Automaticky aktivujte ventilátor, keď je potrebné veľké vykurovanie/chladenie"
         }
       },
       "tpi": {
@@ -72,7 +88,13 @@
         "description": "Časovo proporcionálne integrálne atribúty",
         "data": {
           "tpi_coef_int": "Koeficient na použitie pre vnútornú teplotnú deltu",
-          "tpi_coef_ext": "Koeficient na použitie pre deltu vonkajšej teploty"
+          "tpi_coef_ext": "Koeficient na použitie pre deltu vonkajšej teploty",
+          "use_tpi_central_config": "Použite centrálnu konfiguráciu TPI"
+        },
+        "data_description": {
+          "tpi_coef_int": "Koeficient na použitie pre vnútornú teplotnú deltu",
+          "tpi_coef_ext": "Koeficient na použitie pre deltu vonkajšej teploty",
+          "use_tpi_central_config": "Začiarknite, ak chcete použiť centrálnu konfiguráciu TPI. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu TPI pre tento VTherm"
         }
       },
       "presets": {
@@ -85,7 +107,18 @@
           "frost_temp": "Teplota v prednastavení Frost protection",
           "eco_ac_temp": "Teplota v režime Eco prednastavená pre režim AC",
           "comfort_ac_temp": "Teplota v režime Comfort je prednastavená pre režim AC",
-          "boost_ac_temp": "Prednastavená teplota v režime Boost pre režim AC"
+          "boost_ac_temp": "Prednastavená teplota v režime Boost pre režim AC",
+          "use_presets_central_config": "Použite konfiguráciu centrálnych predvolieb"
+        },
+        "data_description": {
+          "eco_temp": "Teplota v predvoľbe Eco",
+          "comfort_temp": "Prednastavená teplota v komfortnom režime",
+          "boost_temp": "Teplota v prednastavení Boost",
+          "frost_temp": "Teplota v prednastavenej ochrane proti mrazu",
+          "eco_ac_temp": "Teplota v režime Eco prednastavená pre režim AC",
+          "comfort_ac_temp": "Teplota v režime Comfort je prednastavená pre režim AC",
+          "boost_ac_temp": "Prednastavená teplota v režime Boost pre režim AC",
+          "use_presets_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálnych predvolieb. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu predvolieb pre tento VTherm"
         }
       },
       "window": {
@@ -96,14 +129,16 @@
           "window_delay": "Oneskorenie snímača okna (sekundy)",
           "window_auto_open_threshold": "Prah poklesu teploty pre automatickú detekciu otvoreného okna (v °/hodina)",
           "window_auto_close_threshold": "Prahová hodnota zvýšenia teploty pre koniec automatickej detekcie (v °/hodina)",
-          "window_auto_max_duration": "Maximálne trvanie automatickej detekcie otvoreného okna (v min)"
+          "window_auto_max_duration": "Maximálne trvanie automatickej detekcie otvoreného okna (v min)",
+          "use_window_central_config": "Použite centrálnu konfiguráciu okna"
         },
         "data_description": {
           "window_sensor_entity_id": "Nechajte prázdne, ak nemáte použiť žiadny okenný senzor",
           "window_delay": "Zohľadňuje sa oneskorenie v sekundách pred detekciou snímača",
           "window_auto_open_threshold": "Odporúčaná hodnota: medzi 3 a 10. Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
           "window_auto_close_threshold": "Odporúčaná hodnota: 0. Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
-          "window_auto_max_duration": "Odporúčaná hodnota: 60 (jedna hodina). Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne"
+          "window_auto_max_duration": "Odporúčaná hodnota: 60 (jedna hodina). Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
+          "use_window_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálneho okna. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu okna pre tento VTherm"
         }
       },
       "motion": {
@@ -114,14 +149,16 @@
           "motion_delay": "Oneskorenie aktivácie",
           "motion_off_delay": "Oneskorenie deaktivácie",
           "motion_preset": "Prednastavený pohyb",
-          "no_motion_preset": "Žiadna predvoľba pohybu"
+          "no_motion_preset": "Žiadna predvoľba pohybu",
+          "use_motion_central_config": "Použite centrálnu konfiguráciu pohybu"
         },
         "data_description": {
           "motion_sensor_entity_id": "ID entity snímača pohybu",
           "motion_delay": "Oneskorenie aktivácie pohybu (sekundy)",
           "motion_off_delay": "Oneskorenie deaktivácie pohybu (sekundy)",
           "motion_preset": "Prednastavené na použitie pri detekcii pohybu",
-          "no_motion_preset": "Prednastavené na použitie, keď nie je detekovaný žiadny pohyb"
+          "no_motion_preset": "Prednastavené na použitie, keď nie je detekovaný žiadny pohyb",
+          "use_motion_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálneho pohybu. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu pohybu pre tento VTherm"
         }
       },
       "power": {
@@ -130,7 +167,14 @@
         "data": {
           "power_sensor_entity_id": "ID entity snímača výkonu",
           "max_power_sensor_entity_id": "ID entity snímača maximálneho výkonu",
-          "power_temp": "Teplota pre zníženie výkonu"
+          "power_temp": "Teplota pre zníženie výkonu",
+          "use_power_central_config": "Použite centrálnu konfiguráciu napájania"
+        },
+        "data_description": {
+          "power_sensor_entity_id": "ID entity snímača výkonu",
+          "max_power_sensor_entity_id": "ID entity snímača maximálneho výkonu",
+          "power_temp": "Teplota pre zníženie výkonu",
+          "use_power_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálneho napájania. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu napájania pre tento VTherm"
         }
       },
       "presence": {
@@ -144,7 +188,19 @@
           "frost_away_temp": "Prednastavená teplota v režime Frost protection, keď nie je prítomný",
           "eco_ac_away_temp": "Teplota v prednastavenej Eco, keď nie je prítomná v režime AC",
           "comfort_ac_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný v režime AC",
-          "boost_ac_away_temp": "Teplota v prednastavenom Boost, keď nie je prítomný v režime AC"
+          "boost_ac_away_temp": "Teplota v prednastavenom Boost, keď nie je prítomný v režime AC",
+          "use_presence_central_config": "Použite centrálnu konfiguráciu prítomnosti"
+        },
+        "data_description": {
+          "presence_sensor_entity_id": "ID entity senzora prítomnosti",
+          "eco_away_temp": "Teplota v prednastavenej Eco, keď nie je žiadna prítomnosť",
+          "comfort_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný",
+          "boost_away_temp": "Prednastavená teplota v režime Boost, keď nie je prítomný",
+          "frost_away_temp": "Teplota v Prednastavená ochrana pred mrazom, keď nie je prítomný",
+          "eco_ac_away_temp": "Teplota v prednastavenej Eco, keď nie je prítomná v režime AC",
+          "comfort_ac_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný v režime AC",
+          "boost_ac_away_temp": "Teplota v prednastavenom Boost, keď nie je prítomný v režime AC",
+          "use_presence_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálnej prítomnosti. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu prítomnosti pre tento VTherm"
         }
       },
       "advanced": {
@@ -154,20 +210,23 @@
           "minimal_activation_delay": "Minimálne oneskorenie aktivácie",
           "security_delay_min": "Bezpečnostné oneskorenie (v minútach)",
           "security_min_on_percent": "Minimálne percento výkonu na aktiváciu bezpečnostného režimu",
-          "security_default_on_percent": "Percento výkonu na použitie v bezpečnostnom režime"
+          "security_default_on_percent": "Percento výkonu na použitie v bezpečnostnom režime",
+          "use_advanced_central_config": "Použite centrálnu rozšírenú konfiguráciu"
         },
         "data_description": {
           "minimal_activation_delay": "Oneskorenie v sekundách, pri ktorom sa zariadenie neaktivuje",
           "security_delay_min": "Maximálne povolené oneskorenie v minútach medzi dvoma meraniami teploty. Po uplynutí tohto oneskorenia sa termostat prepne do bezpečnostného vypnutého stavu",
           "security_min_on_percent": "Minimálna percentuálna hodnota ohrevu pre aktiváciu prednastavenej bezpečnosti. Pod týmto percentom výkonu termostat neprejde do prednastavenia zabezpečenia",
-          "security_default_on_percent": "Predvolená percentuálna hodnota vykurovacieho výkonu v bezpečnostnej predvoľbe. Nastavte na 0, ak chcete vypnúť ohrievač v zabezpečenom stave"
+          "security_default_on_percent": "Predvolená percentuálna hodnota vykurovacieho výkonu v bezpečnostnej predvoľbe. Nastavte na 0, ak chcete vypnúť ohrievač v zabezpečenom stave",
+          "use_advanced_central_config": "Začiarknite, ak chcete použiť centrálnu rozšírenú konfiguráciu. Zrušte začiarknutie, ak chcete použiť špecifickú rozšírenú konfiguráciu pre tento VTherm"
