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Which light/laser combo do you prefer?

  • Surefire X400

    Votes: 9 34.6%
  • Streamlight TLR-2

    Votes: 13 50.0%
  • Insight M6X

    Votes: 1 3.8%
  • Viridian X5L

    Votes: 3 11.5%
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Discussion Starter · #1 · (Edited)
Surefire X400 - $460 - LED light source, 4.5 oz, 2.4 hr runtime, 170 Lumens, aerospace-grade milled aluminum body, water resistant up to 66 feet, scratch resistant tempered pyrex glass
+ very bright center spot, brightest in short to intermediate range
+ very bright red laser, brightest in category
+ built like a tank
- very expensive
- heavy body

http://www.surefire.com/X400product
http://www.opticsplanet.net/surefire-x400-handgun-weaponlight.html
Surefire X300

Surefire X400



Streamlight TLR-2 - $240 - LED light source, 4.7 oz, 2.5 hr runtime, 135 Lumens, 160 Lumens w/ strobe function on "s" model, machined aluminum body
+ very bright peripheral light, center spot not quite as bright as X400
+ decent red laser
+ very affordable (not quite best but very good compared to price)
- heavy body

http://www.streamlight.com/product/product.aspx?pid=81
http://www.opticsplanet.net/streamlight-tlr2-weapon-mounted-flashlight-laser.html
Streamlight TLR-2



Insight M6X - $258 - Xenon light source, 4.4 oz, 1 hr runtime, 125 Lumens, Polymer plastic body, water resistant up to 66 feet
+ brighter light at longer distances
- not as bright as TLR-2 at close to intermediate distances
- some say laser does not hold true after a few rounds
- short battery life

http://www.insighttechgear.com/products-m6x.htm
http://www.opticsplanet.net/insight-technology-m6x-tactical-illuminator.html

Insight M6X



Insight X2L - $215 - tungsten halogen w/ xenon filled light source, 1.7 oz, 0.5 hr runtime, 40 Lumens, polymer plastic body, made specifically for sub-compact pistols
+ option for subcompact pistols
- very expensive for size (needs competition to bring down price)
- only fits on sub-compact pistols (does not fit on FN FiveseveN)

http://www.insighttechgear.com/products-x2l.htm
http://www.opticsplanet.net/insight-technology-x2-laser-sub-compact-tactical-laser-flashlight.html



Viridian X5L - Gen 1 - $260 - LED light source, 2.9 oz, 1 hr runtime, 100 Lumens, 140 Lumens w/ strobe function, polymer plastic & aerospace-grade aluminum body
+ green laser, easier to see in daytime
+ pulsing laser function
+ light weight body
- larger size (drops below trigger guard)
- green lasers burn up battery life 25% faster than red lasers

http://www.viridiangreenlaser.com/video/viridianx5l/
http://www.opticsplanet.net/viridia...-sight-w-universal-mount-led-light-55786.html
Viridian X5L Gen 1


Viridian X5L - Gen 2 - $300 - LED light source, 3.3 oz, 1 hr runtime, 154 Lumens, 187 Lumens w/ strobe function, polymer plastic & aerospace-grade aluminum body
+ green laser, easier to see in daytime
+ pulsing laser function
+ light weight body
+ better compact design then Gen 1 version
- green lasers burn up battery life 25% faster than red lasers

http://www.viridiangreenlaser.com/xl5-laser-sight
http://www.opticsplanet.net/viridia...-sight-w-universal-mount-led-light-55786.html
Viridian X5L Gen 2


Viridian C5L - $275 - LED light source, 2.3 oz, 1 hr runtime, 100 Lumens, 100 Lumens w/ pulsing function, polymer plastic & aerospace-grade aluminum body
+ green laser, easier to see in daytime
+ pulsing laser function
+ light weight body
+ option for subcompact pistols
- green lasers burn up battery life 25% faster than red lasers

http://www.viridiangreenlaser.com/viridian-c5l-laser-sight
http://www.opticsplanet.net/viridian-universal-sub-compact-green-laser-w-tactical-light.html
Viridian C5L



Sig Sauer STL 900L - $190 - LED light source, 3.5 oz, 1.3 hrs runtime, 130 Lumens, same w/ strobe function, polymer housing w/ aluminum bezel
+ built in hex key wrench for laser adjustment
+ very affordable purchasing from BotachTactical.com for as long as they are still running the sale
- complicated controls (button layout)
- laser on function is independent from main on/off switch
- laser is placed behind lens, if dirty it can show a "ghost" laser

http://www.sigsauer.com/sigstore/showproductdetails.aspx?categoryid=0&productid=285
http://www.cheaperthandirt.com/53433-1.html
http://www.botachtactical.com/sigsasttali.html $95 - get an additional 15% off using keyword "stimulus"
Sig Sauer STL 900L



