The Fenix E12 V2.0 AA Flashlight emits an impressive maximum 160 lumens from an included single AA battery. Using an ultra-thin optical lens, this flashlight delivers a soft and balanced beam a max distance of 223ft (68m). Access three brightness levels with a tap of the tail switch. At only 3” long, this flashlight is a great everyday carry size, and with its two-position body clip, you can carry it as you want—even clip it to your hat and use it as a headlamp. This little flashlight is built tough with an IP68 dustproof and waterproof rating. It’s hard to beat the ease of powering your flashlight with one single AA battery. Super small and bright, the Fenix E12 V2.0 is a great upgrade for those looking for a AA powered EDC flashlight.
Features:
Uses MATCH CA18 cool white LED with a lifespan of 50,000 hours
Colour Temperature: Cool White
160 lumens maximum output, 68 meters maximum beam distance
Automobile ultrathin optical lens coating process
No standby current, safe and cost-efficient
One-handed operation with the single tail switch
Two-position body clip and tail standing capability for varying conditions
Made of durable A6061-T6 aluminum
Premium type HAIII hard-anodized anti-abrasive finish
Powered by 1 x AA battery (Ni-MH/Alkaline) (AA Alkaline Battery Included)
Outputs and Runtimes (Alkaline):
High: 160 lumens (1 hour)
Med: 30 lumens (13 hours)
Low: 5 lumens (70 hours)
Max Beam Distance: 68 meters
Peak Beam Intensity: 1133cd
Impact Resistance: 1 meter
Waterproof Rating: IP68
Dimension: Length 77.6mm, Head Diameter 19mm, Body Diameter 17.6 mm
Weight: 27.3g (excluding battery)
Package Includes:
1 x Fenix E12 V2.0 Flashlight
1 x Spare o-ring
1 x AA Alkaline Battery
1 x Lanyard
1 x User Manual
1 x Warranty Card
Warranty: 5 Year Warranty on the light from date of purchase against manufacturing defect. Accessories (such as pocket clip, lanyards, holsters, etc), normal wear and tear, drop & water damages is not covered, nor is damage resulting from abuse, neglect, battery leakage or altering this product from its original state.