Designed in collaboration with the U.S. Military, the Maglite MAG-TAC LED flashlight is a new rugged tactical flashlight from Mag Instrument. This performance-oriented derivative of the XL-series is the first Maglite to use high performance lithium 123A batteries, resulting in a compact flashlight that produces more than 300 lumens and lasts four hours on one set of batteries. Let’s take a closer look at Maglite’s first lithium 123A tactical flashlight and see how it stacks up against the competition.
Key Specifications
- Output: 310 lumens high (plain bezel), 320 lumens high (crowned bezel), 45 lumens low (plain bezel only)
- Intensity: 8,300 candela (plain bezel), 9,300 candela (crowned bezel)
- Runtime: 4h high, 17h low (plain bezel only)
- Battery: 2 x 123A
- Length: 5.2″ (plain bezel), 5.3″ (crowned bezel)
- Diameter: 1.05″
- Weight with Batteries: 4.8 oz.
- Warranty: Limited Lifetime with $10 Handling Fee
- MSRP: $64.99-$74.99 (plain bezel), $79.99-$84.99 (crowned bezel)
- Actual Pricing: ~$80
Pricing & Contents
MSRP for the MAG-TAC ranges from $64.99 to $74.99 for the plain bezel model, and $79.99 to $84.99 for the crowned bezel model. Both models are available in several colors, including Black, Coyote Tan, Foliage Green, and Urban Gray.
Included in the blister packaging are: Maglite MAG-TAC, 2 x 123A lithium batteries, pocket clip, hex wrench, and user manual.
Batteries
In a departure from the alkaline batteries that Maglite typically uses, two 123A lithium batteries power the MAG-TAC. These 3V lithium batteries, which are commonly used in tactical flashlights, have twice the voltage of alkaline batteries and provide better high-drain performance.
Lithium batteries have higher energy density than regular batteries, so low-quality or counterfeit batteries can be dangerous to use. We recommend using only quality lithium batteries from Duracell, Energizer, and Panasonic.
The Light
As a variant of the XL-series, the MAG-TAC has similar dimensions to the XL200. Overall length is slightly longer to accommodate the 123A batteries, and for maximum durability, the aluminum body is type-III anodized with a matte finish.
Head
Behind the bezel is a polycarbonate window and smooth plastic reflector.
Here we can see the difference between the plain and crowned bezels; the crowned bezel protrudes by an additional 0.1” and is slightly tapered.
Body
Styling of the MAG-TAC is more aggressive than the XL-series, and the grenade-grip knurling along the body is smooth and easy to grip.
Tail Cap
Smooth black rubber covers the electronic tail switch, which is flat and shrouded to prevent accidental activation.
Function Sets
In addition to cosmetic differences, the plain and crowned models also have different function sets.
Momentary/High/Low (Plain Bezel)
Click once for momentary-on, click twice for constant-on, and click three times for low.
Momentary/High/Strobe (Crowned Bezel)
Click once for momentary-on, click twice for constant-on, and click three times for strobe.
Modes
Both models use the Quick Click user interface to select from three modes.
Momentary
Press and hold the switch for maximum output. When the switch is released, the light turns off.
High
With two clicks, maximum output of 310 lumens (plain) or 320 lumens (crowned) is activated.
Low
With three clicks for the plain bezel version, reduced power output of 45 lumens is activated.
Strobe
With three clicks for the crowned bezel version, the 12Hz strobe is activated.
To turn off the MAG-TAC, click the switch once.
Performance
Using a Cree XP-G LED, the MAG-TAC has a maximum output of 320 lumens. The MAG-TAC uses the same LED and reflector as the XL200, resulting in a similar beam profile that is smooth and focused with a well-defined hotspot.
Runtime
If you haven’t read our article about runtime graphs and the ANSI FL1 Standard, please click here.
Both models use gradual step-down regulation over the first half hour of runtime, reducing heat and extending battery life. Rechargeable lithium-iron phosphate 123A’s can also be used, which provide approximately one hour of regulated runtime.
Accessories
Included with the MAG-TAC is a pocket clip, which is secured using a plastic cam lock.
Conclusion
Although many lights now offer user-programmable function sets, including Maglite’s ML-series, this feature was not carried over to the MAG-TAC. Instead, the MAG-TAC’s bezel style determines which pre-programmed function set you’ll get. For most users, having a lower output mode would be more practical than strobe, so we would recommend the plain bezel model unless there is a specific need for either the crowned bezel or strobe mode.
