EG4 ELECTRONICS EG4-LL Rack Mounted Battery User Manual
- October 30, 2023
- EG4 ELECTRONICS
Table of Contents
- EG4-LL Battery Diagram
- About This Manual
- Safety Notice
- Introduction
- Overview
- Installation
- Battery Charging
- Introduction to the BMS
- Battery Communications
- LCD Screen and PC Software
- Battery Storage
- Battery End of Life
- Troubleshooting
- EG4 Warranty
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
EG4-LL Rack Mounted
48V 100Ah/24V 200Ah
User Manual
Version 1.2.1
Information subject to change without notice
EG4-LL Battery Diagram
No. | Item | Function Description | Remarks |
---|---|---|---|
1 | Positive terminal | Positive battery connection | M6 bolt (x2) |
2 | RS485 | RS485 communication interface | Inverter communication |
3 | CAN | CAN communication interface | Inverter communication |
4 | ALM | Alarm indication LED | |
5 | RUN | Operation indication LED | Always on when the system is running |
6 | Reset | Emergency restart button | |
7 | ON/OFF | BMS control | BMS On/Off switch |
8 | Breaker | Power output switch | |
9 | Negative terminal | Negative battery connection | M6 bolt (x2) |
10 | Battery-Comm | Inter battery communication when paralleled | |
11 | SOC | The state of charge | 4 green lights mean fully charged |
12 | ID | Assigns unique address to each module | DIP switch |
13 | Display | Shows battery information | |
14 | Grounding screw | Provides a safe route for grounding | |
15 | Handle | For carrying and handling the battery |
About This Manual
Purpose
This manual describes installation, commissioning, operation, and
troubleshooting. Please read the manual fully and carefully before installing
and operating. Keep this manual for future use.
Scope
This manual provides basic installation guidelines as well as information on
tools and wiring.
Safety Notice
Attention: The following contains important safety and operating instructions. Read and keep this manual for future reference.
- Before installing or using the unit read all instructions and cautionary markings on the unit and all appropriate sections of the manual.
- CAUTION – Do not disassemble the unit. Take it to a qualified service center when service or repair is required. Incorrect re-assembly may result in a risk of electric shock or fire.
- To reduce the risk of electric shock, shutdown and disconnect all wiring before attempting any maintenance or cleaning. Turning off the unit alone will not reduce the risk of shock or injury.
- CAUTION – Only qualified personnel can install this equipment.
- NEVER charge a battery below the specified minimum temperature; refer to the battery data sheet.
- Wire size is critical for safe operation, and optimal performance of the equipment. Refer to an accredited sizing resource or cable manufacturer specifications to meet charge/discharge requirements.
- Use caution when working with metal tools on or around all systems and batteries. Risk of electrical arcs and/or short circuiting of equipment can lead to severe injury and damage.
- Strictly follow installation procedure when connecting/disconnecting DC terminals. Refer to the Installation section of this manual for details.
- The included breaker is not a guarantee of battery protection. Size and install the correct over current protection for conductors and battery if not included with the product.
- Grounding – The grounding system must meet the Authority Having Jurisdiction (AHJ) requirements for your area.
- NEVER short DC inputs. Do NOT connect the system to the grid with a shorted DC input.
- WARNING – Only qualified service personnel are able to service this equipment. If errors persist after following the troubleshooting table, please contact your retailer for further assistance.
DISCLAIMER
EG4 reserves the right to make changes to the material herein at any time
without notice. You may refer to the EG4 website at www.eg4electronics.com for
the most updated version of our manual.
Introduction
Product Description
EG4-LL Rack-Mounted lithium battery products are suitable for low-voltage
small and medium-sized energy storage system applications. These products
adopt the highest safety performance lithium iron phosphate cells, with a
high-precision battery management system (BMS), which can monitor and collect
voltage, current and temperature of each cell in the module in real time. The
BMS also has a passive balance function, advanced battery control strategy,
which can improve the performance of the battery pack further.
In order to improve the system safety performance of the product, we put two
aerosol fire-fighting modules inside each battery module, which can be used as
the last safety barrier of the system in extreme cases to ensure the safety of
your property and life to the greatest extent.
The battery module consists of 16 “AAA” Grade cells , BMS, housing, breaker,
and wire. The module can be placed in a standard 19-inch cabinet and establish
communication with the outside devices through CAN/RS485, and communicate with
other modules through RS485. The modules can be connected in parallel to meet
the expansion needs. Maximum inter battery communications support 16
modules.
