24 Beamshots, NiteCore, Quark, Fenix and more

HKJ

Flashaholic
Joined
Mar 26, 2008
Messages
9,715
Location
Copenhagen, Denmark
[SIZE=+3]24 Beamshots, August 2009[/SIZE]

This beamshot collection has many different sizes of flashlights, this is because these beamshots was taken to be used in 5 different (Danish) reviews: Fenix TA21, 4Sevens Quark AA-2, 4Sevens Quark 123-2, NiteCore EZ CR2 and NiteCore EZ CR123.

DSC_8132.jpg


I have included the following lights in this comparison (Same sequence as picture): NiteCore EZ CR2, NiteCore EZ CR123, NiteCore EZ AA, NiteCore EX10, NiteCore D20, 4Sevens Quark 123, 4Sevens Quark AA, 4Sevens Quark 123-2 tactical warm, 4Sevens Quark AA-2 warm, Fenix E20, Fenix P1D, Fenix P3D, Fenix LD01, Fenix TK11, Fenix TK20, Fenix TA21, Fenix TA30, OLight T25 Tactical, JetBeam RRT2-Raptor, SureFire 6P+P60, Lummi Raw, Muyshondt Aeon, SolarForce L2 (R2 1.mode) and OLight M30-Triton.

BrightnessMax.png


First graphic is showing the maximal output of the lights, the light with the quad emitter easily wins here. The lights with small batteries are the weakest, especially if they are designed for alkaline batteries, the Raw, that is only designed for LiIon can keep up with much bigger lights (At least for a short time).

Brightness.png


In this graphic I have collected all levels (Except for TA21), this show how large a range each light covers and how many settings it has and the step size between settings (I prefer if the step size is the same between all levels, except the two highest levels might have a smaller step size)*. Quark and some NiteCore lights has the largest range, NiteCore uses a continuously variable adjustment, Quark has 5 settings.

*Equal steps on the graphic will look like equal brightness change to the eye. The reason the two highest levels might be closer is runtime, a small decrease in brightness will extend the runtime considerably at high brightness settings.

BrightnessLux.png


The last graphic shows the brightness two meters from the light, a high value makes the light a thrower that can throw the light far away. This value is very depend on the optical system in the light (i.e. reflector). M30, that is the most powerful light, it not designed for throw, but due to the huge amount of light, it has a decent throw. RRT-2 is much more a thrower, it has only 1/3 the light output of M30, but throws the light further (But can only light a small area). LD01, Raw and Aeon are designed for close work, they do not throw much.



[SIZE=+1]Maximum brightness setting[/SIZE]

NiteCore EZ CR2, NiteCore EZ CR123, NiteCore EZ AA:
DSC_7382a.jpg
DSC_7385a.jpg
DSC_7387a.jpg


NiteCore EX10, NiteCore D20, 4Sevens Quark 123:
DSC_7389a.jpg
DSC_7391a.jpg
DSC_7396a.jpg


4Sevens Quark AA LiIon, 4Sevens Quark AA NiMH, 4Sevens Quark 123-2 tactical warm:
DSC_7401a.jpg
DSC_7407a.jpg
DSC_7409a.jpg


4Sevens Quark AA-2 warm, Fenix E20, Fenix P1D:
DSC_7423a.jpg
DSC_7424a.jpg
DSC_7426a.jpg


Fenix P3D, Fenix LD01, Fenix TK11:
DSC_7431a.jpg
DSC_7434a.jpg
DSC_7436a.jpg


Fenix TK20, Fenix TA21, Fenix TA30:
DSC_7438a.jpg
DSC_7443a.jpg
DSC_7446a.jpg


OLight T25 Tactical, JetBeam RRT2-Raptor, SureFire 6P+P60:
DSC_7449a.jpg
DSC_7380a.jpg
DSC_7450a.jpg


Lummi Raw, Muyshondt Aeon, SolarForce L2 (R2 1.mode):
DSC_7452a.jpg
DSC_7454a.jpg
DSC_7455a.jpg


OLight M30-Triton:
DSC_7458a.jpg




[SIZE=+1]Maximum brightness setting, reduced exposure[/SIZE]
The reduced exposure makes it possible to see differences in the hotspot.

