Superb EPSILON 12V100Ah User manual

Manual
Version
February 2022
EPSILON 12V100Ah
EPSILON 12V150Ah

2
User Manual Epsilon 12V100Ah / 12V150Ah
Dear customer,
This manual contains all the information necessary to install, use and maintain the Li-ion
battery. We kindly ask you to read this manual carefully before using the product. In this
manual, the Super B Epsilon 12V100Ah/12V150Ah Li-ion battery will be referred to as: the
Li-ion battery. This manual is meant for the installer and the user of the Li-ion battery. Only
qualied, certied personnel may install and perform maintenance on the Li-ion battery.
Please consult the index at the start of this manual to locate information relevant to you.
During the use of the product, user safety should always be ensured, so installers, users,
service personnel and third parties can safely use the Li-ion battery.
Copyright© Super B All rights reserved. Licensed software products are owned by Super B
or its subsidiaries or suppliers, and are protected by national copyright laws and international
treaty provisions. Super B products are covered by Dutch and foreign patents, issued and
pending. Information in this publication supersedes that in all previously published material.
Specications and price change privileges reserved. Super B is a registered trademark.
For more information please contact:
Super B Lithium Power B.V.
Europalaan 202
7559 SC Hengelo (Ov) The Netherlands
Tel: +31 (0)88 0076 000
E-mail: info@super-b.com
www: www.super-b.com

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Be in charge. Super B.
Table of content
1. Safety guidelines and measures 5
1.1. General 5
1.2. Disposal 5
2. Introduction 6
2.1. Product description 6
2.2. Intended use 6
2.3. Glossary of Terminology 7
2.4. Used symbols 7
3. Product specifications 7
3.1. Product features 7
3.2. Product specications 8
3.2.1. Electrical specications 8
3.2.2. Mechanical specications 8
3.2.3. Charge & discharge specications 8
3.2.4. Temperature specications 9
3.2.5. Compliance specications 9
3.2.6. General product specications 9
3.3. Environmental conditions 9
3.4. Scope of delivery 10
3.5. Terminals and LED indicators 11
3.5.1. X1 / X2 Battery terminal interface 11
3.5.2. LED Indicators 12
3.6. Signal interfaces 12
3.6.1. J1 CAN 13
3.6.2. FASTON Connections 13
3.6.3. FASTON Connection electrical specications 14
3.6.4. Bluetooth 14
3.6.5. Modes and states of the Li-ion battery 15
3.6.6. Operation states dependencies 16
3.7. Optional Components 16
4. Installation 17
4.1. General information 17
4.2. Unpacking 17
4.3. Placement of the Li-ion battery 17
4.4. Connection wires 17
4.4.1. Connecting power cables with automotive type terminals 17
4.4.2. Connecting power cables with cable lugs 19
4.4.3. Connecting small consumers to the terminals 20
4.5. Communication and FASTON connections 21
4.6. Connecting to the CAN interface 22

4
4.6.1. Connecting the data cables 22
4.7. Connecting to the LIN interface 23
4.7.1. CI-BUS protocol 24
4.7.2. Other protocols 24
4.7.3. IO FASTON connection and functionality 24
4.8. Connecting a charger to the Li-ion battery 25
4.9. Connecting Li-ion batteries in parallel 25
4.10. Disconnecting the Li-ion battery 26
5. Battery use 26
5.1. General information 26
5.2. Charging 26
5.2.1. Charging rate 27
5.3. Heater functionality 27
5.3.1. Heater power source 27
5.3.2. Heating methods 28
5.4. Battery balancing 29
5.5. Be In Charge Software and App 29
5.5.1. Bluetooth pairing (PIN code) 30
5.5.2. Battery history recording 30
5.5.3. Reading the battery’s State of Charge (SoC) 30
5.5.4. Reading the battery’s State of Health (SoH) 31
6. Inspection and cleaning 31
6.1. General information 31
6.2. Inspection 31
6.3. Cleaning 31
7. Storage 32
8. Transportation 32
9. Disposal and recycling 32
10. Troubleshooting 33
11. Warranty and liability 35

