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What Is The Best Battery For My Vape Device - 18650, 20700 & 21700

WEBVTT
Kind: captions
Language: en

00:00:00.030
hey guys Slayer over a discount of a pen
00:00:02.030 00:00:02.040 and today we're kind of gonna be
00:00:03.290 00:00:03.300 comparing some of the more popular
00:00:04.370 00:00:04.380 batteries on the market to kind of
00:00:05.840 00:00:05.850 figure out which one will suit your
00:00:07.070 00:00:07.080 device the best
00:00:08.610 00:00:08.620 [Music]
00:00:29.760 00:00:29.770 alright guys so now this is gonna be
00:00:31.840 00:00:31.850 quite the video um we're gonna kind of
00:00:33.910 00:00:33.920 tell you you know from my specific
00:00:36.010 00:00:36.020 scenario you know I have device a you
00:00:38.710 00:00:38.720 know what is device age needs and what
00:00:40.870 00:00:40.880 kind of battery will suit that best now
00:00:42.880 00:00:42.890 you can see we have quite a few
00:00:44.200 00:00:44.210 different batteries here we got it
00:00:45.820 00:00:45.830 separated out these are gonna be your
00:00:47.229 00:00:47.239 21700 slash 27 hundredths these are not
00:00:50.590 00:00:50.600 quite the standard but the industry is
00:00:52.479 00:00:52.489 moving to a lot more devices using these
00:00:54.310 00:00:54.320 these are gonna usually hold higher
00:00:56.170 00:00:56.180 specifications than yours' then your
00:00:57.910 00:00:57.920 regular standard which is going to be
00:00:59.200 00:00:59.210 these 18 650 s 99% of mods nowadays are
00:01:02.920 00:01:02.930 gonna use these types of batteries this
00:01:04.749 00:01:04.759 video really isn't about what does what
00:01:06.460 00:01:06.470 battery does my mod take you know you
00:01:07.930 00:01:07.940 can figure that out by reading your
00:01:09.130 00:01:09.140 manual this is more you know if I'm in
00:01:11.499 00:01:11.509 18 650 class what is best or from the
00:01:14.170 00:01:14.180 2700 class you know what would be best
00:01:16.480 00:01:16.490 there and vice versa so now guys the
00:01:19.780 00:01:19.790 main specification differences we're
00:01:21.460 00:01:21.470 gonna be focusing on is going to be
00:01:22.900 00:01:22.910 milliamp hours or mile and amperage
00:01:25.570 00:01:25.580 those are gonna be the two important
00:01:26.920 00:01:26.930 points of your battery now how they're
00:01:29.620 00:01:29.630 gonna affect your daily usage for an
00:01:31.990 00:01:32.000 easy easy way to put it
00:01:33.400 00:01:33.410 my is basically your batteries and load
00:01:35.499 00:01:35.509 is it's how much how much battery life
00:01:37.480 00:01:37.490 it can put out how long it can last in
00:01:39.430 00:01:39.440 between charges the more of a milliamp
00:01:41.440 00:01:41.450 overload you have you know the more of
00:01:43.240 00:01:43.250 the rating you have the longer that
00:01:44.680 00:01:44.690 battery is gonna last but then you also
00:01:46.809 00:01:46.819 have the amperage the amperage is kind
00:01:48.609 00:01:48.619 of your stress load so if you have a
00:01:50.770 00:01:50.780 really high-powered scenario you're
00:01:53.169 00:01:53.179 running really low ohm coils and you're
00:01:55.419 00:01:55.429 putting in high wattage you're gonna
00:01:56.949 00:01:56.959 want a good amperage a good stress
00:01:58.690 00:01:58.700 rating because that is gonna be a
00:01:59.859 00:01:59.869 stressful type of vape for your your
00:02:01.719 00:02:01.729 device so your batteries are gonna have
00:02:03.490 00:02:03.500 a higher amp rating to kind of kind of
00:02:05.830 00:02:05.840 you know cover that up and and make
00:02:08.169 00:02:08.179 everything run smooth now when when is
00:02:11.320 00:02:11.330 it best to pick amperage over voltage
00:02:13.720 00:02:13.730 I mean amperage over ma well it's gonna
00:02:15.790 00:02:15.800 depend on your scenario the first thing
00:02:17.470 00:02:17.480 you have to decide is my device
00:02:18.910 00:02:18.920 regulated or unregulated now if it's
00:02:21.370 00:02:21.380 regulated you're probably gonna go more
00:02:23.080 00:02:23.090 for ma you want you want the especially
00:02:25.510 00:02:25.520 if it's a dual battery it's a dual
00:02:26.949 00:02:26.959 battery regulated you're more than
00:02:28.270 00:02:28.280 likely going to go for milliamps because
00:02:30.280 00:02:30.290 having a regulated device means you have
00:02:32.080 00:02:32.090 a chip now a chipset is gonna kind of
00:02:34.300 00:02:34.310 offset any off amperage it's gonna kind
