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Float voltage is the voltage at which a battery is maintained after being fully charged to maintain that capacity by compensating for self-discharge of the battery.[1] The voltage could be held constant for the entire duration of the cell's operation (such as in an automotive battery) or could be held for a particular phase of charging by the charger.[2] The appropriate float voltage varies significantly with the chemistry and construction of the battery, and ambient temperature.[3]

With the appropriate voltage for the battery type and with proper temperature compensation, a float charger may be kept connected indefinitely without damaging the battery.

However, it should be understood that the concept of a float voltage does not apply equally to all battery chemistries. For instance, lithium ion cells have to be float charged with extra care because if they are float charged at just a little over optimum voltage, which is generally the full output voltage of the lithium cell, the chemical system within the cell will be damaged to some extent. Some lithium ion variants are less tolerant than others, but generally overheating, which shortens cell life is likely, and fire and explosion possible other outcomes. It is important to make certain that the battery cell involved can be safely float charged, and that the charger circuit goes into float charge status when full charge is achieved.[4]

Lead-acid batteriesEdit

Accepted average float voltages for lead-acid batteries at 25 °C can be found in following table:[citation needed]

Lead-acid battery type single-cell (2 V) 3-cell (6 V) 6-cell (12 V)
Gel battery 2.18 6.53 13.05
Flooded lead–acid cell 2.23 6.7 13.4
Absorbent glass mat 2.27 6.8 13.6
Temperature compensation

Compensation per cell of approximately −3.9 mV/°C (−2.17 mV/°F) of temperature rise is necessary.[5]


Example 1

A 12 V (6-cell) battery at 30 °C (86 °F) (+5 °C change):
(−3.9 mV/°C) × (6 cells) × (5 °C change) = −117 mV
13.4 V (flooded battery float) + (−117 mV) = 13.28 V

Example 2

A 12 V (6-cell) battery at 20 °C (68 °F) (−5 °C change):
(−3.9 mV/°C) × (6 cells) × (−5 °C change) = +117 mV
(13.4 V flooded battery float) + (117 mV) = 13.52 V

Not compensating for temperature will shorten battery life by over- or undercharging.

See alsoEdit

ReferencesEdit

  1. ^ Team, M.I.T. Electric Vehicle, A Guide to Understanding Battery Specifications (PDF), retrieved 2012-01-12
  2. ^ Bill Moeller; Jan Moeller (1 October 1994). RV Electrical Systems: A Basic Guide to Troubleshooting, Repairing and Improvement. McGraw-Hill Professional. p. 34. ISBN 978-0-07-042778-5. Retrieved 12 January 2012.
  3. ^ Whitham D. Reeve (2007). DC power system design for telecommunications. John Wiley and Sons. p. 239. ISBN 978-0-471-68161-8. Retrieved 12 January 2012.
  4. ^ "Float charging lithium ion cells". Electronics Weekly.com. Retrieved 4 September 2018.
  5. ^ John A. O'Connor, Unitrode Application Note: Simple Switchmode Lead-Acid Battery Charger (PDF), retrieved 2012-11-10