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Be in charge. Super B.
1. Safety guidelines and measures
1.1. General
• Do not short-circuit the Li-ion battery.
• Treat the Li-ion battery as described in this manual.
• Do not dismantle, crush, puncture, open or shred the Li-ion battery.
• Do not expose Li-ion battery to heat or re. Avoid exposure to direct sunlight.
• Do not remove the Li-ion battery from its original packaging until required for use.
• In the event of electrolyte leaking, do not allow the liquid to come in contact with the skin or
eyes. If contact has been made, wash the affected area with water and seek medical advice.
• Always use a class 2 charger which is specically provided for use with a Lithium Iron
Phosphate battery (LiFePO4). For more information, please refer to the charging manual on our
website.
• Observe the plus (+) and minus (–) marks on the Li-ion battery and equipment and ensure correct
use.
• Do not mix batteries of different manufacturer, capacity, size, type or age within a system.
• Keep the Li-ion battery clean and dry.
• Secondary batteries need to be charged before use. Always use a correct charger (see charging
manual on our website) and refer to this manual for proper charging instructions.
• Do not leave the Li-ion battery on prolonged charge when not in use.
• After extended periods of storage, it may be necessary to charge and discharge the Li-ion
battery several times to obtain maximum performance.
• During long periods of storage maintenance, charging is needed to prevent deep discharge by
self discharge.
• Retain the original product documentation for future reference.
• Disconnect the Li-ion battery from the equipment when not in use.
!
Warning! Keep the Li-ion battery away from water, dust and contamination. Place the Li-ion
battery in well ventilated areas.
1.2. Disposal
Dispose the Li-ion battery in accordance with local, state and federal laws
and regulations.
Batteries may be returned to the manufacturer.
Do not mix with other (industrial) waste.
Li-ion
WARNING:
Must be disposed of properly.
May explode if damaged or disposed
of in re. Do not short circuit.

6
2. Introduction
2.1. Product description
The Epsilon is a self-protected Lithium Iron Phosphate rechargeable battery. The unique
combination of state-of-the art technology and smart software makes this Li-ion battery a
robust, safe and easy to use energy storage solution. The Epsilon is available in a 12V100Ah
and 12V150Ah variant.
The Li-ion battery uses safe Lithium Iron Phosphate (LiFePO4) technology. With its integrated
battery management system (BMS) the Li-ion battery is protected from deep discharging,
overcharging and overheating. Eliminating the need for an external safety relay means the
Li-ion battery is very easy to install.
The Li-ion battery also has integrated battery monitoring which provides details about its
status such as voltage, current, temperature, state of charge and time remaining. Hands-on
monitoring is possible via the Be In Charge app, Be In Charge Software, CI-bus, external
monitoring devices and LED indicators inform you about the actual status of your Li-ion
battery.
The Li-ion battery can use the integrated heating to heat up, or keep the cells at a
temperature level to be able to charge the battery in sub-zero degrees environment
conditions. This ensures that the cells are used within their specications enlengthening the
Li-ion batteries lifetime.
Under the Li-ion batteries protective lid easy to use connections such as congurable inputs
/ outputs, CAN and LIN connection, external heater power input and accessory power
connection can be found. All using standardized connections which makes it very easy to
install the Epsilon in the application.
2.2. Intended use
The Epsilon 12V100Ah/12V150Ah Li-ion battery serves as an energy source of 12V in power
systems for recreational vehicles, commercial vehicles, leisure boats, commercial vessels
and stationary applications. Potential applications of this Li-ion battery include: off grid
power supply, marine power supply, medium for (renewable) energy storage and (traction)
battery for vehicles. Use as a starter battery is not possible. Never install multiple Epsilon
Li-ion batteries in series. Up to 8 batteries can be connected in parallel to increase the total
capacity up to 800Ah or 1200Ah depending on the Epsilon variant.

