Victron energy VE.Panel Installation and Service Manuel utilisateur

Taper
Manuel utilisateur
VE Panel Installation and
Service Manual
Rev 02 03/2021
ENGLISH
Table of Contents
1. Safety ................................................................................................................................... 1
1.1. Safety Symbols .............................................................................................................. 1
1.2. Important Safety Instructions ............................................................................................... 1
1.3. General Safety Precautions ................................................................................................ 1
1.4. Battery Safety ................................................................................................................ 2
1.5. Service or Repair ............................................................................................................ 2
2. Introduction ........................................................................................................................... 4
2.1. Features ...................................................................................................................... 4
2.2. Compatibility ................................................................................................................. 4
2.3. Models Available ............................................................................................................ 4
2.4. Installation Manual .......................................................................................................... 4
3. Installation ............................................................................................................................. 6
3.1. Configuration ................................................................................................................. 6
3.1.1. Planning ............................................................................................................ 6
3.1.2. Location ............................................................................................................ 6
3.2. What's In The Box ........................................................................................................... 8
3.3. Required Materials and Tools .............................................................................................. 8
3.3.1. Materials ............................................................................................................ 8
3.3.2. Tools ................................................................................................................ 8
3.4. Mounting the VE Panel ..................................................................................................... 8
3.5. Installing the VE Panel to the Inverter/Charger .......................................................................... 9
4. Wiring ................................................................................................................................. 10
4.1. General Wiring Requirements and Considerations .................................................................... 10
4.2. Torque Requirements ..................................................................................................... 10
4.3. Electrical System Wiring Diagrams ...................................................................................... 11
4.4. DC ........................................................................................................................... 17
4.4.1. DC Wiring Guidelines ........................................................................................... 17
4.4.2. DC Connections ................................................................................................. 18
4.4.3. Battery Negative ................................................................................................. 18
4.4.4. Battery Positive .................................................................................................. 18
4.4.5. Shunts ............................................................................................................ 18
4.5. PV ........................................................................................................................... 19
4.5.1. PV Ground Fault Protection .................................................................................... 20
4.6. AC ........................................................................................................................... 20
4.6.1. AC Wiring Guidelines ........................................................................................... 20
4.6.2. Inverter AC Bypass breaker assembly ........................................................................ 20
4.6.3. AC Connections ................................................................................................. 21
4.7. Equipment Ground ........................................................................................................ 22
4.8. Neutral to Ground Bond .................................................................................................. 23
4.9. Lightning Arrestor .......................................................................................................... 23
4.10. Connections required by installer ...................................................................................... 24
5. Operation ............................................................................................................................ 25
6. Warranty ............................................................................................................................. 26
7. Sticker Set ........................................................................................................................... 27
VE Panel Installation and Service Manual
1. Safety
1.1. Safety Symbols
The following safety symbols have been placed throughout this manual to indicate dangerous and important safety instructions.
WARNING: This symbol indicates that failure to take a specified action could result in
physical harm to the user.
AVERTISSEMENT: ce symbole indique que le fait de ne pas effectuer une action spécifiée
peut entraîner des blessures physiques pour l'utilisateur.
CAUTION: This symbol indicates that failure to take a specified action could result in
damage to the equipment.
ATTENTION: ce symbole indique que le non-respect d'une action spécifiée peut entraîner
des dommages à l'équipement.
INFO: This symbol indicates information that emphasizes or supplements important points of
the main text.
Info: ce symbole indique des informations qui soulignent ou complètent des points
importants du texte principal.
1.2. Important Safety Instructions
SAVE THESE INSTRUCTIONS - These instructions contain important safety and operating Instructions for the VE Panels.
If you do not fully understand any of the concepts, terminology, or hazards outlined in these instructions, please refer
installation to a qualified dealer, electrician or installer.
These instructions are not meant to be a complete explanation of a renewable energy system.
These instructions are for use by qualified personnel only. Do not perform any servicing or installation other than that specified
in the operating instructions unless you are qualified to do so. Incorrect installation or servicing may result in a risk of electric
shock, fire, or other safety hazard.