00:02:36.940 00:02:36.950 of autocorrect itself now if you have a
00:02:38.890 00:02:38.900 mechanical mod something that's running
00:02:40.509 00:02:40.519 direct battery current you don't have
00:02:42.970 00:02:42.980 chips to do you know such cool things
00:02:45.610 00:02:45.620 for you got to worry about the ratings
00:02:47.199 00:02:47.209 of your battery making direct contact
00:02:49.110 00:02:49.120 and making sure that they fit and that's
00:02:52.479 00:02:52.489 really one you know you have to worry
00:02:54.100 00:02:54.110 about amperage more than ma you you want
00:02:56.440 00:02:56.450 to make sure that you're in running your
00:02:57.759 00:02:57.769 device in a safe scenario rather than a
00:02:59.830 00:02:59.840 long-lasting battery scenario so just to
00:03:02.890 00:03:02.900 kind of kind of make it a little easier
00:03:04.180 00:03:04.190 for the explanation cuz this is kind of
00:03:06.339 00:03:06.349 a lot for some viewers and we want to
00:03:07.809 00:03:07.819 make sure you really you know get the
00:03:09.520 00:03:09.530 knowledge that we're trying to try to
00:03:10.750 00:03:10.760 teach you guys out of this I'm just
00:03:12.819 00:03:12.829 gonna kind of give you go around on how
00:03:14.410 00:03:14.420 I would look at these scenarios so for
00:03:16.600 00:03:16.610 example you know this G box right here
00:03:18.819 00:03:18.829 this is my daily device this is you know
00:03:21.039 00:03:21.049 my beater yes I have nicer devices but
00:03:23.140 00:03:23.150 this is what I carry on a daily basis
00:03:24.729 00:03:24.739 just because it's easy and it's it's
00:03:26.110 00:03:26.120 it's not an expensive device now that
00:03:28.780 00:03:28.790 being said what's important about this
00:03:30.670 00:03:30.680 it's regulated so let's that's gonna
00:03:32.530 00:03:32.540 regulation means obviously we have a
00:03:34.449 00:03:34.459 chip we can adjust our settings there's
00:03:36.640 00:03:36.650 a chipset to do all the math we're
00:03:38.410 00:03:38.420 involving the wattage of the batteries
00:03:39.880 00:03:39.890 and everything so that's the first thing
00:03:41.530 00:03:41.540 you have to consider so when I look at
00:03:43.180 00:03:43.190 this and I'm like okay my device is
00:03:44.500 00:03:44.510 regulated now I want to run high wattage
00:03:46.500 00:03:46.510 on these types of devices I'm gonna run
00:03:49.479 00:03:49.489 anywhere from 100 to 140 now that is
00:03:52.750 00:03:52.760 gonna be stressful but the device is
00:03:54.819 00:03:54.829 also regulated so now I'm kind of in a
00:03:56.620 00:03:56.630 weird middle scenario where I could kind
00:03:58.780 00:03:58.790 of go for either specification and it
00:04:01.089 00:04:01.099 can kind of lead me towards a better
00:04:02.500 00:04:02.510 overall usage in either category but
00:04:05.559 00:04:05.569 it's really my choice because in my box
00:04:07.120 00:04:07.130 is regulated so what I'm trying to
00:04:08.650 00:04:08.660 explain is yes I'm gonna want to higher
00:04:10.809 00:04:10.819 milliamps because I'm drawing a lot of
00:04:12.839 00:04:12.849 mah from the battery for each hit but
00:04:15.909 00:04:15.919 also each hits a little stressful now
00:04:18.009 00:04:18.019 with a scenario like this you want a
00:04:20.349 00:04:20.359 good middle ground you wanna you want a
00:04:21.819 00:04:21.829 decent rated amperage but also a pretty
00:04:23.800 00:04:23.810 pretty decent rated mas you'd want a
00:04:25.480 00:04:25.490 medium grade battery for example I
00:04:28.300 00:04:28.310 choose to use the Sony's the VCT 5s now
00:04:31.300 00:04:31.310 the specifications on these are gonna be
00:04:33.700 00:04:33.710 twenty twenty six hundred milliamps with
00:04:36.100 00:04:36.110 30 amp rating 30 amp readings pretty
00:04:38.320 00:04:38.330 good I mean these are really really
00:04:39.939 00:04:39.949 really good sell for most uses in
00:04:42.189 00:04:42.199 general now that the milliamps aren't
00:04:44.469 00:04:44.479 the best most of the industry standards
00:04:47.650 00:04:47.660 they're gonna go up to about 3,000
00:04:49.180 00:04:49.190 milliamps with these you only get 2600
00:04:51.459 00:04:51.469 so they're not the longest lasting
00:04:52.570 00:04:52.580 batteries but because they have those 30
00:04:54.610 00:04:54.620 amps they're really good on
00:04:56.380 00:04:56.390 stress load so it's not you're not
00:04:58.120 00:04:58.130 sacrificing too much battery life but
00:05:00.100 00:05:00.110 you're ensuring that you know your your