Glock GTL 21 - $250 - Xenon light source, 3.2 oz, 1.2 hr runtime, ? Lumens (was not advertised), polymer plastic body, water resistant up to 33 feet
+ nice compact design
- battery door can easily come undone
- bulb could become unseated

http://www.glock.com/english/acc_gtl21.htm
http://www.cheaperthandirt.com/18273-1.html
Glock GTL 21


HellFighter Underboss DOH 202/203 - $125 - Halogen/LED light source, 3.2 oz, ? Runtime(not advertised), 150 Lumens Halogen/120 Lumens LED, Aramid fiber composite body
- battery door can easily come undone
- bulb could become unseated
- laser does not hold true

http://www.opticsplanet.net/dark-ops-hellfighter-underboss-flashlight.html
http://www.hellfireusa.com/cgistore...setup=1&ida=18&idp=0&his=0&cart_id=11291.4992
HellFighter Underboss DOH 202



After review, strictly on paper from other reviews, the Streamlight TLR-2 would come out on top. Just for the price compared to the quality received. As far as best product, the Surefire X400 in my opinion wins gold. If best is what your looking for, at double the price, the X400 would be the way to go. The X400 is well built in every way and thats how Surefire likes to build their products. The Viridian X5L is a nice option if you prefer the green laser for use in daylight hours. However, green lasers lose battery life much faster as compared to red lasers. If this can be fixed, Viridian could possibly pose as top light in this category. The green light does seem to be easier to see, especially at longer distances.

All pricing was used from opticsplanet.com. They seemed to be consistently on par with a low price, if wasn't available, found an average low price.

Also keep in mind, I have never had any of these lights in my hands ever. These comments are strictly from other posts from this website, manufacturer's website, and other forums/review sites.
 

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Discussion Starter · #2 · (Edited)
This is a review I posted on Fivesevenforum. The last I updated it was July 2010. I will update prices and lights soon! If someone has another light they would like to add, please let me know.

Also, sorry for all the pics with a FN FiveseveN. I'll update the pics with multiple different pistols or even ACR. New updates to come soon!
 

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Picked the TLR-2. I would have picked the Surefire, but they are prohibitivly expensive. Besides I have a TLR-2 and it's been indestructable on my Remmy 1100.
 

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Missing from the list and worth the mention is the Viridian C5L. More compact as the X5L it is an incredible package of strobe, light and laser. $299.
 

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Discussion Starter · #5 ·
Updated 1/17/11 - Added Viridian C5L and X5L Gen 2. Updated pricing and pictures.
 

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Kimber 1911 w/ X300 & LG401

I carry a 5" 1911 with Surefire X300 and Crimson Trace LG401. I'ved the Crimsons for years and find it more convenient to run two separate controls. The laser instinctivley is on with the draw (but can just as easily be subdued by loosening the grip, or simply covering the module). The Light can be activated by simply pressing forward on the toggle with the reactive thumb, or constant one by switching the toggle up or down.

 

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Here is a review I did a while ago between the X400 and TLR-2 for what its worth.

Let me preface this with a few words. I am not HSLD, and I do not work for any firearm company or publication. I am not associated with any whatsoever. I am also not an engineer, but fairly electro-mechanically inclined. I am also not a writer.
This is completely un-biased review of two lights. I have used both the Streamlight TLR-2 and Surefire x400 for a while. Of the samples I have (6 TLR-1s, 3 TLR-2s, 1 TLR-3 and 2 X400s. None of them have ever quit on me for any reason. I tend to use them fairly hard and don’t pamper them at all.
I do have this problem… if I get intrigued enough to know how something operates, I will take it apart, no exceptions; I cannot go on without knowing.
This review will be conducted slightly different from most reviews; it is strictly a design / build quality review focused on those elements alone. There are some comments at the end about actual use, but I do not have enough hours on the lights in harsh environments to write an educated review. I’ll leave that to the professionals. Also absent from this review will be cosmetic notes. I don’t care about how crisp the laser engraving is or if the anodizing matches the finish on my gun.
I have taken both lights apart to their individual components, to the point of (probably) destroying my X400. I have literally had them both stripped down to the smallest component level possible with the tools available.