CONSERVEZ CES INSTRUCTIONS - Ces instructions contiennent des instructions de sécurité et de fonctionnement
importantes pour les panneaux VE.
Si vous ne comprenez pas parfaitement l'un des concepts, la terminologie ou les dangers décrits dans ces instructions, veuillez
confier l'installation à un revendeur, un électricien ou un installateur qualifié.
Ces instructions ne sont pas censées être une explication complète d'un système d'énergie renouvelable
Ces instructions sont destinées uniquement à un personnel qualifié. N'effectuez aucun entretien ou installation autre que celui
spécifié dans le mode d'emploi, sauf si vous êtes qualifié pour le faire. Une installation ou un entretien incorrect peut entraîner
un risque d'électrocution, d'incendie ou d'autres dangers pour la sécurité.
1.3. General Safety Precautions
All electrical work must be performed in accordance with local and national electrical codes.
This product is designed for indoor/compartment installation.
Use insulated tools to reduce the chance of electrical shock or accidental short circuits.
This unit is provided with integral protection against overloads.
Live power may be present at more than one point since an inverter utilizes both DC (batteries, PV, etc.,) and AC (utility or
generator) power. To reduce risk of electric shock, ensure all DC and AC wiring is disconnected prior to installing or performing
maintenance on the inverter. Turning off the inverter will not reduce this risk, the inverter must be totally disconnected from all
sources.
Always verify proper wiring prior to starting the inverter.
Use only copper wires with a minimum temperature rating of 90°C.
Battery cables should be no less than #4/0 gauge for both 24 and 48-volt systems. Crimped and sealed copper ring terminal
lugs with an m8 (5/16) hole should be used to connect to the DC terminals on the inverter/charger.
Torque all AC wiring connections and DC cable connections to the required torque values listed in section 4.3.
This equipment is NOT intended for use with life support equipment or other medical equipment or devices.
Be sure to comply with all local and national code requirements including National Electrical Code, ANSI /NFPA 70. Use Class
1 wiring methods for field wiring connections to terminals of a Class 2 circuit
Select the wire gauge used based on the protection provided by the circuit breakers/fuses.
It is the responsibility of the installer to verify compliance with all applicable codes.
Before making any connections verify that the circuit breakers are in the off position including the inverter breaker. Double
check all wiring before applying power.
VE Panel Installation and Service Manual
Page 1 Safety
Précautions générales de sécurité
Tous les travaux électriques doivent être effectués conformément aux codes électriques locaux et nationaux.
Ce produit est conçu pour une installation à l'intérieur / dans un compartiment.
Utilisez des outils isolés pour réduire le risque de choc électrique ou de courtcircuit accidentel.
Cet appareil est doté d'une protection intégrale contre les surcharges.
Une alimentation en direct peut être présente à plus d'un point car un onduleur utilise à la fois une alimentation CC (batteries,
PV, etc.) et CA (secteur ou générateur). Pour réduire le risque de choc électrique, assurezvous que tous les câbles CC et CA
sont déconnectés avant d'installer ou d'effectuer des opérations de maintenance sur l'onduleur. La mise hors tension de
l'onduleur ne réduira pas ce risque, l'onduleur doit être totalement déconnecté de toutes les sources.
Vérifiez toujours le câblage approprié avant de démarrer l'onduleur.
Utilisez uniquement des fils de cuivre avec une température minimale de 90 ° C.
Les câbles de batterie doivent être au moins de calibre # 4/0 pour les systèmes de 24 et 48 volts. Des cosses à anneau en
cuivre serties et scellées avec un trou m8 (5/16) doivent être utilisées pour se connecter aux bornes CC de l'onduleur.
Serrez toutes les connexions de câbles CA et de câbles CC aux valeurs de couple requises.
Cet équipement n'est PAS destiné à être utilisé avec des équipements de survie ou d'autres équipements ou dispositifs
médicaux.
