Lithium Single Phase UPS | LiFePO₄ Battery Backup Systems

Model selection

Find the right model for your deployment

Six models cover the full range of lithium single phase applications — from ultra-slim embedded installs to high-density rack deployments. The table below shows the key differences. If your situation doesn’t fit cleanly, talk to a specialist before specifying.

Model	Capacity	Voltage	Architecture	Form factor	Best for
J60View product →	350VA, 600VA	120V or 230V	Standby	Ultra-slim, fanless. Wall, DIN rail, or flat mount.	KiosksDigital signageEmbedded installs
J60CView product →	350VA, 600VA	120V or 230V	Standby	1U short depth. Rack or wall mount.	Structured wiringShallow cabinets
P91LiView product →	1.5kVA, 2kVA, 3kVA	120V	Online	Rack or tower convertible.	Edge ITNetworkMedical
P91gLiView product →	1.5kVA, 2kVA, 3kVA	208V / 230V	Online	Rack or tower convertible.	Higher voltage ITInternational
J90View product →	1kVA, 2kVA, 3kVA	120V	Online	1U high density. Rack or wall mount. Switchable outlets.	High-density rackAdvanced monitoring
J90iView product →	1kVA, 2kVA, 3kVA	208V / 230V	Online	1U high density. Rack or wall mount. Switchable outlets.	Global deployments230V rack

Product family

Six models. One platform philosophy.

Every model uses LiFePO₄ chemistry and is designed to eliminate routine battery replacement. The differences are form factor, voltage, and protection architecture — matched to the deployment environment.

J60 lithium UPS mounted on DIN rail — showing the clip mechanism for embedded installations

Standby · Embedded · DIN rail

J60 Ultra-Slim Lithium UPS

350VA · 600VA · 120V or 230V

The only UPS that fits behind a display or on a DIN rail. Fanless design enables silent operation in public-facing environments.

Designed for installations where a conventional UPS physically cannot fit — behind kiosk displays, inside digital signage enclosures, or on DIN rails in compact control panels. Wall, DIN rail, or flat mount. No fan means no noise and no moving parts to maintain.

Fanless Wall / DIN / flat mount 120V or 230V

View J60 →

Standby · Structured Wiring · Short depth

J60C 1U Short-Depth Lithium UPS

350VA · 600VA · 120V or 230V

Fits structured wiring cabinets where standard 1U UPS units are too deep to install.

Short depth 1U form factor solves the installation constraint that makes traditional rack UPS impractical in shallow wiring cabinets, telecom enclosures, and wall-mount panels. Rack or wall mount. Same LiFePO₄ chemistry as the broader J60 family.

1U short depth Rack or wall mount 120V or 230V

View J60C →

P91Li 3kVA online lithium UPS installed in a rack, LCD display showing OK 120V status

Online · Edge IT · 120V

P91Li Online Lithium UPS

1.5kVA · 2kVA · 3kVA · 120V

Online double-conversion protection with lithium service life — no battery replacement for the life of the deployment.

Double-conversion online architecture provides continuous clean power to switches, servers, and communications equipment regardless of utility conditions. Rack or tower convertible. 120V. The lithium platform eliminates the maintenance cycle that makes lead acid UPS deployments in edge locations expensive to manage.

Online double-conversion Rack or tower 120V

View P91Li →

P91gLi online lithium UPS — same platform as P91Li at 208V/230V

Same platform as P91Li · 208V/230V output

Online · Commercial · 208V/230V

P91gLi Online Lithium UPS

1.5kVA · 2kVA · 3kVA · 208V/230V

Same platform as the P91Li — higher voltage for commercial installations and international deployments.

208V and 230V online lithium protection for commercial IT environments, international deployments, and installations where higher voltage distribution is standard. Rack or tower convertible. Identical protection architecture to the P91Li with voltage flexibility for global use cases.

Online double-conversion Rack or tower 208V / 230V

View P91gLi →

Online · High Density Rack · 120V

J90 1U Online Lithium UPS

1kVA · 2kVA · 3kVA · 120V

1U footprint with switchable outlets and advanced monitoring — more capability per rack unit than any comparable lead acid platform.