NiteCore EZ CR2, NiteCore EZ CR123, NiteCore EZ AA:
DSC_7382b.jpg
DSC_7385b.jpg
DSC_7387b.jpg


NiteCore EX10, NiteCore D20, 4Sevens Quark 123:
DSC_7389b.jpg
DSC_7391b.jpg
DSC_7396b.jpg


4Sevens Quark AA LiIon, 4Sevens Quark AA NiMH, 4Sevens Quark 123-2 tactical warm:
DSC_7401b.jpg
DSC_7407b.jpg
DSC_7409b.jpg


4Sevens Quark AA-2 warm, Fenix E20, Fenix P1D:
DSC_7423b.jpg
DSC_7424b.jpg
DSC_7426b.jpg


Fenix P3D, Fenix LD01, Fenix TK11:
DSC_7431b.jpg
DSC_7434b.jpg
DSC_7436b.jpg


Fenix TK20, Fenix TA21, Fenix TA30:
DSC_7438b.jpg
DSC_7443b.jpg
DSC_7446b.jpg


OLight T25 Tactical, JetBeam RRT2-Raptor, SureFire 6P+P60:
DSC_7449b.jpg
DSC_7380b.jpg
DSC_7450b.jpg


Lummi Raw, Muyshondt Aeon, SolarForce L2 (R2 1.mode):
DSC_7452b.jpg
DSC_7454b.jpg
DSC_7455b.jpg


OLight M30-Triton:
DSC_7458b.jpg




[SIZE=+1]Minimum brightness setting[/SIZE]
This is the lowest brightness that can be selected, on one level lights it will be the same as maximum brightness. Some lights has a very low settings, that does not register on the pictures.

NiteCore EZ CR2, NiteCore EZ CR123, NiteCore EZ AA:
DSC_7381a.jpg
DSC_7384a.jpg
DSC_7386a.jpg


NiteCore EX10, NiteCore D20, 4Sevens Quark 123:
DSC_7388a.jpg
DSC_7390a.jpg
DSC_7392a.jpg


4Sevens Quark AA LiIon, 4Sevens Quark AA NiMH, 4Sevens Quark 123-2 tactical warm:
DSC_7397a.jpg
DSC_7403a.jpg
DSC_7408a.jpg


4Sevens Quark AA-2 warm, Fenix E20, Fenix P1D:
DSC_7419a.jpg
DSC_7424a.jpg
DSC_7427a.jpg


Fenix P3D, Fenix LD01, Fenix TK11:
DSC_7428a.jpg
DSC_7433a.jpg
DSC_7435a.jpg


Fenix TK20, Fenix TA21, Fenix TA30:
DSC_7437a.jpg
DSC_7439a.jpg
DSC_7444a.jpg


OLight T25 Tactical, JetBeam RRT2-Raptor, SureFire 6P+P60:
DSC_7447a.jpg
DSC_7378a.jpg
DSC_7450a.jpg


Lummi Raw, Muyshondt Aeon, SolarForce L2 (R2 1.mode):
DSC_7451a.jpg
DSC_7453a.jpg
DSC_7455a.jpg


OLight M30-Triton:
DSC_7456a.jpg




[SIZE=+1]NiteCore EZ CR2[/SIZE]
DSC_7465.jpg


A two level light, with twist for on low, twist more for on high, it uses one CR2 battery.
My Danish review: NiteCore EZ CR2

Low, high
DSC_7381a.jpg
DSC_7382a.jpg


Low
DSC_7381.jpg


High
DSC_7382.jpg




[SIZE=+1]NiteCore EZ CR123[/SIZE]
DSC_7466.jpg


A two level light, with twist for on low, twist more for on high, it uses one CR123 battery.
My Danish review: NiteCore EZ CR123

