Imalent RT70 Flashlight Review

Imalent RT70 Flashlight Review

Imalent has released the RT70, a flashlight that runs on 18650 cells. It uses a Cree XHP70.2 emitter, and has a nice big metal switch!


Official Specs and Features

Here’s a link to the Imalent RT70 Flashlight product page.

Versions

The RT70 comes in only one version, but as stated above, this body is available with a different emitter, and a different name.  The RT35 is the thrower of the family.

Price and Coupon

I received this light from a new site on the scene, GearVita.  The Imalent RT70 is available there for $137.99, but I was able to get a great coupon, which takes $60 off:  Coupon Code: RT70Light.  Price after coupon: $77.99!!  Those are tracking links there.


Short Review

I love the RT series from Imalent.  Honestly, Imalent has made one of my all-time favorite lights, too (DX80).  I like the RT70 too, and certainly, at $78 it seems like a good buy!

Long Review

The Big Table

Imalent RT70
Emitter: Cree XHP70.2
Price in USD at publication time: $77.99
Cell: 18650×4
Turbo Runtime High Runtime
LVP? Yes
Switch Type: E-Switch
Quiescent Current (A): ?
On-Board Charging? Yes
Chargetime
Power off Charge Port with no Cell?
Claimed Lumens (lm) 5500
Measured Lumens (at 30s) 2672 (48.6% of claim)^
Claimed Throw (m) 903
Candela (Calculated) in cd (at 30s) 3080lux @ 4.942m = 75224cd
Throw (Calculated) (m) 548.5 (60.7% of claim)^
All my Imalent reviews!

^ Measurement disclaimer:  Testing flashlights is my hobby. I use hobbyist-level equipment for testing, including some I made myself. Try not to get buried in the details of manufacturer specifications versus measurements recorded here; A certain amount of difference (say, 10 or 15%) is perfectly reasonable.  This light had a faulty emitter.  That explains the poor performance here.

What’s Included

  • Imalent RT70
  • Spare o-rings
  • Proprietary charge cable (USB to magnetic connector)
  • Nylon pouch
  • Lanyard
  • Manual

Package and Manual

This is the standard Imalent “big light” box.

There’s a protective cover over the lens.  You’ll want to remove that.

The manual is quite thorough.

Build Quality and Disassembly

The build quality of the RT70 is the same as the build quality of the RT35.  I’m satisfied with the build quality.  I like all the fins on the head and body – they give the RT70 a very “flashlighty” look.  Futuristic even.  I like the way they look, and they’re functional too.  As will be seen later, the amount of current this light uses needs some good cooling!

The tailcap has a very “the cells are built into this light” look, but the cells aren’t actually built into this light.  It would seem that all of this “extra” on the tailcap is basically just to make room for multiple lanyard attach points.

I loooove the knurling here.  It’s extremely well done, and extremely consistent.  It’s a diamond pattern, which is my favorite and has a flat top (also my favorite).  This particular setup doesn’t have a lot of grab in the gripping; these grips could stand to be a shade taller.

The driver is held in by two Philips screws (unusual!).  The positive contact is a brass ring, as is the negative – no springs in the head end.

All the springs are in the tailcap.  They aren’t massive springs but seem to adequately keep the cells in contact when the light gets bumped around.  Note here that the cells all go into the light in the same direction.  More on that later.

And finally, one of my two issues with this light.  The threads on my copy were quite….  dirty.  They’re lubed, but there’s an excess of lube.  Also what’s there is completely blackened.  As a result of the lube carrying whatever the black is, the threads are gritty.  This isn’t insignificant.  It’s also not the end of the world, since it’s easy to clean up and re-lube threads (something we should all do occasionally anyway).  But for this to be a from-the-factory copy having these threads is a major annoyance. 

That said, generally, the threads are nice – they’re square-cut and anodized, but interestingly don’t seem to allow mechanical lockout.  I can’t really explain this unless this excess of lube is extremely conductive?  I’ll have to clean it all up and see.