High-density 1U online lithium UPS for rack environments where space is at a premium. Switchable outlets enable load management and remote control. Advanced monitoring for visibility into battery health, load, and runtime. Wall or rack mount. 120V.

1U online Switchable outlets Advanced monitoring 120V

View J90 →

J90i online lithium UPS — same platform as J90 at 208V/230V

Same platform as J90 · 208V/230V output

Online · High Density Rack · 208V/230V

J90i 1U Online Lithium UPS

1kVA · 2kVA · 3kVA · 208V/230V

J90 platform at 208V/230V — same advanced monitoring and switchable outlets for global rack deployments.

International version of the J90 for global infrastructure deployments and 230V rack environments. Identical monitoring capability, outlet control, and 1U footprint. Wall or rack mount. Supports global infrastructure requirements where 208V or 230V distribution is standard.

1U online Switchable outlets Advanced monitoring 208V / 230V

View J90i →

Technology

Why LiFePO₄ outperforms lead acid over the life of a deployment

The performance advantage of lithium iron phosphate is not primarily about a single spec — it’s about how the battery behaves over thousands of cycles and across a wide temperature range. Lead acid batteries degrade fastest precisely in the conditions where UPS systems are most often deployed.

15 yr

Battery service life

LiFePO₄ cells are rated for 3,000–5,000 discharge cycles. At one cycle per day, that’s 8–14 years of daily operation. Lead acid UPS batteries typically require replacement every 3–5 years under similar conditions.

In ideal operating conditions · varies by temperature and depth of discharge

50°C

High temperature operation

Select models operate reliably to 50°C (122°F). Lead acid batteries lose capacity rapidly above 25°C and can fail prematurely in environments that regularly reach 35°C or higher — exactly the environments where UPS systems protect industrial and commercial equipment.

Select models · warranty reduced to 2 years above 40°C continuous

4×

Faster recharge

LiFePO₄ batteries accept charge faster than lead acid, restoring protection capacity significantly faster after an outage. In environments with frequent or extended outages, faster recharge means less exposure between events.

Versus comparable lead acid platform at equivalent capacity

70%

Smaller and lighter

LiFePO₄ cells have significantly higher energy density than lead acid. At equivalent capacity, lithium UPS systems are up to 70% smaller and lighter — enabling form factors like the J60 that are simply not achievable with lead acid chemistry.

Versus comparable capacity lead acid UPS · varies by model

$0

Battery replacement cost

The total cost of ownership advantage compounds over time. Eliminating two or three battery replacement cycles — each requiring parts, labor, and downtime — offsets the higher initial cost of lithium in most deployments within 5–7 years.

Assumes no battery replacement required over 10-year deployment

BMS

Integrated safety management

Every system includes an integrated battery management system monitoring cell voltage, temperature, and charge state. LiFePO₄ chemistry is inherently more thermally stable than traditional lithium-ion — it does not exhibit thermal runaway under normal operating conditions.

LiFePO₄ chemistry · integrated BMS standard on all models

LiFePO₄ (lithium iron phosphate)

3,000–5,000 discharge cycles at standard depth
Maintains capacity in elevated temperatures
Thermally stable — no thermal runaway risk
Consistent performance through full discharge range
Integrated BMS for real-time cell monitoring
Higher energy density enables compact form factors

Sealed lead acid (VRLA)

200–500 cycles at standard depth before significant degradation
Capacity drops rapidly above 25°C operating temperature
Sulfation and stratification accelerate with age and heat
Significant capacity loss in final 20% of discharge range
Replacement typically required every 3–5 years
Heavy and bulky — limits form factor options

Applications

Where lithium UPS systems are deployed

The common thread across these applications is environments where battery replacement is costly, disruptive, or impractical — and where a smaller, lighter form factor solves a real installation problem.

J60 mounted on DIN rail for embedded kiosk installation

POS, kiosks, and digital signage

Recommended: J60

Ultra-slim fanless form factor mounts behind displays and on DIN rails inside enclosures. Silent operation suits public environments. No battery replacement for the life of the kiosk.

J60 product page →

J60C short-depth UPS installed in structured wiring cabinet

Structured wiring and telecom cabinets

Recommended: J60C

Short depth 1U form factor fits where standard rack UPS cannot. Eliminates the workaround of under-sizing protection to fit the enclosure.