         }
       }
     },
     "error": {
       "unknown": "Neočakávaná chyba",
       "unknown_entity": "Neznáme ID entity",
-      "window_open_detection_method": "Mala by sa použiť iba jedna metóda detekcie otvoreného okna. Použite senzor alebo automatickú detekciu cez teplotný prah, ale nie oboje"
+      "window_open_detection_method": "Mala by sa použiť iba jedna metóda detekcie otvoreného okna. Použite senzor alebo automatickú detekciu cez teplotný prah, ale nie oboje",
+      "no_central_config": "Nemôžete zaškrtnúť „použiť centrálnu konfiguráciu“, pretože sa nenašla žiadna centrálna konfigurácia. Aby ste ho mohli používať, musíte si vytvoriť všestranný termostat typu „Central Configuration“."
     },
     "abort": {
       "already_configured": "Zariadenie je už nakonfigurované"
@@ -177,7 +236,16 @@
     "flow_title": "Všestranná konfigurácia termostatu",
     "step": {
       "user": {
-        "title": "Pridajte nový všestranný termostat",
+        "title": "Typ - {name}",
+        "data": {
+          "thermostat_type": "Typ termostatu"
+        },
+        "data_description": {
+          "thermostat_type": "Je možný len jeden centrálny typ konfigurácie"
+        }
+      },
+      "main": {
+        "title": "Hlavný - {name}",
         "description": "Hlavné povinné atribúty",
         "data": {
           "name": "Názov",
@@ -188,14 +256,21 @@
           "temp_min": "Minimálna povolená teplota",
           "temp_max": "Maximálna povolená teplota",
           "device_power": "Výkon zariadenia (kW)",
+          "use_central_mode": "Povoliť ovládanie centrálnou entitou (potrebná centrálna konfigurácia)",
           "use_window_feature": "Použite detekciu okien",
           "use_motion_feature": "Použite detekciu pohybu",
           "use_power_feature": "Použite správu napájania",
-          "use_presence_feature": "Použite detekciu prítomnosti"
+          "use_presence_feature": "Použite detekciu prítomnosti",
+          "use_main_central_config": "Použite centrálnu hlavnú konfiguráciu"
+        },
+        "data_description": {
+          "use_central_mode": "Zaškrtnutím povolíte ovládanie VTherm pomocou vybraných entít central_mode",
+          "use_main_central_config": "Začiarknite, ak chcete použiť centrálnu hlavnú konfiguráciu. Ak chcete použiť špecifickú konfiguráciu pre tento VTherm, zrušte začiarknutie",
+          "external_temperature_sensor_entity_id": "ID entity snímača vonkajšej teploty. Nepoužíva sa, ak je zvolená centrálna konfigurácia"
         }
       },
       "type": {
-        "title": "Prepojené entity",
+        "title": "Prepojené entity - {name}",
         "description": "Atribúty prepojených entít",
         "data": {
           "heater_entity_id": "Spínač ohrievača",
@@ -212,11 +287,11 @@
           "valve_entity2_id": "2. ventil číslo",
           "valve_entity3_id": "3. ventil číslo",
           "valve_entity4_id": "4. ventil číslo",
-          "auto_regulation_mode": "Self-regulation",
-          "auto_regulation_dtemp": "Regulation threshold",
-          "auto_regulation_periode_min": "Regulation minimal period",
-          "inverse_switch_command": "Inverse switch command",
-          "auto_fan_mode": " Auto fan mode"
+          "auto_regulation_mode": "Samoregulácia",
+          "auto_regulation_dtemp": "Regulačný prah",
+          "auto_regulation_periode_min": "Regulačné minimálne obdobie",
+          "inverse_switch_command": "Inverzný prepínací príkaz",
+          "auto_fan_mode": "Režim automatického ventilátora"
         },
         "data_description": {
           "heater_entity_id": "ID entity povinného ohrievača",
@@ -233,23 +308,29 @@
           "valve_entity2_id": "2. ventil číslo entity id",
           "valve_entity3_id": "3. ventil číslo entity id",
           "valve_entity4_id": "4. ventil číslo entity id",
-          "auto_regulation_mode": "Auto adjustment of the target temperature",
-          "auto_regulation_dtemp": "The threshold in ° under which the temperature change will not be send",
-          "auto_regulation_periode_min": "Duration in minutes between two regulation update",
-          "inverse_switch_command": "For switch with pilot wire and diode you may need to inverse the command",
-          "auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
+          "auto_regulation_mode": "Automatické nastavenie cieľovej teploty",
+          "auto_regulation_dtemp": "Hranica v °, pod ktorou sa zmena teploty neodošle",
+          "auto_regulation_periode_min": "Trvanie v minútach medzi dvoma aktualizáciami predpisov",
+          "inverse_switch_command": "V prípade spínača s pilotným vodičom a diódou možno budete musieť príkaz invertovať",
+          "auto_fan_mode": "Automaticky aktivujte ventilátor, keď je potrebné veľké vykurovanie/chladenie"
         }
       },
       "tpi": {
-        "title": "TPI",
+        "title": "TPI - {name}",
         "description": "Časovo proporcionálne integrálne atribúty",
         "data": {
           "tpi_coef_int": "Koeficient na použitie pre vnútornú teplotnú deltu",
-          "tpi_coef_ext": "Koeficient na použitie pre vonkajšiu teplotnú deltu"
+          "tpi_coef_ext": "Koeficient na použitie pre vonkajšiu teplotnú deltu",
+          "use_tpi_central_config": "Použite centrálnu konfiguráciu TPI"
+        },
+        "data_description": {
+          "tpi_coef_int": "Koeficient na použitie pre vnútornú teplotnú deltu",
+          "tpi_coef_ext": "Koeficient na použitie pre deltu vonkajšej teploty",
+          "use_tpi_central_config": "Začiarknite, ak chcete použiť centrálnu konfiguráciu TPI. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu TPI pre tento VTherm"
         }
       },
       "presets": {
-        "title": "Predvoľby",
+        "title": "Predvoľby - {name}",
         "description": "Pre každú predvoľbu zadajte cieľovú teplotu (0, ak chcete predvoľbu ignorovať)",
         "data": {
           "eco_temp": "Teplota v predvoľbe Eco",
@@ -258,52 +339,74 @@
           "frost_temp": "Teplota v prednastavení Frost protection",
           "eco_ac_temp": "Teplota v režime Eco prednastavená pre režim AC",
           "comfort_ac_temp": "Teplota v režime Comfort je prednastavená pre režim AC",
-          "boost_ac_temp": "Prednastavená teplota v režime Boost pre režim AC"
+          "boost_ac_temp": "Prednastavená teplota v režime Boost pre režim AC",
+          "use_presets_central_config": "Použite konfiguráciu centrálnych predvolieb"
+        },
+        "data_description": {
+          "eco_temp": "Teplota v predvoľbe Eco",
+          "comfort_temp": "Prednastavená teplota v komfortnom režime",
+          "boost_temp": "Teplota v prednastavení Boost",
+          "frost_temp": "Teplota v prednastavenej ochrane proti mrazu",
+          "eco_ac_temp": "Teplota v režime Eco prednastavená pre režim AC",
+          "comfort_ac_temp": "Teplota v režime Comfort je prednastavená pre režim AC",
+          "boost_ac_temp": "Prednastavená teplota v režime Boost pre režim AC",
+          "use_presets_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálnych predvolieb. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu predvolieb pre tento VTherm"
         }
       },
       "window": {
-        "title": "Správa okien",
+        "title": "Správa okien - {name}",
         "description": "Otvoriť správu okien.\nAk sa príslušné entity_id nepoužíva, ponechajte prázdne\nMôžete tiež nakonfigurovať automatickú detekciu otvoreného okna na základe poklesu teploty",
         "data": {
           "window_sensor_entity_id": "ID entity snímača okna",
           "window_delay": "Oneskorenie snímača okna (sekundy)",
           "window_auto_open_threshold": "Prah poklesu teploty pre automatickú detekciu otvoreného okna (v °/hodina)",
           "window_auto_close_threshold": "Prahová hodnota zvýšenia teploty pre koniec automatickej detekcie (v °/hodina)",
-          "window_auto_max_duration": "Maximálne trvanie automatickej detekcie otvoreného okna (v min)"
+          "window_auto_max_duration": "Maximálne trvanie automatickej detekcie otvoreného okna (v min)",
+          "use_window_central_config": "Použite centrálnu konfiguráciu okna"
         },
         "data_description": {
           "window_sensor_entity_id": "Nechajte prázdne, ak nemáte použiť žiadny okenný senzor",
           "window_delay": "Zohľadňuje sa oneskorenie v sekundách pred detekciou snímača",
           "window_auto_open_threshold": "Odporúčaná hodnota: medzi 3 a 10. Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
           "window_auto_close_threshold": "Odporúčaná hodnota: 0. Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
-          "window_auto_max_duration": "Odporúčaná hodnota: 60 (jedna hodina). Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne"
