Main lithium battery product image
Click to enlarge
TAP to enlarge
No items found.

Updated spec! Our 230Ah lithium leisure battery has been increased to 230Ah from 200Ah, includes our active balance system, auto hibernation, and parallel/inverter communications as standard. The best part: no increase in price

TITAN Lithium 12V 230Ah Battery

Our 230Ah lithium leisure battery is the epitome of power and convenience. It is the smallest and most potent battery available on the market, with an impressive 2.9KWh capacity and with our high-quality cells and built-in BMS technology, it's also the most reliable and efficient. Additionally, it comes equipped with Bluetooth as standard, making it easy to use and control. With TITAN batteries, you can be assured of the best performance and value for your money with real battery specialist support free of charge.

LIFEPO4 Battery Icon
Lithium Iron Phosphate:
The safest lithium chemistry
Lightweight icon
Featherweight:
Up to 80% lighter than lead-acid
Internal BMS Icon
TITAN BMS Built-in
Bluetooth Enabled Icon
Bluetooth Enabled
Heater option available icon
Smart Charge Heater Installed
Active Balance Icon
Dual Active & Passive Balance
BMS Communication Icon
Inverter & Parallel Communications
Inverter Compatibility Icon
Compatible with high performance inverters
Lifetime Warranty Icon
Fully Warrantied For The Battery's Life
the lithium gold standard:
massive Capacity, small in size & supreme quality
Bluetooth Enabled Icon
Bluetooth Enabled As Standard
LIFEPO4 Battery Icon
Lithium Iron Phosphate:
The safest lithium chemistry
Featherweight:
Up to 80% lighter than lead-acid
Built-in BMS
Bluetooth Enabled
Lithium charge mode enabled
Fast & efficient charging for both lithium and lead-acid batteries
Intelligent charger - ensures an efficient charge every time
TODAY'S PRICE:
£ 1,500.00 
£ 800.00 
Includes VAT & Free Delivery
Quantity:
OR
BUY NOW

Product Information:

ELECTRICAL SPECIFICATIONS 
Nominal Voltage:
Hover Tooltip Icon

12.8V

Capacity:
230Ah (20Hr)
Energy:
Hover Tooltip Icon
2,944Wh
Resistance:<10mΩ
Efficiency:
Hover Tooltip Icon
99%
Self Discharge:
Hover Tooltip Icon
<3.5% a month (when in hibernation)
Technical Specs:
PHYSICAL SPECIFICATIONS 
Dimensions:
345mm long x 190mm wide x 245mm high
Weight:
20Kg
Terminal Type:
M8 Bolt
Case Material:
ABS Plastic
Enclosure Rating:
Hover Tooltip Icon
IP65
Cell Chemistry:LiFePO4
Cell Type:
Hover Tooltip Icon
Prismatic Grade A Automotive Cells (best quality possible)
TITAN BMS SPECIFICATIONS
Hover Tooltip Icon
 
Consistent Discharge:
Hover Tooltip Icon
250A
Peak Discharge:
Hover Tooltip Icon
280A
Maximum Charge Rate:
250A
Low Voltage Charge:
Hover Tooltip Icon
11.6V
Low Voltage Disconnect:
Hover Tooltip Icon
10.0V
Short Circuit Protection:
Hover Tooltip Icon
1,500A @ <500µs
Recommended Charge Rate:
10A to 50A
Recommended Charge Voltage:
13.8V to 14.4V
Maximum Charge Voltage:
14.6V
Maximum Connections:
4 in series (48V) & 8 in parallel (1,840Ah)
Discharge Temperature Range:-20°C to 60°C
Charge Temperature Range:-20°C to 50°C
HEATER SPECIFICATIONS
Heater Activation:≤3°C & on charge
Heater Power Source:Charger first & up to 3.8A from the battery
Heater Target:5°C to 10°C
Heater Consumption:
5.8A / 85W (±5%)
CELL BALANCING SPECIFICATIONS
Cell Balance Method:Active & Passive
Active Balance Activation:Cell reaches 3.4V & cell difference reaches 30mV
Passive Balance Activation:Cell reaches 3.4V and cell difference is less than 30mV but greater than 15mV
COMMUNICATION SPECIFICATIONS
Default Set Protocol:RS485 (1363.3) & Victron CANBUS (VE.CAN & BMS.CAN)
Victron DVCC Compatible:Yes via BMS.CAN
Other Compatible Protocols:CANBUS, RS485 (MODBUS) & NMEA2000 (Can be set on request)
Battery Parallel Communication Via:Ethernet (CAT-V)
Type Approvals:

UN38.3

Check / tick mark icon

CE

Check / tick mark icon

RoHS

Check / tick mark icon

UKCA

Check / tick mark icon

EMC

Check / tick mark icon
Short Circuit Test:
Check / tick mark icon

PASSED

The battery is heated for a period of time necessary to reach a homogeneous stabilized temperature of 57 ±4 °C, measured on the external case. The battery at 57 ±4 °C shall be subjected to one short circuit condition with a total external resistance of less than 0.1 ohm.This short circuit condition is continued for at least one hour after the cell or battery external case temperature has returned to 57 ±4 °C, or has decreased by half of the maximum temperature increase observed during the test and remains below that value.The short circuit and cooling down phases shall be conducted at least at ambient temperature. The battery will pass this test if the external temperature does not exceed 170°C and there is no disassembly, no rupture and no fire within six hours of this test.
Over Charge Test:
Check / tick mark icon

PASSED

The battery is charged at twice the specified recommended maximum continuous charge current and voltage. The duration of the test is 24 hours. When the specified recommended charge voltage is not more than 18V, the minimum voltage of the test shall be the lesser of two times the maximum charge voltage of the or 22V.  In order to pass, the test requires no fire or explosion within seven days of the test.
Over Discharge Test:
Check / tick mark icon

PASSED

Each internal cell shall be forced discharged at ambient temperature by connecting it in series with a 12V D.C. power supply at an initial current equal to the maximum discharge current. The specified discharge current is to be obtained by connecting a resistive load of the appropriate size and rating in series with the test cell, each cell shall be forced discharged for a time interval (in hours) equal to its rated capacity divided by the initial test current (in ampere). ‍ In order to pass, the test requires no fire or explosion within seven days of the test.
Altitude Simulation:
Check / tick mark icon

PASSED

The battery is stored at a pressure of 11.6kPa or less for at least six hour at ambient temperature (20±5°C). The battery will pass the test if there is no mass loss, no leakage, no venting, no disassembly, no rupture and no fire and if the open circuit voltage of each test cell or battery after testing is not less than 90% of its voltage immediately prior to this procedure.
Thermal Test:
Check / tick mark icon

PASSED

The battery is stored for at least six hours at a test temperature equal to 72± 2°C, followed by storage for at least six hours at a test temperature equal to -40±2°C. The maximum time interval between test temperature extremes in 30 minutes. This procedure is to be repeated until 10 total cycles are complete, after which all test cells and batteries are to be stored for 24 hours at ambient temperature (20±5°C). For batteries, the duration of exposure to the test temperature extremes should be at least 12 hours. The battery will pass the test if there is no mass loss, no leakage, no venting, no disassembly, no rupture and no fire and if the open circuit voltage of each test cell or battery after testing is not less than 90% of its voltage immediately prior to this procedure.
Vibration Test:
Check / tick mark icon

PASSED

The battery is firmly secured to the platform of a vibration machine without distorting the cells in such a manner as to faithfully transmit the vibration. The vibration is a sinusoidal wave form with a logarithmic sweep between 7Hz and 200Hz and back to 7Hz traversed in 15 minutes, this cycle is repeated 12 times for a total of 3 hours for each of three mutually perpendicular mounting position of the battery. One of the directions of vibration must be perpendicular to the terminal face. The logarithmic frequency sweep shall differ for cells and batteries with a gross mass of not more than 12kg (cells and small batteries), and for batteries with a gross mass of more than 12kg (large batteries). For cells and small batteries: from 7Hz a peak acceleration of 1gn is maintained until 18Hz is reached. The amplitude is then maintained at 0.8mm (1.6mm total excursion) and the frequency increased until a peak acceleration of 8gn occurs (approximately 50Hz). A peak acceleration of 8gn is then maintained until the frequency is increased to 200Hz. For large batteries: from 7Hz to a peak acceleration of 1gn is maintained until 18Hz is reached. The amplitude is then maintained at 0.8mm (1.6mm total excursion) and the frequency increased until a peak acceleration of 2gn occurs (approximately 25Hz). A peak acceleration of 2gn is then maintained until the frequency is increased to 200Hz. The battery will pass the test if there is no mass loss, no leakage, no venting, no disassembly, no rupture and no fire and if the open circuit voltage of each test cell or battery after testing is not less than 90% of its voltage immediately prior to this procedure.
Shock Test:
Check / tick mark icon

