ti-force
Flashlight Enthusiast
Hey everyone, I've got a production model of the new Quark X AA-2. This is an XM-L version of the very popular Quark series of lights. The X models have the new Cree XM-L emitters installed. This light is the Tactical UI version, and this particular light was sent to me by 4sevens for review purposes.
Click on the small thumbnail below to see the full size image of the Quark X AA-2 operators manual. Within the manual you will find all the specs for this light, including how to operate this light:
This sample was sent to me without any accessories, packaging, etc. I would expect those items to be the same as the items that usually come with the Quark XP-G models, but I can't say for sure because they weren't included for my review.
Externally the Quark X is nearly identical to the regular Quark series, with very subtle changes to the body/battery tube. The size of the engraving of the brand name (4sevens) and model name are slightly smaller on the Quark X model, and there are some minor machining differences at the point where the body/battery tube is reduced in size from the head end and tail cap end. They are very minor, aesthetic differences, and do not affect the function of the light.
These lights do have square cut threads just like all other Quark models before it, so you can mix and match parts (I've already tried and the threading is the same):
Here are some images of the Quark X compared to the Quark XP-G model:
Of course if you look at the business end of the Quark X, the emitter difference is apparent :
Now for the dyno testing .
For those of you who aren't aware, I have my own calibrated homemade integrating sphere (I have two, actually) for measuring lumen output of different lights. My sphere's have been calibrated using lights that were measured in a professional lab sphere, so my lumen results are very accurate. However, due to common variables such as temperature differences, battery charge state differences, and even differences within the components used within each and every light, you should only use my results as an example of what one sample outputs in OTF lumens. If you purchase one of these lights I'm sure the output would be similar, provided all variables are similar, but your light may not produce exactly the same output as this sample. The output could be less, the output could be more, it just depends.
Okay, now that I've got that out of the way, here are my OTF lumen results:
2x Duracell Coppertop Alkaline AA's:
Corresponding thermal graph:
2x Energizer Lithium Ultimate AA's:
Corresponding thermal graph:
Both battery run times compared:
Corresponding thermal graph:
Beam Shots:
These were taken against my garage door with manual settings. The white balance was set to auto, but all other settings remained the same for each comparison shot.
4ft from light to garage door, long exposure:
4ft from light to garage door, short exposure:
8ft from light to garage door, long exposure:
8ft from light to garage door, short exposure:
I hope you enjoyed reading my review, and thanks for looking.
Click on the small thumbnail below to see the full size image of the Quark X AA-2 operators manual. Within the manual you will find all the specs for this light, including how to operate this light:
This sample was sent to me without any accessories, packaging, etc. I would expect those items to be the same as the items that usually come with the Quark XP-G models, but I can't say for sure because they weren't included for my review.
Externally the Quark X is nearly identical to the regular Quark series, with very subtle changes to the body/battery tube. The size of the engraving of the brand name (4sevens) and model name are slightly smaller on the Quark X model, and there are some minor machining differences at the point where the body/battery tube is reduced in size from the head end and tail cap end. They are very minor, aesthetic differences, and do not affect the function of the light.
These lights do have square cut threads just like all other Quark models before it, so you can mix and match parts (I've already tried and the threading is the same):
Here are some images of the Quark X compared to the Quark XP-G model:
Of course if you look at the business end of the Quark X, the emitter difference is apparent :
Now for the dyno testing .
For those of you who aren't aware, I have my own calibrated homemade integrating sphere (I have two, actually) for measuring lumen output of different lights. My sphere's have been calibrated using lights that were measured in a professional lab sphere, so my lumen results are very accurate. However, due to common variables such as temperature differences, battery charge state differences, and even differences within the components used within each and every light, you should only use my results as an example of what one sample outputs in OTF lumens. If you purchase one of these lights I'm sure the output would be similar, provided all variables are similar, but your light may not produce exactly the same output as this sample. The output could be less, the output could be more, it just depends.
Okay, now that I've got that out of the way, here are my OTF lumen results:
2x Duracell Coppertop Alkaline AA's:
Corresponding thermal graph:
2x Energizer Lithium Ultimate AA's:
Corresponding thermal graph:
Both battery run times compared:
Corresponding thermal graph:
Beam Shots:
These were taken against my garage door with manual settings. The white balance was set to auto, but all other settings remained the same for each comparison shot.
4ft from light to garage door, long exposure:
4ft from light to garage door, short exposure:
8ft from light to garage door, long exposure:
8ft from light to garage door, short exposure:
I hope you enjoyed reading my review, and thanks for looking.