Low, high
DSC_7384a.jpg
DSC_7385a.jpg


Low
DSC_7384.jpg


High
DSC_7385.jpg




[SIZE=+1]NiteCore EZ AA[/SIZE]
DSC_7467.jpg


A two level light, with twist for on low, twist more for on high, it uses one AA battery.
My Danish review: NiteCore EZ AA

Low, high
DSC_7386a.jpg
DSC_7387a.jpg


Low
DSC_7386.jpg


High
DSC_7387.jpg




[SIZE=+1]NiteCore EX10[/SIZE]
DSC_7476.jpg


This light has continuously variable adjustment and uses a CR123 battery.

Min., max.
DSC_7388a.jpg
DSC_7389a.jpg


Min.
DSC_7388.jpg


Max.
DSC_7389.jpg




[SIZE=+1]NiteCore D20[/SIZE]
DSC_7509.jpg


This light has continuously variable adjustment and uses 2xAA batteries.

Min., max.
DSC_7390a.jpg
DSC_7391a.jpg


Min.
DSC_7390.jpg


Max.
DSC_7391.jpg




[SIZE=+1]Quark 123[/SIZE]
DSC_7543.jpg


This light has two groups of output, they are selected with loose/tight head, the on/off button is used to step through the levels in a group.
My Danish review: 4Sevens Quark 123

Moonlight, low, medium
DSC_7392a.jpg
DSC_7393a.jpg
DSC_7394a.jpg


High, turbo
DSC_7395a.jpg
DSC_7396a.jpg


Moonlight:
DSC_7392.jpg


Low:
DSC_7393.jpg


Medium:
DSC_7394.jpg


High:
DSC_7395.jpg


Turbo:
DSC_7396.jpg




[SIZE=+1]Quark AA[/SIZE]
DSC_7504.jpg


This light has two groups of output, they are selected with loose/tight head, the on/off button is used to step through the levels in a group.
My Danish review: 4Sevens Quark AA

Moonlight, low, medium with LiIon
DSC_7397a.jpg
DSC_7398a.jpg
DSC_7399a.jpg


High, turbo with LiIon
DSC_7400a.jpg
DSC_7401a.jpg


Moonlight, low, medium with NiMH
DSC_7403a.jpg
DSC_7404a.jpg
DSC_7405a.jpg


High, turbo with NiMH
DSC_7406a.jpg
DSC_7407a.jpg


Moonlight with LiIon
DSC_7397.jpg


Low with LiIon
DSC_7398.jpg


Medium with LiIon
DSC_7399.jpg


High with LiIon
DSC_7400.jpg


Turbo with LiIon
DSC_7401.jpg


Moonlight with NiMH
DSC_7403.jpg


Low with NiMH
DSC_7404.jpg


Medium with NiMH
DSC_7405.jpg


High with NiMH
DSC_7406.jpg


Turbo with NiMH
DSC_7407.jpg




[SIZE=+1]Quark 123-2 tactical warm[/SIZE]
DSC_7545.jpg


Two level light, loose head is one level, tight head is the other level, a forwards switch is used for on/off. The two levels can be programmed to one of eight predefined levels/modes. The light uses 2xCR123 batteries.
My Danish review: 4Sevens Quark 123-2

Moonlight, low, medium
DSC_7408a.jpg
DSC_7411a.jpg
DSC_7412a.jpg


High, turbo
DSC_7414a.jpg
DSC_7409a.jpg


Moonlight:
DSC_7408.jpg


Low:
DSC_7411.jpg


Medium:
DSC_7412.jpg


High:
DSC_7414.jpg


Turbo:
DSC_7409.jpg




[SIZE=+1]Quark AA-2 warm[/SIZE]
DSC_7481.jpg


This light has two groups of output, they are selected with loose/tight head, the on/off button is used to step through the levels in a group.
My Danish review: 4Sevens Quark AA-2

Moonlight, low, medium
DSC_7419a.jpg
DSC_7420a.jpg
DSC_7421a.jpg


High, Turbo
DSC_7422a.jpg
DSC_7423a.jpg


Moonlight
DSC_7419.jpg


Low
DSC_7420.jpg


Medium
DSC_7421.jpg


High
DSC_7422.jpg


Turbo
DSC_7423.jpg




[SIZE=+1]Fenix E20[/SIZE]
DSC_7505.jpg


A single level 2xAA light.