+          "window_auto_max_duration": "Odporúčaná hodnota: 60 (jedna hodina). Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
+          "use_window_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálneho okna. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu okna pre tento VTherm"
         }
       },
       "motion": {
-        "title": "Riadenie pohybu",
+        "title": "Riadenie pohybu - {name}",
         "description": "Správa snímača pohybu. Predvoľba sa môže automaticky prepínať v závislosti od detekcie pohybu\nAk sa nepoužíva, ponechajte zodpovedajúce entity_id prázdne.\nmotion_preset a no_motion_preset by mali byť nastavené na zodpovedajúci názov predvoľby",
         "data": {
           "motion_sensor_entity_id": "ID entity snímača pohybu",
           "motion_delay": "Oneskorenie aktivácie",
           "motion_off_delay": "Oneskorenie deaktivácie",
           "motion_preset": "Prednastavený pohyb",
-          "no_motion_preset": "Žiadna predvoľba pohybu"
+          "no_motion_preset": "Žiadna predvoľba pohybu",
+          "use_motion_central_config": "Použite centrálnu konfiguráciu pohybu"
         },
         "data_description": {
           "motion_sensor_entity_id": "ID entity snímača pohybu",
           "motion_delay": "Oneskorenie aktivácie pohybu (sekundy)",
           "motion_off_delay": "Oneskorenie deaktivácie pohybu (sekundy)",
           "motion_preset": "Prednastavené na použitie pri detekcii pohybu",
-          "no_motion_preset": "Prednastavené na použitie, keď nie je detekovaný žiadny pohyb"
+          "no_motion_preset": "Prednastavené na použitie, keď nie je detekovaný žiadny pohyb",
+          "use_motion_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálneho pohybu. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu pohybu pre tento VTherm"
         }
       },
       "power": {
-        "title": "Správa napájania",
+        "title": "Správa napájania - {name}",
         "description": "Atribúty správy napájania.\nPoskytuje senzor výkonu a maximálneho výkonu vášho domova.\nPotom zadajte spotrebu energie ohrievača, keď je zapnutý.\nVšetky senzory a výkon zariadenia by mali mať rovnakú jednotku (kW alebo W).\nPonechajte zodpovedajúce entity_id prázdne ak sa nepoužíva.",
         "data": {
           "power_sensor_entity_id": "ID entity snímača výkonu",
           "max_power_sensor_entity_id": "ID entity snímača maximálneho výkonu",
-          "power_temp": "Teplota pre zníženie výkonu"
+          "power_temp": "Teplota pre zníženie výkonu",
+          "use_power_central_config": "Použite centrálnu konfiguráciu napájania"
+        },
+        "data_description": {
+          "power_sensor_entity_id": "ID entity snímača výkonu",
+          "max_power_sensor_entity_id": "ID entity snímača maximálneho výkonu",
+          "power_temp": "Teplota pre zníženie výkonu",
+          "use_power_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálneho napájania. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu napájania pre tento VTherm"
         }
       },
       "presence": {
@@ -317,30 +420,45 @@
           "frost_away_temp": "Prednastavená teplota v režime Frost protection, keď nie je prítomný",
           "eco_ac_away_temp": "Teplota v prednastavenej Eco, keď nie je prítomná v režime AC",
           "comfort_ac_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný v režime AC",
-          "boost_ac_away_temp": "Teplota v prednastavenom Boost, keď nie je prítomný v režime AC"
+          "boost_ac_away_temp": "Teplota v prednastavenom Boost, keď nie je prítomný v režime AC",
+          "use_presence_central_config": "Použite centrálnu konfiguráciu prítomnosti"
+        },
+        "data_description": {
+          "presence_sensor_entity_id": "ID entity senzora prítomnosti",
+          "eco_away_temp": "Teplota v prednastavenej Eco, keď nie je žiadna prítomnosť",
+          "comfort_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný",
+          "boost_away_temp": "Prednastavená teplota v režime Boost, keď nie je prítomný",
+          "frost_away_temp": "Teplota v Prednastavená ochrana pred mrazom, keď nie je prítomný",
+          "eco_ac_away_temp": "Teplota v prednastavenej Eco, keď nie je prítomná v režime AC",
+          "comfort_ac_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný v režime AC",
+          "boost_ac_away_temp": "Teplota v prednastavenom Boost, keď nie je prítomný v režime AC",
+          "use_presence_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálnej prítomnosti. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu prítomnosti pre tento VTherm"
         }
       },
       "advanced": {
-        "title": "Pokročilé parametre",
+        "title": "Pokročilé parametre - {name}",
         "description": "Konfigurácia pokročilých parametrov. Ak neviete, čo robíte, ponechajte predvolené hodnoty.\nTento parameter môže viesť k veľmi zlej regulácii teploty alebo výkonu.",
         "data": {
           "minimal_activation_delay": "Minimálne oneskorenie aktivácie",
           "security_delay_min": "Bezpečnostné oneskorenie (v minútach)",
           "security_min_on_percent": "Minimálne percento výkonu pre bezpečnostný režim",
-          "security_default_on_percent": "Percento výkonu na použitie v bezpečnostnom režime"
+          "security_default_on_percent": "Percento výkonu na použitie v bezpečnostnom režime",
+          "use_advanced_central_config": "Použite centrálnu rozšírenú konfiguráciu"
         },
         "data_description": {
           "minimal_activation_delay": "Oneskorenie v sekundách, pri ktorom sa zariadenie neaktivuje",
           "security_delay_min": "Maximálne povolené oneskorenie v minútach medzi dvoma meraniami teploty. Po uplynutí tohto oneskorenia sa termostat prepne do bezpečnostného vypnutého stavu",
           "security_min_on_percent": "Minimálna percentuálna hodnota ohrevu pre aktiváciu prednastavenej bezpečnosti. Pod týmto percentom výkonu termostat neprejde do prednastavenia zabezpečenia",
-          "security_default_on_percent": "Predvolená percentuálna hodnota vykurovacieho výkonu v bezpečnostnej predvoľbe. Nastavte na 0, ak chcete vypnúť ohrievač v zabezpečenom stave"
+          "security_default_on_percent": "Predvolená percentuálna hodnota vykurovacieho výkonu v bezpečnostnej predvoľbe. Nastavte na 0, ak chcete vypnúť ohrievač v zabezpečenom stave",
+          "use_advanced_central_config": "Začiarknite, ak chcete použiť centrálnu rozšírenú konfiguráciu. Zrušte začiarknutie, ak chcete použiť špecifickú rozšírenú konfiguráciu pre tento VTherm"
         }
       }
     },
     "error": {
       "unknown": "Neočakávaná chyba",
       "unknown_entity": "Neznáme ID entity",
-      "window_open_detection_method": "Mala by sa použiť iba jedna metóda detekcie otvoreného okna. Použite senzor alebo automatickú detekciu cez teplotný prah, ale nie oboje"
+      "window_open_detection_method": "Mala by sa použiť iba jedna metóda detekcie otvoreného okna. Použite senzor alebo automatickú detekciu cez teplotný prah, ale nie oboje",
+      "no_central_config": "Nemôžete zaškrtnúť „použiť centrálnu konfiguráciu“, pretože sa nenašla žiadna centrálna konfigurácia. Aby ste ho mohli používať, musíte si vytvoriť všestranný termostat typu „Central Configuration“."
     },
     "abort": {
       "already_configured": "Zariadenie je už nakonfigurované"
@@ -349,27 +467,28 @@
   "selector": {
     "thermostat_type": {
       "options": {
+        "thermostat_central_config": "Centrálna konfigurácia",
         "thermostat_over_switch": "Termostat nad spínačom",
         "thermostat_over_climate": "Termostat nad iným termostatom",
-        "thermostat_over_valve": "Thermostat over a valve"
+        "thermostat_over_valve": "Termostat nad ventilom"
       }
     },
     "auto_regulation_mode": {
       "options": {
-        "auto_regulation_slow": "Slow",
-        "auto_regulation_strong": "Strong",
-        "auto_regulation_medium": "Medium",
-        "auto_regulation_light": "Light",
-        "auto_regulation_expert": "Expert",
-        "auto_regulation_none": "No auto-regulation"
+        "auto_regulation_slow": "Pomalé",
+        "auto_regulation_strong": "Silné",
+        "auto_regulation_medium": "Stredné",
+        "auto_regulation_light": "Jemné",
+        "auto_regulation_expert": "Expertné",
+        "auto_regulation_none": "Nie auto-regulácia"
       }
     },
     "auto_fan_mode": {
       "options": {
-        "auto_fan_none": "No auto-fan",
-        "auto_fan_low": "Low",
-        "auto_fan_medium": "Medium",
-        "auto_fan_high": "High",
+        "auto_fan_none": "Žiadny automatický ventilátor",
+        "auto_fan_low": "Nízky",
+        "auto_fan_medium": "Stredný",
+        "auto_fan_high": "Vysoký",
         "auto_fan_turbo": "Turbo"
       }
     }
@@ -389,4 +508,4 @@
       }
     }
   }
-}
+}

