Model No. 9382
PAG L95 Li-Ion Time Battery.
PAGlok connector.
Model No. 9360
PAG L95 Li-Ion Time Battery.
V-Mount compatible connector.
Model No. 9383
PAG L95 Li-Ion Time Battery.
Snap-on compatible connector.
Construction:
The casing for these models consists of high-impact polycarbonate injection mouldings,
featuring an internal cradle designed to protect the cells from impact damage. The cells have welded interconnections of low-resistance nickel strap. The batteries are sealed and non user-serviceable.
Cells:
Premium grade Lithium-Ion sealed rechargeable cylindrical cells.
Voltage:
14.8V nominal. The battery contains 12 cells connected in series/parallel. Each cell has a nominal voltage of 3.7V.
Capacity:
Nominal 6.5 ampere-hours, with a charge voltage of 4.2V per cell, and discharged at the one-hour rate.
Charge Time:
The battery may require up to 3 hours to charge from the fully discharged state. Charge time will be less if the battery is partially charged at the start.
Output Current:
Rated maximum continuous output current is 5.5 amperes.
RF Resistance:
PAG L95 Li-Ion batteries comply with the EC EMC directive and are resistant to interference when used in close proximity to radio transcievers.
Power & Time Display:
PAG Time Batteries incorporate state-of-the-art low-power microelectronic circuits that give the user access to the battery state of charge and run-time information. An accurate on-load run-time prediction in hours and minutes is provided on the battery's built-in Power & Time display. The device can also display capacity in ampere-hours in 0.1Ah increments, and percentage of remaining available capacity in 1% increments.
Protection:
The battery incorporates the following safety shutdown systems:
3 over-current shutdown systems.
2 over-voltage shutdown systems.
2 under-voltage shutdown systems.
2 thermal shutdown systems (including a non-resetting thermal fuse).
All protection circuits within the battery are designed to withstand the leakage of electrolyte.
Operating Temperature Range:
Optimum discharge efficiency is achieved within the temperature range +10°C to +40°C.
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