Schémas d'installation photovoltaïque
Vous installez votre système solaire vous-même ? Retrouvez tous nos schémas de câblage professionnels : raccordement des panneaux, configuration des batteries, câblage des coffrets électriques et montage complet des kits solaires. Conçus par nos ingénieurs et conformes aux normes en vigueur en France, Belgique et Europe.
Accès rapide aux schémas
Câblage des panneaux solaires
Le raccordement de vos panneaux photovoltaïques peut se faire en série (pour augmenter la tension), en parallèle (pour augmenter l'intensité) ou en configuration mixte. Le choix dépend de votre régulateur de charge ou onduleur, de la distance de câblage et des conditions d'ombrage de votre installation.
Mise en série de panneaux solaires
Câblage série pour augmenter la tension totale. Idéal pour les onduleurs avec MPPT haute tension et les grandes distances de câblage.
Raccordement des batteries solaires 3
Connection of a bank of 24V solar batteries
Electrical connection of four 12V batteries
Connection of two GEL batteries in parallel
Find out how to connect two 12V batteries in parallel: detailed diagram with wiring for a safe and efficient installation.
Connection 87 panels with 6 WKS inverters and Pylontech batteries
Connection diagram for 6 series of panels with 6 WKS Evo inverters with Pylontech lithium storage
Schémas de communication onduleur / batteries 2
Communication diagram between the WKS EVO UPS and Pylontech batteries
Details of the connection that allows the communication between the WKS EVO UPS and Pylontech lithium batteries
Pylontech battery communication diagram with a WKS EVO CIRCLE inverter
WKS EVO Circle 5.6 kVA inverter and two Pylontech lithium batteries connection diagram
Schémas de principe d'installation solaire 2
Schema de principe de connexion avec deux onduleurs SMA Sunny Boy
SMA Single-Phase Self-Consumption/Feed-In Kit without Storage
Schéma de principe avec un onduleur Circle, une série de 8 panneaux avec stockage
Schéma de principe avec un onduleur Circle, une série de 8 panneaux avec stockage
Montage et fixation 6
Mounting a photovoltaic panel on a sheet metal roof
Find out how to attach a solar panel to a tin roof: detailed diagram for a safe installation.
Mounting a photovoltaic panel on a tiled roof
Find out how to install a solar panel on a tiled roof: detailed diagram for optimum fixing.
Assembly of an autonomous 24V solar kit
Connection diagram for a photovoltaic system with one or two panels, gel storage and charge controller
Assembly and connection of the Sofar Solar ME3000SP inverter
Electrical connection diagram with the Sofar Solar ME3000SP 3 kVA inverter and electrical equipment
Three-phase assembly with 2 inverters that require the same phase
Three-phase assembly with 2 inverters that require the same phase
Mounting a photovoltaic panel on a slate roof
Installation of solar panels on a slate roof
Schémas Victron Energy 3
Two Victron Multiplus Quattro in parallel
Find out how to connect two Multiplus Quattro in parallel: detailed wiring diagram and tips for reliable installation.
Victron three-phase installation: 24V
Find out how to install a Victron three-phase 24V system with gel storage: detailed wiring diagram for a reliable installation.
3x multiplus installation with 3x SMA inverters and OPzV batteries
Connection diagram for OPzV batteries with 3 Victron inverters and 3 SMA inverters
Schémas de raccordement 1
Connexion Onduleur-Batterie : Deye 8kVA + Delong Top Energy via DC Busbar 1000A
Connexion Onduleur-Batterie : Deye 8kVA + Delong Top Energy via DC Busbar 1000A
Installations complètes 1
Connection diagram Tiny Village 6 inverters WKS EVO MAX II with lithium storage
Electrical connection of a photovoltaic system with 8 series of panels placed on 6 inverters with Pylontech lithium storage
Schémas de câblage des kits solaires 76
Series connection of solar panels
Electrical connection diagram for 3 panels in series with a regulator
Parallel connection of solar panels
Electrical connection diagram for 2 solar panels with MC4 ‘Y’ connectors
Connection of a 48V solar battery bank
Find out how to connect a 48V solar battery bank: detailed diagram, safety tips and best practice for a reliable installation.
