POWERWIN BT10 Battery 4000 Deep Cycle User Manual
- June 17, 2024
- POWERWIN
Table of Contents
- Technical Specification
- Pleae Read Before Use
- Charging Methods
- How to Connect (series & parallel)
- Before Connection
- Equalization steps
- Other Connection Modes
- For Extended Storage
- Transportation Precautions
- Battery Maintenance
- Trouble Shooting
- Packing List
- Warranty
- Customer Service
- Documents / Resources
BT10
User Manual 12.8V 10Ah
LiFePO4 Battery
Technical Specification
Model Name | BT10 |
---|---|
Battery Cell | 3.2V/10Ah(LiFePO4) |
Series-parallel | 4S1P, 12.8V/ 10 Ah total. |
Rated Power | 128Wh |
Service Life | 6000+ (to 80% DoD.) |
Charging Current | 2-5A |
Charging Voltage | 14.2 – 14.6V |
Charging Mode | Constant Current (CC) |
Constant Voltage (CV)
Discharge current| 5A
Max. Discharge current| 10A
Operating Temperature| Charge: 0-45°C
Discharge:-20-60°C
Net Weight| 2.2lbs / 1KG
Size| 6”2.6”3.7” / 1526694 mm
Pleae Read Before Use
- When using the battery for the first time, fully charge it before use.
- Do not expose the battery to water or rain.
- Do not charge the battery in the presence of fire or extreme heat.
- Avoid using or storing the battery near heat sources such as a fire or heater. If the battery leaks or emits an odor, remove it from the vicinity of an open flame immediately.
- Ensure that the positive and negative terminals are not reversed.
- Avoid placing the battery in fire or subjecting it to heat.
- Do not short-circuit the positive and negative electrodes of the battery using wires or other metal objects.
- Do not puncture the battery housing with nails or other sharp objects, and avoid hammering or pedaling on the battery pack.
- Disassembly of the battery and its components is strictly prohibited.
- If you notice any unusual signs such as an odor, heat, deformation, discoloration, or any other abnormal behavior from the battery, stop using and disconnect immediately.
- Avoid using the battery in a high-temperature environment, as it may overheat and affect its performance and shorten its service life.
- If battery electrolyte contacts your eyes due to a leak, do not rub your eyes. Rinse your eyes with water right away and seek medical help. Immediate action is essential to prevent potential eye damage.
Charging Methods
A. Battery Characteristics & Charging Mode
The voltage measured during charging or discharging LiFePO4 batteries may not
accurately represent their actual voltage.
After charging or discharging and disconnecting the battery, the voltage may
gradually settle to its true voltage over time.
Note
To accurately test the battery’s real voltage, disconnect all connections and
measure it after resting for over 30 minutes. The expected true voltage should
be around 13.4V.
Phase I: CC (Constant current)
Initially, a discharged battery will be charged at a constant current, and the
voltage will rise steadily until it reaches a constant voltage point, which
varies with different charging method.
Phase II: CV (Constant Voltage)
In this phase, the battery maintains a constant voltage while the current
rating drops to 2A (0.02 c), which is also known as constant current mode.
B. Charging Mode
Method 1: Battery charger
Use a dedicated 14.6V LiFePO4 battery charger to maximize the battery’s
capacity.
Recommended charging voltage: 14.2V to 14.6V
Recommended charging current:
The 2A (0.2C) battery will be fully charged to 100% capacity in about 5 hours.
The 5A (0.5C) battery will be charged in about 2 hours at 97% state of Charge.
Note
a. Connect the charger to the battery before plugging it into the power outlet
to prevent sparks and potential fire hazards.
b. Disconnect the charger from the battery once it is fully charged.
c. Avoid reversing the positive and negative terminals during connections.
Method 2: Solar Panel and Controller
Solar Panel
Recommended power : 30W A 300W solar panel, fully charge in one day (effective
power: 4 hours/ day) It might take more than a day to fully charge, because
the duration and intensity of light are important factors of charging
efficiency.
Solar Charge Controller
Recommended charging mode: 12V (14.6V)
Recommended charging current:
The 2A (0.2C) battery will be fully charged to 100% capacity in about 5 hours.
The 5A (0.5C) battery will be charged in about 2 hours at 97% state of Charge.
Notes
If you need to manually configure the controller, please use the following
parameters. It’s important to note that these settings are specifically
designed for LiFePO4 batteries, as different battery models have different
charging requirements.
Charging Specs
Charging Voltage | 14.6V |
---|---|
Overvoltage Protection | 14.8V |
Overvoltage Recovery | 14.2V |
Equalizing Current | 0.2A |
Discharging Specs
Undervoltage Alarm | 11.6V |
---|---|
Undervoltage Recovery | 12V |
Low-voltage Protection | 11V |
Low-voltage Recovery | 12.4V |
Method 3: Alternator / Inverter
The battery can be charged via an alternator, or an inverter.
A. If your alternator or inverter provides DC output, consider incorporating a
DC-DC charger between the battery and the generator. B. If your alternator or
inverter supports AC output, follow the charger’s recommendations to add an
appropriate battery charger between the battery and the generator.
Recommended charging voltage: 14.2V to 14.6V Recommended charging current: The
2A (0.2C) battery will be fully charged to 100% capacity in about 5 hours. The
5A (0.5C) battery will be charged in about 2 hours at 97% state of Charge.