00:05:01.960 00:05:01.970 device is going to be able to perform
00:05:03.310 00:05:03.320 keep up with any kind of stress or slag
00:05:06.160 00:05:06.170 from from high high wattage hit now that
00:05:10.570 00:05:10.580 said with regulated if we switch
00:05:12.580 00:05:12.590 everything over and we're gonna use
00:05:14.020 00:05:14.030 something unregulated and another big
00:05:15.940 00:05:15.950 difference here say this mechanical mod
00:05:18.130 00:05:18.140 we have here is an old Panzer this guy
00:05:21.070 00:05:21.080 only has one battery and when you when
00:05:23.110 00:05:23.120 you fire this off by pushing that
00:05:24.580 00:05:24.590 mechanical button on the bottom you're
00:05:26.380 00:05:26.390 connecting your battery directly without
00:05:28.090 00:05:28.100 any actually not directly but you're
00:05:30.280 00:05:30.290 connecting it without any protection
00:05:31.570 00:05:31.580 that's the important thing
00:05:33.490 00:05:33.500 some are gonna be a direct contact this
00:05:35.350 00:05:35.360 one is not there's a pin on the top that
00:05:37.150 00:05:37.160 has to pass through as a middle way but
00:05:39.790 00:05:39.800 some are direct battery contact right up
00:05:41.770 00:05:41.780 to your RDA now with the scenario like
00:05:43.990 00:05:44.000 this you're not worried about milliamps
00:05:46.030 00:05:46.040 you're more worried about carrying
00:05:47.620 00:05:47.630 around spare batteries and making sure
00:05:49.420 00:05:49.430 as you're using this thing day by day
00:05:50.980 00:05:50.990 you're doing it safely because if you
00:05:53.110 00:05:53.120 have a stressful build like this
00:05:54.580 00:05:54.590 something low home and we're gonna just
00:05:56.710 00:05:56.720 call it safe in this video for anything
00:05:58.270 00:05:58.280 below 0.1 or really even anything around
00:06:00.850 00:06:00.860 0.1 you're gonna want a high amperage
00:06:02.710 00:06:02.720 you're gonna want to make sure that your
00:06:03.880 00:06:03.890 batteries aren't stressing out in this
00:06:05.530 00:06:05.540 tube where you know potentially
00:06:07.120 00:06:07.130 something could short out or heat you
00:06:09.010 00:06:09.020 want to you want to keep it safe now
00:06:10.750 00:06:10.760 through this you know these Sony's are
00:06:13.090 00:06:13.100 gonna be great too because 30 amps is
00:06:14.950 00:06:14.960 really high in the amperage rating
00:06:16.840 00:06:16.850 you're still sacrificing some MA but
00:06:19.030 00:06:19.040 you're gonna get a great hit you just
00:06:20.260 00:06:20.270 may change your batteries more it's a
00:06:22.000 00:06:22.010 much better scenario to be in than to
00:06:24.340 00:06:24.350 say you know what I'm gonna do it a
00:06:25.690 00:06:25.700 little more unsafe with but not change
00:06:27.520 00:06:27.530 my batteries as much it's just not worth
00:06:29.260 00:06:29.270 it it's really not how all this is meant
00:06:31.510 00:06:31.520 to be done so we just want to show you
00:06:33.820 00:06:33.830 guys some of the readings on some of
00:06:35.470 00:06:35.480 these batteries that we grabbed you guys
00:06:36.730 00:06:36.740 so the first one we have here is your
00:06:38.950 00:06:38.960 sony vc t5 the these are all 18 650s by
00:06:42.850 00:06:42.860 the way so probably the more common type
00:06:44.410 00:06:44.420 you're going to be using this is the DC
00:06:46.780 00:06:46.790 t5 this is by Sony this is a very
00:06:48.670 00:06:48.680 popular cell these guys are 30 amp with
00:06:51.040 00:06:51.050 2600 mAh
00:06:52.210 00:06:52.220 that was what I used in the
00:06:53.020 00:06:53.030 demonstration they have a very high amp
00:06:55.000 00:06:55.010 rating for most batteries so you know if
00:06:56.890 00:06:56.900 you're going for safety you want it's
00:06:58.240 00:06:58.250 work well this is a great cell for you
00:07:00.240 00:07:00.250 next we have the Samsung the 25 R oh no
00:07:04.810 00:07:04.820 I'm sorry this was the VC t6 this is
00:07:06.730 00:07:06.740 also the Sony so this is a slight
00:07:08.770 00:07:08.780 difference from the
00:07:09.620 00:07:09.630 ct5 there's different specifications
00:07:11.720 00:07:11.730 these are gonna be 3000 milliamp but
00:07:14.030 00:07:14.040 then they also cut the amperage down to
00:07:16.340 00:07:16.350 20 amp so it doesn't offer quite the
00:07:18.620 00:07:18.630 amperage that the 5 does but it has more
00:07:20.690 00:07:20.700 of a milliamp so this is kind of what
00:07:22.070 00:07:22.080 the whole video is about where when is
