Skip to content

A Beginner's Guide To Vaping With Temperature Control

A vape atomizer is a ground-breaking technology that not only improved how you consume nicotine following its invention but has also been subject to continuous refinement. Vapes, unlike its immediate competitor, cigarettes, have not been saturated because of their ongoing advancements. With hundreds to thousands of new e-cigarette ideas being made every day, it's safe to say that the business will soon explode into a massive and profitable venture.

Temperature control vaping, or TC for short, is a relatively new feature in this niche, with a variety of mods to choose from. It ideally entails the use of wire or coils in vape mods to control, restrict, and limit power. Its function is to prevent dry or burned hits from occurring when a vaper drags vape juice from the mod for an extended period of time. The technique aids in maintaining a constant temperature rather than allowing it to burn.

In this blog we will try to explain all about what temperature control is and how temperature control mode actually works on a vape and its effect in short it is complete beginners guide to vaping with temperature control.

What Is Temperature Control Vaping?

Temperature Control allows you to specify a maximum degree for your coils, and your vape kit will adjust the power output to keep them from exceeding that temperature. Temperature control mode was created to prevent burnt coils or "dry hits." When utilized correctly, your coils will never run too hot and, as a result, will never burn.

In effect, Temperature Control mode will act as a safety net, extending the life of your coils while also improving the quality of your vape. As a result, a large number of temperature control vape mods and kits have been developed. Unlike the typical variable wattage mode on most kits, you won't have to specify a wattage output; instead, the kit will adjust output to match your temperature requirements.

How Does It Work?

When compared to Kanthal, nickel and titanium wire are used in the majority of temperature-controlled systems because they have a more linear resistance-to-temperature relationship.

So, how does it function? While vape mods and kits are sophisticated, none of them can detect temperature changes. Instead, they monitor variations in the resistance of your coil. When a coil heats up, its resistance rises, and your kit will keep note of these changes and assign them a temperature value. A change in resistance from 1.1 to 1.2 Ohm, for example, can result in a temperature increase from 120 to 130 degrees Fahrenheit.

If your mod chip detects that your coil is about to overheat, it can either send less power through the coil or ‘pulse' power through it in brief bursts to give your coil a split-second to cool down. In either case, you may vape with confidence knowing that you won't get a burnt or dry hit, and that the size and density of the vapor cloud will be consistent.

How to TC vape

Every box mod has a somewhat distinct set of menu settings, however TC vaping can be broken down into three steps:

Step 1: Set It

To begin, inform your box mod of the alloy your coil is constructed of. Typically, you may do this by selecting the coil type from a dropdown menu on your box mod's screen. If your box mod doesn't include an integrated Ohm meter, you'll have to set the resistance manually. After that, you can set your desired temperature. As a general rule, you're setting the maximum temperature your coil should attain. If you get stuck, consult the manufacturer's instructions.

Step 2: Try It

You can next try firing up your mod to see whether you like the warmth and thickness of the vapor it produces. If your vapor isn't thick enough, you'll need to raise the maximum temperature. Reduce the maximum temperature if it's too dense. If your vapor is too hot, consider opening up the ventilation openings on your tank before changing the TC settings. It's possible that your e-juice has evaporated and needs to be mixed with more room-temperature air before inhaling (learn more about vape airflow).

Step 3: Fiddle Until You’re Happy

Continue to experiment with the settings, making little modifications at a time until you discover your sweet spot. When you change your e-liquid (especially if the VG/PG ratios are different), or when you change your coil, you'll need to re-calibrate your TC settings, so be accustomed with the TC Mode adjustment process and memories it if you can.

What Is The Best Temperature for TC vaping?

Select the appropriate wire type and switch to Temperature Control mode, whether via the menu system or a dedicated button (SS, Ni or TI). Determine your temperature limit, which should be determined by considering wire type and wattage output. What is the ideal temperature to TC vape at? This is one of the most often requested questions. Start with a lower temperature and vape a few times before deciding whether you need to go any higher. The most typical temperature range is 200°C to 250°C, but research should never be overlooked - so do your homework. It's likely that you won't get it right the first time, so give it a few tries.

Advantages Of Temperature Control Vaping

You can enjoy your vape juice more if you have the option to customize the temperature to your liking.

In fact, it allows you more vaping flexibility than it did in the past. The following are some of the notable advantages of Temperature Control Vaping technology:

  1. Dry Hits Are Eliminated

When there is no e-liquid in the tank or the wick has dried up, a dry hit occurs. It also happens when the cooling element dramatically raises the element's temperature. When the e-juice in the tank dries up and the element remains at such a high temperature, the vaper inhales smoke rather than vapor, which is extremely irritating to the throat. When temperature control is set on in these devices, instead of the coil heating up in the absence of vape juice in the tank, power is shut off, and the vapor receives less power and produces less vapor than dry hits.

  1. Extends the life of the coil

As a result, the health of the vape coil is ensured when it is prevented from becoming overheated. This extends its life and allows the vaper to take more puffs before it is entirely depleted.

  1. The Individual's Well-Being

Temperature Control is unquestionably beneficial to the vaper's health. It not only protects the coil from overheating and damage in the long term, but it also protects the e-juice user from toxic chemicals released when the wick burns out. A drying wick, for example, emits a poisonous formaldehyde molecule that is damaging to the body.

  1. Extend Battery Life

Temp control vapes have been discovered to consume only the amount of electricity required to keep the coil (heating element) at the proper temperature. As a result, it saves energy and, as a result, extends the battery's overall life.

  1. The Vape's Consistency

The device is consistent from one puff to the next, and even within the puff, because the temperature of the coils is controlled on the other hand the hits are irregular in a common wattage of an ordinary vape since the temperature of the coil varies depending on how long the hit lasts.

Conclusion

We hope this blog is a complete beginners guide to vaping with Temperature Control, and we recommend that you utilize it as part of a wider research project. Temperature Control is affected by a variety of factors, ranging from device kinds and coil wire to temperature, all of which must be anticipated and prepared for, with knowledge and safety playing a critical role in the process. Before attempting to use Temperature Control mode, always follow the manufacturer's and supplier's instructions. You can visit our Store to buy different kind of Temperature Control Vaping devices.

 

Please do not hesitate to Contact Us if you have any queries concerning this issue or vaping in general.

Previous article Nicotine Salt May be a Good Fit for Smokers and Vapers
Next article Why Should You Choose 0mg Nicotine E-liquids?

Leave a comment

Comments must be approved before appearing

* Required fields