YLP Panda 2M CRI headlamp review (2x LH351D, 4000K, CRI90)

Disclaimer: The YLP Panda 2M CRI was provided for testing by manufacturer free of charge

The Panda 2M CRI is YLP’s high CRI version of their Panda 2M headlamp, which replaces the arguably not so great Cree XP-G3 emitters with Samsung LH351Ds. They are specced at a warmish neutral 4000K color temperature with a high color rendering index of 90+ and a maximum output of 700 lumens. Just like the YLP Gryphon G180 I tested earlier, the Panda doesn’t join the lumen race of major brands. In its default setup, the already conservative turbo is only for momentary use and the light will not heat up like crazy in use.

If you’re here only for the numbers, here they are:

Manufacturer’s specifications
Panda 2M CRI website: Panda 2M CRI — Online store — YLP light
Battery: 18650 (accepts button and flat tops, protected and unprotected)
LED: 2x Samsung LH351D 4000K CRI90
Waterproof: no, IPX6 splash proof
Impact resistance: 1 meter
Mode memory: user configurable
Lockout: physical
Tripod socket: no
Tailcap magnet: yes

Manufacturer’s output specs
Maximum output: 700 lumens (turbo momentary or stepdown timer configurable to 5-20s)
Other output levels: 1-6, 18/35, 60/120, 200/400 lumens (submodes configurable)
Light intensity: 900 candela
Beam distance: 60 meters
Special modes: red momentary (<12s), red locator flash (they call it beacon)

Measured dimensions and weight
Length: 81.1 mm
Head width: 33.5 mm
Body width: 25.5 mm
Weight: 63 grams plus 47 grams for an 18650 battery

Box and contents

A stylish retail box includes in addition to the light:

- Headband

- User manual

- Spare front lens

  • Spare o-ring for the battery and front lens

Physical appearance

The headband has a top strap to balance the weight of a larger headlamp. The main strap has a good range of length adjustment and enough elasticity (at least new) to fit on top of helmets. I would’ve hoped to have a bit shorter top strap, since I prefer to wear the light a bit higher up on my forehead and found it a bit too long even on the shortest setting on my bald head. The silicone holder for the lamp itself is very sticky and I found it quite difficult to change the lamp angle especially with gloves. At least it won’t droop on its own.

On the other end of the light is a magnet. It has enough power to hold the light horizontally on a magnetic surface, but I’d like it to be a bit stronger.

The light doesn’t come with a clip, but almost any clip from a 18650 light will work if you want to attach the light on your jacket front pocket. That’s how I usually use my headlamps.

There’s a familiar Atmel ATtiny13A micro controller for handling the user interface. You can easily place any filter between the optics and front lens to alter the tint.

User interface

The Panda 2M CRI is operated via two electronic switches (red and white) on top of the light.

There are several configuration options under the hidden Pro UI setting, which is accessed by clicking the red button 20 times from off. Saving the settings and going back to normal UI is done the same way. Any unintentional configuration settings can be reset to default with 12 clicks.

Manuals:
Normal UI

Pro configuration

Basic operation is as follows.

From off:
Click the white switch to turn the light on last used mode (if memory function is active) or on low. You can also program the light to come on at medium or high.
Long press from off goes to moonlight, which is configurable from 1 to 6 lumens.
Quick repeated clicks of the white switch from off can be used to set the mode right off the bat. One click for low, two clicks for medium and three clicks for high (assuming default configuration without memory).
If beacon mode (red locator flash) is active, clicking the red switch from off activates it. You can configure the time between flashes from 1-8 seconds.
Two red switch clicks to check battery level indicated by 1 to 5 red flashes

While on:
Hold the white switch to cycle modes (L-M-H-L-…). Moon is not part of the mode cycle.
Hold red switch for momentary turbo (can be configured to latch on for 5/10/15/20 seconds).
Click white switch to turn off.

You can also use the red LED as a momentary as long as you don’t hold it for more than 12 seconds. That switches mode memory on and off.

Size comparison

Next to other 18650 headlamps.

As the driver is on the side of the body, the Panda 2M CRI is fatter but much shorter than a typical right angle headlamp.

Beamshot comparison

Photos exaggerate differences. Your eyes will fairly quickly adapt to whatever color temperature the light is. The white balance in the raw file processor was set at 4750K for a happy medium between the lights so as not to make any of them seem overly cool or warm.

