Goodwe BCL9600 User manual
User Manual
V1.2-2022-10-30
Battery Enclosure
BCL9600
Content
1
User Manual V1.2-2022-10-30
TABLE OF CONTENTS
01 Product Introduction ...............................................1
1.1 Dimensions................................................................................................1
1.2 Parts List ....................................................................................................1
02 Installation ..............................................................2
2.1 Tools required ...........................................................................................2
2.2 Location and environmental requirement ............................................2
2.3 Preparations..............................................................................................3
2.4 Mounting the Enclosure ..........................................................................4
2.5 Inserting the Batteries.............................................................................4
03 BMS Connections ....................................................7
3.1 DIP Switch Calibration..............................................................................7
3.2 APP Setting (On SolarGo).........................................................................8
3.3 BMS battery connection table.................................................................8
04
Connecting the Battery Enclosure to the Inverter ......10
05 Commissioning the Battery .................................... 12
User Manual V1.2-2022-10-30
Copyright Statement
The information in this user manual is subject to change due to product updates or other
reasons. This guide cannot replace the product labels or the safety precautions in the user
manual unless otherwise specied. All descriptions here are for guidance only.
and other GOODWE trademarks are trademarks of GoodWe Technologies
Co.,Ltd. All other trademarks or registered trademarks mentioned in this manual are owned by
GoodWe Technologies Co.,Ltd.
Trademarks
NOTICE
1
User Manual V1.1-2022-06-30 01 Introduction
The Battery Enclosure dimensions are: width 516mm, depth 280mm, height 1155mm (without
the feet installed) and width 516mm, depth 280mm, height 1205mm (with the feet installed).
516mm
1205mm
1205mm
280mm
Figure 1: Dimensions
1.2 Parts List
1.1 Dimensions
01 Product Introduction
Expansion
bolts x N
Short grounding
wire x 4
Long grounding
wire x 1 Ground screw xN
Glue x 1
Base screw x N
Signal Cable x 1 Documents x 1
Hexagon screw
of top cover x 4
Countersunk
screw x N Base x 2Lock bracket x 4
N = Quantity depends on the product model.
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02 Installation User Manual V1.2-2022-10-30
2.1 Tools required
2.2 Location and environmental requirement
02 Installation
The following tools are recommended when installing the equipment. Use other auxiliary tools
on site if necessary.
Goggles Safety shoes Safety gloves Dust mask
Diagonal pliers
Marker Level Heat shrink
tube
Rubber
hammer
DC wiring
wrench
Vacuum
cleaner
Torque wrench
M3/M4
/M5
Cable tieMultimeter
Wire stripper Hammer drill Heat gun
DC terminal
crimping tool
The following lists are only for battery enclosure parallel connection.
Network cable
x 1
Wiring slot x 1
Right panel x 1 Silicon stopper
x 2 Top panel x1Screw plug x 1
Left panel x 1 Long grounding
wire x 1
Countersunk
screw x N
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02 InstallationUser Manual V1.2-2022-10-30
2.3 Preparations
1. In preparation for the installation of the enclosure, take o the three front covers of the
battery enclosure by removing the 12 screws.
2. Screw the two feet to the base of the battery enclosure, using the three screws provided.
3. Once the feet are xed, the battery enclosure is ready for installation as shown in Figure 4.
Figure 2: BCL9600 out of the packing box.
Figure 3: Battery Enclosure feet and mounting screws.
Inside bottom view of Enclosure without feetFeet
Figure 4: Battery Enclosure with the feet
attached and ready for installation.
1. Do not install the equipment in a place near ammable, explosive, or corrosive materials.
2. The equipment is heavy. Install the equipment on a surface that is solid enough to bear the
weight of the equipment.
3. Install the equipment in a well-ventilated place to ensure good dissipation, there should
be ample room (min 150mm) for air circulation. Also, the installation space should be large
enough for operations.
4. The equipment with a high ingress protection rating can be installed indoors or outdoors.
The temperature and humidity at the installation site should be within the appropriate range.
5. Install the equipment in a sheltered place to avoid direct sunlight, rain, and snow. Build a
sunshade if it is needed.
6. Do not install the equipment within children’s reach. High temperature exists when the
equipment is working. Do not touch the surface to avoid burning.
7. Install the equipment in a place that is convenient for operation and maintenance, electrical
connections, and checking indicators and labels.
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02 Installation User Manual V1.2-2022-10-30
2.4 Mounting the Enclosure
The battery enclosure is designed to be installed below the inverter and comes prewired for easy
integration with the inverter.
1. Set the battery enclosure against the wall. Ensure that the oor where it is to be installed is
level.
2. Use the supplied xing screw and plug set to x the enclosure onto the wall. An alternative
xing mechanism can be employed if the supplied screw and plug set is not appropriate for
the wall.
3. Once the enclosure is xed onto the wall, apply generous amount of the supplied sealant on
the six screw holes to seal o any moisture ingress points.
Figure 5: BCL9600 wall mounting holes.
Figure 6: GoodWe SECU-A battery front handles
2.5 Inserting the Batteries
Note: The battery switch should remain o during the installation process.
The enclosure can be used to house Li-ion battery types, the following installation uses GoodWe
SECU-A battery as an example.
Up to two GoodWe SECU-A(4.8kWh) battery packs with a total storage capacity of 9.6 kWh.
1. Insert the batteries onto the shelves one at a time by inserting the battery pack bottom rst
into the cabinet. Please ll the cabinet from bottom to top, insert battery 2 rst, then 1.