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Be in charge. Super B.
Always connect batteries of the same type / capacity and age in a parallel setup and do not
add more batteries to the parallel bank after a certain time. This could lead to a degradation
of the total capacity and disturbed current distribution within the system.
2.3. Glossary of Terminology
BMS: Battery Management System
Charge cycle: A period of use from fully charged, to fully discharged, and fully
recharged again
Endurance Life-cycle: The products maximum lifespan, achieved by following the guidelines
presented in this manual
LiFeP04 Lithium Iron Phosphate
SoC State of Charge
SoH State of Health
CCCV Constant Current - Constant Voltage
DoD Depth of Discharge
I/O Inputs and Outputs
Table 1. Glossary of terminology
2.4. Used symbols
The following icons will be used throughout the manual:
!
Warning! A warning indicates severe damage to the user and/or product may occur when a
procedure is not carried out as described.
!
Caution! A caution sign indicates problems may occur if a procedure is not carried out as
described. It may also serve as a reminder to the user.
3. Product specications
3.1. Product features
• A-grade prismatic cells for highest possible energy density and quality
• Lithium Iron Phosphate (LiFePO4): Safe lithium technology
• Integrated short circuit protection
• Integrated protection device for maximum protection and safety
• Integrated BMS (Battery Management System)
• Integrated cell heating to allow safe charging below 0°C (with autonomous operation if
needed)
• Adaptive cell balancing
• Robust casing made from environmentally friendly materials (fully recyclable)
• Overheating protection on battery terminals in case of badly connected cables

8
• Communication interface: Bluetooth (wireless), CAN bus(wired) and LIN bus (wired
• Congurable general purpose inputs/outputs to control external devices (chargers for
example)
• Separate power output connection for powering accessories. Analog SoC output.
• Battery monitoring / History Storage
• Monitoring via Be In Charge Bluetooth app (iOS and Android) and Be In Charge Software (PC)
• Multi-connectable coated aluminium terminals, including temperature sensors for protection.
• LN3 / DIN H6 and LN5 / DIN H8 sizes available in different capacity (100Ah and 150Ah)
3.2. Product specications
3.2.1. Electrical specications
Epsilon 12V100Ah Epsilon 12V150Ah
Nominal capacity 100Ah 150Ah
Energy 1280Wh 1920Wh
Nominal voltage 12.8V 12.8V
Open circuit voltage 13.2V 13.2V
Self discharge <3% per month <3% per month
Table 2. Electrical specications
3.2.2. Mechanical specications
Epsilon 12V100Ah Epsilon 12V150Ah
Dimensions (LxWxH)
278 x 175 x 190 mm
11” x 6.9” x 7.5”
[= DIN H6 / LN3]
353 x 175 x 190 mm /
13.9” x 6.9” x 7.5”
(= DIN H8 / LN5)
Weight 11 kg / 24 lbs 16 kg / 35.2 lbs
Case material PC /ABS PC / ABS
Ingress protection IP66 IP66
Cell type / chemistry Prismatic - LiFePO4 Prismatic - LiFePO4
Table 3. Mechanical specications
3.2.3. Charge & discharge specications
Epsilon 12V100Ah Epsilon 12V150Ah
Charge method CCCV CCCV
Charge voltage 14.3V - 14.6V 14.3V - 14.6V
Max charge current 90A 135A

