Temperature Control – a new answer for a persistent problem
Given the continually changing trends and advancements in vaping, it can be difficult to remain over the newest or most advanced devices on the market. More vitally you may pass up a great opportunity for how they can help you vape safer and more enjoyably. In case you’re anything like me that horrendous taste you get from a dry or consumed hit can really demolish your vape if not your day, if timed perfectly. Nothing can set my day on a terrible way like replacing a coil the second I leave the house. So for those of you like me, or those of you that simply wish your vape wasn’t so warm Temperature Control Vaping may be ideal for you.
Temperature Control Vaping is the next step in safer and more consistent vaping. Creating a truly necessary method for restricting the temperature generated in your coils, and preventing consumed coils, dry hits, or essentially keeping your vape from getting hotter than you prefer. We need to tell you what to search for, how to use this technology, and what it can improve the situation you.
Awful flavor is just piece of the problem
The results of a recent report released in Poland have demonstrated that, while vaping is substantially safer than tobacco items under certain circumstances you can be creating carbonyls. Presently I could bore you with the scientific definition of carbonyls, (Carbon particles double bonded with Oxygen iotas) yet what you’re supposing is ”the thing that does that mean for me?” Carbonyls are those little folks that the tobacco companies and pharmaceutical companies like to endeavor to scare vapers with, by referring to them as formaldehyde. They love to put out “study” after “study” telling you to beware the dangers of vaping. These same reports quite often list this Clean investigation as confirmation. Well the examination happened to use an ego style battery with a fundamental best coil clearomizer. So when the device was used “correctly” at 3.2-4.0 volts, the levels of carbonyls were extremely low. Just when the device was turned up to 4.8 volts did they begin to see a noteworthy rise in carbonyl generation. That, as well as the device was used at this level for close to 60 minutes! Presently I think we all realize what used to happen when our ecig used to accidentally get turned up that high on an essential clearomizer, and we unconsciously would take a decent long hit. Scorched earth is the main way I can describe it. Something similar to hitting filter on a cigarette, or chewing on a charcoal briquette.
I figure we would all be able to agree that by then we aren’t looking at vaping anymore, yet instead breathing in consuming silica and plastic. The most exceedingly bad part is that even abusing a device to that level couldn’t touch the carbonyls of only one cigarette, which still produces up to 607 times the sum. So what does the greater part of this tell us? That if there is something to beware of in vaping i.e. carbonyls; the main levels that will be of any significance will be from consuming your wick, or taking huge ole dry hits. This is where temperature control comes into play. Even the most careful vaper can’t prevent their coil from overheating or their juice not wicking quick enough every time.
What is temperature control?
Temperature Control is a technology that restricts the temperature the coil is allowed to heat up as well. This will help even the most beginner of vapers to prevent dry hits and overheating of their coils, and thusly confine the measure of carbonyls produced. The name temperature control is quite bit of a stretch because it’s not like these mods have the capacity to read the temperature of your coil degree by degree like the climate control in your house. These mods instead read the change in resistance in your coil as it heats up. When the change in resistance gets to a point where it is greatly noticeable, your temperature controlled device will complete one of a few things. It will either cut off power all together, (see rdna40 devices) restrict the power stream (see the IPV4), or essentially down change the power stream (see SMOK TC devices). I prefer the later two as they keep you vaping much of the time uninterrupted, and with the least noticeable change.
In temperature control mode, these devices work with Nickel or Titanium wired coils. This is because as these type of coils heat up the resistance goes up too. This enables the device to use the change in resistance as a guide to control the temperature. Presently remember they don’t read the temperature degree to degree so they control temperature to inside 10 degrees Fahrenheit. Not exclusively do these coils not use the standard Kanthal or Ni-Chrome coils, yet they appear to be a little unique also. Because Nickel and Titanium have so little electrical resistance, more wraps and even coil dispersing is required to get a coil of the same resistance as its Kanthal or Ni-Chrome counterpart.
Utilizing temperature control safely
Truth be told, before temperature control was introduced, Titanium and Nickel coils were not used because the absence of resistance made it very hard to use them safely. This causes the coils to combust potentially taking a lip or tooth in the process, and perhaps your battery to vent adding your face to the setback list. So please help yourself out and don’t attempt to take alternate ways by essentially purchasing Nickel and Titanium coils thinking this makes your current device a temperature controlled one.
With temperature controlled devices becoming more mainstream and more affordable, vape is making its next move to being an even safer and tastier item, and I believe that is something we are generally anticipating. Check out your nearest Vape store today for the latest selection in temperature controlled devices and accessories.