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Guide

Battery Depth of Discharge Calculator

Battery depth of discharge calculator: (energy used Wh ÷ total Wh) × 100 for DoD %—track how deep you cycle LiFePO4, AGM, and lead-acid banks for life and warranty limits.

Depth of discharge tells you how much of the pack you have spent—not just the voltage on the display. This battery depth of discharge calculator converts used and total watt-hours into DoD % for cycle planning and chemistry limits.

Benefits

  • Core formula: DoD % = (used Wh ÷ total Wh) × 100.
  • DoD % = 100 − state of charge (SoC %) on the same Wh basis.
  • Compare daily cycles to manufacturer max DoD recommendations.

How it works

  1. Enter energy used in Wh (meter, coulomb count, or load × time).
  2. Add total pack capacity in Wh (from Ah × V or nameplate kWh × 1,000).
  3. Read depth of discharge %—check against chemistry and warranty caps.

FAQ

How does the battery depth of discharge calculator work?

DoD % = (used Wh ÷ total Wh) × 100. Example: 600 Wh drawn from a 1,200 Wh pack → 50% DoD. That matches 50% remaining SoC when both numbers use the same gross capacity baseline.

Is DoD the same as 100% minus SoC?

Yes on the same energy reference: 70% DoD means 30% SoC remains. Use consistent total Wh—nameplate at full charge—not an aged capacity estimate unless you intentionally derate total Wh first.

What DoD is safe for my battery?

Typical planning limits: flooded lead-acid ~50% daily; AGM 50–60%; LiFePO4 often 80–90% with BMS reserve below that. The calculator reports actual DoD; compare the result to your datasheet max cycle DoD.

Technical specifications

  • DoD % = (energy_used_Wh ÷ total_capacity_Wh) × 100.
  • SoC % ≈ 100 − DoD % (same Wh basis).
  • Used Wh must not exceed total Wh.
  • Related: battery-depth-of-discharge, battery-percentage, battery-dod-energy-yield.

DoD measures how much tank you emptied

Voltage gauges drift with load and temperature; energy accounting in watt-hours is steadier. A battery depth of discharge calculator turns used Wh and pack Wh into a percentage cycle depth. Operators tracking nightly off-grid use can log DoD daily and spot when average depth exceeds warranty-friendly limits.

Chemistry sets the acceptable DoD ceiling

Lead-acid cycle life collapses when daily DoD routinely exceeds 50%. LiFePO4 marketing allows deeper swings, but BMS may still hold reserve below 10% displayed SoC. Calculate DoD from measured Wh, then compare to the line in the spec sheet—not to generic 100% depth assumptions.

From DoD to usable energy planning

After a cycle's DoD is known, gross pack Wh × (DoD ÷ 100) confirms energy delivered. Pair with Battery Energy for total Wh, Battery DoD to Energy Yield when sizing from nominal kWh and target DoD %, and Battery Percentage when starting from voltage-reported SoC instead of Wh used.