Manker E14 III

we choose 4000k for NW,high CRI.

- Built-in removable silica gel light filter plastic sheet (green)

Is listed in the specs, can anyone explain exactly what that means?

This is great, I didn’t paid attention to that line.

I suppose it means that a round piece of minus green filter is included, like those LEE filter some people stick to their flashlight to reduce the green tint. “(Green)” probably refers to what’s being filtered out, because these filters are pink.

Yes, that’s what I’m thinking as well, just trying to get verification.

Here is the E14 III and MC13 together. Hopefully there will be some impressions soon

Hum, I like it :wink:

I think the only reason ramping is so trendy is because so many companies fail so badly on providing adequate mode spacing. Ramping fixes that issue as long as the light is capable of a low enough low.

This is a valid point.It is exactly what I think. I have multiple ramping lights,they’re fun to play with but Im not use them much.
If a light has good spacing and UI such as Zebralight, they would NOT need ramping feature at all.

For me the appeal of ramping was you could choose any brightness you wanted, and it was sort of a universal UI that would work for lots of different lights/uses. Typically different lights with different uses and max power levels would have different mode levels, and so in principle using ramping on all those lights could simplify the process of choosing a driver and modes for your lights.

The main drawback of ramping is that you don’t really know the power and runtime of any particular mode, but I think it’s still a good UI for a general use light where you are not concerned so much with runtime.

Let’s Get The Party Started - :partying_face:

Anyone said party ?!

agree that even , logical level spacing is never considered

i could live without ramping if i had a 1 lumen low, going to 3, 10, 30, 100, 300, etc

the FW3A has stepped mode, that would be fine if that was all

but i like the ramp mode better, still, i have tried switching back and forth and never seem to stay stepped for long

wle

i never worry about run time with any 18650
i do, with anything else
including 18350

wle

because we set a special function with moonlight mode, we offer some different moonlight levels for choosing.

yes, the NW is 4000k night CRI

right - i remember that from the U11 interface, the settable moonlight

none of them were right:)

just give me 6 or 8 optically-evenly spaced levels

so simple

wle

Mankerlight, please share some photos and video if possible. And maybe a group buy or BLF coupon.

Since I no longer shop with Banggood because they are smartasses, maybe I will buy one of your flashlights.

Manker E14 III cool-white is 4x LH351D 6500k CRI70?

How about a CRI80 (eg. 5300-5700k), to differentiate it from the neutral-white 4000k CRI90.

Output measured at 2s with Texas Ace Lumen Tube calibrated with Maukka lights. Light parameters measured with Sekonic C-800-U

Manker E02II Turbo 170 lumens 3963K 0.0008 DUV 96.6 CRI Blue light relative amplitude 1.00 90.3 R9 79.3 R12 93 Rf 101 Rg Ladda 900
Manker E02II High 81 lumens 3943K 0.0016 DUV 97.5 CRI Blue light relative amplitude 0.85 92.9 R9 77.7 R12 93 Rf 100 Rg Ladda 900
Manker E02II Low 29 lumens 3957K 0.0021 DUV 97.6 CRI Blue light relative amplitude 0.88 94.3 R9 76.0 R12 92 Rf 99 Rg Ladda 900
Manker E02II Moonlight 0 lumens 3974K -0.0005 DUV 97.4 CRI Blue light relative amplitude 0.98 97.1 R9 75.8 R12 91 Rf 99 Rg Ladda 900
Manker MC13 Low 70 lumens 6454K 0.0042 DUV 67.2 CRI Blue light relative amplitude 1.00 -36.1 R9 36.7 R12 63 Rf 95 Rg included 18650 battery
Manker MC13 Mid 145 lumens 6974K 0.0004 DUV 67.5 CRI Blue light relative amplitude 1.00 -27.5 R9 38.6 R12 62 Rf 96 Rg included 18650 battery
Manker MC13 High 292 lumens 7066K -0.0006 DUV 67.1 CRI Blue light relative amplitude 1.00 -25.4 R9 39.7 R12 61 Rf 97 Rg included 18650 battery
Manker MC13 Turbo 630 lumens 8686K -0.0078 DUV 70.4 CRI Blue light relative amplitude 1.00 -1.0 R9 43.5 R12 62 Rf 98 Rg included 18650 and 18350 battery
Manker E14 III Low 144 lumens 4222K 0.0083 DUV 91.9 CRI Blue light relative amplitude 1.00 67.1 R9 68.4 R12 91 Rf 98 Rg included 18350 battery
Manker E14 III Mid 286 lumens 4234K 0.0079 DUV 91.8 CRI Blue light relative amplitude 1.00 66.6 R9 68.6 R12 91 Rf 98 Rg included 18350 battery
Manker E14 III High 627 lumens 4256K 0.0078 DUV 91.6 CRI Blue light relative amplitude 1.00 65.6 R9 69.0 R12 91 Rf 98 Rg included 18350 battery
Manker E14 III Turbo 2,069 lumens 4319K 0.0069 DUV 91.0 CRI Blue light relative amplitude 1.00 63.0 R9 70.1 R12 91 Rf 99 Rg included 18350 battery
Manker E14 III Turbo 2,328 lumens 4313K 0.0059 DUV 91.3 CRI Blue light relative amplitude 1.00 63.9 R9 70.9 R12 91 Rf 99 Rg included 18650 battery


I also have a MC13vn with W2.1 with boosted driver on order and will measure it once I receive it. The MC13 is actually a good bit larger than I thought as I was imagining something slightly bigger than a GT Mini. The optic appears identical to the one used in the Acebeam E10 and L17. Though for some reason the hotspot seems just a tiny bit smaller than in the E10 and hotspot is more uniform. Maybe its just the focus is a bit different between the two. The MC13 measures 630 lumens on turbo while E10 measures 562 lumens. I'm not sure how much of it is due to the MC13 using the CULNM1.tg vs E10 using CSLNM1.tg or whether it is just the driver pushing more output in the MC13. Build quality is very high on both the MC13 and E4 III.

With the E4III, the tint (positive DUV) is unfortunately too green for my taste, which is typical for all the LH351D 4000K 90CRI I've seen. I will see what I can do with some minus green filters and maybe swap in some UCL lens if I can find compatible diameter lens. Also I feel that with 18650, it should be able to output much higher but the potential is limited by high resistance due to springs barely pushing on the battery contacts. I guess it was designed to accommodate long cells with built-in USB-C charge.

The included Manker 18350 and 18650 cells measure 1,180mah and 3,063mah. The 1,180mah is higher than 7 out of 8 of the legendary Aspire 18350 and older batch of Vapcell 18350; both of which rewrapped the older, better batch of YDL cells. The YDL cells in the last two years went down hill a bit and measure under 1,100mah. Not sure if I won the cell lottery or if Manker got a really good or improved YDL cell. The 18650 is probably a Samsung 30Q.

I really like the new Manker UI!

Can this be confirmed? I don’t know why they’d sell a light with an LED that they felt the need to include a minus green filter. Why not just use a good LED like the SST-20s they are using in their E02 II?

Because not everyone are tint snobs like us. Also LH351D is much brighter and more efficient than the SST-20. Even with the minus green Lee Filter to achieve the same tint as the SST-20, the LH351D should still be brighter and more efficient.