In the highly competitive tactical flashlight segment, the Maglite MAG-TAC stands well among the competition. As LED technology advances, it’s easy to get caught up in the numbers, but there’s more to a flashlight than just output. While the MAG-TAC may not have as much output as the latest ultra-high output lights with Cree’s XM-L LED, the Cree XP-G LED allows the MAG-TAC to have a more compact design with a 1” bezel.
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Thanks for the review. Do you know what voltage range the driver accepts? I’m curious to know if you could run the light on 1×16650? Or is there room in the battery tube to fit a 17650 or 18650? Thanks.
Matt,
There won’t be any issue using a single 3.7V battery since the voltage is lower, but you won’t be able to fit larger batteries in the light without modification.
Robin
Hi Robin, thanks for your great review and I am waiting for it when I know the Mag Tac will be launched soon. Just a short question, may I know the reason Mag Tac uses the same LED and reflector as the XL200, but, the max ouput lumens are different? Thanks a lot. George
George,
Output from an LED depends on how much power it is using. Since 123A’s have more energy than AAA’s, Maglite designed the MAG-TAC to use more power.
Robin
Hi
I would like to place an order for this. Where do I find a retailer who ships overseas to Europe ?
Tanks beforehand
Alex,
You will have to check with the retailers individually.
Robin
Hi
When would you Guess that amazon.com will get this?
How long after a product launch do they get the goods
Can you name somewhere you know where to buy it?
Thanks beforehand
Alex,
Maglite has already released the MAG-TAC, so retailers should have it in stock. However, this light will not be sold in regular retail outlets. You may want to check with police/tactical supply stores.
Robin
Would it be possible to run this light with 2 3.7v RCR123’s or a single 3.7V 18650?
Travis,
I do not have any 3.7V lithium-ions to test, so I cannot say for sure. You should be fine with 3.7V, as long as the battery fits (maybe 17670).
Robin
“Rechargeable lithium-iron phosphate 123A’s can also be used, which provide approximately one hour of regulated runtime.”
Is that the blue line in your graphs? Why do they last so much longer (at low output).
Anon,
No, the blue is lithium primaries and green is rechargeable lithium phosphate (this is denoted in the legend above the graph).
Robin
So the rechargeables are about the same as the non-rechargeable?
Does this use the same plastic lens as the 2AA/XL lights or is it a higher quality one?
Oliver,
I think it should be the same part.
Robin
Any information as to why the plain bezel model is listed with a lower output than the crowned? It seems to have the same emitter, so wondering why the difference.
Matt,
I wouldn’t worry about a 10 lumen difference. It’s only 3%, so I would attribute it to manufacturing variation. LEDs are not created equally, and for the same type of LED, there are differences in efficiency.
If it was up to me, I would rate both lights at 300 lumens and 8,000 candela, not only to have round numbers, but also to account for manufacturing variation…
Robin
Hi, Regarding The “Mag Tac” Light, Are “Rechargeable” CR123 Batteries Going To Have Any Negative Effects On This New Light As Long As The Proper Charger Is Used?
Thanks, Rob
Rob,
3.2V lithium-phosphate rechargeable batteries (such as the K2 Energy LFP123A) will be fine, and you will get similar performance to our runtime tests (the green line).
However, 3.7V lithium-ion rechargeable batteries are NOT recommended.
Robin
I bought a plain bezzel back in october along with tenergy rechargeable 750 mah lifepo4 batteries. Those batteries will run for exactly 60 minuits. I then bought rechargeable tenergy 900 mah li-ion batteries and those would last 1 hour and 30 minuits. Both of these batteries have over discharge protection and shut off when they reach a certain voltage. I’m getting to my questions. I bought a crowned bezzel magtac the beginning of january and ran the same tests with both types of batteries. The 750 mah batteries ran for 61 minuits while the 900 mah batteries ran 1 hour and 5 minuits. Both types of batteries were consistent to the minuit as I stated for each light. The tenergy battery company couldn’t give me an explenation as to why the lower mah batteries will run 1 minuit longer in the brighter light and the higher mah batteries barely make an hour with the brighter light. So I was wondering if you had any thoughts on this? Out of curiosity I exchanged the tail caps of the two magtacs (the crowned bezzel and the plain) and I could get the low power mode with the brighter light and the strobe with the dimmer light. My second question is, I havent done any prolonged testing with this but do you think it would hurt either of the lights if the tail caps were switched around?