LFP Battery Capacity Test

LFP Battery Capacity Test: convert a timed discharge into measured Ah, kWh and state of health.

LFP testing: discharge at C/3 or the datasheet rate to the cut-off (typically 2.5 V/cell) — the flat voltage curve makes voltage-based SoC guesses useless; only Ah counting tells the truth.

Rated capacity (Ah)Nominal voltage (V)Discharge current (A)Use the rated test current — C/20 for lead-acid (IEEE 1188), C/3 or 1C for lithium.Hours to cut-off voltage

80.0%

State of health

Measured capacity80.0 Ah

Energy delivered4.10 kWh

IEEE 1188 action thresholdreplace at ≤ 80% for standby lead-acid

SoH = measured Ah ÷ rated Ah at the same discharge rate and temperature. Rate matters — discharging a lead-acid battery faster than its rating undercounts capacity (Peukert effect; see the Peukert tool), so always test at the datasheet rate.

Sources: IEEE 1188 — VRLA battery maintenance & capacity testing; IEC 61960 — secondary lithium cells capacity test

Engineering estimate from published standards and typical equipment data. Site conditions, equipment datasheets and measured data govern the real result — confirm with a qualified engineer.

Use the free LFP Battery Capacity Test online — LFP Battery Capacity Test: convert a timed discharge into measured Ah, kWh and state of health. Runs instantly in your browser: no signup, no upload, mobile-friendly.

About LFP Battery Capacity Test

LFP testing: discharge at C/3 or the datasheet rate to the cut-off (typically 2.5 V/cell) — the flat voltage curve makes voltage-based SoC guesses useless; only Ah counting tells the truth.

How to use LFP Battery Capacity Test

1Charge fully and rest the battery, then discharge at the rated test current.
2Time the discharge until the cutoff voltage and enter current and hours.
3Read measured Ah, energy delivered and SoH against nameplate.

Why use LFP Battery Capacity Test?

✓The ground-truth method every warranty and standard recognizes
✓Correct test rates for your battery class baked into the help text
✓Converts the timed discharge into Ah, kWh and SoH automatically
✓IEEE/IEC-aligned procedure notes prevent the classic testing mistakes

Frequently asked questions

How do I properly test battery capacity at home or on site?+

Full charge, rest 1–4 hours, then a constant-current discharge at the datasheet rate (C/20 for lead-acid, C/3–1C for lithium) down to the specified cutoff voltage, timing it. Measured Ah = current × hours. The biggest error is testing at the wrong rate — lead-acid reads dramatically lower at high currents.

What discharge rate should I use for the test?+

The rating's basis: most lead-acid ratings are C20 (a 150 Ah battery tests at 7.5 A), traction batteries C5, lithium typically C/3 or 1C per datasheet. Testing faster than the basis undercounts capacity (Peukert effect) and falsely fails healthy batteries.

How often should batteries be capacity-tested?+

Standby/UPS strings: yearly per IEEE 1188 practice, quarterly once past 80% of design life. Cycled banks (solar, traction): every 6–12 months. EVs: at purchase/sale and yearly. Consistent method and temperature matter more than frequency — trends need comparable points.

Can I trust the BMS SoH reading instead of testing?+

Partially. Good BMS estimates track within ±5% when the pack regularly sees full cycles; they drift badly on shallow-cycled packs that never let the BMS recalibrate. A periodic measured test anchors the BMS estimate — and is the only number a warranty process accepts.

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