Asmodus Minikin V2 Kodama Stabilized Wood Mod (Gunmetal Edition) - Mistwood Vape Café
Asmodus Minikin V2 Kodama Stabilized Wood Mod (Gunmetal Edition) - Mistwood Vape Café
Asmodus Minikin V2 Kodama Stabilized Wood Mod (Gunmetal Edition) - Mistwood Vape Café
Asmodus Minikin V2 Kodama Stabilized Wood Mod (Gunmetal Edition) - Mistwood Vape Café
Asmodus Minikin V2 Kodama Stabilized Wood Mod (Gunmetal Edition) - Mistwood Vape Café
Asmodus Minikin V2 Kodama Stabilized Wood Mod (Gunmetal Edition) - Mistwood Vape Café

Asmodus Minikin V2 Kodama Stabilized Wood Mod (Gunmetal Edition)

Regular price ₱18,999.00
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Shipping and sale/discounts calculated at checkout.

The Minikin V2 Kodama (Gunmetal Edition) is the latest in Asmodus' quest to craft vape mods that can truly be called works of art.

Using fine wood stabilized (ie. treated) by resins and other agents to increase durability and prevent warping, every unit of Minikin V2 Kodama is uniquely beautiful, with a "fingerprint" consisting of random wood pattern, resin color swirls and color tones.

Underneath the stabilized wood exterior is the GX-180-HT vape chip, with touchscreen controls, a peak wattage of 180W from dual batteries, and sophisticated power management.

Features:

  • 180W from dual batteries (sold separately)
  • 510 off-center connector
  • Touchscreen controls
  • At-a-glance LED readout
    • individual battery charge
    • atomizer resistance
    • volt readout (per fire)
    • puff counter
    • puff duration
    • mode in effect
  • Hinged release door for easier access to batteries
  • Wattage mode
  • Temperature control mode: SS, Ti, or Ni
  • Temp. control range: 212° - 572°F / 100°C - 300°C
  • Custom curvature of wattage mode
  • Atomizer resistance range: 0.1 - 2.5 ohm
  • Max output voltage: 7.5 volts
  • Peek output current: 45 amps
  • Charging parameters: DC 5V/1A


Colorway: Violet, Purple, Green, and Blue in random swirls/patterns, with faceplate, battery door, and 510 connector in gunmetal

 

*Photos shown are representative of the final product. Actual color swirls, color tones, and wood patterns will vary from one unit to another due to the nature of wood and the stabilization process. Randomness is inherent in the material and the manufacturing process, ensuring that every unit is unique.

Clients often ask us, is ______ kit good?

The answer is simple: if we're carrying it, it's better than good. It’s great.

We wouldn't be carrying it if we didn't think so.

The tricky question is, will it be great for you?

To help you make the right personal choice, we suggest asking yourself the following questions, and we can guide you based on the answers.

Will I be using the kit mostly outside, or mostly at home?

If you'll be using your kit on your daily drive, or in a vaping area at work (by the way, if your workplace has a vaping area or has access to one, then congratulations), you'll want a kit that offers great battery life.


That means a minimum of 1500mAh for pods with coils well below 1.0ohm, or 550mAh for pods with coils at or above 1.0ohm, so you won't need to charge too often. If you'll be using the kit mostly at home, then any will work for you, BUT you should ask yourself next...

 

Will I be using just salts, just freebase, or alternating between both?


If you're a salts kind of guy/gal (and you should be, if you're trying to quit smoking, or have kept off stink sticks but are still craving for one, once in a while), look for a kit with a coil/pod resistance of 1.0ohm or higher, or at least gives you that option.

1.0ohm or higher coils will produce the smoothest, most flavorful vapor using salts, and you won't risk getting too hard a hit from too much vapor.

Now, if you're freebase-only, then you'll want a kit with a coil resistance much lower than 1.0ohm. We'd recommend 0.4 to 0.6ohm ourselves.

But, keep in mind that the battery capacity of your kit will need to be higher the lower the resistance of the coil. If you ask us, we'd look for no less than 1500mAh out of a kit that uses a coil/pod at 0.6ohm. At 0.4 ohm, 1500mAh is pushing it. The reason is simple: the lower the coil/pod resistance, the more electricity will flow through it as a function of time, and therefore the more power it'll consume during use (f$&@ that's actually more complicated than we want it to sound, but what can you do? Science).

Want our advice? Email or message anytime.