DSC_7424a.jpg


DSC_7424.jpg




[SIZE=+1]Fenix P1D[/SIZE]
DSC_7478.jpg


This light must be twisted to turn on, to change level twist off/on, it uses one CR123 battery.

Low, medium, high
DSC_7427a.jpg
DSC_7425a.jpg
DSC_7426a.jpg


Low
DSC_7427.jpg


Medium
DSC_7425.jpg


High
DSC_7426.jpg




[SIZE=+1]Fenix P3D[/SIZE]
DSC_7548.jpg


This light has two groups of output, they are selected with loose/tight head, the on/off button is used to step through the levels in a group. It uses 2xCR123 batteries.

Low, medium, high
DSC_7428a.jpg
DSC_7429a.jpg
DSC_7430a.jpg


Turbo
DSC_7431a.jpg



Low:
DSC_7428.jpg


Medium:
DSC_7429.jpg


High:
DSC_7430.jpg


Turbo:
DSC_7431.jpg




[SIZE=+1]Fenix LD01[/SIZE]
DSC_7470.jpg


This light must be twisted to turn on, to change level twist off/on, it uses one AAA battery.
I have written more about the light here: A look at AAA flashlights


Low, medium, high
DSC_7433a.jpg
DSC_7432a.jpg
DSC_7434a.jpg


Low
DSC_7433.jpg


Medium
DSC_7432.jpg


High
DSC_7434.jpg




[SIZE=+1]Fenix TK11[/SIZE]
DSC_7549.jpg


Two level light, loose head is low, tight head is high, a forwards switch is used for on/off. The light uses 2xCR123 or 18650 batteries, measurements was done with 18650 batteries.

Low, high
DSC_7435a.jpg
DSC_7436a.jpg


Low:
DSC_7435.jpg


High:
DSC_7436.jpg




[SIZE=+1]Fenix TK20[/SIZE]
DSC_7508.jpg


Two level light, loose head is low, tight head is high, a forwards switch is used for on/off. The light uses 2xAA batteries.

Low, high
DSC_7437a.jpg
DSC_7438a.jpg


Low
DSC_7437.jpg


High
DSC_7438.jpg




[SIZE=+1]Fenix TA21[/SIZE]
DSC_7738.jpg


This light uses a ring to select between 9 levels and can run on 2xCR123 or 18650 battery, measuremets was done with 2xCR123
My Danish review: Fenix TA21

low, #3, #5:
DSC_7439a.jpg
DSC_7440a.jpg
DSC_7441a.jpg


#7, high:
DSC_7442a.jpg
DSC_7443a.jpg


Low:
DSC_7439.jpg


#3:
DSC_7440.jpg


#5:
DSC_7441.jpg


#7:
DSC_7442.jpg


High:
DSC_7443.jpg




[SIZE=+1]Fenix TA30[/SIZE]
DSC_7739.jpg


This light uses a ring to select between 3 levels and runs on 3xCR123
My Danish review: Fenix TA30

Low, medium, high:
DSC_7444a.jpg
DSC_7445a.jpg
DSC_7446a.jpg


Low:
DSC_7444.jpg


Medium:
DSC_7445.jpg


High:
DSC_7446.jpg




[SIZE=+1]OLight T25 Tactical[/SIZE]
DSC_7506.jpg


Twist head loose/tight to change level, the light uses 2xAA batteries.