Assurez-vous de respecter toutes les exigences des codes locaux et nationaux, y compris le National Electrical Code, ANSI /
NFPA 70. Utilisez des méthodes de câblage de classe 1 pour les connexions de câblage sur site aux bornes d'un circuit de
classe 2. Utilisez uniquement un fil AWM de calibre 14-4 / 0. Sélectionnez le calibre de fil utilisé en fonction de la protection
fournie par les disjoncteurs / fusibles.
Il est de la responsabilité de l'installateur de vérifier la conformité à tous les codes applicables.
Avant d'effectuer toute connexion, vérifiez que les disjoncteurs sont en position d'arrêt, y compris le disjoncteur de l'onduleur.
Vérifiez tout le câblage avant de mettre sous tension.
1.4. Battery Safety
Use insulated tools and be very careful when working around batteries, they can produce extremely high currents if short-
circuited.
Read and follow the battery manufacturer’s safety precautions before installing the inverter and batteries. Always verify proper
polarity and voltage before connecting the batteries to the inverter.
Remove all jewelry such as rings, watches, bracelets, etc., when installing or performing maintenance on the batteries and
inverter. A battery can produce a short-circuit current high enough to weld metal jewelry, causing severe burns.
Never work alone. Always have someone within your line of sight or close enough to come to your aid when working around
batteries.
Use proper lifting techniques when working with batteries.
Batteries are sensitive to changes in temperature. Always install batteries in a stable environment.
Provide at least 3cm (1 inch) of air space between batteries to provide optimum cooling.
Sécurité de la batterie
Utilisez des outils isolés et soyez très prudent lorsque vous travaillez autour des batteries, elles peuvent produire des courants
extrêmement élevés en cas de court-circuit
Lisez et respectez les consignes de sécurité du fabricant des batteries avant d'installer l'onduleur et les batteries. Vérifiez
toujours la polarité et la tension appropriées avant de connecter les batteries à l'onduleur
Retirez tous les bijoux tels que bagues, montres, bracelets, etc., lors de l'installation ou de l'entretien des batteries et de
l'onduleur. Une batterie peut produire un courant de court-circuit suffisamment élevé pour souder des bijoux en métal,
provoquant de graves brûlures.
Ne travaillez jamais seul. Ayez toujours quelqu'un dans votre champ de vision ou assez près pour vous venir en aide lorsque
vous travaillez autour des batteries.
Utilisez des techniques de levage appropriées lorsque vous travaillez avec des batteries.
Les batteries sont sensibles aux changements de température. Installez toujours les piles dans un environnement stable.
Laissez au moins 3 cm (1 pouce) d'espace d'air entre les batteries pour assurer un refroidissement optimal.
1.5. Service or Repair
If service or repair should become necessary, contact Victron Energy.
Improper servicing may result in a risk of shock, fire or explosion.
To reduce these risks, disconnect all wiring before attempting any maintenance or cleaning.
Turning off the inverter will not reduce these risks.
Solar modules produce power when exposed to light.
When it is not possible to disconnect the power coming from the Photovoltaics (PV) by an external means such as a circuit
breaker, cover the modules with an opaque material before servicing any connected equipment.
VE Panel Installation and Service Manual
Page 2 Safety
WARNING: Incorrect installation or servicing may result in a risk of electric shock,
fire, or other safety hazard.
Service ou réparation
Si un entretien ou une réparation devenait nécessaire, contactez Victron Energy.
Un entretien inapproprié peut entraîner un risque d'électrocution, d'incendie ou d'explosion.
Pour réduire ces risques, débranchez tout le câblage avant de tenter toute opération d'entretien ou de nettoyage.
La mise hors tension de l'onduleur ne réduira pas ces risques.
Lorsqu'il n'est pas possible de déconnecter l'alimentation provenant du photovoltaïque (PV) par un moyen externe tel qu'un
disjoncteur, recouvrir les modules d'un matériau opaque avant de réparer tout équipement connecté.