Overview
Included Equipment
When you purchase an EG4-LL battery, you will receive multiple items. These
items will be included in the battery box, or separate packaging within your
shipment.
- (1) EG4-LL battery module
- Inter-battery communication cable
- Positive and Negative color coded connection cables
Installation
Needed Tools For Installation
The tools required may vary depending on how you choose to mount your battery.
In general, you will need the following items to install your battery into an
EG4 racking solution.
- 10mm socket and ratchet
- Phillips head screwdriver
- Torque wrench of proper size
How to Connect Cables to the Battery Terminals
- Identify the positive and negative terminals on your battery. These are labeled and color coded. (Red for Positive, Black for Negative)
- Verify you have all hardware to attach the cable properly. Check to ensure the bolt insert for the terminal fully seats and can be tightened to the proper torque.
- Connect the cables to your battery terminals by removing the terminal bolts, inserting them through the eyelet of the proper cable, and reseating the bolt into the terminal block to the correct torque.
- DO NOT finger tighten the terminal bolts. They require a specific torque (60 in-lb/7nm) to ensure they do not loosen during operation. Failure to properly tighten the terminal bolts can result in serious damage and will void your warranty.
EG4-LL and EG4 Battery Rack Interface
- Grounding – One end of the grounding conductor is connected to the grounding screw on each battery chassis and the other end is connected to a grounding lug (or screw) on the rack/cabinet. Attach a grounding wire from the door of the rack/cabinet to the same grounding lug (or screw). Finally, connect a grounding conductor to the grounding lug (or screw) on the rack/cabinet, then connect the grounding conductor to a grounding rod. (Warning – DO NOT ground rack/cabinet or door to negative or positive bus bars)
- Power cable installation – During single battery operation, the battery terminals can directly connect to the equipment. When there are multiple batteries used in parallel; first use the power cable to connect each battery in parallel, and then connect to the equipment or switch terminals.
- Connect the equipment – Clearly identify the location of the positive and negative terminals of the system, red to the positive terminal, black to the negative terminal, to ensure no connection errors.
- Communication cable installation – (When a single module is used, please ignore this step) When multiple batteries are connected in parallel, please set the address code of the battery according to the DIP Table (make sure there is no duplicate address code). Then connect the Battery-Comm interface of the battery to each other, finally RS485/CAN interface of the No.1 address battery connects to the inverter by communication cable.
In the above figure, there are 6 EG4-LL 48V 100Ah batteries wired in parallel.
This battery bank still maintains the appropriate 48V needed for most
Inverter/Charger systems. However, the Amp hour rating of this bank has
increased to 600Ah.
WARNING: Do NOT parallel batteries by using jumper wires on the double
terminals. This will cause high amperage in the final jumpers and potentially
excessive amperage on the battery terminals.
WARNING: When adding or removing a battery from the rack/cabinet, turn
off ALL batteries and remove all cables from the batteries. This will ensure
that you do not accidentally make contact with live (powered) busbars. This
can cause serious injury and/or death.
Connecting Your Batteries to a Busbar
EG4 recommends that you only use a properly sized (amp rated) busbar to
parallel batteries together.
- Connect the battery cables to your positive busbar by removing the bus bolts, inserting them through the eyelets of the proper cable, and reseating the bolt into the busbar to 60 in-lbs/7nm. Repeat with all positive cables.
- Connect the battery cables to your negative busbar by removing the bus bolts, inserting them through the eyelets of the proper cable, and reseating the bolt into the busbar to the correct torque. Repeat with all negative cables.
Battery Charging
Once you are ready to charge your batteries, you must ensure that you use the
proper settings. This will ensure that you don’t over-charge or damage your
batteries.
48V
- Bulk/Absorption: 56.2V (+/- .2V)
- Float: 54V (+/- .2V)
- Low DC cutoff: 47-44V*
- Battery Charge Temperature Range: 32°F – 113°F
- Battery Discharge Temperature Range: -4°F – 122°F
*depending on load – start high, lower if needed
24V
- Bulk/Absorption: 28.1V (+/- .2V)
- Float: 27V (+/- .2V)
- Low DC cutoff: 23.5-22V*
- Battery Charge Temperature Range: 32°F – 113°F
- Battery Discharge Temperature Range: -4°F – 122°F
What To Expect During a Charge Cycle
It is normal for LFP batteries that have their own internal BMS and that are
wired in parallel to demonstrate a fairly wide variety of SOC readings during
any given charge or discharge cycle. Variations of up to 10% are common. This
is not cause for concern or indication you are getting anything less than the
full capacity of your pack. This is caused by even slight variations in wiring
resistance to each battery, internal resistance, temperature differences and
variations in cell manufacture. Even a slight variation causes one battery to
take more of the load or charge for a while. Over the duration of the
discharge or charge cycle, this will balance out with the lagging battery then
taking the load or charge at the other end of the cycle resulting in
recovering the full listed KWH capacity of the pack. The voltage differences
created as batteries diverge in SOC will eventually cause them to converge at
some point in the cycle.
