At some point I wonder if it really matters that we understand HOW white light is made, I mean, after all, WE are not the ones making emitters or the phosphor that drives them. We merely buy what is available to us, which oftentimes is not the best tint. Not to mention that WE donāt control the AR coatings that go on a lens and more often than not skew the tint of our prize emitters. So, is it us that needs to understand, or the people that actually have control over the items we buy?
Seriously, teacher, we already have ONE ROCKET SCIENTIST here, he canāt get it right either apparentlyā¦ look sharp, ie: focus and diligence achieves the ultimate success. Or does it? Luck favors the blissfully ignorant.
Hope it will be able to outperform in throw Nitecore MH20GT which is almost identical in dimensions (except max diameter)
Or maybe its just a wishful thinking?
Specifications Emitter: Cree XP-L High Intensity, neutral white or cold white, mounted on copper DTP MCPCB Flux: ~1000 lm Throw: ~400 m & ~50Kcd Firmware: Tom Eās open-source GPL NarsilM v1.3 adapted by Texas_Ace User interface:
[1] By default the GT micro is set to use the very intuitive Narsil smooth RAMPING UI. Instant access to a 2.5 A TURBO mode is also provided.
[2] A more conventional discrete level MODE-SET UI is available as an alternative. Any one of 12 predefined mode-sets can be selected.
[3] MOMENTARY mode is useful for signaling purposes or rapidly/briefly lighting up targets. Battery: One 14500. Cell is not included. Driver: Texas Avenger FET driver Reflector: 29 mm ID, aluminum, smooth finish Lens: Glass with anti-reflective coating Body: Aluminum with Type III hard-coat anodizing Button: Tactile with back-lit rubber boot Ingress rating: Equivalent to IP65, do not immerse in liquids Weight: Approximately 70g without cells Dimensions: 36 mm Ć head x 105mm length