00:07:24.260 00:07:24.270 what better from my scenario and that's
00:07:26.540 00:07:26.550 kind of what we're trying to explain so
00:07:27.950 00:07:27.960 these are the two Sony batteries here we
00:07:30.770 00:07:30.780 have another popular cell this is the
00:07:32.840 00:07:32.850 this is LG's so and that's another thing
00:07:35.690 00:07:35.700 you could take note here is a lot of
00:07:37.070 00:07:37.080 these good branded batteries are gonna
00:07:39.110 00:07:39.120 be commonly like you know they make TVs
00:07:41.240 00:07:41.250 you know bigger companies so first we
00:07:43.310 00:07:43.320 had Sony this is gonna be LG now this is
00:07:45.980 00:07:45.990 a very popular battery these are 3,000
00:07:48.290 00:07:48.300 milliamps which is which is a high
00:07:49.760 00:07:49.770 rating for this standard and then you
00:07:51.680 00:07:51.690 got a 20 amp rating on these so they're
00:07:53.930 00:07:53.940 very similar to the VC t6 and usually
00:07:56.030 00:07:56.040 people are gonna have their preference
00:07:57.290 00:07:57.300 one brand over the other you ask me
00:07:59.150 00:07:59.160 personally I'm gonna say Sony's are a
00:08:00.740 00:08:00.750 little better but you know there's no
00:08:02.270 00:08:02.280 better or worse that's all opinion at
00:08:03.800 00:08:03.810 that point the rating is very similar to
00:08:05.900 00:08:05.910 the six and those are both really good
00:08:07.700 00:08:07.710 ratings to have and then next we're
00:08:10.190 00:08:10.200 gonna have your Samsung 25 R so this is
00:08:13.340 00:08:13.350 2500 this is a 2500 milliamp battery
00:08:16.160 00:08:16.170 with a 20 amp um also pretty similar to
00:08:20.840 00:08:20.850 the other ones and reading it's got a
00:08:22.460 00:08:22.470 good mix between having a high amperage
00:08:24.140 00:08:24.150 and a decent milliamp so it's it's a
00:08:26.750 00:08:26.760 good middle ground battery more so if
00:08:29.090 00:08:29.100 you have like a dual regulated battery
00:08:30.710 00:08:30.720 and you're and you're not sure if you
00:08:32.360 00:08:32.370 need more amps or more ma this is a good
00:08:35.060 00:08:35.070 pic to just kind of be right in the
00:08:36.350 00:08:36.360 middle of both and then lastly we got
00:08:38.270 00:08:38.280 your LG this is a he4 this is 2500 mAh
00:08:42.050 00:08:42.060 and 20 amps so this is another one
00:08:44.390 00:08:44.400 that's very similar to the last one we
00:08:45.830 00:08:45.840 showed you the Samsung 25 are just ones
00:08:48.620 00:08:48.630 made by LG is the he4 and again this
00:08:51.440 00:08:51.450 one's 2500 milliamps with 20 amp
00:08:54.230 00:08:54.240 readings so we just showed you guys the
00:08:57.050 00:08:57.060 18 650s now we have three select 21700
00:09:00.230 00:09:00.240 through 2700 switch is kind of a kind of
00:09:02.660 00:09:02.670 a reversible name most of the time and
00:09:04.820 00:09:04.830 now this is gonna be something that it's
00:09:06.410 00:09:06.420 not really set in stone but the the
00:09:08.840 00:09:08.850 sizing on that most of the time twenty
00:09:10.760 00:09:10.770 one seven hundred and twenty seven
00:09:11.900 00:09:11.910 hundred will fit the same they're both
00:09:13.880 00:09:13.890 relatively the same size but they are
00:09:16.010 00:09:16.020 clearly different from the 18 650s most
00:09:18.230 00:09:18.240 of the time mods to take eighteen 650s
00:09:20.150 00:09:20.160 will not take these unless they have
00:09:21.829 00:09:21.839 like an adapter
00:09:22.940 00:09:22.950 sometimes we get a little battery sleeve
00:09:24.530 00:09:24.540 and you could use both but just just for
00:09:26.870 00:09:26.880 the viewer for you to know these two
00:09:28.310 00:09:28.320 batteries don't don't go you know
00:09:30.560 00:09:30.570 Universal it's your mods do they're
00:09:32.270 00:09:32.280 gonna take one type or the other now to
00:09:33.860 00:09:33.870 kind of dive into some of the specs here
00:09:35.360 00:09:35.370 this first one we got here is the
00:09:37.340 00:09:37.350 Samsung 30 T now these offer a good mix
00:09:39.980 00:09:39.990 of both these are gonna be a little bit
00:09:41.510 00:09:41.520 better than the VC t5 so we showed you
00:09:43.340 00:09:43.350 from the 18 650s and that's the thing
00:09:45.230 00:09:45.240 having the 21 700 or 2700 the ratings on
00:09:48.530 00:09:48.540 everything is usually a little better so
00:09:50.690 00:09:50.700 with these you have 3000 milliamps and
00:09:52.550 00:09:52.560 35 amps so it's that's the thing 21700