custom_components/versatile_thermostat/underlyings.py

@@ -6,6 +6,7 @@ from typing import Any
 from enum import StrEnum
 
 from homeassistant.const import ATTR_ENTITY_ID, STATE_ON, UnitOfTemperature
+from homeassistant.core import State
 
 from homeassistant.exceptions import ServiceNotFound
 
@@ -111,18 +112,18 @@ class UnderlyingEntity:
     # This should be the correct way to handle turn_off and turn_on but this breaks the unit test
     # will an not understandable error: TypeError: object MagicMock can't be used in 'await' expression
     async def turn_off(self):
-        """ Turn off the underlying equipement.
-            Need to be overriden"""
+        """Turn off the underlying equipement.
+        Need to be overriden"""
         return NotImplementedError
 
     async def turn_on(self):
-        """ Turn off the underlying equipement.
-            Need to be overriden"""
+        """Turn off the underlying equipement.
+        Need to be overriden"""
         return NotImplementedError
 
     @property
     def is_inversed(self):
-        """ Tells if the switch command should be inversed"""
+        """Tells if the switch command should be inversed"""
         return False
 
     def remove_entity(self):
@@ -140,8 +141,9 @@ class UnderlyingEntity:
             await self.set_hvac_mode(hvac_mode)
         elif hvac_mode != HVACMode.OFF and not self.is_device_active:
             _LOGGER.warning(
-                "%s - The hvac mode is ON, but the underlying device is not ON. Turning on device %s",
+                "%s - The hvac mode is %s, but the underlying device is not ON. Turning on device %s if needed",
                 self,
+                hvac_mode,
                 self._entity_id,
             )
             await self.set_hvac_mode(hvac_mode)
@@ -164,7 +166,11 @@ class UnderlyingEntity:
         """Starting cycle for switch"""
 
     def _cancel_cycle(self):
-        """ Stops an eventual cycle """
+        """Stops an eventual cycle"""
+
+    def cap_sent_value(self, value) -> float:
+        """capping of the value send to the underlying eqt"""
+        return value
 
 
 class UnderlyingSwitch(UnderlyingEntity):
@@ -205,7 +211,7 @@ class UnderlyingSwitch(UnderlyingEntity):
     @overrides
     @property
     def is_inversed(self):
-        """ Tells if the switch command should be inversed"""
+        """Tells if the switch command should be inversed"""
         return self._thermostat.is_inversed
 
     # @overrides this breaks some unit tests TypeError: object MagicMock can't be used in 'await' expression
@@ -227,14 +233,16 @@ class UnderlyingSwitch(UnderlyingEntity):
     def is_device_active(self):
         """If the toggleable device is currently active."""
         real_state = self._hass.states.is_state(self._entity_id, STATE_ON)
-        return (self.is_inversed and not real_state) or (not self.is_inversed and real_state)
+        return (self.is_inversed and not real_state) or (
+            not self.is_inversed and real_state
+        )
 
     # @overrides this breaks some unit tests TypeError: object MagicMock can't be used in 'await' expression
     async def turn_off(self):
         """Turn heater toggleable device off."""
         _LOGGER.debug("%s - Stopping underlying entity %s", self, self._entity_id)
         command = SERVICE_TURN_OFF if not self.is_inversed else SERVICE_TURN_ON
-        domain = self._entity_id.split('.')[0]
+        domain = self._entity_id.split(".")[0]
         # This may fails if called after shutdown
         try:
             data = {ATTR_ENTITY_ID: self._entity_id}
@@ -250,7 +258,7 @@ class UnderlyingSwitch(UnderlyingEntity):
         """Turn heater toggleable device on."""
         _LOGGER.debug("%s - Starting underlying entity %s", self, self._entity_id)
         command = SERVICE_TURN_ON if not self.is_inversed else SERVICE_TURN_OFF
-        domain = self._entity_id.split('.')[0]
+        domain = self._entity_id.split(".")[0]
         try:
             data = {ATTR_ENTITY_ID: self._entity_id}
             await self._hass.services.async_call(
@@ -261,7 +269,6 @@ class UnderlyingSwitch(UnderlyingEntity):
         except ServiceNotFound as err:
             _LOGGER.error(err)
 
-
     @overrides
     async def start_cycle(
         self,
@@ -348,7 +355,7 @@ class UnderlyingSwitch(UnderlyingEntity):
         if await self._thermostat.check_overpowering():
             _LOGGER.debug("%s - End of cycle (3)", self)
             return
-        # Security mode could have change the on_time percent
+        # safety mode could have change the on_time percent
         await self._thermostat.check_security()
         time = self._on_time_sec
 
@@ -490,10 +497,14 @@ class UnderlyingClimate(UnderlyingEntity):
     def is_device_active(self):
         """If the toggleable device is currently active."""
         if self.is_initialized:
-            return self._underlying_climate.hvac_mode != HVACMode.OFF and self._underlying_climate.hvac_action not in [
-                HVACAction.IDLE,
-                HVACAction.OFF,
-            ]
+            return (
+                self._underlying_climate.hvac_mode != HVACMode.OFF
+                and self._underlying_climate.hvac_action
+                not in [
+                    HVACAction.IDLE,
+                    HVACAction.OFF,
+                ]
+            )
         else:
             return None
 
@@ -550,7 +561,7 @@ class UnderlyingClimate(UnderlyingEntity):
             return
         data = {
             ATTR_ENTITY_ID: self._entity_id,
-            "temperature": temperature,
+            "temperature": self.cap_sent_value(temperature),
             "target_temp_high": max_temp,
             "target_temp_low": min_temp,
         }
@@ -664,6 +675,40 @@ class UnderlyingClimate(UnderlyingEntity):
             return None
         return self._underlying_climate.turn_aux_heat_off()
 
+    @overrides
+    def cap_sent_value(self, value) -> float:
+        """Try to adapt the target temp value to the min_temp / max_temp found
+        in the underlying entity (if any)"""
+
+        if not self.is_initialized:
+            return value
+
+        # Gets the min_temp and max_temp
+        if (
+            self._underlying_climate.min_temp is not None
+            and self._underlying_climate is not None
+        ):
+            min_val = self._underlying_climate.min_temp
+            max_val = self._underlying_climate.max_temp
+
+            new_value = max(min_val, min(value, max_val))
+        else:
+            _LOGGER.debug("%s - no min and max attributes on underlying", self)
+            new_value = value
+
+        if new_value != value:
+            _LOGGER.info(
+                "%s - Target temp have been updated due min, max of the underlying entity. new_value=%.0f value=%.0f min=%.0f max=%.0f",
+                self,
+                new_value,
+                value,
+                min_val,
+                max_val,
+            )
+
+        return new_value
+
+
 class UnderlyingValve(UnderlyingEntity):
     """Represent a underlying switch"""
 