Low, medium, high
DSC_7447a.jpg
DSC_7448a.jpg
DSC_7449a.jpg


Low
DSC_7447.jpg


Medium
DSC_7448.jpg


High
DSC_7449.jpg




[SIZE=+1]JetBeam RRT-2 Raptor[/SIZE]
DSC_7551.jpg


The light uses 2XCR123 or 18650 batteries and brightness is selected with a ring, measurements was done with 18650.
My Danish review: JetBeam RRT-2 Raptor

Low, medium, high
DSC_7378a.jpg
DSC_7379a.jpg
DSC_7380a.jpg


Low:
DSC_7378.jpg


Medium:
DSC_7379.jpg


High:
DSC_7380.jpg




[SIZE=+1]SureFire 6p+60P[/SIZE]
DSC_7742.jpg


This light uses a incandescent bulb and 2xCR123 batteries, it is possible to buy led modules for it.

DSC_7450a.jpg


DSC_7450.jpg




[SIZE=+1]Lummi Raw[/SIZE]
DSC_7471.jpg


A two level light, with twist for on low, twist more for on high, it uses a small LiIon battery.
I have written more about the light here: A look at small flashlights

Low, high
DSC_7451a.jpg
DSC_7452a.jpg


Low
DSC_7451.jpg


High
DSC_7452.jpg




[SIZE=+1]Muyshondt Aeon[/SIZE]
DSC_7472.jpg


This light looks like the EZ lights, but is more solid and exist in different color and a titanium version.
I have written more about the light here: A look at small flashlights

Low, high
DSC_7453a.jpg
DSC_7454a.jpg


Low
DSC_7453.jpg


High
DSC_7454.jpg




[SIZE=+1]SolarForce L2[/SIZE]
DSC_7553.jpg

DSC_7556.jpg


This light can be bought/build in many different configurations, the body is called L2 or L2m, then a emitter module has to be added (single or multilevel) and it is also possible to get different tailcaps and bezel.
I have done the test with a "SolarForce R2 1 level" emitter, this module is supposed to work on both 18650 and 2xCR123, I did the measurements on 18650, where it does not reach full output.

DSC_7455a.jpg



DSC_7455.jpg




[SIZE=+1]OLight M30[/SIZE]
DSC_7744.jpg


This light has a quad led and can use many different battery configurations, I have done my measurements with 2x18650 batteries.
My Danish review: OLight M30 Triton

Low, medium, high:
DSC_7456a.jpg
DSC_7457a.jpg
DSC_7458a.jpg


Low
DSC_7456.jpg


Medium:
DSC_7457.jpg


High:
DSC_7458.jpg
 
Always a pleasure to read and see your beamshots threads :thumbsup:

Once again a job very well done!

lovecpf

PS. Could you do the same with your bigger lights? And with a greater distance.
 
Nice beamshots, HKJ.

Looking at the EX10 vs Quark123, would you say the EX10 spill is brighter then the Quark123 and the Quark123 hotspot is brighter? I'm trying to determine which one is better at which.

I know this isn't in your beamshots above, but I was wondering is the brightness almost equal when comparing the QuarkAA with Li-Ion vs Quark 123 with Li-Ion? I realize their the same head, but maybe something else could affect performance.

thanks
 
Excellent beamshot comparison HKJ. The step size graph is very informative as well. :twothumbs
 
Very nice review. The side view photo and brief description of the operation of each light are very useful. :twothumbs

Hugh
 
Looking at the EX10 vs Quark123, would you say the EX10 spill is brighter then the Quark123 and the Quark123 hotspot is brighter? I'm trying to determine which one is better at which.

The EX10 has smaller and brighter spill, the Quark hotspot is much brighter (This can also be seen from the lux measurement).

I know this isn't in your beamshots above, but I was wondering is the brightness almost equal when comparing the QuarkAA with Li-Ion vs Quark 123 with Li-Ion? I realize their the same head, but maybe something else could affect performance.

The Quark123 has same output on LiIon as with CR123, the difference between the AA on LiIon and 123 if probably due to led and driver tolerances.
You can find the comparison in another beamshot I have done.
 
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