Size and Comps

Officially:
Weight: 420g without battery
Size: 86 x 51 x 161mm (Head diameter x Tail diameter x Length)

Here’s the test light with the venerable Convoy S2+.  Mine’s a custom “baked” edition Nichia 219b triple.  A very nice 18650 light.

Retention and Carry

Imalent includes a directional nylon pouch.  The bottom is open, and the light hangs out a little.  The straps are double, with one being velcro and detaching at the bottom.

There’s a lanyard included, which connects in these holes in the tailcap.

The lanyard is interesting and unusual.  It’s quite a long piece of cord, and seems as though it’s meant to wrap around the head temporarily during carry, and can almost function as a handhold.  It’s an interesting design, and to be sure, I like it.  At least as much as the “normal” lanyards, in any case.

20180503-IMG_2917.jpg

(That pic is from the RT35 review, but it’s the same setup.)

Power and Runtime

The RT35 is powered by four 18650 cells.  These cells need to be quite long, but capable of fairly high current.  You’ll need good cells for this light – I stopped measuring at around 6A, and just HIGH draws over 4A.  So the current used by this light isn’t trivial!.  The cells I’m using here are specials from LiIonWholesale.  Here’s that cell.  It’s a protected MJ1 cell and seems to work well in this light.

Be aware that the light actually needs a quite long cell.  I had a set of 3 Efest cells that were long enough.  But button top 30q cells were not long enough.

The cells are in parallel, so the light will actually operate on any number of cells.  Even Turbo is accessible with a single cell, though I’m not sure the output will be “real Turbo”.  This could be cell-quality dependent, and higher quality cells offering more current can perform better.

Here’s a runtime on Turbo.  I measured the 30-second output at around 2672, which is well below what the spec claims.  That’s after quite a tumble from the initial output, but even then the output is well below specification.  (More on this later).

At the end of the runtime, the light just shuts off from around 550 lumens cleanly with no fade out.

High runtime is fairly similar, with a heavy stepdown from the initial output, to around 1500 lumens.  High of around 1300 lumens is maintained for a respectable 3 hours!

At 3.1V, the red switch indicator was solid red.  At 2.9V, the switch indicator flashed.  At 2.7V, the light shut off.

Charging

The charger is unfortunately proprietary, but of course, the cable is included.  The connector is USB.  USB 3.0 would have been fantastic, to harness faster charging.  But this light already charges at almost 2A, even with just USB 2.0.

Charging is probably around 2A to the cells, and maintains this for almost 7 hours!  The total charge time is around 8.5 hours to completion, but this will depend on the cells used, of course.  MJ1’s are higher-capacity cells.  There is no trickle to the cells once charging stops.

Pulse Width Modulation

For reference, here’s a baseline shot, with all the room lights off and almost nothing hitting the sensor.

Even though this doesn’t look like all that “good” of PWM, I am not able to detect this by eye.

User Interface and Operation

The user input comes from a single switch.  It’s solid metal, and rectangular and very unusual.  Very clicky.  The indicator (red and green) is above (below? beside? perspective….) the switch, and stays on when the light is on.  Green means the cells have a good charge, but red means the cells are <3.2V.

Here’s the green indication.

20180503-IMG_2908.jpg

Here’s a UI table!

State Action Result
Off Click On (Mode Memory)
Any Double Click Turbo
On Click Off
On Hold Mode Cycle (LMMH)
Off Hold (>3s) Lockout
Lockout Hold (>1s) Unlock (and on, to Low)
Turbo Double Click Strobe

Modes and Currents

Mode Mode Claimed Output (lm) Claimed Runtime Measured Lumens Tailcap Amps
Turbo 5500-3300 8-96m 2672 >6A
High 3300 110m 1471 ~4.2
Middle high 1200 3h45m 766 1.26
Middle 800 7h18m 404 0.59
Middle Low 400 18h18m 278 0.36
Low 60 96h 124 0.13

There’s quite a bit of disparity between claim and reality there.  I’ll name a couple of possibilities.