Connecting five panels in series to the WKS EVO Circle
Connection diagram of 5 panels in series with a WKS EVO Circle inverter
Self-consumption kit 6 panels 3kVA storage and re-injection
Multisolar inverter connection diagram with a solar panel string and two Pylontech batteries
Self-consumption kit 12 panels 3kVA storage and re-injection
Connection diagram for a photovoltaic kit consisting of 3 series of 3 panels with a Multisolar 3 kVA inverter and GEL battery
Self-consumption kit 20 panels 5kVA storage and re-injection
Electrical connection photovoltaic kit with two series of 10 panels and 8 GEL batteries
Self-consumption kit 42 solar panels 20kva
Electrical connection of the various components making up the WATTUNEED solar kit with 42 panels, four WKS EVO inverters and OPzS batteries.
Self-consumption kit 54 panels 25kVA with storage
Electrical connection of the various components making up the WATTUNEED solar kit with 54 panels, five WKS EVO inverters and OPzS batteries.
Self-consumption kit 72 solar panels 30kva
Electrical connection of the various components making up the WATTUNEED solar kit with 72 panels, six WKS EVO inverters and batteries
Kit autoconsommation 30 panneaux 10kVA stockage et réinjection
Electrical connection of the various elements making up the WATTUNEED solar kit with 30 panels, Multisolar inverter and Gel batteries.
Kit autoconsommation 72 panneaux 20kVA stockage et réinjection
Electrical connection of the various elements making up the WATTUNEED solar kit with 72 panels, Multisolar inverters and OPzS batteries.
Self-consumption kit 72 panels 30kVA storage and re-injection
Electrical connection of the various elements making up the WATTUNEED solar kit with 72 panels, three Multisolar inverters and OPzV batteries.
Solar array kit 3000w mono self-consumption 6 to 12 panels
Installation diagram of a photovoltaic kit with a Solax 3000W inverter between 6 and 12 solar panels.
/Kit solaire réseau - 5000W Tri- autoconsommation 12 pann.jpg)
Kit solaire réseau - 5000W Tri- autoconsommation
Connection diagram for a 5000VA SMA three-phase inverter with a series of 12 panels
Kit solaire réseau - 10kW Tri - autoconsommation
10 kW three-phase solar kit for self-consumption: panels, inverter, cabling and installation. Optimise your electricity production.
/Kit solaire réseau 15kW Triphasé - configurable 30 pann.jpg)
15kW three-phase grid-connected solar kit
Three-phase 15 kW solar connection diagram for self-consumption and re-injection: panels, inverter, cabling and installation.
/KIT HYBRIDE RÉINJECTION RÉSEAU 8 PANNEAUX 5KVA AVEC STOCKAGE_1.jpg)
Kit hybride réinjection réseau 8 panneaux 5kVA avec stockage
8-panel 5 kVA hybrid kit with storage: panels, inverter, battery, cabling and installation. Ideal for self-consumption and grid feed-in.
Kit 7 to 12 panels self-consumption re-injection 3000W without storage
Connection diagram for 7 to 12 panels in series with a Solax 3 kVA single-phase inverter
Kit 13 panels self-consumption / reinjection 5000W without storage
Connection diagram for 13 solar panels with a Solax 5 kVA inverter
Kit of 12 self-consumption / re-injection panels 5000W
Connection diagram for 12 solar panels and a Solax 5kVA inverter
Kit of 16 self-consumption panels - reinjection 5000w without storage
Electrical connection diagram for a 16-panel photovoltaic system with Solax 5 kVA inverter
/Kit%2020%20panneaux%20autoconsommation%20-%20r%C3%A9injection%205000W%20sans%20stockage_1.jpg)
Kit 20 panels self-consumption - reinjection 5000w without storage
Connection diagram for a Solax 5 kVA inverter and two lines of 10 solar panels
/Kit 20 panneaux autoconsommation - réinjection TRI 5000W sans stockage.jpg)
Kit 20 panels self-consumption - reinjection TRI 5000W without storage
Electrical connection diagram for a 20-panel photovoltaic kit with a 5 kVA three-phase SMA inverter
/Kit 15 panneaux autoconsommation - réinjection tri 8000W sans stockage.jpg)
Kit of 15 self-consumption panels - three-phase re-injection 8000W without storage
Electrical connection diagram for 15 solar panels and a Solax 8 kVA three-phase inverter
/Kit 20 panneaux autoconsommation - réinjection tri 8kW sans stockage.jpg)
Kit 20 panels self-consumption / re-injection tri 8kW without storage
Connection diagram for a 20-panel photovoltaic kit with an 8kVA three-phase Fronius inverter
/Kit 25 panneaux autoconsommation - réinjection tri 8kW sans stockage.jpg)
25-panel self-consumption kit – 8kW tri-phase feed-in without storage
8 kW installation diagram: 25 panels, three-phase inverter, cabling and installation. Self-consumption & re-injection without battery.