Build Quality / Design
Surefire X400
The Surefire X400 has a quality LED and Laser Diode. The circuit boards are also well designed and manufactured. Solder work has been high quality at all solder points. I tested several solder points by pulling the wires from different angles. In all cases, the wires broke before the solder points. Keep in mind this is a sample set of one.
The body of the X400 is machine from a single block of aluminum. There is no wasted space and the unit is designed as lean as possible without sacrificing structural integrity. The anodizing in even and the body is anodized inside an out; I did not see any possible weaknesses for corrosion.
When I unscrewed the Surefire head, it broke the connection points between the battery terminal PCB and what I will call the logic board. The logic board distributes power based on the selector switch position. This is then transferred back to the LED or the laser diode. The logic board also contains the laser diode driver. The logic board and the LED driver board are press fit into the head and shock mounted with some kind of epoxy. Tolerances are tight and the design is very good. I know how it's assembled now, and it makes a lot of sense from a reliability / durability standpoint. The glass lens is beefy and well mounted between the housing flange and reflector. The way surefire assembles this light makes it nearly impossible for an end user to remove the head, as there is no need to change the LED, this should be not be end user serviceable.
The laser module is mounted via two long screws and is nestled in a milled channel. There is a thick rubber gasket that seals both the body and the laser module from the elements. Thread engagement is adequate. Wires run from the logic board through a plastic conduit into the laser module. Three wires go to the switch and three to the laser diode. The switching mechanism is a work of art. The selector lever is mounted via a press fit cross pin to the selector and runs the full length of the selector switch giving the plastic selector some rigidity and durability, when you flip modes; it turns a rotary switch to one of five positions. The positive click is a result of two ball bearings interfacing with a molded plastic race. A strong spring pushes the bearings apart into recesses. That is the reason the click is so positive and will likely never wear out. The entire selector unit is screwed into the back of the aluminum laser housing via a threaded steel insert. Another important note here is that the actual selector PCB has a mating recess milled into the laser housing. So no matter how many times you switch the mode, the PCB will never fail and rotate with the switch. On a side note, the attention to detail like previously noted is apparent everywhere you look on the light. Little things like this make a big difference. It is also integrated with the molded plastic selector detent sleeve. Behind the selector module is a strong spring which pushes the laser module forward into the centering ball and socket up forward. There are two very strong springs which act counter to the windage and elevation adjustment screws. These springs are very strong and large in size for what they do. The spring seating cups are also deep enough to keep them well aligned and not fall out if you adjust the laser to full negative travel. The laser module is made out of brass (as most are) and has some nice features. The adjustment spring flats are large, and there is a centering ball machined into the front of the module. This mates with a socket milled into the laser module. The spring tension from behind keeps the ball securely centered in the socket. The windage and elevation adjustment screws are large diameter with a lot of thread engagement. They also have a light thread lock applied to keep them from moving. The size and thread engagement is a huge plus.
The laser diode is also seated very nicely. The diode is put in from the front, and then a long threaded insert (retention nut) is screwed in from the face to sandwich and concentrically center the diode in the housing. The collimator is then screwed in on top of the retention nut. The collimator has two O-rings to keep it from moving and seal it against the elements. This is also very important. Any movement in the collimator will change your nice tight dot into a long flat line. (You can screw the collimator in and out to focus the laser). Secured into the laser housing is a second lens to protect the collimator and keep dust / dirt, etc out.
The mounting system is also well thought out. The floating rail interface is dovetailed into the body and the locking system is of ample size and has deep thread engagement. You could never strip it. The negative limit stop is a stainless steel pin press fit into the floating rail interface. The battery door / switch system is also well designed. The door hinge is a stainless steel bar pressed into either side of the body. The important point to note here is that the door only engages the outermost part of the hinge, putting all of the pressure at the strongest points. The locking mechanism is designed the same way, with a stainless locking bar and a strong spring to latch it closed. The switch itself is deigned well and very stout. There is an O-ring with a lot of real estate to seal the door. The O-ring is tapered. On hinged doors, a tapered O-ring is preferred as it will provide a better seal should the pressure on either side of the battery door be different.
The activation switch is well designed and protected. Four small press fit pins secure the cover plate over the switch hinge, which is anchored on both sides. When you move the switch, a ramp on the inside of the switch presses in both sides of the actual switching unit. This is a redundant system and solid. This is also the method used when pressing the switch forward for momentary activation.
One important note on the battery contacts; they are very strong, and wound so as to not protrude far from the battery door. This means the battery can never out-accelerate them and lose contact during firing. They should also never wear out.