J60C product page →

P91Li online lithium UPS protecting edge IT infrastructure

Edge IT and network infrastructure

Recommended: P91Li or J90

Online double-conversion protection for switches, servers, and communications gear at distributed sites where a technician visit for battery replacement is expensive and disruptive.

P91Li product page →

J90 1U lithium UPS in industrial rack installation

Industrial controls and automation

Recommended: J90 or P91Li

High temperature tolerance and long service life suit industrial environments where ambient temperatures are elevated and unplanned maintenance is costly. Select models rated to 50°C.

J90 product page →

Medical equipment

Recommended: P91Li

Online double-conversion provides clean, conditioned power for sensitive equipment. Long battery service life reduces maintenance intervention in clinical environments where equipment access is restricted.

P91Li product page →

J90i 1U lithium UPS supporting international 230V rack deployments

International and 230V deployments

Recommended: P91gLi or J90i

208V and 230V models support global deployments with the same lithium platform advantages. J90i adds switchable outlet control for international rack environments.

P91gLi product page →

Warranty and service life

Understanding the warranty and battery life figures

Battery service life and product warranty are different figures and are sometimes confused. Here’s what each means for a lithium UPS deployment.

Battery service life

Up to 15 years

In ideal operating conditions at or below 25°C. 3,000–5,000 discharge cycles.

Standard product warranty

5–6 years

Varies by model. Covers manufacturing defects and component failure.

High temperature warranty

2 years

Applies to installations operating continuously above 40°C (104°F).

Battery service life projections are based on LiFePO₄ chemistry characteristics under controlled conditions. Actual service life varies with operating temperature, depth of discharge, charge cycle frequency, and installation environment. Deployments in elevated temperature environments should use the high-temperature warranty figures for planning purposes.

Frequently asked questions

Common questions about lithium UPS systems

How long does a lithium UPS battery last?

LiFePO₄ batteries are rated for 3,000–5,000 discharge cycles and can remain in service up to 15 years in ideal operating conditions (25°C or below, moderate discharge depth). In elevated temperature environments — above 40°C continuous — service life is reduced and warranty coverage changes accordingly. Compare this to sealed lead acid batteries, which typically require replacement every 3–5 years under similar conditions.

Can lithium UPS systems operate in high temperatures?

Select models operate reliably to 50°C (122°F). This is a meaningful advantage over lead acid systems, which begin losing capacity above 25°C and can fail prematurely in environments that regularly reach 35–40°C. Note that installations operating continuously above 40°C carry a 2-year warranty rather than the standard 5–6 year coverage.

Is LiFePO₄ safe compared to other lithium chemistries?

LiFePO₄ (lithium iron phosphate) is the most thermally stable of the common lithium battery chemistries. It does not exhibit thermal runaway under normal operating conditions — the failure mode associated with some other lithium-ion chemistries. All models include integrated battery management systems that monitor cell voltage, temperature, and charge state.

What’s the difference between standby and online double-conversion?

Standby UPS (J60, J60C) passes utility power directly to the load during normal operation and switches to battery during an outage — with a brief transfer time. Online double-conversion UPS (P91Li, P91gLi, J90, J90i) continuously converts power through the inverter, providing clean, conditioned power at all times with zero transfer time. Online protection is recommended for sensitive IT equipment, medical devices, and any load that benefits from continuous power conditioning rather than just outage protection.

Why choose lithium over a traditional lead acid UPS?

The primary advantage is lifecycle cost. A lead acid UPS requires battery replacement every 3–5 years — parts, labor, and downtime. A lithium UPS deployed in the same location may not require battery replacement for 10–15 years. Additional advantages: significantly smaller and lighter at equivalent capacity, faster recharge after outages, and better performance in elevated temperature environments. The higher upfront cost of a lithium UPS is typically recovered within 5–7 years when battery replacement costs are factored in.

Is there a three-phase lithium UPS option?

Yes — for enterprise and data center applications requiring three-phase lithium UPS protection, Xtreme Power offers the Li90 modular lithium platform from 10kW to 30kW. Learn more about the Li90 →

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