@@ -672,10 +717,7 @@ class UnderlyingValve(UnderlyingEntity):
     _percent_open: int
 
     def __init__(
-        self,
-        hass: HomeAssistant,
-        thermostat: Any,
-        valve_entity_id: str
+        self, hass: HomeAssistant, thermostat: Any, valve_entity_id: str
     ) -> None:
         """Initialize the underlying switch"""
 
@@ -689,13 +731,14 @@ class UnderlyingValve(UnderlyingEntity):
         self._should_relaunch_control_heating = False
         self._hvac_mode = None
         self._percent_open = self._thermostat.valve_open_percent
+        self._valve_entity_id = valve_entity_id
 
     async def send_percent_open(self):
-        """ Send the percent open to the underlying valve """
+        """Send the percent open to the underlying valve"""
         # This may fails if called after shutdown
         try:
-            data = { ATTR_ENTITY_ID: self._entity_id, "value": self._percent_open }
-            domain = self._entity_id.split('.')[0]
+            data = {ATTR_ENTITY_ID: self._entity_id, "value": self._percent_open}
+            domain = self._entity_id.split(".")[0]
             await self._hass.services.async_call(
                 domain,
                 SERVICE_SET_VALUE,
@@ -734,7 +777,7 @@ class UnderlyingValve(UnderlyingEntity):
             # To test if real device is open but this is causing some side effect
             # because the activation can be deferred -
             # or float(self._hass.states.get(self._entity_id).state) > 0
-        except Exception: # pylint: disable=broad-exception-caught
+        except Exception:  # pylint: disable=broad-exception-caught
             return False
 
     @overrides
@@ -748,11 +791,43 @@ class UnderlyingValve(UnderlyingEntity):
     ):
         """We use this function to change the on_percent"""
         if force:
+            self._percent_open = self.cap_sent_value(self._percent_open)
             await self.send_percent_open()
 
-    def set_valve_open_percent(self, percent):
-        """ Update the valve open percent """
-        caped_val = self._thermostat.valve_open_percent
+    @overrides
+    def cap_sent_value(self, value) -> float:
+        """Try to adapt the open_percent value to the min / max found
+        in the underlying entity (if any)"""
+
+        # Gets the last number state
+        valve_state: State = self._hass.states.get(self._valve_entity_id)
+        if valve_state is None:
+            return value
+
+        if "min" in valve_state.attributes and "max" in valve_state.attributes:
+            min_val = valve_state.attributes["min"]
+            max_val = valve_state.attributes["max"]
+
+            new_value = round(max(min_val, min(value, max_val)))
+        else:
+            _LOGGER.debug("%s - no min and max attributes on underlying", self)
+            new_value = value
+
+        if new_value != value:
+            _LOGGER.info(
+                "%s - Valve open percent have been updated due min, max of the underlying entity. new_value=%.0f value=%.0f min=%.0f max=%.0f",
+                self,
+                new_value,
+                value,
+                min_val,
+                max_val,
+            )
+
+        return new_value
+
+    def set_valve_open_percent(self):
+        """Update the valve open percent"""
+        caped_val = self.cap_sent_value(self._thermostat.valve_open_percent)
         if self._percent_open == caped_val:
             # No changes
             return
@@ -760,7 +835,9 @@ class UnderlyingValve(UnderlyingEntity):
         self._percent_open = caped_val
         # Send the new command to valve via a service call
 
-        _LOGGER.info("%s - Setting valve ouverture percent to %s", self, self._percent_open)
+        _LOGGER.info(
+            "%s - Setting valve ouverture percent to %s", self, self._percent_open
+        )
         # Send the change to the valve, in background
         self._hass.create_task(self.send_percent_open())
 

custom_components/versatile_thermostat/vtherm_api.py

@@ -19,26 +19,26 @@ _LOGGER = logging.getLogger(__name__)
 class VersatileThermostatAPI(dict):
     """The VersatileThermostatAPI"""
 
-    _hass: HomeAssistant
-    # _entries: Dict(str, ConfigEntry)
+    _hass: HomeAssistant = None
 
     @classmethod
     def get_vtherm_api(cls, hass=None):
-        """Get the eventual VTherm API class instance"""
+        """Get the eventual VTherm API class instance or
+        instantiate it if it doesn't exists"""
         if hass is not None:
             VersatileThermostatAPI._hass = hass
-        else:
-            if VersatileThermostatAPI._hass is None:
-                return None
+
+        if VersatileThermostatAPI._hass is None:
+            return None
 
         domain = VersatileThermostatAPI._hass.data.get(DOMAIN)
         if not domain:
-            hass.data.setdefault(DOMAIN, {})
+            VersatileThermostatAPI._hass.data.setdefault(DOMAIN, {})
 
         ret = VersatileThermostatAPI._hass.data.get(DOMAIN).get(VTHERM_API_NAME)
         if ret is None:
             ret = VersatileThermostatAPI()
-            hass.data[DOMAIN][VTHERM_API_NAME] = ret
+            VersatileThermostatAPI._hass.data[DOMAIN][VTHERM_API_NAME] = ret
         return ret
 
     def __init__(self) -> None:
@@ -46,7 +46,6 @@ class VersatileThermostatAPI(dict):
         super().__init__()
         self._expert_params = None
         self._short_ema_params = None
-        self._central_config = None
 
     def find_central_configuration(self):
         """Search for a central configuration"""
@@ -57,21 +56,19 @@ class VersatileThermostatAPI(dict):
                 config_entry.data.get(CONF_THERMOSTAT_TYPE)
                 == CONF_THERMOSTAT_CENTRAL_CONFIG
             ):
-                self._central_config = config_entry
-                return self._central_config
+                central_config = config_entry
+                return central_config
         return None
 
     def add_entry(self, entry: ConfigEntry):
         """Add a new entry"""
         _LOGGER.debug("Add the entry %s", entry.entry_id)
-        # self._entries[entry.entry_id] = entry
         # Add the entry in hass.data
         VersatileThermostatAPI._hass.data[DOMAIN][entry.entry_id] = entry
 
     def remove_entry(self, entry: ConfigEntry):
         """Remove an entry"""
         _LOGGER.debug("Remove the entry %s", entry.entry_id)
-        # self._entries.pop(entry.entry_id)
         VersatileThermostatAPI._hass.data[DOMAIN].pop(entry.entry_id)
         # If not more entries are preset, remove the API
         if len(self) == 0:

pyrightconfig.json

@@ -0,0 +1,7 @@
+{
+    "include": [
+        "custom_components/versatile_thermostat/**",
+        "homeassistant/**"
+    ],
+    "reportShadowedImports": false
+}

tests/commons.py

@@ -185,6 +185,7 @@ class MockClimate(ClimateEntity):
         hvac_mode: HVACMode = HVACMode.OFF,
         hvac_action: HVACAction = HVACAction.OFF,
         fan_modes: list[str] = None,
+        hvac_modes: list[str] = None,
     ) -> None:
         """Initialize the thermostat."""
 
