Review: The new HaikeLite MT07 - Buffalo XHP70 thrower

Funny, after reading your post it made sense to me: it’s time controlled (and if it steps down, the temperature will drop). This makes sense. Thanks.

Alright let me explain. Yes the X7/TN36-UT are different beasts. The reason I brought these lights up was of the much higher output it can sustain when cooled (I interpret this as just walking outside), although the amount of mass/heat sinking is much less. Yes, efficacy difference is present. How much I don’t know; not calculated… But initially, it seems (no proof here) that the step down to 2000+ lumens for the MT07 is drastic.

So the MT07 seems to be checking temperature after 5 minutes. The sensor for the temperature is not part of a feedback control system; the light just reduces to 2000+ lumens if the temperature exceeds a certain fixed (55 degrees) value. Two scenarios for simplification:

1) You’re walking outside with this light, meaning heat transfer via hands and via air due to light breeze ==> cooling

2) Light is being used as a lantern inside / runtime test without cooling ==> no cooling

The manufacturer, in this case Haikelite, is not able to know the scenario, as the light is not using the temperature sensor in a feedback controlled system. Therefore the manufacturer must assume the worst case to prevent over heating of the light; meaning there is no cooling. This means that output must be reduced as if there is no cooling even though in reality there might be cooling. An output of 2000+ lumens is the outcome. It is possible that with a feedback control thermal regulation, the MT07 is capable of an output of 4500 lumens (example) while keeping temperature constant. The MT07 has got more heat sinking (I think)than the single XHP70 competitors, like the L6 and K60, but is not able to exploit this to the fullest due to a semi rigid control system, i.e. fixed time with fixed temperature (if this is true). Of course you can switch off and on, but either temperature will exceed 55 degrees (which you don’t want), or it steps down dramatically… With a feedback control thermal regulation, you can truly benefit the massiveness of the MT07.

For the record, I have absolutely no criticism of the MT07 or Haikelite, not to mention that the price is amazing IMHO. This is just food for thought.

Oh nice I did not know there was a 4S version as well. Very interesting. I look forward to seeing what you find out. It sounds like the 4S might be more my kind of light though.

Ohh - I knew it, than forgot it... Now that I see the run time with the dropping output, I'd probably be more interested in the 4S version as well, with current regulation. I guess my thinking though was for modding, and I'd rather mod a 2S2P XHP70 light rather than a 4S light.

Two versions… now I’m really interested in the 4S one

I do wonder what the runtime curve of the 4S will be like. Theoretically it can give a flat output, but your’re still stuck with the thermal regulation if it is the same as this 2S2P variant (at least they way we think it is). Meaning, you will have flat output of 5000 lumens, but after 5 minutes, temperature is checked, and if temperature of 55 degrees is exceeded, then output drops to flat, constant 2000+ lumens. So overall, performance will be similar with a 4S variant compared to the current 2S2P variant. Of course, it may have a different timed/temperature control as well resulting in a different runtime curve… Who knows…
Nah, my guess is that the thermal regulation of both 2S2P and 4S are more sophisticated than what we’ve seen so far. With cooling, you probable get something between 2000 and 5000 lumens.

Here's thermal test results I just ran. From being cold, it took 6 mins, 26 secs to step down. Pass #2 was run immediately following Pass #1, so the temperature remained fairly high. It stepped down at exactly 5 mins, but got 12C higher on the outside. Temperature readings were measured with an IR thermometer.

After it stepped down, mode change cycled to the 1st mode, so it appeared to think it was still on turbo mode.

I would say it worked as described - minimum of 5 minutes on turbo, then over temperature causes a step down.

Note: the lux value is what's read off the lux meter, and a conversion factor of 0.34 is applied (this is the calibrated value I use for the PVC light box).

Looks very promising.This is what a xhp70 single led thrower should be(4x18650 compact design, deep reflector and fully powered ) which really defeats the need for multi led alternatives whom had higher led light efficiency that is wiped out by reflector light losses from smaller reflectors yet retains increased complexity cost from manufacturing. My only complaint is the tail cap design which seems to be jutting out and looks kinda weird.

Both of the 2S2P and 4S1P configurations should offer the same runtime. You get lower overall capacity with 4S1P but the current draw from each battery is lower than the 2S2P configuration and it can also offer the flat output although with 4S1P there is a higher chance to go “Note 7” if the batteries voltage are not balance lol.

+1

Mine came in today, and I’ve just barely started using it. The ergonomics feels weird. I’d like it if the handle were half an inch longer, and if the step to the head were smaller or progressive. It’s okay once it’s fully gripped, but getting there doesn’t quite feel right. I love the output. Until I point it at something far away, I wouldn’t think of the light as a thrower. The moonlight is good enough. The packaging isn’t fancy at all. When you buy this light, you’re buying the light. Forget about a flashy Apple-esque unboxing. That’s not a problem for me, but for those that have issues with it, they can mod a Convoy or spend about twice as much or more on something else. The UI is intuitive for me. I played around with it and quickly figured out how to access everything but strobe and instant turbo. I think I’m their first actual full price customer, and I’d buy it again.

That is why I’m not interested. The lux figures aren’t in the realm of real throw as far as I’m concerned.
You may get lumens, but if they don’t go down range from a ‘thrower’ - what is the point? May as well buy an L6 for less cash, or other high lumen monster.

Not real throw!? There are hunters in this forum who uses dedomed XPG in C8s with about 160kcd and less than 1,000lm. The MT07 is very close to that number at 130kcd and delivering many times the hotspot size.

A thrower is not purely how much peak kcd it makes but how it manages to deliver usable light at long distances.

The L6 XHP70 isn’t a pure thrower either, so don’t waste your money on that either. You want a pencil beam thrower. This light is for those of us that want to put a lot of light a moderate distance down range and still have decent illumination everywhere else. Pencil beam throwers are amazing, but I have no use for a pencil beam thrower, and aside from a couple zoomies, I don’t have a single pencil beam thrower among my shelves of lights. Do what’s best for your needs. There are plenty of good lights, and this is one of them even if it doesn’t suit your particular requirements.

Leaftye your version is 2S2P or 4S?

Looks like 2S2P unless they did some funny business with the traces. Wait a sec…brain fart. I’ll take a closer look and get back to you.

Totally agree, that’s exactly my thoughts on long range lights. I hate laser-like 750klux 2” wide beams.
But when I read someone saying a dedicated thrower didn’t hurl enough light down-range, that’s the kind of thing I take notice of. BTW - I’m one of those C8 weapon mount users :sunglasses:
Mine has the same dedomed U4 as the 2X Shooter in it.

I believe the electronics works differently in the 4S config - it's a buck driver in this state, and he said 4S has current regulation, so I'd expect the runtime curve to be flat, or flatter, therefore more power (I * V) used during the cycle resulting in shorter runtimes.

Updated the turbo mode discharge curve in the OP. here it is:

This is now scaled in time properly, and the temperatures were taken with a IR thermometer at the hosttest section of the surface, which is just above the switch.

Yes the 4S batteries can sustain the Turbo output constantly and it consumes more power overall, I agree on this.

The problem is we don’t really have a standard to define the runtime of a light can offer (i.e. until it drops to how many % of initial output), this is why some manufacturers have this “Turbo mode can last for a few hours” kind of claim lol, which is quite misleading I know.