Build Quality / Design
Streamlight TLR-2
The body of the Streamlight TLR-2 is milled from a solid block of aluminum. However the laser module is housed in a molded plastic body. The Streamlight head screws onto the body but it not thread locked. There is a large O-ring to seal out the elements. There are no user-serviceable parts inside here. The LED Driver PCB is mounted to the body of the unit and not the head. One positive aspect of this is the lens housing can be changed easily should the lens break. The laser module is secured to the body via 4 small screws. Screw size is smaller, and thread engagement is acceptable. There is a good sized gasket that seals the unit from water / dust. Etc. The laser module holds the laser housing and selector switch. The switch is an off the shelf 3 position switch, the switch is held on by a nut that has a rubber gasket as well. The switch has an anti-rotation pin to keep it aligned. The pin is set into the plastic laser housing. This shouldn’t be a problem as there is no rotational force on the switch. The laser adjustment screws are very small and are threaded into brass inserts. These inserts are molded into the plastic laser module. There is a single small spring that provides pressure against the two adjustment screws at a 45 degree angle. The laser module itself is brass and secured forward by an interesting design. There is a hole in the front of the plastic laser module. The brass housing has a threaded portion that fits through that hole surrounded by a rubber gasket. A steel lock nut is then secured to the laser module. This pulls the laser module hard against the rubber gasket, sealing the front of the unit and providing a pivot point for laser adjustment. The diode is secured in the laser housing with strong epoxy. There is no exterior lens to provide protection from the collimator. The collimator is recessed; this is good to protect it against damage, but bad if you get mud in it, as it would be very difficult to clean.
 

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The rail locking mechanism is strong, but has less thread interface than the X400. I doubt you will ever strip it though. Negative travel over stop is accomplished by a C-clip on the tension bolt. The battery door is strong and has well designed contact points for the battery. They are thick guage but wound longer than the X400. The battery door locking mechanism is a slot and tab design, where the door has a tab that fits into a slot and acts as a hinge, the locking mechanism is formed spring steel that acts as a locking tab to secure the O-ring tight. The O-ring is flat, but compresses well enough to seal the unit. The switching mechanism is well designed, though not as positive as the surefire. A single bolt holds the selector lever to the battery door housing. The screw is thread locked, but on this unit, rotates with the switch. This may loosen the threads over time and create a problem.
Comparative Summary
Overall, the surefire has a better design and build quality; this is reflected in the price. Machine work is excellent on both, but the X400 design lends itself to more time on the CNC machine. From my standpoint, surefire spent a lot of time designing the really important points that would be prone to failure under hard user. The battery door and hinge mechanism is well designed and should not wear over time. The battery door on the Surefire is semi-captive, the TLR is free floating. Everything on the Surefire has a very positive click, from the selector switch to the activation switch, and battery door latch. Surefire uses much larger laser adjustment screws with longer thread interface, Streamlight opted for smaller diameter screws into molded inserts. The laser centering design on the surefire also lends itself to long term zero retention and no problems caused by recoil. The windage and elevation springs is a night and day difference. Surefire uses two heavy gauge springs with deep seated cups. Streamlight uses one light gauge spring at a 45 degree angle. The switching mechanism is also much better on the surefire; they use proprietary PCB’s with roller bearing position locks. Streamlight uses an off the shelf 3 position switch. While this switch will probably provide years of service, it extends out the back of the unit, and may break or be damaged if something hits it. The laser diode is also secured more appropriately on the Surefire, by mechanical lock. The TLR-2 diode is secured by epoxy. This may not present a problem as the epoxy is strong. The Surefire collimator / lens design is more robust and better engineered. Having an external lens is a great design feature that should also be an operational requirement. If the lens gets muddy, a quick wipe will fix it, trying to clean the lens on the TLR would be much more difficult. I also believe Surefire spent more time on thermal engineering the light. There is more air-space and cooling surface for both the LED and Laser Diode Driver. The Streamlight is very compact. I haven’t had a chance to measure temps, so that may be untrue. But it certainly looks to be better designed. The X400 is designed with a smaller aperture bezel, but throws light just as well, this is a product of reflector design. A smaller diameter and stouter lens means less chance of breaking it.
Across the spectrum, Surefire chose larger and stouter components, from spring gauge, to the quality of the switching mechanism, materials, and machining time. These are complex units build to suit a specific need. And those that use them operationally cannot have them fail at the wrong time.
Here is a quick tally sheet formed from my opinion.
Overall Design – Surefire Wins
Build Quality – Surefire Wins
Thermal Engineering – Surefire Wins
Materials - Surefire Wins
Operational Considerations - Surefire Wins
Locking Mechanism - Surefire Wins
Battery Contacts - Surefire Wins
Switch Design - Surefire Wins
Selector Switch Design - Surefire Wins
Waterproofing - Surefire Wins
Price – Streamlight Wins
I always disliked Surefire because of the high price; I just always thought they asked too much when other products performed just as well. Granted I am not “in country” beating my light up day and in and day out. But if I were, I would definitely grab a Surefire anything over any other brand of light. I have completely taken apart several lights from several different manufacturers in the past, across the board Surefire builds higher quality kit. Now, keep in mind, I have several Streamlights and never a problem, so their design may be solid and well thought out. No doubt the engineers there spend some time building a quality product.
I actually prefer the TLR switchology over X400. I like that one side of the switch is momentary, and the other is constant on. And you can quickly turn constant on off without activating the other side. Surefire does make additional switch plates, so I may have to give one of those a shot in the near future. I have used a TLR-1s on a pistol and absolutely hated it. For the simple reason that during fire, my finger would double bump the switch and put it into strobe mode. Maybe that’s a good thing, and maybe it’s a training issue. It bothered me though.
I would like to test the Customer Service at both companies, but I doubt either would take back a box of parts.
Hopefully my experiment will benefit someone in choosing a light.
After this experiment, I will be changing all of my IR TLR-2 units to IR X400 units. I will also change the TLR units I am using on “Go to” guns to X300’s. I will most likely keep some Streamlights.
In closing, I would just like to re-iterate these are my opinions and my opinions alone; I have not received anything from either company. I have purchased and disassembled the lights on my own accord for the purpose of gathering and sharing knowledge. If you find this useful, please pass it along.
If you have any questions or thought I left anything out, my all means, please ask.
Pictures and comments on the X400