PASSED

The battery is secured to a testing machine by means of a rigid mount which will support all mounting surfaces of each test battery. The battery is subjected to a halfsine shock of peak acceleration of 150gn and pulse duration of 6 milliseconds. Alternatively, large cells may besubjected to a half-sine shock of peak acceleration of 50gn and pulse duration of 11 milliseconds. Each battery shall be subjected to a half-sine shock of peak acceleration depending on the mass of the battery. The pulse duration shall be 6 milliseconds for small batteries and 11 milliseconds for large batteries. Each cell or battery shall be subjected to three shocks in the positive direction and to three shocks in the negative direction in each of three mutually perpendicular mounting positions of the cell or battery for a total of 18 shocks. The battery will pass the test if there is no mass loss, no leakage, no venting, no disassembly, no rupture and no fire and if the open circuit voltage of each test cell or battery after testing is not less than 90% of its voltage immediately prior to this procedure.
Safety & Compliance

Whats In The Box:

SDS/Spec Sheet:

PDF Download Icon
Click to download PDF

User Manual:

PDF Download Icon
Click to download PDF
+

Ocean Revival is attempting a new World Record for the Ocean Explorers Grand Slam - rowing across every ocean in record time.

They are the second team in history to attempt this row and are on course to beat the record by three years.

The vessel's onboard electronics are powered by 2 TITAN Lithium 120Ah batteries.


Cheer them on @oceanrevivaladventures

You can track the team live below as they row from San Francisco to Hawaii.

This incredible journey will see them row 2400 nautical miles across the Pacific Ocean to raise money for Oceana, a global marines conservation charity and raise awareness of the plight of our ocean.

Our Latest Additions:

TITAN Lithium Gold 12V 180Ah Battery

12V 180Ah Lithium (LiFePO4) Battery
£ 800.00 

TITAN Lithium 12V 280Ah Battery

12V 280Ah Lithium (LiFePO4) Battery
£ 860.00 

TITAN Lithium Gold 12V 460Ah Battery

12V 460Ah Lithium (LiFePO4) Battery
£ 1,050.00 

TITAN Lithium 24V 230Ah Battery

24V 230Ah Lithium (LiFePO4) Battery
£ 1,050.00 

Looking for something else?

Lithium Leisure Batteries110Ah Lithium BatteryUnder-seat lithium leisure batteryChargerLeisure BatterySmallest Lithium LeisureHelp me find what I need

Never miss a thing

Sign up for texts to be notified about our best offers on  the perfect gifts.
Thank you! Your submission has been received!
Oops! Something went wrong while submitting the form.
TITAN Lithium logo
TITAN lithium batteries is a trading name of Groves Batteries Ltd - the UK's longest-running, family-owned battery specialists

Our Sectors

Direct Replacement Batteries
24V Lithium Batteries
Lithium Chargers
Lithium Marine Batteries
Lithium Renewable Energy Batteries
Lithium Leisure Batteries

Company

About
Support
T&C, Returns & Privacy
Delivery
Affiliates
Business | Trade Accounts
TITAN Lithium member of British Marine
Visit us:
Groves Batteries Ltd trading as TITAN Lithium, Park Mews Works, Lypiatt Street, Cheltenham, GL50 2UB, United Kingdom
Website designed and operated from Cheltenham, England

What are you looking for?

Lithium Leisure BatteryLithium ChargerSmall LithiumHelp me find what I need