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Be in charge. Super B.
End of discharge voltage 8V 8V
Discharge current continous Max. 190A Max. 200A
Discharge pulse current (10 sec) 300A 350A
Table 4. Charge and discharge specications
3.2.4. Temperature specications
Charge temperature (heating off) 0°C to 45°C / 32°F to 113°F
Charge temperature (heating on) -30°C to 45°C / -22°F to 113°F1
Discharge temperature -20°C to 60°C / -4°F to 140°F
Storage temperature short term (<1 month) -20°C to 45°C / -4°F to 113°F
Storage temperature long term (>1 month) 18°C to 28°C / 64°F to 82°F
Relative humidty 10-90%
Table 5. Temperature specications
1Charging from -30 °C is only possible with an external power source to power the heaters, the correct settings should be used
3.2.5. Compliance specications
Certications CE, FCC, UN 38.3, UN ECE R10.06, UL1642 (Cells)
Shipping classication UN 3480
Table 6. Compliance specications
3.2.6. General product specications
Epsilon 12V100Ah Epsilon 12V150Ah
Battery designation IFpP/27/148/135[2p4s]
M/-20+60/95
IFpP/27/148/135[3p4s]
M/-20+60/95
Cycle life >5000 (0.3C charge/discharge, DoD 100%)2
>3500 (0.9C charge/discharge, DoD 100%)2
Table 7. General product specications
2The cycle life value given above is an indication at 23°C. The Li-ion battery cycle life depends strongly on temperature
and the applied charging and discharging loads.
3.3. Environmental conditions
!
!
Warning! The Li-ion battery may only be used in conditions specied in this manual.
Exposing the Li-ion battery to conditions outside the specied boundaries may lead to serious
damage to the product, user and/or environment.
Use the Li-ion battery in a dry, clean, dust free, well ventilated space. Do not expose the Li-
ion battery to re, water, solvents or excessive heat.

10
3.4. Scope of delivery
Figure 1. Components
1. (1x) Super B Epsilon 12V100Ah / Epsilon 12V150Ah Li-ion battery
2. (2x) Hex bolt M8x16
3. (2x) Washer M8
4. (2x) Lockring M8
5. (2x) Terminal Screw M6
6. (4x) Philips screw
7. (2x) Cable clamp

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Be in charge. Super B.
3.5. Terminals and LED indicators
The picture below is showing the terminals of the Li-ion battery
X1 X2
Figure 2. Battery terminals
X1: Battery Terminal up to 1x 95mm2 wire connection or standard automotive terminal and 1x
M6 bolt for accessory connection
X2: Battery Terminal up to 1x 95mm2 wire connection or standard automotive terminal and 1x
M6 bolt for accessory connection
3.5.1. X1 / X2 Battery terminal interface
Terminal # Service description Function Range
1Battery - Terminal - Minus supply of battery
2Battery + Terminal + (14.6Vdc) Plus supply of battery
Table 8. Battery terminals interface

12
3.5.2. LED Indicators
D1 D3D2
Figure 3. LED Indicators
D1 (Green) D2 (Yellow) D3 (Red) Mode
1Off Off Off Empty / Deep discharged
2 Off Off On Error mode
3 On Off Off Operational mode
4 Off On Off Warning mode
Table 9. LED Mode
When the Li-ion battery is in operational mode “not charging or discharging”, LED indicator
ashes every 3 seconds (for more information refer to chapter 10: troubleshooting).
3.6. Signal interfaces
The signal interfaces are located underneath the removable lid.
Figure 4. Signal interfaces

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3.6.1. J1 CAN
The CAN interface of the Li-ion battery is not galvanically isolated. The CAN ground pin is
fused with respect to the terminal minus with a 200 mA resettable fuse.
PIN # Signal Description
1 CAN_SHLD Optional CAN Shield
2 NC Not in use
3 CAN_GND Ground / 0V
4 CAN_H CAN_H bus line (dominant high)
5 CAN_L CAN_L bus line ( dominant low)
Table 10. J1 CAN interface1.
1Please note: CAN bus is not galvanically isolated
The CAN connector is provided with a protective M12 cap (see gure 4). When CAN is not
used it must be mounted to ensure the IP rating of the Li-ion battery.
Figure 5. Protective M12 cap
3.6.2. FASTON Connections
Figure 6. FASTON Connections. Note: FASTON connections are also shown on the inside of the protective lid.