AVERTISSEMENT: une installation ou un entretien incorrect peut entraîner un risque
d'électrocution, d'incendie ou d'autres risques pour la sécurité.
VE Panel Installation and Service Manual
Page 3 Safety
2. Introduction
2.1. Features
Includes:
Internally pre-wired enclosure.
A built-in AC bypass switch with full system current capability, and a DC disconnect breaker for safe and easy isolation for
servicing of the inverter and/or battery bank.
Battery to inverter/charger DC disconnect breaker (250 Amps).
Inverter AC input overcurrent protection breakers.
DIN mount AC and DC breakers for quick and easy operation.
A500A/50mV DC shunt installed for easy connection to battery status monitor.
Enclosure and components are UL/CSA certified and designated for indoor use.
Configurations available for both single 120 and 230 VAC, 120/240 VAC and 3-Phase systems.
DC negative, positive and ground busbars for DC loads and PV arrays included.
Mounting provided for DIN rail DC load/disconnect breakers.
Integrates directly with Victron Energy’s 3,000 and 5,000 MultiPlus and Quattro inverter/chargers.
Knockouts for inverter/charger and battery cables, PV in/out, DC panel mount breakers.
2.2. Compatibility
The VE Panel (VEP) is designed for the 3kVA and 5kVA MultiPlus and Quattro inverter/chargers.
2.3. Models Available
Description Part Number
VE Panel 3kVA 120/240 NA Primary 24/48Vdc VEP230121402
VE Panel 3kVA 120 NA Follower 24/48Vdc VEP230141204
VE Panel 3kVA NA 3PH Primary 24/48Vdc VEP230161604
VE Panel 3kVA 230 Export Primary 24/48Vdc VEP230422002
VE Panel 3kVA 230 Export Follower 24/48Vdc VEP230442004
VE Panel 3kVA 230 Export 3PH 24/48Vdc VEP230462206
VE Panel 5kVA 120/240 NA Primary 48Vdc VEP250125402
VE Panel 5kVA 120 NA Follower 48Vdc VEP250145204
VE Panel 5kVA NA 3PH Primary 48Vdc VEP250165606
VE Panel 5kVA 230 Export Primary 48Vdc VEP250426002
VE Panel 5kVA 230 Export Follower 48Vdc VEP250446004
VE Panel 5kVA 230 Export 3PH 48Vdc VEP250466206
2.4. Installation Manual
Use this installation manual to aid in installation.
The installation of an electrical system such as this, fall under the guidelines of the NEC in the USA. Canadian electrical codes
have jurisdiction in Canada.
These instructions are not intended to be used in lieu of these local and federal codes, but rather are used as specific to this
product.
You may need to consult with a professional solar installer or electrical inspector when in doubt on code specific questions and
system installation issues.
Even though the VE Panel incorporates and simplifies numerous separate electrical circuits into one enclosure, an inverter
system such as this is still a very sophisticated and somewhat complicated electrical system.
VE Panel Installation and Service Manual
Page 4 Introduction
WARNING: Incorrect installation or servicing may result in a risk of electric shock, fire, or
other safety hazard.
VE Panel Installation and Service Manual
Page 5 Introduction
3. Installation
3.1. Configuration
Installing multiple VE Panels, a trough or gutter below the VE panel is a compliant and effective method for wire management in
connecting parallel systems.
Knock outs are provided on the sides and bottom of the VE Panels and could be utilized to run wire and data cables via conduit
between the systems. Refer to Figures 2 and 3 for examples.
Figure 1 Conduit Interconnection Example
VE Panel’s in parallel operation can be used with a battery combiner for larger dual Quattro 5k VA inverter/charger systems
shown in Figure 15.
3.1.1. Planning
Before proceeding, read the entire Installation section to determine how you are going to install your VE Panel enclosure.
3.1.2. Location
Refer to the dimensional drawings in Figure 2 and 3 to determine an appropriate area to install the VE Panel enclosure and
inverter/charger system. The following should be considered:
VE Panel shall be mounted vertically.
