Note: These products are only available in New Zealand
6FM100 12V 100Ah(20hr)
The rechargeable batteries are lead-lead dioxide systems. The dilute sulfuric acid
electrolyte is absorbed by separators and plates and thus immobilized. Should the
battery be accidentally overcharged producing hydrogen and oxygen, special oneway
valves allow the gases to escape thus avoiding excessive pressure build-up.
Otherwise, the battery is completely sealed and is, therefore, maintenance-free,
leak proof and usable in any position.
Component Positive plate Negative plate Container Cover Safety valve Terminal Separator Electrolyte
Raw material Lead dioxide Lead ABS ABS Rubber Copper Fiberglass Sulfuric acid
Not restricted for air transport-complies with IATA/ICAO Special Provision A67.
Can be mounted in any orientation.
Computer designed lead, calcium tin alloy grid for high power density.
Long service life, float or cyclic applications.
Low self discharge.
Dimensions and Weight
Length(mm / inch) 330 / 12.99
Width(mm / inch) 171 / 6.73
Height(mm / inch) 214 / 8.43
Total Height(mm / inch) 220 / 8.66
Approx. Weight(Kg / lbs) 32 / 70.5
Nominal Voltage 12V
Number of cell 6
Design Life 10 years
Nominal Capacity 77oF(25oC)
20 hour rate (5A, 10.5V) 100Ah
10 hour rate (9.6A, 10.5V) 96Ah
5 hour rate (17A, 10.5V) 85Ah
1 hour rate (63.5A, 9.6V) 63.5Ah
Fully Charged battery 77oF(25oC) 5mOhms
3% of capacity declined per month at 20oC(average)
Operating Temperature Range
Max. Discharge Current 77oF(25oC) 900A(5s)
Short Circuit Current 2100A
Charge Methods: Constant Voltage Charge 77oF(25oC)
Cycle use 14.4-14.7V
Maximum charging current 30A
Temperature compensation -30mV/oC
Standby use 13.6-13.8V
Temperature compensation -20mV/oC
Discharge Constant Current (Amperes at 77oF25oC)
Volts/Cell 5min 10min 15min 30min 1h 3h 5h 10h 20h
1.60V 323 221 182 103 63.5 25.7 18.0 9.90 5.15
1.65V 296 207 173 99 62.5 25.2 17.7 9.85 5.10
1.70V 270 192 164 96 61.5 24.7 17.4 9.80 5.04
1.75V 242 179 153 93 60.5 24.1 17.0 9.60 5.00
1.80V 214 164 143 91 59.5 23.4 16.7 9.30 4.80