00:09:56.110 00:09:56.120 2700 s they're good in both aspects for
00:09:58.940 00:09:58.950 the most part all the time except for
00:10:00.530 00:10:00.540 one which we have here we'll show you
00:10:01.790 00:10:01.800 that at the end but this is a really
00:10:03.740 00:10:03.750 solid battery for whatever case you may
00:10:05.420 00:10:05.430 be doing great moderate amperage next we
00:10:08.030 00:10:08.040 have the VR K this is gonna be a 3000
00:10:10.670 00:10:10.680 mAh battery with a 30 amp so slightly
00:10:13.430 00:10:13.440 less amperage than than the second
00:10:15.470 00:10:15.480 battery I mean the first battery showed
00:10:17.090 00:10:17.100 you but it's still a really solid cell
00:10:18.590 00:10:18.600 these are these are an accurate rating
00:10:20.120 00:10:20.130 we've been doing well with these so the
00:10:22.460 00:10:22.470 30 amp continuous discharge on this guy
00:10:24.560 00:10:24.570 and then this last one is a Samsung
00:10:26.600 00:10:26.610 battery you know this is the 30 II these
00:10:28.940 00:10:28.950 are a little different these guys have a
00:10:30.380 00:10:30.390 really low amperage but a very high mods
00:10:32.980 00:10:32.990 5000 mAh with a 9 amp rating so if you
00:10:36.140 00:10:36.150 put two of these on a regulated device
00:10:37.730 00:10:37.740 you're gonna have about 20 amps which is
00:10:39.710 00:10:39.720 more than enough if your device is
00:10:41.120 00:10:41.130 regulated and then 5000 mile in each
00:10:43.310 00:10:43.320 battery this this is really like a giant
00:10:45.350 00:10:45.360 load of battery life so again you kind
00:10:47.420 00:10:47.430 of pick which one you need for whatever
00:10:48.680 00:10:48.690 scenario and you go through each type of
00:10:52.070 00:10:52.080 reading so now we're kind of gonna go
00:10:54.190 00:10:54.200 elaborate on a point that we showed you
00:10:56.090 00:10:56.100 guys before where with really with the
00:10:58.610 00:10:58.620 21 727 hundreds for some devices they
00:11:01.760 00:11:01.770 can kind of be interchangeable but in
00:11:03.440 00:11:03.450 this scenario we're gonna kind of show
00:11:04.880 00:11:04.890 you just to what works in what so here
00:11:06.890 00:11:06.900 we have the I draw a venture this is a
00:11:08.660 00:11:08.670 product we carry you know if you're
00:11:09.980 00:11:09.990 interested in looking at something like
00:11:11.090 00:11:11.100 this we do have it on our website
00:11:12.110 00:11:12.120 discount vape pen calm that aside
00:11:14.660 00:11:14.670 however this is this is a great example
00:11:16.610 00:11:16.620 because this device comes with a plastic
00:11:18.950 00:11:18.960 battery adapter sleeve so you can see
00:11:20.990 00:11:21.000 this guy right here they have contact
00:11:22.910 00:11:22.920 pins on that side and your batteries are
00:11:24.890 00:11:24.900 gonna lay like that in here now what is
00:11:26.870 00:11:26.880 the point of this well this device
00:11:28.610 00:11:28.620 natively is gonna take a twenty twenty
00:11:31.550 00:11:31.560 seven hundred that's what fits in here
00:11:33.350 00:11:33.360 however if you already have eighteen
00:11:35.150 00:11:35.160 650s this
00:11:36.620 00:11:36.630 your sleeve will let you put two of them
00:11:38.090 00:11:38.100 in here and it will run off 18 650s also
00:11:40.639 00:11:40.649 so we'll just kind of show you your 18
00:11:43.009 00:11:43.019 650s that's just gonna slide right in
00:11:45.230 00:11:45.240 there and you could see that is flush
00:11:47.300 00:11:47.310 there's nothing extra sticking out and
00:11:49.040 00:11:49.050 that little bit on the bottom is gonna
00:11:50.809 00:11:50.819 bump it out the extra size that it would
00:11:52.550 00:11:52.560 need to be it's gonna fit in there
00:11:54.079 00:11:54.089 perfect like it is a 2700 now if we take
00:11:57.290 00:11:57.300 a 21 700 which is a little bit bigger
00:12:00.350 00:12:00.360 just ever so slightly and like I said
00:12:02.269 00:12:02.279 sometimes these can work in 2700 devices
00:12:04.939 00:12:04.949 this isn't a perfect example where a
00:12:07.730 00:12:07.740 wall that just will not go in there okay
00:12:09.829 00:12:09.839 so this guy you're gonna need your 2700
00:12:13.850 00:12:13.860 not the 21 700 and that'll just plop
00:12:16.340 00:12:16.350 right in there now that also brings up a
00:12:18.889 00:12:18.899 good point with batteries and hey you
00:12:21.199 00:12:21.209 know my device takes more than one why
00:12:23.600 00:12:23.610 don't I just pick one with a high end