Installed indoors in a clean and dry area that is relatively cool environment.
The inverter/charger will pull in air through the intake vents at the bottom of the VE Panel.
In order for the inverter/charger to provide full output power and avoid overtemperature conditions, do not cover or block the
VE Panel enclosure ventilation openings or install it in an area with limited airflow. At the minimum, allow 10cm (4”) of
clearance to the left and right sides to provide adequate ventilation.
The VE Panel enclosure and inverter/charger system should be located as close to the batteries as possible. This is to
ensure the battery cable length is kept as short as possible. Long DC wires tend to lose efficiency and reduce the overall
performance of an inverter. However, the VE Panel enclosure, the inverter/charger, and any other equipment that can spark
(or that corrosion could damage) should not be installed in the same compartment/room as the batteries or mounted where it
will, depending on battery type, be exposed to gases produced by the batteries. These gases are corrosive and will damage
this equipment. Also, if these gases are not ventilated and if allowed to collect, they could ignite and cause an explosion.
Consult the MultiPlus or Quattro owner’s manual to determine the proper sized inverter/charger to battery cables for the
distance that is used. However, this cable must not be sized any smaller than the minimum size requirement for the DC
disconnect breaker in the VEP Panel enclosure. Both VE Panel models require a minimum 0000 (4/0) AWG (107mm²) cable.
Do not install the inverter/charger-VE Panel assembly in any area that contains extremely flammable liquids like gasoline or
propane, or in locations that require ignition-protected devices. Sparks from relays, circuit breakers, etc., could ignite the
fumes or spills.
Do not block access to the front of the VE Panel enclosure. Maintain at least a 1m (36”) clear space in front to access the AC
and DC wiring terminals and connections inside the enclosure, as they will need to be checked and tightened periodically.
Do not mount the VE panel directly above a flooded or sealed lead acid battery bank unless batteries are contained in an
enclosure with outside ventilation.
VE Panel Installation and Service Manual
Page 6 Installation
Figure 2 - 3k VE Panel Dimensions
Figure 3 - 5k VE Panel Dimensions
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Page 7 Installation
3.2. What's In The Box
Internally pre-wired VE Panel assembly
Charge Controller Bracket (Victron MPPT’s mount separately)
VE Panel Installation Manual
Service and user manual
Sticker Set
3.3. Required Materials and Tools
3.3.1. Materials
Electrical tape
Wire ties
Conductors/cables for wiring
M6 or ¼ inch fasteners
3.3.2. Tools
Screwdriver set
Insulated pliers
Wire cutters/strippers
Drill and drill bits for mounting VE panel
Pencil or marker
Multi-meter
Level
Ratchet and socket Set
Wrench Set
Torque wrenches to include:
Small Torque wrench for DIN Rail circuit breakers such as 2.5 Nm or 20 inch pounds.
Larger torque wrench for battery inverter/charge cables 14Mn or 124 inch pounds.
3.4. Mounting the VE Panel
The Victron inverter/charger should be mounted first to the wall prior to installing the VE Panel. Pay attention to the total height
of the system. Refer to the dimensioned drawing in Figure 2 and 3.
Prior to mounting the MultiPlus or Quattro, to improve airflow/circulation, and to provide easy access to the large chassis
ground terminal stud, it is necessary to remove the blue fan cover plate. It is required to remove Glands/strain relief on the
5kVA Quattro to remove the blue fan cover plate, and replace. See Figures 4 through 7.
Figure 4 - 3kVA Blue Fan Cover Plate Installed
VE Panel Installation and Service Manual
Page 8 Installation
Figure 5 - 3kVA Blue Fan Cover Plate Removed
Figure 6 - 5kVA Blue Fan Cover Plate Installed
Figure 7 - 5kVA Blue Fan Cover Plate Removed
3.5. Installing the VE Panel to the Inverter/Charger
To install the VE Panel, remove dead front.
The 4 mounting feet can be accessed through the front of the enclosure to attach to surface with M6 or ¼ inch fasteners.