/Kit 30 panneaux autoconsommation - réinjection tri 8kW sans stockage.jpg)
Kit 30 panels self-consumption - reinjection tri 8kW without storage
Electrical connection diagram for a solar kit with two series of 15 panels and a Fronius 8 kVA three-phase inverter.
/Kit 15 panneaux autoconsommation - réinjection tri 10kW sans stockage.png)
Kit 15 panels self-consumption / re-injection tri 10kW without storage
Electrical connection diagram for a 15-panel photovoltaic system with a Solax 10kVA three-phase inverter
Kit 25 panels self-consumption / re-injection tri 10kW without storage
Electrical connection diagram for a photovoltaic kit consisting of a series of 12 panels and a second series of 13 panels with a 10 kVA three-phase...
/Kit 35 panneaux autoconsommation - réinjection tri 10kW sans stockage.jpg)
Kit 35 panels self-consumption / reinjection tri 10kW without storage
photovoltaic connection diagram of a series of 17 panels and one of 18 with a Fronius three-phase inverter of 10 kVA
/Kit 40 panneaux autoconsommation - réinjection tri 10kW sans stockage.jpg)
Kit 40 panels self-consumption / re-injection tri 10kW without storage
Connection diagram for a solar kit consisting of two series of 20 panels with a Fronius 10 kVA three-phase inverter
Kit of 40 panels for self-consumption/feed-in, 15kW, without storage
Electrical connection diagram 15 kW: 40 panels, three-phase inverter, wiring and installation. Self-consumption with re-injection, without battery.
/Kit 50 panneaux autoconsommation - réinjection tri 15kW sans stockage.jpg)
Kit 50 panels self-consumption / re-injection tri 15kW without storage
Electrical connection diagram for two series of 25 panels with a 15 kVA Fronius three-phase inverter
100W system 55Ah 250VA
Connection diagram for an installation with a 100Wp solar panel, regulator, Victron 250Va inverter and a 55Ah GEL battery
Schematic diagram of how the kit works with WKS I inverters for grid injection
Electrical connection of the WKS I inverter with solar panels, battery, consumers, monitors and grid
Kit autoconsommation 21 panneaux 10kVA avec stockage lithium
Kit autoconsommation 21 panneaux 10kVA avec stockage lithium
Kit autoconsommation 2 panneaux WKS 1kVA avec stockage
Kit autoconsommation 2 panneaux WKS 1kVA avec stockage
Three-phase connection with two inverters requiring the same phase.
Three-phase connection with two inverters requiring the same phase.
2-panel 1kVA self-consumption kit with storage
Diagram of the 1 kVA solar kit with 2 panels and batteries. Discover the complete connection for an autonomous and efficient installation.
Self-consumption kit 6 panels 3kVA with storage and re-injection
Connection diagram for a string of 6 solar panels, a Multisolar 3 kVA inverter and GEL storage
Self-consumption kit 20 panels 5kVA lithium storage
Complete diagram of the 5 kVA solar kit with 20 panels and lithium batteries. View a high-performance installation for sustainable solar energy.
Self-consumption kit 24 panels 10kVA lithium storage
Electrical connection of a 24-panel photovoltaic kit, WKS EVO inverter with Pylontech lithium storage
Self-consumption kit 48 20kVA panels with storage
Complete diagram of the 20 kVA solar kit with 48 panels and batteries. Discover a powerful, autonomous installation for sustainable solar energy.
96-panel 30kVA self-consumption kit with storage
Diagram of 30kVA solar kit with 96 panels and batteries. View a powerful, high-performance and completely autonomous solar installation.
Schematic diagram of connection with an SMA Sunny Boy inverter
Schematic diagram of connection with an SMA Sunny Boy inverter
Schematic diagram of connection with an SMA Tripower inverter
SMA Three-phase kit for self-consumption/feed-in without storage
Connexion en parallèle de trois EVO WKS dans un système monophasé
Parallel connection diagram of 3 WKS EVO inverters in a single-phase system
Battery connection diagram for an installation with three WKS EVO
Battery connection diagram for an installation with three WKS EVO
Connection diagram - Class 1
Electrical connection diagram for the class kit comprising a WKS EVO Circle 5.6 kVA inverter, two strings of panels and 3 Pylontech lithium batteries
Connection diagram - Class 2
Electrical connection diagram for the class 2 kit comprising two WKS EVO Circle 5.6 kVA inverters, four strings of panels and 6 Pylontech lithium b...