Introduction to the BMS
The BMS (Battery Management System) is designed to protect your battery and
battery cells from a number of situations that may damage or destroy your
system. This protection also helps keep your battery and the battery cells
operable for a larger number of life cycles. Each EG4-LL battery is
specifically configured to ensure the optimal performance and operation of
your equipment.
PCB Temperature Protection
The BMS will ensure that the PCB (Printed Circuit Board) does not overheat.
This is the part that houses most of the “brains” of the battery. This feature
will turn off the battery if it begins to overheat.
Cell Balance Protection
Cell balance ensures that each cell is within a specific voltage range of each
other. Cell balance is crucial for ensuring that your battery is operating
properly for its lifespan. This is done automatically at all times.
Environmental Temperature Protection
In periods of extreme heat or cold, it may be dangerous for your battery to
operate. Continued operation in these conditions can cause permanent damage to
your battery, and electrical system. To ensure this does not happen, the BMS
is designed to measure the temperature while it is charging/discharging, and
will shut down the battery to prevent damage.
Voltage Protection
The BMS is designed to constantly monitor the voltage of each individual cell
and ensure that they do not become over/undercharged.
Current Protection
The BMS is designed to constantly monitor the charge/discharge amperage, and
has built in protections against exceeding specific parameters. These include
built in timers that shut off quickly in the event of extremely large
amperage, and delayed shut down for amperage that is only slightly above
maximum. This also protects from short circuits.
Battery Communications
Each EG4 is built with the user in mind, and designed to show you as much
information as possible as easily as possible. We include an option to connect
your battery to PC software to monitor the status of your battery. This allows
you to see and understand exactly what your battery is doing, as well as
allowing you to troubleshoot if you run into any issues. DIP Switch ID
SettingsID code bits correspond to binary digits, right
side represents “ON”, left side represents “OFF”. The up (or right) of the
code bit is the low bit, and the down (or left) is the high bit. The code
range is 0~63, and the communication mode can support up to 64 modules in
parallel.
Note – If your battery contains 4 dip switches, the code range is 0-15,
and the communication mode can support up to 16 modules in parallel.
EG4-LL batteries interface with inverters by designating a “Host” battery (DIP
switch ID No. 1). This battery will connect directly via an EG4 battery
communications cable or a standard CAT 5, 5e, or 6 cable (for closed loop
communications with non-EG4 inverter types)
If you have multiple batteries, ALL other DIP switch settings MUST be
different from each other. This allows equipment to see each battery in the
bank separately.
For PC monitoring using “BMS_tools,” the battery being monitored must be set
to DIP switch ID No. 64.
LCD Screen and PC Software
Each module has a built-in LCD display and the PC software is only suitable
for installation; maintenance.
LCD Display Introduction
The LCD display is embedded in each battery module. It’s used to display
important information about the cells. (Voltage, current, temperature, SOC,
capacity, running status etc.)
Button Description
There are 4 function buttons below the display with detailed descriptions as
shown in the table below. The corresponding function description for each
button is shown below.
No. | Item |
---|---|
1 | Up |
2 | Down |
3 | Return |
4 | Enter |
Screen Wake Up
Press any key to wake up the screen when power is on, and more information
will be shown on the display. Main Page Information Description
Battery module name | 51.2V100Ah |
---|---|
Battery status | Standby |
Battery module voltageBattery module current | Cur: 0A |
Battery module current | SOC: 50% |
Battery SOC | Vol: 53.3V |
System time | 10/15/2022 12:47 |
Cell Information
Press the “Enter” button, check the cell information, there are 2 pages, “Up”
and “Down” to change the page. Page 1 is for cell 01~ cell 9, page 2 is for
cell 10 ~cell 16. Temperature Information
When viewing the Cell Voltage, press “Enter” to view the temperature
information. Protocol Setting Selection/Communicating
directly with inverters
Required Operating configuration
Only the Master Battery (Address 1) needs to be set to the Inverter protocol,
all other batteries must have unique addresses starting at address 2 and
ascending in chronological order.