Attach to vertical surface and use appropriate fasteners to support at least three times the weight of the panel (each panel is
@17lbs or 8Kg).
VE Panel Installation and Service Manual
Page 9 Installation
4. Wiring
4.1. General Wiring Requirements and Considerations
The AC and DC wires into and out of the VE Panel enclosure must be protected as required by code in NA. This can be done
by using jacketed wires or by feeding the wires through conduit.
Use proper clamps or other approved methods for securing the cable/conduit to the enclosure.
Do not mix AC and DC wiring in the same conduit. The VE Panel enclosure is specify approved/designed for both AC and DC
wiring. However, where DC wiring must cross AC or vice-versa, try to make the wires at the crossing point 90° to one another.
Use only copper wires with a minimum rating of 150V, 75°C if only 120 VAC power is being used; or, with a minimum rating of
300V, 75°C if 120/240 VAC power is being used.
The equipment grounding conductors must be bare (no insulation), or have green or green with yellow-striped insulation or
identification. The hot ungrounded conductor (DC positive/AC hot) is usually red or black.
4.2. Torque Requirements
Busbar Torque Values
Small Busbar Screws 18 - 10 AWG 6 – 1mm² 20 Inch Pound 2.3N-m
Small Busbar Screws 8 AWG 8.36mm² 25 Inch Pounds 2.8N-m
Small Busbar Screws 6 AWG 13.3mm² 35 Inch Pounds 4N-m
Large Busbar Screws 18 - 10 AWG 6–1mm² 35 Inch Pounds 4N-m
Large Busbar Screws 8 AWG 8.36mm² 40 Inch Pounds 4.5 N-m
Large Busbar Screws 6-4 AWG 13-21mm² 45 Inch Pounds 5 N-m
Large Busbar Screws 3-1/0 AWG 27-54mm² 50 Inch Pounds 5.6 N-m
Breaker Torque
DC DIN Rail Mounted Breakers 20 Inch Pounds 2.3 Nm
AC DIN Rail Mounted Breakers 20 Inch Pounds 2.3 Nm
5A to 100A DC Panel Mounted Breakers 30 Inch Pounds 3.4 Nm
Inverter/3.4 Nm 250A Breaker 18 Foot Pounds 24.9 Nm
Shunt Torque
MidNite Solar PN MNSHUNT 50mV/500amp 180 Inch Pounds 20.4 Nm
Victron PN SHU500050100 Shunt 500A/50mV 180 Inch Pounds 20.4 Nm
Inverter/Charger Torque Requirements
MultiPlus 3k
Battery Stud Terminals 97 Inch Pounds 11 Nm
AC Terminal Blocks 45 Inch Pounds 5.1 Nm
Quattro 5k
Battery Stud Terminals 124 Inch Pounds 14 Nm
AC Terminal Blocks 62 Inch Pounds 7 Nm
VE Panel Installation and Service Manual
Page 10 Wiring
4.3. Electrical System Wiring Diagrams
Diagrams of the AC and DC wiring for the VE Panel Series enclosure are shown in Figures 8 through 17 and are provided to
assist you or your system installer.
Due to the variety of applications and differences in local and national electrical codes, these wiring diagrams should be used
as general guidelines only.
They are not intended to override or restrict any national or local electrical codes. The diagrams should not be the determining
factor as to whether the installation is compliant, that is the responsibility of the electrician and the on-site inspector.