WKS EVO CIRCLE connection diagram with lithium storage
Electrical connection of a solar kit with a Circle 5.6 kVA inverter and Pylontech batteries
Operating principle of the WKS EVO CIRCLE 5.6 kVA
Connection diagram of the WKS EVO Circle 5.6 kVA inverter with two series of panels, battery storage, consumers and grid
Connection diagram with Sermatec inverter
Electrical connection of the Sermatec inverter with two series of solar panels connected to the Pylontech lithium batteries and to the grid.
Connection diagram for the Tiny House kit
Connection of the photovoltaic kit with the Circle 5.6 kVA inverter and Pylontech US5000 lithium battery
Kit autoconso 16 panels 3 inverters WKS EVO Circle in tri storage
Connection diagram for a solar kit comprising 16 panels with three three-phase WKS EVO Circle inverters with Pylontech lithium storage
Connection diagram with 2-pole changeover switch
Electrical connection diagram for a WKS EVO Circle inverter and a 2-pole inverter
Connection of 3 WKS EVO Circle inverters with 4 pole inverter and Pylontech storage
Electrical connection diagram of three WKS EVO Circle inverters with 4-pole inverter and Pylontech lithium battery
48-panel 33.6 kVA connection diagram with lithium storage
Assembly diagram of a photovoltaic installation of 48 solar panels with lithium storage
Connection diagram 54 panels 20kVA with lithium storage
Help with connecting a solar kit consisting of 54 solar panels, two WKS EVO MAX II inverters and Pylontech lithium storage
Kit solar de autoconsumo de 11 a 22 paneles con el inversor Multisolar 15 KVA 48V con almacenamiento de litio
Esquema de conexión eléctrica de 11 a 22 paneles, con inversor Multisolar 15 kVA y baterías de litio Pylontech
Connection diagram with WKS EVO MAX 10kVA 48V inverter and lithium storage
Electrical connection of a solar kit of two series of panels with an inverter WLS EVO MAX 10 kVA 48V with Pylontech lithium storage
WKS EVO Circle AC connection diagram
Electrical connection diagram of the WKS EVO Circle inverter, network, consumers and Pylontech lithium storage batteries
Schematic diagram of the WKS EVO Circle a series of eight panels with storage
Connection diagram for the WKS EVO Circle inverter, a series of eight panels with GEL storage
Connection diagram with Sofar Solar inverter
Electrical connection of a photovoltaic system comprising two series of panels connected to a Sofar Solar inverter and two Pylontech US3000C batteries
Sofar Solar ESI diagram with storage
Electrical connection of the Sofar Solar ESI inverter with a Sofar Solar BTS 5K lithium battery and two strings of solar panels
How the WKS EVO 3KVA 24V hybrid inverter works
Schematic diagram of the connection of the WKS EVO 3 kVA 24V inverter with two series of two panels, Gel battery, consumers and network
Connection diagram with Deye 3.6kVA inverter and Delong storage
Detailed wiring diagram of the Deye 3.6 kVA inverter connected to solar panels or wind turbines, including consumers, grid and Delong storage system.
Three-phase inverter cabinet wiring diagram
Three-phase inverter cabinet wiring diagram
Wiring diagram for 63A circuit breaker box
Wiring diagram for 63A circuit breaker box
Wiring diagram for single-phase switch box without socket
Discover the wiring diagram for a single-phase transfer switch panel without socket. A clear guide to properly connect a transfer switch between th...
Wiring diagram for a 16A single-phase AC surge protection unit
Wiring diagram for a 16A single-phase AC surge protection box. A practical guide to protecting your photovoltaic system against power surges.
Wiring diagram for a 32A single-phase AC surge protection unit
Wiring diagram for a single-phase 32A AC surge protection box. A practical guide to protecting your photovoltaic system against power surges.
Wiring diagram for the Deye 3.6 lithium 6-panel solar kit
Electrical connections for the various components of the WATTUNEED solar kit, comprising 6 panels, a 3.6 kW Deye inverter and Pylontech batteries
Normes et réglementation des installations photovoltaïques
Tous nos schémas sont conçus pour être conformes aux réglementations en vigueur. Que vous installiez votre système solaire en France, en Belgique ou ailleurs en Europe, voici les principales normes à respecter :
check_circle
check_circle