Tria Beauty Hair Removal Laser 4X Teardown

The best part of a local meetup is having different people bring in cool things that I would never have encountered in my own life. This week’s SGVTech meet is a prime example: I got to look inside an old hair removal laser. This is a product category I didn’t even know existed beforehand. Reading the product’s web site, it proclaims itself to be far more powerful than any of its competitors on the market, second only to medical grade equipment not sold to consumers. I don’t know if that is true, but power is certainly a theme. There are multiple safety hoops the consumer must jump through. A skin tone sensor in the base must verify the user’s skin color is within an acceptable range before it will even power on. And before the laser will fire, a secondary verification performed by a different sensor in the tip must pass.

The motivation for tonight’s teardown is the power subsystem. When plugged in for charging, the device gives all the indication of successful full charge, but it could never go through the first stage of its extensive power-up procedure. The manufacturer does not supply replacement batteries: while it’s possible the device is no longer safe to use beyond the life of the battery, it’s also easy to be more cynical about planned obsolescence. Tonight’s mission is to open it up and see if it can be brought back to life.

The exterior enclosure is an impressive work of industrial design, presenting a user-friendly appearance that hides the power and sophistication within. Popping a few plastic clips unveiled the device is dominated by equipment supporting a powerful laser. The battery module consumes majority of the interior volume, followed by a large heat sink and fan for thermal management.

The battery pack consists of two cells, and our first surprise was the 3.2V nominal volts listed on its label. This typically indicates lithium iron phosphate (LiFePO4) battery cells, which is known for high power delivery befitting a high powered handheld laser. However, these cells typically trade off power delivery with lower power capacity, but this pack claims 4.4 AHr which is far higher than any LiFePO4 cell I’ve seen. Tearing apart the outer plastic, we saw the pack is two cells wired in parallel, supported by measuring an open circuit voltage of 3.4. Two cells 2.2 AHr apiece is still very high by LiFePO4 standards.

We had a wide selection of battery cells we intended to try swapping in, from NiMH (visible in picture above) to standard 18650 cylindrical lithium batteries to lithium polymer packs intended for high amperage draw remote control vehicles. But before we start hooking up batteries, we should understand what power the device is looking for. So the battery pack’s wires were cut off and replaced with connectors to a bench power supply.

Tria 4X laser on power supply

We expected the device to power up with the power supply set to 3.2V, the nominal voltage listed on the battery pack, but there was no response. Turning it up to 3.4V was also unresponsive. Something inside this device is looking for a very specific power profile before it will activate. This may be one of the safety hoops, but it certainly dims our prospects of getting it up and running on other batteries.

Then a mistake was made: thinking the device might be running into the power supply’s current limit, a hand reached out to increase current but instead turned the knob to increase voltage far higher than 3.4V. A component on the circuit board started glowing and smoking, leaving behind a burnt hole so we can’t even read the part number anymore to figure out what it used to be.

Tria 4X fried chip

Oh well, so much for bringing the device back to life.

Now that it is well and truly dead, we have to abort the revitalization project and revert to our typical mode of disassembly for curiosity. The heat sink appeared to be a custom piece of machined metal, even the cooling fan might be custom due to how it clips in a way that conformed to shape of the heat sink. But obviously the star attraction is the laser assembly, and it didn’t look anything like what we expected. Behind the optical assembly we see… two pieces of golden colored metal?

Tria 4X laser with optics

Most of our collective experience are with LEDs in plastic packaging. If we use magnification, we can see a little bit of the semiconductor within but they don’t look anything like this. Our ignorance of solid state lasers meant we didn’t understand what we were looking at.

Tria 4X laser

Looking on the bright side, maybe it’s just as well we didn’t understand enough to play with it. This is a powerful piece of equipment, operating on wavelengths of light that we could not see. There is no blink reflex to save our eyesight in case of accident.

13 thoughts on “Tria Beauty Hair Removal Laser 4X Teardown

  1. Hey, really interesting article. Did you happen to see where the speaker was located on the device ? I unscrewed most of mine but I am trying to minimise the damage since I want to use it hehe, thank you.


    1. I never saw it in actual running condition so I didn’t even know it had a speaker until your question. I don’t recall seeing any cone speakers, but there might be a tiny diaphragm speaker or a piezo buzzer type device surface mounted on a circuit board.


      1. There was indeed a piezo buzzer on the board, i had never heard about that, thank you.


  2. hey. saw what you did with the tria laser
    my tria was acting in the same way stuck at one chrging cell so i got it opened from my brother
    and my brother somehow ended up bursting the battery so it started to leak
    according to my brother the machine is fine eh 😑 only it requires a battery replacement
    so if you know anything about where i can possibly get an alternate battery for tria
    that would be helpful thanks


  3. Working on ones of these myself. The regulator you fried has this part number on mine.
    RVI? (Not sure if it’s i or 1)


  4. Hi! Just took one of these apart. Running into a different electrical issue but love some feedback/advice nevertheless.

    It was dropped out of a car and will not turn all the way on anymore. The power up stage is as follows:
    1. Power button is pressed, turning on display screen.
    2. Press button once more and place sensor on bottom of laser on skin until laser beeps
    3. Press button to change intensity level on laser
    4. Place laser on skin. Laser will zap automatically each time it’s placed on skin.

    At the moment, I can’t even get through the first stage of power up. I click the button, the display screen lights up like a flash, a beep noise is heard (which is normal), and the screen goes black. I’ve taken it apart, and all wires are connected properly, or at least they seem so. Battery is charged too. Given your electrical experience, Why would you think the display screen is not staying on? Does something on the chip board communicate with it, telling it to stay on? Do you think the culprit could be a loose cable?

    Thanks for any generic advice you can give. Much appreciate.



    1. The sequence you describe is virtually identical to what we saw, but your description is much more detailed than my vague “it could never go through the first stage of its extensive power-up procedure.”

      The battery may seem to be charged with full voltage, but our hypothesis is that the battery is actually too weak to sustain the power draw increase just after that beep. The voltage sags, and the machine shuts down. We never tested that hypothesis since we accidentally killed it before putting in new batteries, so the real reason could be something else.

      For what it is worth, I don’t think it is a loose cable. Intermittent connections caused by loose cables don’t usually happen at such a consistent time during power up procedure.


      1. I think you are 100% correct. Mine was doing the exact same thing. I didn’t feel comfortable taking it apart myself, but I found SonicRepair on Ebay. He installed new batteries in mine and it works perfectly now.

        So new batteries solved that issue for me.


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