  1. The cells used might not provide enough current.  I didn’t test this light over 6A, but at 6A it was still decidedly hungry for more.  The RT35 tested to 15A.  Since the cells are in parallel, meaning each cell is providing current in an “additive” way (so to speak), MJ1’s should have no trouble delivering the necessary current.  But it’s still a feasible space for problems.
  2. The emitter in this light has an unusual beam shape, unlike any XHP70 I’ve seen.  To understand more you need to know that an XHP70 is made of 4 die on one footprint.  Based on the beamshots you can see below, I have a sneaking suspicion that one of these quadrants is dead.  That might not fully make up the difference in output we can see in the chart, but it certainly gives us a fuller picture of the light….

Edit: an update.  I managed to snag a photo of this, and can now confirm it’s worse than I feared:

More than half of the emitter isn’t working.  That does explain the terrible performance.

LED and Beam

In the RT70 is a Cree XHP70 “2nd Generation” (which I presume means 70.2, though it’s not stated this way).  The reflector is smooth, and as is demonstrated by the picture below, has a bit of a double cone shape.

Despite what I said above about the emitter, it does look fine.  (It would probably still look fine even if it was defective in the way described.)

These beamshots are always with the following settings:  f8, ISO100, 0.3s shutter, and manual 5000K exposure.

The problem I’m seeing is most evident in the lowest mode.  See that half-crescent in the bottom of the hotspot?  That’s what makes me think the emitter could be faulty.

Otherwise, the beam has a surprising amount of throw, with really not all that much spill.

Tint vs BLF-348 (KillzoneFlashlights.com 219b version) (affiliate link)

The tint…. not really a tint I’m used to seeing on a 70.2.  But still as you’d expect compared to a Nichia.

I compare everything to the Killzone 219b BLF-348 because it’s inexpensive and has the best tint!

Random Comparisons and Competitive Options….

Here’s a link to a relevantly filtered page on parametrek.com.  I use that site a lot!

There are some other lights with the same emitter (claimed, anyway, 70.2), which also claim a much higher total output – the lowest of that mix being 5200 lumens.  To wit: there are other similar lights with much higher output than this one.  This one appears to be the only with an integrated charger, though.  Also the others are Thrunite or Acebeam, and likely to be much more expensive than the sale price on this Imalent!

Conclusion

What I like

  • Very nice size and shape (flashlighty)
  • Charging works well and about as good as USB charging can
  • I really like the switch, even if it’s a little hard to find in the dark, or by feel.

What I don’t like

  • Grossly underperforms specifications (edit: it’s now clear why…)
  • Gritty, dirty threads
  • Indicating switch is underutilized

Notes

  • This light was provided by GearVita for review. I was not paid to write this review.
  • This content originally appeared at zeroair.org.  Please visit there for the best experience!
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5 thoughts on “Imalent RT70 Flashlight Review”

  1. Thank you for the detailed review. This is the first review that I have read from this site and I am impressed. The one area that I would like to see improvement in is the evaluation of the tint (color temperature). Would it be possible for you to measure or provide the specified color temperature or CRI number for the light? Many people prefer a cooler tint or they do not care about the tint. However, I prefer a lower color temperature (warmer tint/higher CRI) in order to render accurate colors. Cooler tints wash out the colors of objects and make it more difficult to see details, for me at least. Thanks.

    1. This is a great question and I’d love to answer it more favorably but: The best I’ve been able to sort out with the equipment I have is the tint comparison with the Killzone 219b light. In broad terms, that’s should allow a pretty good estimate of what the Kelvin is. More than that, I can’t really provide. I’d love to have a spectrophotometer, but it’s not in the budget at the moment unfortunately.

  2. Got the same problem with my Rt70
    Half of the emitter is burned out !
    Trying to figure out how to replace the emitter now ! Happy to see I’m not the only one with this problem , feel bad that Imalent quality control is garbage ! After spending this kind of money for what is supposed to be a quality product .

    1. I bought a replacement led but I never got around to installing it. I could never dislodge the bezel.

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