You must connect either the RS485 or the CAN port of the Master battery to
your inverter’s BMS communication port.
Protocol Change/Selection Procedure
- Power off all battery DC breakers (while leaving the power button on), and ensure that the voltage between + and – Busbars is 0V.
- The Inverter protocol can only be changed with the Master battery temporarily set to address 16 (dial all down). After the dial is changed, restart the battery (with only the power button) for the settings to take effect.
- On the master battery, Press and hold the “Return” key for 5 seconds to enter the “Protocol setting.”
- Select the corresponding RS485 program or CAN program, and press Enter.
- Press the “Return” key to return to the main interface.
- Change address dip switches back to address 1 (Switch 1,2,3 down and Switch 4 up )
- Power cycle the host battery, and the BMS will correspond to the program.
Protocol setting selection—RS485
RS485:|
---|---
P01-EG4| EG4
P02-GRW| Growatt
P03-LUX| Luxpower
P04-SCH| Schneider
Protocol setting selection—CAN
CAN:|
---|---
P01-GRW| Growatt
P02-SLK| Sol-Ark
P03-DY| Deye
P04-MGR| Megarevo
P05-VCT| Victron
P06-LUX| Luxpower
PC Software Installation
The PC software provides a tool for temporary battery analysis and
diagnostics. You cannot run the PC software and a closed loop inverter at the
same time. Additionally, Address 01 will not communicate to PC software, to
analyze the master battery you must temporarily change the address to a number
other than 01.
Check the eg4electronics.com website to get the latest version of the software
for free, and run the BMS_tools.exe program directly after unpacking.
PC software installation steps Communication Connection
- Connect the RS485/USB cable, and set the baud rate to 9600.
- Press “Find Device” in the upper left corner.
The software will automatically identify the connected battery pack. Interface menu definition
Item | Definition |
---|---|
BMS monitoring | Real-time data and status monitoring of the BMS |
BMS Parameter Setting | BMS parameter Setting management (restricted, |
unauthorized changes will void warranty)
BMS Control Management| Control state management of BMS (restricted,
unauthorized changes will void warranty)
BMS Datalog| BMS operation data logging to PC
Monitoring History| Internal BMS operation data records (exportable)
Real-time data reception| Record of sending and receiving of battery pack data
Software system parameters| Software configuration, settings and language
selection
Battery Storage
How do you properly store your battery?
If you plan to store your batteries, there are a few steps you can take to
ensure that they are stored safely and in a state that will ensure they are
not damaged while storing them. These include a few factors as detailed below.
Battery State
The state of the battery when placed into storage will affect how long it can
be stored for as well as the condition when you begin using it again. EG4
recommends that each battery is brought to a SOC (state of charge) of 100%
prior to placing it in storage. Lithium iron phosphate batteries will lose a
certain percentage of their total charge while in storage, depending on how
long they are stored and the conditions they are stored in. Our recommendation
is to ensure they are fully charged to allow them to be stored as safely and
for as long as possible.
Environmental Factors
The environment you store your EG4 battery in can greatly affect the health of
the battery. The temperature should remain moderate. We also suggest keeping
the battery away from locations where it may get wet, or locations with
extremely high humidity.
What steps should you take to maintain a healthy battery?
EG4 batteries are an advanced lithium iron phosphate battery. This means that
in reality, they require very little maintenance. If used correctly by
following this manual, we have designed these to be ‘set it and forget it’ for
most of their lifespan. We do recommend connecting to the batteries
periodically using the monitoring software to ensure there aren’t any
irregularities, and if you are placing the batteries in series without a bus-
bar, to ensure you fully charge your batteries periodically. Beyond that,
after initial set up you shouldn’t need to do much with your batteries at all.
Battery End of Life
How should you properly recycle or dispose of your batteries?
The EG4 battery is designed to last for 15+ years when used correctly. We have
worked tirelessly to ensure that our batteries will maintain a charge after
thousands of cycles, and typically the battery will outlast most enclosures.
However, when it does come time to retire your battery, there are a few things
you must consider.
Lithium iron phosphate batteries are considered a hazardous material and
should not be disposed of by simply placing them in the trash. There are a
number of online websites and organizations that will accept your battery to
recycle at little to no cost to you. At EG4, we understand that we are working
with customers across the United States and the world. Our best recommendation
is to visit your favorite search engine, and search the term “Lithium Battery
Disposal Near Me”. You will likely get an assortment of organizations that can
safely dispose of your battery. We highly recommend calling ahead of time to
ensure that the location is still open and accepting materials.