14
Faston # Description Function
1Accessory power output Connection for power to accessories
(fused internally, resettable)
2LIN bus connection LIN bus communication channel (CI-
bus support)
3IO1 connection Input or output 1 (congurable)
4IO2 connection Input or output 2 (congurable)
5SOC output (analogue) Analogue SOC output (0-10V) (load
must be higher than 100kOhms)
6GND connection GND connection (fused internally,
resettable)
7IO3 connection Input or output 3 (congurable)
8Heater power supply input External power supply for heater (12-
14V) (120W / 10A max)
Table 11. FASTON connections
3.6.3. FASTON Connection electrical specications
Description Value Units
I/O connection
1-3
Input voltage range 0 .. 15 V
Input impedance >100 KOhm
Input high level >8.4 V
Input low level <6.8 V
Output current sink
(open drain output type) 0.5 A
SoC output Output voltage range 0.01 .. 10 V
Output impedance <1 Ohm
Heater input
Input voltage range 12 .. 15 V
Power rating 150Ah 120 W
Power rating 100Ah 80 W
Table 12. FASTON connection electrical specications
3.6.4. Bluetooth
Service description Type of signal Range
Bluetooth Low Energy
(5.1 standard) Communication 10 - 25 meter (typical)
Table 13. Bluetooth

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Be in charge. Super B.
!
Caution! Bluetooth range is strongly dependent on the environment and how the Li-ion
battery is positioned. Metal parts such as battery boxes, covers and cabling can affect the
Bluetooth range and can lead to reduced range. The mentioned range only applies to an
“open eld situation”, and can be less or more depending on the situation.
3.6.5. Modes and states of the Li-ion battery
The Li-ion battery knows two modes: operational and non-operational.
Non-operational mode
If the Li-ion battery is in non-operational mode, it cannot be used anymore. This can happen
if the BMS detects a malfunction in the battery’s monitoring and control, or when a deep
discharge has occurred which led to cell damage. A deep discharge occurs when one of the
cell blocks is 1.5V or lower. This is even possible when the Li-ion battery is at 10V. The Li-ion
battery will store the state internally. The Li-ion battery is not usable anymore. The battery’s
protective disconnect device is non-conducting.
Operational mode
The Li-ion battery knows 3 states in operational mode:
• Normal state: the units the Li-ion battery monitors (voltage, current and temperature) are
within the operational level of the cells and other components in the Li-ion battery.
• Warning state: the units the Li-ion battery monitors are threatened to go beyond the
operational level of cells or other internal components. The battery’s protective disconnect
device will stay on.
• Alarm state: the units the Li-ion battery monitors are beyond the operational level of cells or
other internal components. The battery’s protective disconnect device will disconnect the
cells from the terminals and the Li-ion battery. It can be that charging is disabled, discharging
is disabled, or both are disabled.
Charging disabled causes
Charging disabled causes are triggered in the following events:
• Overcurrent during charging, the charge current is too high
• Overvoltage due to charging, the charger is too high in voltage or battery cells can be out of
balance
• The temperature to be able to charge is too high or too low
Discharging disabled causes
Discharging disabled causes are triggered in the following events:

16
• Overcurrent during discharging, the load current is too heavy
• Undervoltage due to discharging, the Li-ion battery is empty
• The SoC ‘off’ level has been reached
• The temperature to be able to discharge is too high or too low
Discharging and charging disabled causes
• The protective disconnect device is too hot
3.6.6. Operation states dependencies
State Protective disconnect
device Communication BMS
Normal state Conducting Yes Active
Warning state Conducting Yes Active
Alarm state
One current direction
conducting or non-
conducting
Yes Active
Table 14. System components operation modes dependencies.
3.7. Optional Components
Article name EAN code
Be In Charge Monitoring Kit 8718531362086
Battery Bracket set for Epsilon 8718531362222
CAN Cable 0.4m Y-split straight female to straight male-female 8718531362239
Touch Display + Connection set 5m for Epsilon 12V100/150Ah 8718531362291
Touch Display + Connection set 10m for Epsilon 12V100/150Ah 8718531362307
Touch Display + Connection set 15m for Epsilon 12V100/150Ah 8718531362352
Display BM01 12V + Cable 2.5m for Epsilon 12V100/150Ah 8718531362369
Display BM01 12V + Cable 5m for Epsilon 12V100/150Ah 8718531362260
Display BM01 12V + Cable 10m for Epsilon 12V100/150Ah 8718531362277
Table 15. Optional components that can be used with the Li-ion battery