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02 InstallationUser Manual V1.2-2022-10-30
Figure 7: BCL9600 with the bottom battery
inserted
Figure 8: Inside view of BCL9600 with
two Goodwe SECU-A batteries.
Figure 9: BCL9600 earthing connection points.
Side of battery enclosure
(wire-frame view)
2x earthing
points
2x earthing
points
Front view of battery enclosure
2x earthing
points
2x earthing
points
2. Once the batteries are placed into position, plug the respective power leads into the power
connectors on the batteries while taking note of the polarity. Ensure that the battery 2 lead
which has the power connector for the Fan Controller is plugged into one of the batteries.
3. If you are using GoodWe SECU-A battery packs, connect the bonding leads between each
battery and the earthing studs inside the enclosure.
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02 Installation User Manual V1.2-2022-10-30
At this stage the preliminary installation of the Battery Enclosure is complete. The next step is
the connection of the BMS cables.
Figure 10: BCL9600 with batteries and connected (Goodwe SECU-A).
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03 BMS ConnectionsUser Manual V1.2-2022-10-30
ON DIP ON DIP
......
The BMS (Battery Management System) communication for GoodWe SECU A5.4-20 or SECU
A5.4L battery is as follows:
3.1 DIP Switch Calibration (Only for SECU-A5.4L)
The DIP switches shall be congured dierently between single piece battery and multi battery
paralleling system.
03 BMS Connections
ON DIP
1* Pack System (5.4kWh)
Multi Pack System (at most 4 pack)
DIP Function Description
2 Terminal Resistance Switch To recognize the last battery connected to inverter.
3GoodWe communication protocol
Switch
To realize the communication between inverter and
inverter unit part.
1 2 3 4 1 2 3 4
1 2 3 4
Battery 1
Battery 1-3 Battery 4
Battery 4
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03 BMS Connections User Manual V1.2-2022-10-30
3.2 APP Setting (On SolarGo)
To make sure the battery communicates to inverter unit successfully, users have to use SolarGo
to choose the right battery option on SolarGo:
APP Installation And Connection:
3.3 BMS battery connection table
Description From To Cable label
GoodWe
SECU-A
(Figure 12)
BMS feed through port Master battery COM 1
port to inverter port To inverter
Fan Controller To Battery port Battery 2 +/-port Cabinet of battery
Link Port COM 2 of the master
battery
Link port COM 1 of the
slave battery Link
Connect phone & Inverter
Wi-Fi SSID: Solar-WiFi***
Password: 12345678
play
App Store
Select SECU-A5.4L or SECU A5.4-20 on
battery page in SolarGo Application
Notes:
1. Select wrong battery will lead to BMS
communication failure.
2. For the complete commissioning
ofthe whole ESA system, please go to
ESA instruction.
SECU-A5.4L*1
SECU-A5.4L*2
SECU-A5.4L*3
SECU-A5.4L*4
SolarGo
9
03 BMS ConnectionsUser Manual V1.2-2022-10-30
Figure 11: GoodWe SECU-A
BMS to GoodWe SECU-A 'CAN' Port
PV isolator
Battery 125 amp per
pole80/125VDC 2-pole
circuit breaker
Backup 25 amp
400Vac 2-pole
circuit breaker
Manual AC load
25 amp 250Vac
bypass switch
Earth
Grid main 230V
utility grid
connection
terminals
Utility grid 40 amp
400Vac 2-pole
circuit breaker
WiFi
switch board
491.9965
ON
04 Connecting the Battery Enclosure to the Inverter
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User Manual V1.2-2022-10-30
04
Connecting the Battery Enclosure to the Inverter
CAUTION!
The inverter should be powered down during this process.
The battery enclosure is now ready to be connected to the inverter mounted on the same wall
above the battery enclosure as per gure 13.
1. Connect the Amphenol connectors, on the top of the battery enclosure, to the matching
battery connectors at the base of the inverter.
Note: You need to check the inverter’s commissioning steps to complete the commissioning of the
whole system.
2. Connect the battery enclosure’s earth lead to the earth terminal inside the inverter.
3. (optional) Install the panels and wiring slot between the two battery enclosures. Connect
the cable connectors on the second battery enclosure to the inverter and the master battery
enclosure.
4. With the inverter’s BoS box and the battery enclosure’s front cover still open, turn on the
inverter and subsequently close the battery breaker in preparation for the commissioning
process.
04 Connecting the Battery Enclosure to the Inverter
11
User Manual V1.2-2022-10-30
评审用
Figure 12: BCL9600 Battery Enclosure connected to inverter (GoodWe Secu-A)
ON
05 Commissioning User Manual V1.2-2022-10-30
12
05 Commissioning the Battery
1. Ensure all the BMS connections have been done as per the
instruction provided in this installation manual.
2. You don’t need to assign the battery (ADD) addresses
manually as the master battery will do this for you
(provided the BMS wiring is done per the instruction in this
installation manual).
3. Press the Battery Breaker on all batteries. The green LED
light should light up. (Please note that the batteries won’t
be discharging any power at this stage).
4. Press the Battery Switch on the master battery. That will
start all batteries.
5. The 'Battery' light on the Control Board should be on,
indicating that BMS communication has been established
between the master battery and the inverter and at this
stage you should be able to see the battery on the portal
in the SolarGo app.
Note: You need to check the inverter’s commissioning steps to
complete the commissioning of the whole system.
Figure 13: The completed installation of BCL9600
GoodWe Battery (SECU-A)
GoodWe Technologies Co., Ltd.
No. 90 Zijin Rd., New District, Suzhou, 215011, China
www.goodwe.com
Website
340-00884-00 Local Contacts
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