If, however, you are unable to locate a disposal location safely, we are here
to help. Before dumping your battery or disposing of it incorrectly, please
contact our customer service team for further assistance.
Troubleshooting
Alarm Description and Handling
When the ALM light on the battery control panel is on, it means that the
battery has given an alarm or has been protected, please check the cause of
the failure through the computer and take appropriate measures or go directly
to the site to troubleshoot. Common alarm conditions are shown in Table 10-1
below.
Major alarms and protection
State | Type | Indicator | Action |
---|---|---|---|
Charge | Overcurrent protection | ALM | Stop charge, check the settings |
Charge | Temperature protection | ALM | Stop charge, wait for the temp recovery |
Discharge | Overcurrent protection | ALM | Stop discharge, check for overload |
Discharge | Temperature protection | ALM | Stop discharge, wait for temp recovery |
Common Faults and Solutions
Number | Fault | Analysis | Solution |
---|---|---|---|
1 | Inverter communication failure | Check communication port connection, and | |
battery ID setting | Input proper “host” battery DIP switch settings, and power |
cycle the battery.
2| No DC output| Open breaker, or battery voltage is too low| Check battery
breaker, or charge the battery
3| Power supply unstable| Battery capacity is not at full power| Check for
proper battery cable connection, or replacement
4| Battery can’t be charged fully| DC output voltage is below the minimum
charge voltage| Check the charging settings on the inverter to ensure they
match battery requirements
5| ALM LED always on| Short circuit| Disconnect the power cable and check all
cables
6| The battery output voltage is
unstable| Battery management system does not operate normally| Press the reset
button to reset the battery, then reboot the system
7| ALM LED flashes 20 times w/ SOC1 LED on| Unbalanced voltage within a cell|
Deep discharge the battery bank (<20% SOC), then charge battery bank fully
8| ALM LED flashes 20 times w/ SOC2 LED on| Unbalanced temperature| Contact
your distributor
9| ALM LED flashes 20 times w/ SOC 3/4 LED on| BMS damaged| Contact your
distributor
10| Different SOC value of batteries in parallel operation| No issue| Deep
discharge the battery bank (<20% SOC), then charge battery bank fully
11| Low voltage protection w/ no LED on| BMS is in low voltage protection, and
is in sleep mode| Contact your distributor
12| Deep discharged w/ “ON” LED on| The battery has been discharged too low,
and voltage is too low to start BMS| Contact your distributor
EG4 Warranty
Your warranty must be registered within the first year of purchase to remain valid. If you choose not to register your warranty, your warranty may be invalidated. This limited warranty is to the original purchaser of the product and not transferable to any other person or entity. All BMS and Cell Exchanges are covered throughout the warranty period. If a full replacement warranty is needed the warranty is prorated 1/9th per year after the first year at the current retail pricing. Warranty Exclusions – EG4 Electronics has no obligation under this limited warranty for product subjected to the following conditions (including but not limited to):
- Damages incurred during installation or removal
- Damages caused during mishandling of product
- Inappropriate Environmental Exposure
- Damages caused by improper maintenance
- Tampering, Altering, and/or Disassembly of product
- Using product in applications other than which it was intended for by manufacturer
- Lightning, Fire, Flood, or Acts of God
- Any product whose serial number has been altered, defaced, or removed
The equipment sold by EG4 Electronics is designed to be installed only by
licensed, trained, and insured solar electrical installation professionals. We
strongly advise the customer to seek the assistance of such a professional to
exclusively perform the implementation of any of these products, and we make
no warranty of the purchaser’s safety, success of equipment implementation, or
compliance with local codes and regulations.
EG4 Electronics disclaims all additional warranties, expressed or implied,
including but not limited to, any implied warranty with respect to the
accuracy or completeness of the information they disseminate and /or fitness
of the materials sold for a particular purpose. No warranty may be created or
extended by sales or promotional materials on these items. Each party hereby
irrevocably waives its rights to trial by jury in any Action or proceeding
arising out of this agreement or the transactions relating to its subject
matter. All installation advice provided by EG4 before, during, or after
purchase of solar equipment is purely for the purpose of general concept
education and must not replace the expertise of a licensed and trained solar
specialist. The Customer agrees to full indemnification for EG4 henceforth
from any legal recourse relating to and arising out of losses, direct or
consequential, from the installation of the products purchased by the customer
in excess of the value of the equipment purchase price.
References
Read User Manual Online (PDF format)
Read User Manual Online (PDF format) >>