Body Housing, Note the Thick Stainless steel hinge and dovetailed floating rail interface

This is the forward side of the unit. The 4 holes you see drilled around battery contact opening interface with a plastic retention plate to secure the battery contact PCB. This keeps it from shifting or rotating.

Laser module. Note the heavy adjustment screws and large gauge tension spring

Selector Switch ball bearing race, The selector electronics reside here. This also seals the unit from moisture at the selector switch

Laser Components.

Logic Board, this holds the selector logic and Laser Driver (And probably some more)

Selector Switch anti-rotation cutouts

Head side Battery Contacts – Heavy Guage and tightly wound
Pictures and comments on the TLR-2

Machined Body. Notice the C-clip and sheet metal battery door lock.

Battery Door hinge side – Notice the cutout that interfaces with the battery door.

LED Diode and Driver Electronics – Ample Solder points for battery contact, and seated well.

Bezel – Large Sized O-ring

Battery Door – Large Guage wire, but not wound as tight.

Laser Module Retention Nut – The collimator is visible and would be hard to clean out

Laser Adjustment Screws – Very small and set in Brass.
 

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Now that sir was a very complete, informative comparison.

Thank you very much for sharing, I learned alot from reading it.
 

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Streamlight TLR-2S (with strobe!). I want the X400, but just can't justify the price difference over the streamlight.
 

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I don't have any sand box time, I'm not a soldier, but as a LEO, I have had a Surefire X200 on my duty gun for the last 10 years, same light, same DEVO group switch (that I have to put liquid rubber on to keep it waterproof - I will get a new one someday) It has worked EVERY time my life depended on it, without fail, without question, through two different Glocks - shot one so much I cracked the frame, through three holsters. I have worn the sharp edges off of the bezel. Without question I would carry the X400 if my agency allowed me to have a LASER. TOP notch, expensive, but built like a tank.
 

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Im a little late getting on board with this thread being deprived in ny and all. Real good thread. I picked the surefire because I prefer surefire over streamlight. Even with their hand heldlights. I own both and both are durable. I picked up a streamlight for my m&p yesterday. Couldn't say no to the price. Its durable and from the thread is more so than it seems. Ill get another for my Glock when it comes in. I like the Strobe feature on the streamlight. It will be used for defense not duty so I don't need the surefire.
 
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