Figure 8 - NA 5kVA Component Locator
Figure 9 - NA 3kVA Component Locator
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Page 11 Wiring
Figure 10 - NA 5kVA Single AC Connection Points
VE Panel Installation and Service Manual
Page 12 Wiring
Figure 11 - NA 5kVA Single Optional AC2 IN Connection Points
VE Panel Installation and Service Manual
Page 13 Wiring
Figure 12 - NA 5kVA Dual Stack AC (1 AC Input) Connection Points
Figure 13 - NA 5kVA Dual Stack AC (2 AC Inputs) Connection Points
VE Panel Installation and Service Manual
Page 14 Wiring
Figure 14 - NA 5kVA 3-Phase AC Connection Points
Figure 15 - NA 5kVA Dual Stack VE Panel Battery Connection Points
VE Panel Installation and Service Manual
Page 15 Wiring
Figure 16 - Export 3kVA Single VE Panel AC and DC Connection Points
VE Panel Installation and Service Manual
Page 16 Wiring
Figure 17 - NA 3kVA Single AC and DC Connection Points
4.4. DC
4.4.1. DC Wiring Guidelines
During normal operation, the terminals, busbars, and electrical components inside the VE Panel enclosure may be energized –
DO NOT TOUCH. Disconnect all power sources before removing the cover
Even though DC voltage is “low voltage”, significant hazards may be present, particularly from short circuits of the battery
system.
Before wiring the DC cables, review the safety information at the beginning of this manual and the following information to
ensure a safe and long-lived system.
Failure to use the proper terminal may cause the connection to heat-up, and may eventually fail or become a fire hazard.
DO NOT connect the battery cables to the inverter/charger until all wiring is complete and the correct DC voltage and polarity
have been verified.
When the inverter/charger is installed in a Photovoltaic System, the NEC requires that the DC circuit conductors and
overcurrent devices to the inverter/charger be sized to carry not less than 125% of the inverter/charger's maximum current
rating.
Crimped and sealed copper compression lugs with a 3/8” hole should be used to connect the battery cables to the DC
disconnect breaker and the DC shunt inside the VE Panel enclosure.
The battery bank voltage MUST match the DC voltage required by the inverter/charger (i.e., 24-volt battery bank for a 24-volt
inverter/charger), or the inverter may be damaged.
To ensure the maximum performance from the inverter/charger, all connections from the battery bank to the inverter/charger
through the VE Panel enclosure should be minimized, the exception is the DC circuit breaker in the positive line and the DC
VE Panel Installation and Service Manual
Page 17 Wiring
shunt in the negative line. Any other additional connection will contribute to additional voltage drops and may loosen during
use.
All wiring to the inverter/charger and battery terminals should be checked periodically for proper tightness. Refer to the torque
requirements in section 3.1.
4.4.2. DC Connections
Use Diagrams in section 4.3 to view the DC connection points inside the VE Panel enclosure.
The VE Panel comes supplied with 4/0 cable for the inverter/charger connections (both 3kVA and 5kVA models).
Busbars are provided for easy hook up for PV.
4.4.3. Battery Negative
The battery negative on both the 3kVA and 5kVA version are mounted on the bottom of the shunt shown in the Component
Locater Figures 2 and 3.
An optional Negative Battery busbar can be placed in the 5kVA model referenced in Component Locator shown in Figures 2
and 3.
4.4.4. Battery Positive
The battery positive on both the 3kVA and 5kVA models are mounted on bottom of the inverter/charger 250A circuit breaker
shown in the Component Locater shown in Figures 2 and 3.
4.4.5. Shunts
The VE Panel comes with a standard 50mV/500amp shunt with current sense module option available.
The standard shunt can be replaced with a Victron shunt and must be ordered separately. For example, a Victron Energy
50mV/500A (part number SHU500050100) or the SmartShunt (part number SHU050150050).
In a dual VE Panel configuration the supplied shunt will act as a transition point only for the negative follower inverter/charger to
battery.
When using a battery monitoring shunt in a dual configuration it should be wired as shown in the diagram in Figure 15 using a
Battery Combiner Box such as the MidNite Solar MNBCB 1000/50 and using the 1000A/50mV shunt provided or replacing with
a Victron Energy shunt for battery State of Charge (SOC).
Note in this configuration the supplied shunts in the VE Panels are for transition of the Negative battery cables only.
Figure 18 - Standard Shunt
Figure 19 - SmartShunt 500A/50mV
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Victron energy VE.Panel Installation and Service Manuel utilisateur

Taper
Manuel utilisateur