@@ -200,7 +201,11 @@ class MockClimate(ClimateEntity):
             HVACAction.OFF if hvac_mode == HVACMode.OFF else HVACAction.HEATING
         )
         self._attr_hvac_mode = hvac_mode
-        self._attr_hvac_modes = [HVACMode.OFF, HVACMode.COOL, HVACMode.HEAT]
+        self._attr_hvac_modes = (
+            hvac_modes
+            if hvac_modes is not None
+            else [HVACMode.OFF, HVACMode.COOL, HVACMode.HEAT]
+        )
         self._attr_temperature_unit = UnitOfTemperature.CELSIUS
         self._attr_target_temperature = 20
         self._attr_current_temperature = 15
@@ -336,6 +341,14 @@ class MagicMockClimate(MagicMock):
     def supported_features(self):  # pylint: disable=missing-function-docstring
         return ClimateEntityFeature.TARGET_TEMPERATURE
 
+    @property
+    def min_temp(self):  # pylint: disable=missing-function-docstring
+        return 15
+
+    @property
+    def max_temp(self):  # pylint: disable=missing-function-docstring
+        return 19
+
 
 async def create_thermostat(
     hass: HomeAssistant, entry: MockConfigEntry, entity_id: str

tests/const.py

@@ -50,7 +50,8 @@ MOCK_TH_OVER_CLIMATE_MAIN_CONFIG = {
     CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
     CONF_CYCLE_MIN: 5,
     CONF_DEVICE_POWER: 1,
-    CONF_USE_MAIN_CENTRAL_CONFIG: False
+    CONF_USE_MAIN_CENTRAL_CONFIG: False,
+    CONF_USE_CENTRAL_MODE: True
     # Keep default values which are False
 }
 
@@ -139,6 +140,11 @@ MOCK_PRESETS_AC_CONFIG = {
 
 MOCK_WINDOW_CONFIG = {
     CONF_WINDOW_SENSOR: "binary_sensor.window_sensor",
+    # Not used normally only for tests to avoid rewrite all tests
+    CONF_WINDOW_DELAY: 10,
+}
+
+MOCK_WINDOW_DELAY_CONFIG = {
     CONF_WINDOW_DELAY: 10,
 }
 

tests/test_bugs.py

@@ -6,6 +6,10 @@ from datetime import datetime, timedelta
 
 import logging
 
+from homeassistant.components.climate import (
+    SERVICE_SET_TEMPERATURE,
+)
+
 from .commons import *
 
 logging.getLogger().setLevel(logging.DEBUG)
@@ -354,7 +358,7 @@ async def test_bug_82(
     skip_turn_on_off_heater,
     skip_send_event,
 ):
-    """Test that when a underlying climate is not available the VTherm doesn't go into security mode"""
+    """Test that when a underlying climate is not available the VTherm doesn't go into safety mode"""
 
     tz = get_tz(hass)  # pylint: disable=invalid-name
     now: datetime = datetime.now(tz=tz)
@@ -423,7 +427,7 @@ async def test_bug_82(
         assert mock_find_climate.mock_calls[0] == call()
         mock_find_climate.assert_has_calls([call.find_underlying_entity()])
 
-        # Force security mode
+        # Force safety mode
         assert entity._last_ext_temperature_measure is not None
         assert entity._last_temperature_measure is not None
         assert (
@@ -568,3 +572,141 @@ async def test_bug_101(
         )
         assert entity.target_temperature == 12.75
         assert entity.preset_mode is PRESET_NONE
+
+
+@pytest.mark.parametrize("expected_lingering_tasks", [True])
+@pytest.mark.parametrize("expected_lingering_timers", [True])
+async def test_bug_272(
+    hass: HomeAssistant,
+    skip_hass_states_is_state,
+    skip_turn_on_off_heater,
+    skip_send_event,
+):
+    """Test that it not possible to set the target temperature under the min_temp setting"""
+
+    tz = get_tz(hass)  # pylint: disable=invalid-name
+    now: datetime = datetime.now(tz=tz)
+
+    entry = MockConfigEntry(
+        domain=DOMAIN,
+        title="TheOverClimateMockName",
+        unique_id="uniqueId",
+        data=PARTIAL_CLIMATE_CONFIG,  # 5 minutes security delay
+    )
+
+    # Min_temp is 15 and max_temp is 19
+    fake_underlying_climate = MagicMockClimate()
+
+    with patch(
+        "custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
+    ), patch(
+        "custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
+        return_value=fake_underlying_climate,
+    ), patch(
+        "homeassistant.core.ServiceRegistry.async_call"
+    ) as mock_service_call:
+        entry.add_to_hass(hass)
+        await hass.config_entries.async_setup(entry.entry_id)
+        assert entry.state is ConfigEntryState.LOADED
+
+        def find_my_entity(entity_id) -> ClimateEntity:
+            """Find my new entity"""
+            component: EntityComponent[ClimateEntity] = hass.data[CLIMATE_DOMAIN]
+            for entity in component.entities:
+                if entity.entity_id == entity_id:
+                    return entity
+
+        entity = find_my_entity("climate.theoverclimatemockname")
+
+        assert entity
+
+        assert entity.name == "TheOverClimateMockName"
+        assert entity.is_over_climate is True
+        assert entity.hvac_mode is HVACMode.OFF
+        assert entity.target_temperature == entity.min_temp
+        assert entity.is_regulated is True
+
+        assert mock_service_call.call_count == 0
+
+        # Set the hvac_mode to HEAT
+        await entity.async_set_hvac_mode(HVACMode.HEAT)
+
+        # In the accepted interval
+        await entity.async_set_temperature(temperature=17.5)
+        assert mock_service_call.call_count == 2
+        mock_service_call.assert_has_calls(
+            [
+                call.async_call(
+                    "climate",
+                    SERVICE_SET_HVAC_MODE,
+                    {"entity_id": "climate.mock_climate", "hvac_mode": HVACMode.HEAT},
+                ),
+                call.async_call(
+                    "climate",
+                    SERVICE_SET_TEMPERATURE,
+                    {
+                        "entity_id": "climate.mock_climate",
+                        "temperature": 17.5,
+                        "target_temp_high": 30,
+                        "target_temp_low": 15,
+                    },
+                ),
+            ]
+        )
+
+    tz = get_tz(hass)  # pylint: disable=invalid-name
+    now: datetime = datetime.now(tz=tz)
+
+    with patch(
+        "custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
+    ), patch("homeassistant.core.ServiceRegistry.async_call") as mock_service_call:
+        # Set room temperature to something very cold
+        event_timestamp = now + timedelta(minutes=1)
+
+        await send_temperature_change_event(entity, 13, event_timestamp)
+        await send_ext_temperature_change_event(entity, 9, event_timestamp)
+
+        # Not in the accepted interval (15-19)
+        await entity.async_set_temperature(temperature=10)
+        assert mock_service_call.call_count == 1
+        mock_service_call.assert_has_calls(
+            [
+                call.async_call(
+                    "climate",
+                    SERVICE_SET_TEMPERATURE,
+                    {
+                        "entity_id": "climate.mock_climate",
+                        "temperature": 15,  # the minimum acceptable
+                        "target_temp_high": 30,
+                        "target_temp_low": 15,
+                    },
+                ),
+            ]
+        )
+
+    with patch(
+        "custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
+    ), patch("homeassistant.core.ServiceRegistry.async_call") as mock_service_call:
+        # Set room temperature to something very cold
+        event_timestamp = now + timedelta(minutes=1)
+
+        await send_temperature_change_event(entity, 13, event_timestamp)
+        await send_ext_temperature_change_event(entity, 9, event_timestamp)
+
+        # In the accepted interval
+        await entity.async_set_temperature(temperature=20.8)
+        assert mock_service_call.call_count == 1
+        mock_service_call.assert_has_calls(
+            [
+                call.async_call(
+                    "climate",
+                    SERVICE_SET_TEMPERATURE,
+                    {
+                        "entity_id": "climate.mock_climate",
+                        "temperature": 19,  # the maximum acceptable
+                        "target_temp_high": 30,
+                        "target_temp_low": 15,
+                    },
+                ),
+            ]
+        )

tests/test_central_config.py

@@ -31,6 +31,8 @@ from .commons import *  # pylint: disable=wildcard-import, unused-wildcard-impor
 from .const import *  # pylint: disable=wildcard-import, unused-wildcard-import
 
 
+@pytest.mark.parametrize("expected_lingering_tasks", [True])
+@pytest.mark.parametrize("expected_lingering_timers", [True])
 async def test_add_a_central_config(hass: HomeAssistant, skip_hass_states_is_state):
     """Tests the clean_central_config_doubon of base_thermostat"""
     central_config_entry = MockConfigEntry(
@@ -95,6 +97,8 @@ async def test_add_a_central_config(hass: HomeAssistant, skip_hass_states_is_sta
     assert central_configuration is not None
 
 
+@pytest.mark.parametrize("expected_lingering_tasks", [True])
+@pytest.mark.parametrize("expected_lingering_timers", [True])
 async def test_minimal_over_switch_wo_central_config(
     hass: HomeAssistant, skip_hass_states_is_state, init_vtherm_api
 ):
@@ -169,6 +173,8 @@ async def test_minimal_over_switch_wo_central_config(
         assert entity.is_inversed
 