All the lights were photographed on their highest mode except for the much more powerful Olight H2R which was run on high instead of turbo, which would have washed out the foreground.

Note: the Skilhunt H03 has been modded with a Nichia 219C CRI90 emitter.

Camera eposure time has been adjusted between lights in the white wall beamshots, but identical settings were used in the outdoor beamshots.

Individual beamshots
YLP Panda 2M CRI
Olight H2R
Zebralight H600Fd Mk3
Skilhunt H03 219C

Individual beamshots
YLP Panda 2M CRI
Olight H2R
Zebralight H600Fd Mk3
Skilhunt H03 219C

Beam and tint

The Panda 2M CRI beam is very even and floody. Unlike the Panda 3.0 and 3R, which provide a separate floody and throwy LED, both emitters on the 2M have a beaded optic. This is great for close to medium distance lighting as there’s no distracting artifacts or color shifts in the beam. With a low moonlight mode of 0.26 lumens, it offers a good range of output levels even if it can’t light up your whole back yard or the mountain range.

There’s hardly any tint difference between output modes. The most useful modes (minimum moon, low and medium) are all very tightly grouped.

Spectral data and color rendering

For spectral information and CRI calculations I use an X-rite i1Pro spectrophotometer with HCFR, Babelcolor CT&A and ArgyllCMS spotread for the graphs and data. For runtime tests I use spotread with a custom script and an i1Display Pro because it doesn’t require calibration every 30 minutes like the i1Pro.

Explanation of abbreviations

If you have an hour to spare, I recommend watching this presentation on IES TM-30-15 which also shines light into color rendering in general.

CRI data on turbo measured from the hotspot (at 15 seconds before stepdown)

CRI data on medium

CRI data on low

CRI data on the lowest moonlight mode (0.25 lumens)

And just for fun, the difference between the two LH351D emitters on medium mode. 6% difference in output. CIEDE2000 color difference of 0.27 means there’s no way you can tell them apart. Of course that is of no concern anyway, since they’re both always on.

Output and runtimes

Output was measured in room temperature without additional cooling on an unprotected Samsung 30Q battery.

Here are the output measurements for all of the submodes

Output is stable throughout the runtimes on every mode. Turbo is only meant for momentary use or for a maximum of 20 seconds when configured to latch which is why its runtime wasn’t measured. Maximum current draw is 2.4A on turbo so pretty much any 18650 will do fine.

Efficacy of about 90 lumens/watt is on par with other lights with linear drivers. The lowest moon mode of 0.26 lumens draws only 1.8mA and would run for approximately two months on a 3000mAh battery.

Standby drain

There’s practically no parasitic drain on the light even though it uses an electronic switch. This is the lowest I’ve ever measured. I don’t have the equipment to quickly trigger and sample super low current measurements, so it is possible there are very short spikes of larger periodic draw.

Standby current: 0.5 µA

Low voltage protection

Low voltage protection is rather low at 2.65V.

Before that, the red LED will blink when voltage gets low.

Also, the light will drop in output gradually as the battery voltage drops until the voltage drops.

Flicker

I measure the flicker optically from the LED with a Thorlabs DET36A/M photodetector and an oscilloscope. Parametrek’s helpful script calculates a snob index, which indicates whether PWM allergic people will notice the flicker.

The Panda 2M CRI uses PWM to control brightness on every other mode than the higher high and turbo which are totally free of flicker.

The flicker snob index of 10-15% on moonlight gives an indication that there is a slight chance of visible PWM. However, a PWM frequency of 4.6kHz combined with very low levels and a floody beam makes it unlikely. I didn’t notice it in real use, only when swinging the light as fast as I could across my field of vision or when deliberately trying to reflect the light off a shiny metal surface at 10cm range and flicking my eyes up and down. I wasn’t bothered by it in my real life testing.

Flicker was clearly visible on one presumably faulty moonlight submode. At 580Hz with a snob index of 36% it is quite obvious if you know what you’re looking for. In my opinion this isn’t a big deal since the mode can be ignored as it has the same output as one of the other moonlight submodes.

Other modes use a PWM frequency of >16kHz, which makes the flicker invisible even to the most sensitive eye. The snob index is 0%.