00:12:25.129 00:12:25.139 from one with the hi MA well we'll kind
00:12:27.050 00:12:27.060 of show you some scenarios with that
00:12:29.090 00:12:29.100 coming up right here so now just to get
00:12:32.569 00:12:32.579 show you guys we're gonna put two
00:12:33.800 00:12:33.810 batteries inside this sleeve now these
00:12:36.949 00:12:36.959 are gonna fit perfect and we'll just
00:12:38.749 00:12:38.759 sneak them into the device right here
00:12:42.249 00:12:42.259 like so you can see they fit perfect
00:12:45.530 00:12:45.540 they're tucked away that's all in there
00:12:47.269 00:12:47.279 now you might be wondering why alright
00:12:49.460 00:12:49.470 so if I have two 18 650s here you might
00:12:53.389 00:12:53.399 have one or two left over let's say that
00:12:55.340 00:12:55.350 you also have an LG battery now is there
00:12:58.129 00:12:58.139 anything wrong with doing this yes and
00:13:01.400 00:13:01.410 no potentially is it gonna cause a
00:13:04.009 00:13:04.019 device braking problem not really but we
00:13:07.579 00:13:07.589 really highly recommend against doing
00:13:09.319 00:13:09.329 this I almost the point we're gonna say
00:13:11.449 00:13:11.459 just don't just don't do this the
00:13:13.639 00:13:13.649 problem you'll have here is gonna be
00:13:15.470 00:13:15.480 what's gonna happen is if your device is
00:13:17.900 00:13:17.910 regulated it's gonna take the best
00:13:19.759 00:13:19.769 setting and then kind of downplay it to
00:13:23.059 00:13:23.069 match the the lesser value of the other
00:13:25.340 00:13:25.350 battery so let's say you have for
00:13:27.620 00:13:27.630 example a 3000 and a 2500 your device is
00:13:31.879 00:13:31.889 now going to read both batteries is a
00:13:33.379 00:13:33.389 2500 and as well as have a hard time
00:13:35.749 00:13:35.759 keeping up with how to draw the power
00:13:37.249 00:13:37.259 out evenly and honestly mixing batteries
00:13:40.189 00:13:40.199 like that is just gonna cause more
00:13:41.569 00:13:41.579 problems down the line and it's also
00:13:42.980 00:13:42.990 gonna shorten the lifespan of both these
00:13:44.990 00:13:45.000 guys so highly recommended forget mixing
00:13:48.230 00:13:48.240 keep them together
00:13:49.910 00:13:49.920 even with that there's a popular term
00:13:51.530 00:13:51.540 called marrying the batteries which
00:13:53.720 00:13:53.730 means you're gonna want to buy two
00:13:54.860 00:13:54.870 brand-new ones at the same time maybe
00:13:57.500 00:13:57.510 even mark these up with a sharpie set
00:13:59.300 00:13:59.310 one keep them together and always
00:14:01.490 00:14:01.500 discharge them together that way they're
00:14:03.350 00:14:03.360 always gonna stay even your cells are
00:14:05.480 00:14:05.490 gonna maintain a healthy lifestyle and
00:14:07.310 00:14:07.320 they're gonna last you overall longer
00:14:08.930 00:14:08.940 and just having a married is gonna make
00:14:11.360 00:14:11.370 that even better and now what's
00:14:13.189 00:14:13.199 important to know is this doesn't just
00:14:14.660 00:14:14.670 apply to eighteen 650s this is this
00:14:16.490 00:14:16.500 applies to whatever size you're using if
00:14:18.290 00:14:18.300 it's it was twenty one seven hundred
00:14:20.300 00:14:20.310 twenty seven hundreds you don't want to
00:14:21.710 00:14:21.720 mix you don't want to have one of each
00:14:22.910 00:14:22.920 of these you know you want to keep them
00:14:24.769 00:14:24.779 all the same type one two three
00:14:26.480 00:14:26.490 batteries it doesn't matter now guys
00:14:29.000 00:14:29.010 this might be the most important part of
00:14:30.560 00:14:30.570 this entire video even though it's
00:14:32.120 00:14:32.130 probably the least and formal but this
00:14:33.889 00:14:33.899 is necessary with batteries now there
00:14:36.079 00:14:36.089 are really only four spots that your
00:14:37.850 00:14:37.860 batteries should be at all times there's
00:14:39.920 00:14:39.930 a major issue with safety now if we look
00:14:42.319 00:14:42.329 at one of these eighteen 650s you're
00:14:44.329 00:14:44.339 gonna see obviously the first thing you
00:14:45.860 00:14:45.870 notice is the color and then people like
00:14:47.629 00:14:47.639 to associate the color with the type
00:14:49.189 00:14:49.199 like for example LG's are commonly
00:14:51.980 00:14:51.990 associated as the chocolate battery now
00:14:55.160 00:14:55.170 the reason for that is because of the
00:14:56.389 00:14:56.399 wrapping and the wrapping is there for
