LFP-520 datasheet
Full electrical, BMS, thermal & chemical-safety data — the same numbers our engineers test to.





12.8V | 520Ah | 6,656Wh
Real achievable capacity - up to 550Ah
350mm long x 355mm wide x 190mm high
The biggest battery in the Diamond range - and the simplest way to describe it is honest: two of our 260Ah Type 019 packs, built side by side into a single sheet-metal case. That gives you 6,656Wh of real, usable energy at 12.8V with 300A continuous BMS output, in a case that keeps the 190mm DIN height. If your install has the floor space of two Type 019 batteries side by side, it has the space for this.
Case height is 190mm - the same as our DIN range, so it clears under-seat and locker lids that a taller industrial pack never could. All connections are on the front face: M8 bolt terminals plus the comms ports, so it can sit hard against a wall on three sides.
| Vehicle Application | Fitment Status | Notes |
| Large motorhomes / A-class | Direct fit | Double-019 footprint, standard 190mm DIN height. |
| Yachts / live-aboard boats | Direct fit | Replaces a multi-battery house bank with one pack. |
| Van conversions / expedition trucks | Check space | Needs 350mm x 355mm of floor. Front-face terminals suit tight lockers. |
| Off-grid cabins / solar storage | Direct fit | Low profile stacks under benches and in cabinets. |
| Important note | Leisure only | Designed for powering appliances. Not a starter battery. |
| Dimensions | 350mm (L) | 355mm (W) x 190mm (H) |
All TITAN batteries use lithium iron phosphate (LiFePO4) prismatic cells - the most thermally and chemically stable lithium chemistry available. No cobalt, no nickel, no off-gassing, no acid. The trade-off is a slightly lower cell voltage (3.2V per cell, 4 cells = 12.8V) and lower energy density than the NMC cells used in EVs. In return, you get lifespans that make NMC look disposable: 3,000 to 25,000 cycles depending on use, against NMC's 1,000 to 2,500.
LiFePO4 is now widely considered safer than lead-acid. Cells can be installed in any orientation (upright is optimum), contain no liquid electrolyte, and are fully recyclable.
A cycle is one full discharge plus one full recharge. Count scales with how deep you take each discharge:
For reference, the best lead-acid gel battery tops out at 350-400 cycles at 80% DoD. A TITAN at the same depth gives 6,000 - roughly 15x the service life.
Our cells are long, flat prisms that fill the rectangular case end to end. Cylindrical cells leave gaps between every cell and are much harder to repair (lots of spot welding), so we pay the extra cost for prismatic and pass the capacity gain back to you. The aluminium cell casing also disperses heat evenly, even at the full 300A BMS allowance - well inside spec (thermal runaway territory doesn't start until around 100°C). Heater mats also work better with prismatic cells - every cell sits against the heating element, rather than only the outer ring of a cylindrical pack.
Matching this 520Ah in lead-acid means twelve Exide ER550 115Ah batteries paralleled up to 1,380Ah. One TITAN 520Ah replaces the lot - a huge saving in space, weight and cabling, with no gassing so it can live anywhere.
We quote capacity in Wh (Watt-hours) because Ah on its own ignores chemistry. TITAN lithium delivers 100% of rated capacity. Gel manages around 90%, AGM 75%, flooded lead-acid 60%. Factor that in and a TITAN 520Ah has more than double the real-world capacity of a lead-acid battery on the same label rating.
There isn't a single lead-acid battery that comes close to this capacity. The honest comparison is twelve ER550-class leisure batteries paralleled together to match the usable Wh - that's 312kg of lead-acid sitting in your install. One TITAN does it in 49.5kg. A 262kg saving matters on a motorhome's drive-axle plate, at the ferry scales, and at the pump.
Almost every watt you put in comes back out. A great partner for solar - no wasted incoming charge - and happy to accept very high charge currents: 0 to 95% in under three hours at 150A+.
The battery management system is the circuit board between the cells and the terminals. It's the difference between a lithium battery that lasts 15 years and one that self-destructs in two. Most brands fit an off-the-shelf board with generic parameters. We don't.
Our BMS is custom, with parameters tuned to the exact cell spec we use. That lets us run the cells right up to their real safe working limits without compromising protection. It's also how we pull an extra 5-10% usable capacity out of every cell (a 520Ah can show as 550Ah fully charged). We can't guarantee the bonus capacity batch to batch, but the BMS re-maps its 100% reading automatically so the app always shows what you actually have.
Over-discharge, over-voltage, under-voltage, over-current, short-circuit, over-temperature, under-temperature, cell balance faults and more. All protections are temporary - they either self-reset or clear the moment the battery is put back on charge. The 300A continuous current allowance on this model is class-leading thanks to premium MOSFETs, oversized heat sinks and properly sized internal cabling.