Flicker on medium mode

Flicker on moonlight

Flicker on the presumably faulty moonlight mode

No flicker on high

Temperature

My testing was done indoors in 23°C ambient temperature.

I didn’t see any thermal regulation take place. The surface temperature stays below 50°C at all times even when freestanding on a table without cooling. This makes it hand holdable.

You can get the light to heat up to uncomfortable levels by continuously running it on turbo either by holding the red switch down in momentary mode or repeatedly resetting it after timed stepdown.

I would like to have the possibility of a non-timed turbo, since the attiny MCU supports temperature monitoring. Maybe even configurable maximum temperature?

Verdict

A high CRI headlamp with good customization by non-BLF driver standards, a very useful sublumen mode at 0.26 lm and a low price of $35. The YLP Panda 2M CRI may not have the efficiency or maximum burst output of an Olight, but it is a well though out budget headlamp. The even floody beam is free of distracting artifacts or color shifts, and the fast enough PWM makes all the modes seem similar in tint.
In my sample there was one seemingly non-functioning moonlight mode which had visible flicker at a low PWM frequency, but that can be mostly ignored as there are four other usable moon submodes to choose from, one of which has the exact same output as the bad one.
The 2M CRI is also a good choice for non-enthusiasts as it never gets very hot. It’s safe to give to your children as you have to press and hold for turbo in the default configuration. If you need the maximum output of 640 lumens to latch, it can be set to do it for up to 20 seconds and still not exceed 50 degrees Celsius even indoors after first being run continuously on high.

+ High CRI with an even beam

  • Good range of usable output modes
  • Never gets too hot on any mode: safe to hand to kids
  • Double springs and low maximum current draw allow for a wide range of batteries to be used
  • Practically no standby current draw

- Turbo isn’t super bright and is only for very short bursts (max 20 sec)

- One malfunctioning moonlight mode on my sample

  • Only splash proof

Hmmm. I need one of these…

Where to buy though, well other than the link provided.

Looks like their site accepts PayPal so I wouldn’t worry, other than the possibly long shipping times from Russia. I’ll ask if there is going to be more international dealers.

Thanks for the review, it looks like a great light with good CRI and quality.

Group Buy!

I’ve ordered from them twice, shipping from Russia to East coast of US was less than a week each time (5-6 days if I remember right). I own the G180 and panda 3. Both great work horse lights for me either camping, hiking, or on the job.

incredible reviews! This website has many other nice offerings IMO. I particularly like the SCORPION X8.

thank you for this thread.

I spent last couple hours watching Kung Foo Panda with my grandson and now this is at top of page when I refresh BLF.

The Panda is speaking to me.

Looks like a very solid offering. Too bad it doesn't look like modding is much of an option.

No other international dealers. There are some models on ebay though, but they are shipped from Russia as well.

I discussed it with YLP, and they offered a special discount for Panda 2M-CRI, –20%.
Coupon: BLF-1 (until the end of March).

YLP also suggested introducing discounts for some other flashlights/headlamps. Could you please tell, which lights would be more interesting for BLF?

I like a lot of offerings on their site! I have e a couple of e-mails in to them and have not heard back??? Do they participate in the Chinese New Year?

How about a coupon for the Scorpion X8?

thanks for the Panda 2M CRI coupon!

Done, the same coupon is valid for YLP Scorpion X8
http://ylplight.com/en/katalog/1/breloki/scorpion-x8/
Coupon: BLF-1 (until the end of March), –20%

Thanks for the review, it looks like a good product.

Thanks for the great review. I love the form factor and dual led setup.
It would be great for them to make a high CRI option in the panda 3. Throw in a buck boost driver and I’m sold!

Thanks for this thorough review. Interesting headlamp …nice to be able to program the modes. Drag to see that 2 x 123 primary batteries are “forbidden” as I was thinking about this headlamp when the temp stays below freezing.

I am afraid that 2-channel buck-boost driver can be too expensive :confused:
And perhaps not really effective… :frowning:

Ok. just buck is rather good too)

Buck driver with one 3V-LED? You will need to look for advantages with a magnifying glass :wink:
With 3-4 LEDs - yes, buck driver will be more better. With 1 LED it will be more auto-training than real benefits.
It makes sense only if we are talking about 2*CR123.