00:14:57.860 00:14:57.870 an important reason especially up here
00:14:59.240 00:14:59.250 around the positive contact if it's
00:15:02.180 00:15:02.190 wrapping gets ripped at all and any
00:15:03.710 00:15:03.720 metal gets exposed in the middle or you
00:15:05.600 00:15:05.610 know even if you you touched the
00:15:07.100 00:15:07.110 positive or the negative the wrong way
00:15:08.449 00:15:08.459 long story short if this comes in
00:15:10.970 00:15:10.980 contact with metal in the wrong way this
00:15:12.710 00:15:12.720 potentially could short out and that's
00:15:14.600 00:15:14.610 gonna be a really dangerous scenario you
00:15:16.340 00:15:16.350 know it's almost like a little hand
00:15:17.480 00:15:17.490 grenade going off you got time but you
00:15:19.699 00:15:19.709 don't want to be in that scenario so
00:15:21.019 00:15:21.029 we're here to show you you know the safe
00:15:24.110 00:15:24.120 spots where you're gonna want to keep
00:15:25.189 00:15:25.199 your battery number one the most common
00:15:27.139 00:15:27.149 and the most obvious in your device in
00:15:29.509 00:15:29.519 your device your battery safe
00:15:31.160 00:15:31.170 nothing's gonna hit it especially when
00:15:33.079 00:15:33.089 this is closed fully enclosed protected
00:15:35.269 00:15:35.279 great stuff second spot is gonna be
00:15:38.000 00:15:38.010 inside a protected battery case such as
00:15:40.069 00:15:40.079 this this is a four slot commonly you'll
00:15:42.710 00:15:42.720 see two slots as well they make singles
00:15:44.809 00:15:44.819 I'm sure there's companies that make
00:15:46.160 00:15:46.170 three sixes whatever you really need
00:15:47.900 00:15:47.910 these are great these little plastic
00:15:49.340 00:15:49.350 cases you know they don't have to be
00:15:51.319 00:15:51.329 plastic just some sort of battery case
00:15:53.210 00:15:53.220 designed for eighteen 650s you know no
00:15:55.850 00:15:55.860 metals getting in there that's that's
00:15:57.259 00:15:57.269 fully protected the other spot is gonna
00:16:00.290 00:16:00.300 be inside the charger now this guy here
00:16:03.079 00:16:03.089 is
00:16:03.560 00:16:03.570 the Luc blue 6o LED charger by EFS this
00:16:07.430 00:16:07.440 is a great charger you know this is what
00:16:09.140 00:16:09.150 we use around the shop for our personal
00:16:10.610 00:16:10.620 batteries and you know the battery
00:16:12.710 00:16:12.720 inside the charger safe now you don't
00:16:15.020 00:16:15.030 want to let this sit in there forever
00:16:16.220 00:16:16.230 once it's full you do want to pop it out
00:16:17.990 00:16:18.000 these these chargers are great and they
00:16:19.700 00:16:19.710 do offer protections for that overcharge
00:16:21.500 00:16:21.510 or whatnot not the biggest deal but this
00:16:24.710 00:16:24.720 is a very safe place to keep your
00:16:26.240 00:16:26.250 battery as long as you're keeping up
00:16:27.650 00:16:27.660 with taking it out once it's full and
00:16:29.180 00:16:29.190 finally we got our last spot which is
00:16:31.760 00:16:31.770 going to be obviously the box that it
00:16:34.070 00:16:34.080 comes in if you really have nothing you
00:16:35.840 00:16:35.850 know it's fine they just keep it in this
00:16:37.190 00:16:37.200 box just make sure you don't put this in
00:16:38.720 00:16:38.730 a spot where that little flap can open
00:16:40.580 00:16:40.590 up you know and expose that pin but
00:16:43.520 00:16:43.530 those are gonna be your four spots where
00:16:45.290 00:16:45.300 those are really the only place your
00:16:47.240 00:16:47.250 batteries should be at all times alright
00:16:49.610 00:16:49.620 guys so with such a long video which by
00:16:51.410 00:16:51.420 the way you know I want you want to give
00:16:52.820 00:16:52.830 you a complimentary high five for making
00:16:54.530 00:16:54.540 it to the end because this has been a
00:16:55.460 00:16:55.470 long one I mean I've been going off the
00:16:56.750 00:16:56.760 top of my head really but we just want
00:16:59.090 00:16:59.100 to kind of give you a summary of
00:17:00.230 00:17:00.240 everything just so that it's all fresh
00:17:01.640 00:17:01.650 in your head it was a lot of info to
00:17:02.870 00:17:02.880 catch really quick first thing you know
00:17:05.810 00:17:05.820 you're gonna decide if your mod takes
00:17:07.540 00:17:07.550 2718 650s with that being said between
00:17:10.490 00:17:10.500 the two classes 2,700 slash 21700 so
00:17:13.910 00:17:13.920 they're always gonna have a higher
00:17:15.189 00:17:15.199 higher bracket in either amber drama