 
+@pytest.mark.parametrize("expected_lingering_tasks", [True])
+@pytest.mark.parametrize("expected_lingering_timers", [True])
 async def test_full_over_switch_wo_central_config(
     hass: HomeAssistant, skip_hass_states_is_state, init_vtherm_api
 ):
@@ -281,6 +287,8 @@ async def test_full_over_switch_wo_central_config(
         assert entity._presence_sensor_entity_id == "binary_sensor.mock_presence_sensor"
 
 
+@pytest.mark.parametrize("expected_lingering_tasks", [True])
+@pytest.mark.parametrize("expected_lingering_timers", [True])
 async def test_full_over_switch_with_central_config(
     hass: HomeAssistant, skip_hass_states_is_state, init_central_config
 ):
@@ -388,6 +396,8 @@ async def test_full_over_switch_with_central_config(
         assert entity._presence_sensor_entity_id == "binary_sensor.mock_presence_sensor"
 
 
+@pytest.mark.parametrize("expected_lingering_tasks", [True])
+@pytest.mark.parametrize("expected_lingering_timers", [True])
 async def test_over_switch_with_central_config_but_no_central_config(
     hass: HomeAssistant, skip_hass_states_get, init_vtherm_api
 ):

tests/test_config_flow.py

@@ -363,6 +363,7 @@ async def test_user_config_flow_window_auto_ok(
         CONF_USE_POWER_FEATURE: False,
         CONF_USE_PRESENCE_FEATURE: False,
         CONF_WINDOW_DELAY: 30,  # the default value is added
+        CONF_USE_CENTRAL_MODE: True,  # True is the defaulf value
     } | MOCK_TH_OVER_SWITCH_TYPE_CONFIG | MOCK_TH_OVER_SWITCH_TPI_CONFIG | MOCK_WINDOW_AUTO_CONFIG | {
         CONF_USE_MAIN_CENTRAL_CONFIG: True,
         CONF_USE_TPI_CENTRAL_CONFIG: False,
@@ -472,15 +473,17 @@ async def test_user_config_flow_window_auto_ko(
 
     result = await hass.config_entries.flow.async_configure(
         result["flow_id"],
-        user_input=MOCK_WINDOW_AUTO_CONFIG,
+        user_input=MOCK_WINDOW_DELAY_CONFIG,
     )
 
+    # Since issue #280 we cannot have the error because we only display the
+    # MOCK_WINDOW_DELAY_CONFIG form if we have a sensor configured
     assert result["type"] == data_entry_flow.RESULT_TYPE_FORM
     # We should stay on window with an error
-    assert result["errors"] == {
-        "window_sensor_entity_id": "window_open_detection_method"
-    }
-    assert result["step_id"] == "window"
+    assert result["errors"] == {}
+    #    "window_sensor_entity_id": "window_open_detection_method"
+    # }
+    assert result["step_id"] == "advanced"
 
 
 @pytest.mark.parametrize("expected_lingering_tasks", [True])
@@ -508,6 +511,7 @@ async def test_user_config_flow_over_4_switches(
         CONF_USE_POWER_FEATURE: False,
         CONF_USE_PRESENCE_FEATURE: False,
         CONF_USE_MAIN_CENTRAL_CONFIG: True,
+        CONF_USE_CENTRAL_MODE: False,
     }
 
     TYPE_CONFIG = {  # pylint: disable=wildcard-import, invalid-name

tests/test_security.py

@@ -288,7 +288,7 @@ async def test_security_feature_back_on_percent(
         assert entity.security_state is False
         assert mock_send_event.call_count == 0
 
-    # 3. Set security mode with a preset change
+    # 3. Set safety mode with a preset change
     with patch(
         "custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
     ) as mock_send_event, patch(
@@ -400,7 +400,7 @@ async def test_security_over_climate(
     skip_turn_on_off_heater,
     skip_send_event,
 ):
-    """Test that when a underlying climate is not available the VTherm doesn't go into security mode"""
+    """Test that when a underlying climate is not available the VTherm doesn't go into safety mode"""
 
     tz = get_tz(hass)  # pylint: disable=invalid-name
     now: datetime = datetime.now(tz=tz)
@@ -471,7 +471,7 @@ async def test_security_over_climate(
         assert mock_find_climate.mock_calls[0] == call()
         mock_find_climate.assert_has_calls([call.find_underlying_entity()])
 
-        # Force security mode
+        # Force safety mode
         assert entity._last_ext_temperature_measure is not None
         assert entity._last_temperature_measure is not None
         assert (
@@ -505,7 +505,7 @@ async def test_security_over_climate(
             event_timestamp = now - timedelta(minutes=6)
 
             await send_temperature_change_event(entity, 15, event_timestamp)
-            # Should stay False because a climate is never in security mode
+            # Should stay False because a climate is never in safety mode
             assert entity.security_state is False
             assert entity.preset_mode == "none"
             assert entity._saved_preset_mode == "none"

tests/test_switch_ac.py

@@ -129,7 +129,7 @@ async def test_over_switch_ac_full_start(
 
             assert entity.hvac_mode is HVACMode.OFF
             assert entity.hvac_action is HVACAction.OFF
-            assert entity.target_temperature == 16  # eco_ac_away
+            assert entity.target_temperature == 27  # eco_ac_away (no change)
 
         # Close a window
         with patch("homeassistant.helpers.condition.state", return_value=True):

tests/test_valve.py

@@ -4,7 +4,7 @@
 from unittest.mock import patch, call
 from datetime import datetime, timedelta
 
-from homeassistant.core import HomeAssistant
+from homeassistant.core import HomeAssistant, State
 from homeassistant.components.climate import HVACAction, HVACMode
 from homeassistant.config_entries import ConfigEntryState
 
@@ -214,20 +214,60 @@ async def test_over_valve_full_start(
         assert entity.hvac_action == HVACAction.HEATING
 
     # Change internal temperature
+    expected_state = State(
+        entity_id="number.mock_valve", state="0", attributes={"min": 10, "max": 50}
+    )
+
     with patch(
         "custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
     ) as mock_send_event, patch(
         "homeassistant.core.ServiceRegistry.async_call"
     ) as mock_service_call, patch(
-        "homeassistant.core.StateMachine.get", return_value=0
+        "homeassistant.core.StateMachine.get", return_value=expected_state
     ):
         event_timestamp = now - timedelta(minutes=3)
         await send_temperature_change_event(entity, 20, datetime.now())
         assert entity.valve_open_percent == 0
-        assert entity.is_device_active is False
-        assert entity.hvac_action == HVACAction.IDLE
+        assert entity.is_device_active is True  # Should be 0 but in fact 10 is send
+        assert (
+            entity.hvac_action == HVACAction.HEATING
+        )  # Should be IDLE but heating due to 10
+
+        assert mock_service_call.call_count == 1
+        # The VTherm valve is 0, but the underlying have received 10 which is the min
+        mock_service_call.assert_has_calls(
+            [
+                call.async_call(
+                    "number",
+                    "set_value",
+                    {"entity_id": "number.mock_valve", "value": 10},
+                )
+            ]
+        )
 
         await send_temperature_change_event(entity, 17, datetime.now())
+        assert mock_service_call.call_count == 2
+        # The VTherm valve is 0, but the underlying have received 10 which is the min
+        mock_service_call.assert_has_calls(
+            [
+                call.async_call(
+                    "number",
+                    "set_value",
+                    {
+                        "entity_id": "number.mock_valve",
+                        "value": 10,
+                    },  # the min allowed value
+                ),
+                call.async_call(
+                    "number",
+                    "set_value",
+                    {
+                        "entity_id": "number.mock_valve",
+                        "value": 50,
+                    },  # the max allowed value
+                ),
+            ]
+        )
         # switch to Eco
         await entity.async_set_preset_mode(PRESET_ECO)
         assert entity.preset_mode is PRESET_ECO
@@ -243,6 +283,18 @@ async def test_over_valve_full_start(
         assert entity.is_device_active is True
         assert entity.hvac_action == HVACAction.HEATING
 