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Be in charge. Super B.
4. Installation
4.1. General information
!
Warning! 12V systems only. Never install multiple Li-ion batteries in series.
!
Warning! Never install or use a damaged Li-ion battery.
!
Caution! Do not reverse connect the power cables (polarity)
When connecting several batteries in parallel, always use batteries of the same brand, type,
age, capacity and state of charge.
4.2. Unpacking
Check the Li-ion battery for damage after unpacking. If the Li-ion battery is damaged, contact
your reseller or Super B. Do not install or use the Li-ion battery if it is damaged!
4.3. Placement of the Li-ion battery
Before it is used, the Li-ion battery must be fastened in such a way that it will not move during
use. The Li-on battery may be placed on its long or short side, but not upside down. Use
appropriate fastening brackets for mounting (see chapter 3.7; optional components).
4.4. Connection wires
Use appropriate cables and cable lugs for the connection to the terminals. This prevents
overheating and unnecessary losses. Use appropriate fuses matching the cables and load.
Super B advises to use 95mm2 connection cables. Cables with less diameter can cause
overheating or unnecessary losses. Always use the correct crimp tools to crimp the cable
lugs and follow the instructions provided by the cable lug manufacturer.
!
Caution! When using more Epsilon Li-ion batteries in parallel the wiring should be sized and
specied according to the maximum current the parallel bank can deliver.
4.4.1. Connecting power cables with automotive type terminals
1. Connect the load or charger to the X2 (+) terminal of the Li-ion battery. (Figure 7)
2. Connect the load or charger to the X1 (-) terminal of the Li-ion battery. (Figure 7)
3. Ensure both contacts are tightened. (20Nm)
4. Place the handle covers over the terminals. (Figure 8)

18
Figure 7. Connecting power cables with automotive type terminals
Figure 8. Place the handle covers over the terminals
1
2
3
20 Nm
4

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Be in charge. Super B.
4.4.2. Connecting power cables with cable lugs
1. Remove the automotive power terminals
.
(Figure 9)
2. Connect the load or charger to the X2 (+) terminal of the Li-ion battery. (Figure 10)
Use the included M8 bolt, spring washer and plain washer to connect the Li-ion battery
cable.
3. Connect the X1 (-) terminal of the Li-ion battery. (Figure 10)
Use the included M8 bolt, spring washer and plain washer to connect the Li-ion battery
cable.
4. Ensure both contacts are tightened to 20Nm.
5. Place the handle covers over the terminals. (Figure 11)
Figure 9. Remove the automotive power terminals.
Figure 10. Connecting power cables with cable lugs
1
2
3
4

20
Figure 11. Place the handle covers over the terminals
4.4.3. Connecting small consumers to the terminals
The Li-ion battery has a M6 thread on both terminals that is intended to supply power to small
consumers. Below it is described and depicted how to connect small consumers. This is not
the accessory power; that one is FASTON 1 underneath the lid (see gure 6, paragraph 3.6.2).
1. Connect the plus of the power cable of the small consumer to the X2 (+) terminal
of the Li-ion battery (Figure 12) . Use the included M6 bolt.
2. Connect the minus of the power cable of the small consumer to the X1 (-) terminal
of the Li-ion battery (Figure 12). Use the included M6 bolt.
3. Ensure both contacts are tightened to 10Nm.
4. Place the handle covers over the terminals. (Figure 11)
Figure 12. Connecting accessoires to the terminals.
1
2
3
5
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