I’ve have some S2+ with 2700k and 5700k and the tints are fantastic. The 5700k has a very slight green tint but hasn’t caused any issues with photography. If you follow the Instagram link in my signature you can see some photos taken using these lights.
Oh no, I whished for 0.1%mode on T2 but also 0.2~0.5% should be fine
Simon for your others FW Drivers can you consider to put 3 more groups?
0.1% 1% 10% 45% 100%.
0.1% 1% 10% 35% 70%
1% 5% 20% 50% 100%.
It will give more flexibility based on the type of driver used and limit the maximum power for extend runtime.
Can I ask for an option for ordering Convoy L21A with the B4-40E tint choice of XHP35 HI on the product page? (B4-40E is currently available as a separately purchased LED, but I would like to purchase L21A already assembled with B4-40E)
Also, I would like to ask that choice for the other two flashlights (M21C, M21B).
Hello Simon,
You had 18650 and 21700 battery from Samsung, Sony… in your store. Now you have liitokala batteries. Would you offer them again? Should I wait? What happened, when you do not offer them no more? Thank you very much.
Switching from 50% brightness mode to 100% brightness mode, the naked eye cannot perceive this brightness change.
So I don’t think this ratio is reasonable.
My suggestion is that the ratio of the previous mode of 100% mode should not exceed 40% at most.
Independently of these changes, Simon, could you introduce a single 50% mode? It would be useful for the moments when a persons needs light, but not to the max (100%). It could save some battery and produce less heat too! :+1:
I think part of the problem is that a lot of people want to wring out every last lumen from an emitter that’s already nearing the top of the parabola, dumping 100% more power (and heat) into it but only getting 20% more light from it, and making maybe a 7% visual difference.
We’re back to the “numbers game” of wringing 10% more lumens by using a hideous CW emitter vs a NW or even WW emitter that just looks so much better, only now instead of quality vs quantity, it’s pushing the emitter into the diminishing-returns range of output vs input where there’s less and less to gain.
So… 50% only, for bright light that’s almost indistinguishable from 100, but get twice the runtime? Why not just back off on what’s 100 and keep it efficient? “But ours go up to 11…”