How to Connect (series & parallel)
A. Definition
The battery is connected to the battery with a total input and output cable,
and two copper bars are added to multiple connecting cables.
Step 1:
Connect batteries to batteries by referring to the wiring diagram.
Step 2:
Connect the positive output cables of all batteries to a copper bar. If you
are connecting batteries in series (where the positive terminal of one battery
connects to the negative terminal of another), do not connect the positive
electrode to the copper bar to ensure a proper series connection for the
battery system.
Step 3:
Connect the load to the copper bar. The cable table used in this step should
be able to support the total input and output current of the entire battery
system.
Connect in Series
Notes
When you connect batteries in series, the voltage increases while the amperage
(ampere) remains the same. For example, if you connect two 12.8V 10Ah
batteries in series, the battery system’s voltage will be 25.6V, and the
capacity remains at 10Ah.
Connect in Parallel
Notes
When you connect batteries in parallel, the ampere increases while the voltage
remains the same.
For example, if you connect two 12.8V 10Ah batteries in parallel, the battery
system’s voltage remains at 12.8V, and the capacity will be 20Ah.
Restrictions
Up to 16 identical batteries connection4 in series for 48V (51.2V) & 4
parallel for 40Ah battery systems in total.
Before Connection
A. Safety Precautions for Battery Connection:
- Always wear insulating gloves before making any connections.
- Avoid reversing the battery’s polarity or creating short circuits when connecting the positive and negative terminals.
B. Balancing Voltage in Parallel Battery Connections:
- When connecting batteries in parallel, ensure the voltages are equal.
- For systems with multiple batteries, consider performing voltage equalization every 6 months to address potential voltage differences that may occur after five months of use.
This helps maintain consistent voltage levels between battery packs and ensures optimal performance in series and parallel setups.
Equalization steps
- Charge each battery individually to its full capacity.
- Connect the batteries one at a time in parallel and allow them to sit together for 12-24 hours, but no more than 4 groups.
- The battery pack can be connected in both series and parallel configurations.
Restrictions
When using batteries in series and/or parallel modes, please ensure that the
following conditions are met:
a. Use batteries with the same battery capacity (Ah) and BMS (A).
b. Choose batteries from the same brand (different brands of lithium batteries
may have unique BMS requirements).
c. Purchase batteries from nearby sources (within 1 month).
Other Connection Modes
| 2S2P| 4S2P| 2S4P
---|---|---|---
Battery voltage / capacity| 25.6V / 20A| 51.2V / 20A| 25.6V / 40A
Energy| 512Wh| 1024Wh| 1024Wh
Max. Discharge Current| 20A| 20A| 40A
Max. Load Power| 512W| 1024W| 1024W
For Extended Storage
- When storing the battery pack for an extended period, ensure that the storage temperature remains within the range specified in the product specifications.
- Long-term storage, defined as exceeding three months, should be conducted at a temperature of 25±5°C and a relative humidity of 65±20%RH.
- Prior to storage, it’s advisable to charge the battery pack to approximately 50-70% of its capacity.
- Store the battery pack in a dry, well-ventilated location.
- If the battery is stored for more than six months, it should be periodically maintained by cycling through charging and discharging.
- Avoid exposure to corrosive substances, open flames, and heat sources.
Transportation Precautions
- During transportation, the battery pack must be adequately packaged to prevent severe vibration, impacts, and compression.
- Protect the battery pack from exposure to direct sunlight and rain.
- Transportation can be conducted using various means, including cars, trains, ships, planes, and other appropriate methods.
Battery Maintenance
- When maintaining the battery pack, ensure that the battery’s power level is between 40% and 70%.
- Recommended maintenance for batteries not in regular use involves recharging every six months using the charger for 1 to 2 hours.
- During maintenance, refrain from attempting to replace or remove individual batteries from the battery pack, as this may negatively impact battery performance.
- Unauthorized disassembly or dissection of the battery core is strongly discouraged and should not be attempted.
Trouble Shooting
Phenomenon | Cause | How to solve |
---|---|---|
Battery has no output | The string of output cable is loose. | Properly connect |
the battery and output cable according to the specs.
The battery pack is dead.| Charge the battery.
The charger indicator is off| The charger output voltage is incorrect or the
AC input plug is incorrect.| Use the correct charger and plug the charger into
the mains outlet according to the instructions.
The battery cannot be charged| The charger output plug is loose or the charger
voltage is incorrect.| Check whether the charger output plug and battery set
firm or change the correct charger.
The battery is fully charged already.| The battery can be used normally.
If the problem still exised, because BMS, the protection system has been triggered, you can try the following steps to reactivate it.
Method 1
- Disconnect the battery from any devices.
- Wait for 30 minutes, and the battery should return to normal voltage (above 10 volts).
Method 2
If the battery doesn’t recover with Method 1, you can:
- Use a charger with a “0V” function and charge the battery as usual
- Or charge the battery using an 18V-36V solar panel.
Packing List
- POWERWIN 12.8V 10Ah
- User Manual
Warranty
Our company provides customers with warranty of 12 months from the date of purchase.
Customer Service
service@iittechnology.com
Made in China
Documents / Resources
|
POWERWIN BT10 Battery 4000 Deep
Cycle
[pdf] User Manual
BT10 Battery 4000 Deep Cycle, BT10, Battery 4000 Deep Cycle, Deep Cycle, Cycle
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