Passive balancing is cheap: cells bleed off to each other and that's it. Active balancing actively moves energy between cells, protecting the weakest cell from doing all the work. Most brands pick one. We run both - passive for small voltage deltas, active for larger ones. Keeps the BMS's own power draw low while still giving you the full benefit of active balancing. It's automatic, most active when charging above 3.4V per cell, and takes full effect between 90-100% SOC.
Lithium cannot be charged below 0°C without cell damage. Our built-in heater mats wrap the internal packs and kick in automatically at around 2°C whenever there's an incoming charge current. They draw from the charger first, and if the charger can't keep up, pull up to 3.6A from the battery itself to get cell temperature to 10°C before routing charge back to the cells. Expect roughly 20 extra minutes on your charge time in the cold. Discharge is unaffected and works down to -20°C.
A fully discharged lithium battery left for months can be a lithium battery that doesn't come back. Two hibernation modes keep that from happening:
Inverters, water pumps, motor movers and compressors can pull 1,000A+ for a microsecond on start-up. Many BMSs read that as a short circuit and trip. Ours is tuned to ride those spikes without nuisance shutdowns, so start-up loads behave the way they did on your old lead-acid.
Comms ports on the front face let the battery talk to compatible inverters, chargers and GX devices. Defaults to Victron CANBUS (VE.CAN and BMS.CAN) and is compatible with Victron DVCC out of the box. The data mode can be switched to other brands or protocols on request - flag it in the order notes and our engineers will set it before dispatch.
Known working with:
Cable kits for every protocol are stocked on our store.
The case is exactly what it sounds like: the footprint of two DIN Type 019 batteries side by side, in a single electrocoated sheet-metal case at standard 190mm DIN height. If you're consolidating an existing two- or three-battery bank, measure the tray against 350mm x 355mm and you're done. There are no communication range issues with this metal case - Bluetooth and comms work exactly as they do across the rest of the range.
Double-check your charger. TITAN batteries accept AGM or "Sealed" modes if your charger does not have a dedicated lithium preset. Aim for a maximum charge voltage of 14.4V.
Compatible with split-charge relays and DC-DC chargers out of the box. These are deep-cycle leisure batteries for running equipment - not engine-starting batteries.
High-performance copper M8 bolt terminals on the front face - positioned with the comms ports so all cabling approaches from one side. Two M8 bolts and spring washers are included with the battery for direct ring-terminal cabling.
190mm tall - the same height as our DIN range, so it fits under seats, in low lockers and beneath bench tops where taller industrial packs won't go. Upright on its base is optimal for longevity and performance, but the cells are stable in any orientation if the install calls for it.
Bluetooth is built in. The free TITAN app (iOS and Android, 10 languages) shows live voltage, current in both amps and watts, SOC as a percentage and in Ah, individual cell voltages, internal temperature, estimated time to full or empty, protection trip history and live balancing activity.
It handles multiple batteries in series or parallel and re-calculates totals automatically, so whether you've got one 520Ah or two in parallel, the figures on screen match the actual pack.
We're confident enough in the build to back every grade-A cell battery with a warranty that lasts the lifetime of the battery - fully transferable. Our parent company has been trading continuously since 1948, so we intend to be around to honour it in 20 years' time.
What the warranty doesn't cover is wear. All batteries lose capacity with use - the harder you work them, the faster that happens. LiFePO4 is remarkably resistant: expect a 5-10% capacity drop every decade of normal use. A brand-new 520Ah shows around 550Ah fully charged, a 10-year-old 520Ah around 490Ah, a 20-year-old 520Ah around 445Ah. Natural degradation isn't a valid warranty claim - if a battery stops holding enough capacity for your use, it's time to replace.
The warranty covers components against premature failure caused by manufacturing faults. Full terms are on our warranty page.
The TITAN 520Ah sits at £1,499 new. Over its 10-year design life that's £150 a year. The closest lead-acid equivalent - twelve ER550-class leisure batteries in parallel - is around £1,400 a set with a 4-year design life, which means replacing the bank roughly 2.5 times over the same period. Call it £350 a year, with cascading labour each replacement. Around £2,000 saved over 10 years, before you factor in the weight, volume and efficiency benefits. In practice most of our customers see 15-20 years out of a TITAN.
If something fails we repair the failed module - BMS, balance board, a single cell - rather than replace the whole battery. Lower cost to you, lower carbon footprint, faster turnaround. As a family of battery specialists since the 1950s, there isn't much we haven't already rebuilt.
Same usable energy as 12× standard 115Ah / 550Wh leisure batteries (we benchmark against the Exide ER550). One TITAN. A fraction of the weight. A custom BMS that handles loads you'd never trust to a flooded leisure battery.