+    # Test window open/close (with a normal min/max so that is_device_active is False when open_percent is 0)
+    expected_state = State(
+        entity_id="number.mock_valve", state="0", attributes={"min": 0, "max": 99}
+    )
+
+    with patch(
+        "custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
+    ) as mock_send_event, patch(
+        "homeassistant.core.ServiceRegistry.async_call"
+    ) as mock_service_call, patch(
+        "homeassistant.core.StateMachine.get", return_value=expected_state
+    ):
         # Open a window
         with patch("homeassistant.helpers.condition.state", return_value=True):
             event_timestamp = now - timedelta(minutes=1)

tests/test_window.py

@@ -1,4 +1,4 @@
-# pylint: disable=unused-argument, line-too-long, protected-access
+# pylint: disable=unused-argument, line-too-long, protected-access, too-many-lines
 """ Test the Window management """
 import asyncio
 import logging
@@ -295,6 +295,7 @@ async def test_window_auto_fast(hass: HomeAssistant, skip_hass_states_is_state):
     assert entity.target_temperature == 21
 
     assert entity.window_state is STATE_OFF
+    assert entity.is_window_auto_enabled is True
 
     # Initialize the slope algo with 2 measurements
     event_timestamp = now + timedelta(minutes=1)
@@ -431,6 +432,125 @@ async def test_window_auto_fast(hass: HomeAssistant, skip_hass_states_is_state):
     entity.remove_thermostat()
 
 
+@pytest.mark.parametrize("expected_lingering_tasks", [True])
+@pytest.mark.parametrize("expected_lingering_timers", [True])
+async def test_window_auto_fast_and_sensor(
+    hass: HomeAssistant, skip_hass_states_is_state
+):
+    """Test that the auto-window detection algorithm is deactivated if a window sensor is provided"""
+
+    entry = MockConfigEntry(
+        domain=DOMAIN,
+        title="TheOverSwitchMockName",
+        unique_id="uniqueId",
+        data={
+            CONF_NAME: "TheOverSwitchMockName",
+            CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_SWITCH,
+            CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
+            CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
+            CONF_CYCLE_MIN: 5,
+            CONF_TEMP_MIN: 15,
+            CONF_TEMP_MAX: 30,
+            "eco_temp": 17,
+            "comfort_temp": 18,
+            "boost_temp": 21,
+            CONF_USE_WINDOW_FEATURE: True,
+            CONF_USE_MOTION_FEATURE: False,
+            CONF_USE_POWER_FEATURE: False,
+            CONF_USE_PRESENCE_FEATURE: False,
+            CONF_HEATER: "switch.mock_switch",
+            CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
+            CONF_TPI_COEF_INT: 0.3,
+            CONF_TPI_COEF_EXT: 0.01,
+            CONF_MINIMAL_ACTIVATION_DELAY: 30,
+            CONF_SECURITY_DELAY_MIN: 5,
+            CONF_SECURITY_MIN_ON_PERCENT: 0.3,
+            CONF_WINDOW_SENSOR: "binary_sensor.fake_window_sensor",
+            CONF_WINDOW_AUTO_OPEN_THRESHOLD: 0.1,
+            CONF_WINDOW_AUTO_CLOSE_THRESHOLD: 0.1,
+            CONF_WINDOW_AUTO_MAX_DURATION: 10,  # Should be 0 for test
+        },
+    )
+
+    entity: BaseThermostat = await create_thermostat(
+        hass, entry, "climate.theoverswitchmockname"
+    )
+    assert entity
+
+    tz = get_tz(hass)  # pylint: disable=invalid-name
+    now = datetime.now(tz)
+
+    tpi_algo = entity._prop_algorithm
+    assert tpi_algo
+
+    await entity.async_set_hvac_mode(HVACMode.HEAT)
+    await entity.async_set_preset_mode(PRESET_BOOST)
+    assert entity.hvac_mode is HVACMode.HEAT
+    assert entity.preset_mode is PRESET_BOOST
+    assert entity.target_temperature == 21
+
+    assert entity.window_state is STATE_OFF
+    assert entity.is_window_auto_enabled is False
+
+    # Initialize the slope algo with 2 measurements
+    event_timestamp = now + timedelta(minutes=1)
+    await send_temperature_change_event(entity, 19, event_timestamp)
+    event_timestamp = event_timestamp + timedelta(minutes=1)
+    await send_temperature_change_event(entity, 19, event_timestamp)
+    event_timestamp = event_timestamp + timedelta(minutes=1)
+    await send_temperature_change_event(entity, 19, event_timestamp)
+
+    # Make the temperature down
+    with patch(
+        "custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
+    ) as mock_send_event, patch(
+        "custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_on"
+    ) as mock_heater_on, patch(
+        "custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
+    ) as mock_heater_off, patch(
+        "custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
+        return_value=True,
+    ):
+        event_timestamp = event_timestamp + timedelta(minutes=1)
+        await send_temperature_change_event(entity, 19, event_timestamp)
+
+        # The heater don't turns on
+        assert mock_send_event.call_count == 0
+        assert entity.is_device_active is True
+        assert entity.last_temperature_slope == 0.0
+        assert entity._window_auto_algo.is_window_open_detected() is False
+        assert entity._window_auto_algo.is_window_close_detected() is False
+        assert entity.hvac_mode is HVACMode.HEAT
+
+    # send one degre down in one minute
+    with patch(
+        "custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
+    ) as mock_send_event, patch(
+        "custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_on"
+    ) as mock_heater_on, patch(
+        "custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
+    ) as mock_heater_off, patch(
+        "custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
+        return_value=True,
+    ):
+        event_timestamp = event_timestamp + timedelta(minutes=1)
+        await send_temperature_change_event(entity, 18, event_timestamp)
+
+        assert mock_send_event.call_count == 0
+        assert mock_heater_on.call_count == 0  # no change in heater
+        assert mock_heater_off.call_count == 0  # no change in heater
+        assert entity.last_temperature_slope == -6.24
+        # The window open should be detected (but not used)
+        # because we need to calculate the slope anyway, we have the algorithm running
+        assert entity._window_auto_algo.is_window_open_detected() is True
+        assert entity._window_auto_algo.is_window_close_detected() is False
+        assert entity.window_auto_state == STATE_OFF
+        assert entity.hvac_mode is HVACMode.HEAT
+
+    # Clean the entity
+    entity.remove_thermostat()
+
+
 @pytest.mark.parametrize("expected_lingering_tasks", [True])
 @pytest.mark.parametrize("expected_lingering_timers", [True])
 async def test_window_auto_auto_stop(hass: HomeAssistant, skip_hass_states_is_state):
@@ -461,7 +581,7 @@ async def test_window_auto_auto_stop(hass: HomeAssistant, skip_hass_states_is_st
             CONF_SECURITY_MIN_ON_PERCENT: 0.3,
             CONF_WINDOW_AUTO_OPEN_THRESHOLD: 6,
             CONF_WINDOW_AUTO_CLOSE_THRESHOLD: 6,
-            CONF_WINDOW_AUTO_MAX_DURATION: 0,  # Should be 0 for test
+            CONF_WINDOW_AUTO_MAX_DURATION: 0,  # 0 will deactivate window auto detection
         },
     )
 
@@ -484,6 +604,7 @@ async def test_window_auto_auto_stop(hass: HomeAssistant, skip_hass_states_is_st
     assert entity.target_temperature == 21
 
     assert entity.window_state is STATE_OFF
+    assert entity.is_window_auto_enabled is False
 
     # Initialize the slope algo with 2 measurements
     event_timestamp = now + timedelta(minutes=1)
@@ -751,6 +872,7 @@ async def test_window_bypass(hass: HomeAssistant, skip_hass_states_is_state):
     assert entity.target_temperature == 19
 
     assert entity.window_state is STATE_OFF
+    assert entity.is_window_auto_enabled is False
 
     # change temperature to force turning on the heater
     with patch(
@@ -867,7 +989,7 @@ async def test_window_auto_bypass(hass: HomeAssistant, skip_hass_states_is_state
             CONF_SECURITY_MIN_ON_PERCENT: 0.3,
             CONF_WINDOW_AUTO_OPEN_THRESHOLD: 6,
             CONF_WINDOW_AUTO_CLOSE_THRESHOLD: 6,
-            CONF_WINDOW_AUTO_MAX_DURATION: 0,  # Should be 0 for test
+            CONF_WINDOW_AUTO_MAX_DURATION: 1,  # Should be > 0 to activate window_auto
         },
     )
 
@@ -890,6 +1012,7 @@ async def test_window_auto_bypass(hass: HomeAssistant, skip_hass_states_is_state
     assert entity.target_temperature == 21
 
     assert entity.window_state is STATE_OFF
+    assert entity.is_window_auto_enabled
 
     # Initialize the slope algo with 2 measurements
     event_timestamp = now + timedelta(minutes=1)