Lead-acid delivers ~40% of its rated Ah in real-world use before damage. TITAN delivers 100%, even at 0% SoC.
~84% lighter for the same usable energy — one dual-DIN TITAN unit instead of 12 flooded leisure batteries.
Self-resetting protections, no nuisance trips. Lead-acid? Whatever the cables and cold can take.
Replaces ~12 ER550-class leisure batteries with one dual-DIN TITAN unit. The case is two DIN Type 019 footprints side by side at standard 190mm DIN height. One battery, with the usable energy of 12 of them.
Comparisons are Wh-based against the Exide ER550 (115Ah / 550Wh / ~26kg) flooded leisure battery — one of the few lead-acid units that publishes a Wh rating. The case is two DIN Type 019 footprints side by side at standard 190mm DIN height. Lead-acid usable energy assumes ~40–50% depth of discharge and voltage sag under load; TITAN figures assume 100% DoD at the C/5 rating. Nearly all of the rated capacity is available when needed; routine 10-90% use simply reduces long-term cell wear.
Everything that ships with the battery, in writing. Spec sheet for the engineers, install & care manual for everyone else.
Full electrical, BMS, thermal & chemical-safety data — the same numbers our engineers test to.
Install, charge, care & warranty terms — covers every TITAN battery in the current range.
Fitting lithium in a boat or motorhome? Let your insurer know.
Most marine and leisure-vehicle policies ask to be told about changes to the battery system. It is a two-minute call: tell them you have fitted a TITAN LiFePO4 battery that is CE and UKCA marked, UN38.3 transport tested and RoHS compliant, with an IP67-sealed case and a custom BMS that protects against over-charge, over-discharge, short circuit and over-temperature. If you added a lithium-rated main fuse to your order (recommended), mention that too - insurers like to hear it. Keep your datasheet handy; it covers everything they may ask.
Most lithium leisure batteries are built down to a price. We design ours from the BMS out. Three things every TITAN ships with, no matter the size.
A custom BMS, not an off-the-shelf board. Oversized heat sinks, premium cabling, anti-vibration silicone on every contact, module-based for in-field repair, and our own comms package so no third-party app can edit your parameters.
Read the deep diveEVE and CATL cells, factory-graded for capacity and internal resistance, then top-balanced before assembly. We test every pack on the bench in Cheltenham before it leaves the building.
How we testDIN-format casework so it drops straight in where the lead-acid came out. Marine-spec terminals, an integrated low-temp charge cut-off, and a Bluetooth radio paired to the TITAN App for live monitoring from your phone.
Meet the app| ELECTRICAL SPECIFICATIONS | |
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Nominal Voltage: The battery's working voltage
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Capacity: |
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Energy: Watt-hours is our recommended capacity to use when comparing against other battery chemistries
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Resistance: |
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Efficiency: How efficient current is used without loss to resistance and heat
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Self Discharge: The standby self-discharge amount without use - all batteries have some level of self-discharge but lithium has one of the lowest
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| PHYSICAL SPECIFICATIONS | |
Dimensions: |
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Weight: |
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Terminal Type: |
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Case Material: |
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Enclosure Rating: While resistant to water ingress, all batteries should avoid water where possible
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Cell Chemistry: |
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Cell Type: Lithium batteries can either be made with cylindrical or prismatic cells - cylindrical is cheaper and easier to make while prismatic is more efficient with space so can offer larger capacities
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| TITAN BMS SPECIFICATIONS | |
Consistent Discharge: Maximum amount of amps you can pull from this battery for an unlimited time (until it goes flat)
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Peak Discharge: The absolute maximum amount of amps this battery can output over the consistent discharge rating for a period of time
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Maximum Charge Rate: |
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Low Voltage Charge: Battery nearing 0% - charge at this voltage
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Low Voltage Disconnect: The battery will switch off discharging at this voltage. The battery will need to be charged ASAP at this point
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Short Circuit Protection: This protection triggers should a short circuit occur. We use a maximum amp rating and how fast it triggers (the faster the better)
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Recommended Charge Rate: Based on average consumer charge ratings and time to charge
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Recommended Charge Voltage: |
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Charge Temperature Range: |
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| HEATER SPECIFICATIONS | |
Heater Activation: |
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Heater Power Source: |
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Heater Target: |
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Heater Consumption: |
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| CELL BALANCING SPECIFICATIONS | |
Cell Balance Method: |
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Active Balance Activation: |
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Passive Balance Activation: |
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| COMMUNICATION SPECIFICATIONS | |
Default Set Protocol: |
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Victron DVCC Compatible: |
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Other Compatible Protocols: |
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Battery Parallel Communication Via: |
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| In The Box | |
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