00:17:17.750 00:17:17.760 than their 18 650 counterparts for the
00:17:20.000 00:17:20.010 most part I mean unless you get a really
00:17:21.319 00:17:21.329 bad so but you're always going to see it
00:17:23.480 00:17:23.490 increasing the values from the two types
00:17:25.400 00:17:25.410 now not all mods take both batteries
00:17:27.439 00:17:27.449 like we said we have this I Avenger here
00:17:29.600 00:17:29.610 this will support the 18 650 s as well
00:17:32.090 00:17:32.100 as the 2721 700 so were a little too big
00:17:34.760 00:17:34.770 but it can use the standard 18 650 s and
00:17:37.820 00:17:37.830 then one of the bigger of the two sizes
00:17:39.530 00:17:39.540 again though not all mods will be like
00:17:41.270 00:17:41.280 that that's going to depend on what you
00:17:42.920 00:17:42.930 buy when you buy it and you're gonna
00:17:44.030 00:17:44.040 want to buy your batteries afterwards
00:17:45.530 00:17:45.540 knowing what you need that being said
00:17:48.080 00:17:48.090 you have your two readings the real
00:17:49.490 00:17:49.500 things that we're looking at here they
00:17:50.750 00:17:50.760 were gonna be the milliamp hours how
00:17:53.000 00:17:53.010 much battery consists how much of of a
00:17:56.570 00:17:56.580 total draw you have until you have to
00:17:58.190 00:17:58.200 charge again and then you have amperage
00:17:59.780 00:17:59.790 which is going to be like your stress
00:18:00.950 00:18:00.960 load now for more higher wattage
00:18:03.760 00:18:03.770 unregulated you know anything stressful
00:18:06.110 00:18:06.120 you want amperage don't worry about ma
00:18:07.850 00:18:07.860 it's okay if you change your batteries a
00:18:09.500 00:18:09.510 little quicker you want to stick with a
00:18:10.940 00:18:10.950 higher amperage if you're using
00:18:12.260 00:18:12.270 something a little more mellow you know
00:18:13.850 00:18:13.860 maybe you got a single battery device
00:18:15.350 00:18:15.360 you got some
00:18:16.130 00:18:16.140 it's not pushing a lot of power that's
00:18:17.930 00:18:17.940 going to be perfect for having a higher
00:18:19.370 00:18:19.380 mod rating you'll just be able to
00:18:20.840 00:18:20.850 continually keep using your mod it's not
00:18:22.850 00:18:22.860 being stressed and you're gonna have a
00:18:24.020 00:18:24.030 longer time before you go switch the
00:18:25.610 00:18:25.620 battery or charge it so that's the
00:18:27.320 00:18:27.330 benefit there you know it's unregulated
00:18:29.650 00:18:29.660 with unregulated you're almost always
00:18:31.940 00:18:31.950 gonna want to head for more amperage and
00:18:34.040 00:18:34.050 then focus on MA as a secondary thing
00:18:36.050 00:18:36.060 having your Ma's brief but only if you
00:18:38.090 00:18:38.100 have enough amps to support what you
00:18:39.410 00:18:39.420 need and then with that being said you
00:18:42.620 00:18:42.630 know it all comes around to battery
00:18:44.120 00:18:44.130 safety which we wanted to cover again
00:18:45.950 00:18:45.960 just letting you know you know the four
00:18:47.750 00:18:47.760 safe places to keep all these batteries
00:18:49.550 00:18:49.560 are going to be you know in the device
00:18:51.410 00:18:51.420 you can keep them in the charge bay you
00:18:54.230 00:18:54.240 can keep them you know in the box that
00:18:55.820 00:18:55.830 you bought it in or you can keep them in
00:18:57.350 00:18:57.360 like a specialized you know plastic dirt
00:18:59.480 00:18:59.490 whatever kind of carrying case that's
00:19:01.460 00:19:01.470 really going to be the main place to
00:19:02.690 00:19:02.700 keep them home so I mean with a lot of
00:19:05.000 00:19:05.010 info going fast you know if you guys
00:19:06.500 00:19:06.510 have any questions you could always
00:19:07.610 00:19:07.620 throw them in the comments there's a lot
00:19:11.960 00:19:11.970 of stuff to go over with batteries I
00:19:13.250 00:19:13.260 mean and the other important thing too
00:19:14.960 00:19:14.970 is that you don't want to be so so stuck
00:19:17.180 00:19:17.190 on the colors and with that being said -
00:19:19.280 00:19:19.290 you don't want to mix them either if
00:19:20.750 00:19:20.760 you're buying a brand new device and you
00:19:22.550 00:19:22.560 want to buy Sony batteries buy two fresh
00:19:24.770 00:19:24.780 so many batteries and marry them
00:19:26.120 00:19:26.130 together
00:19:26.540 00:19:26.550 don't take this battery out of the
00:19:28.460 00:19:28.470 rotation and put in a different one and
00:19:30.230 00:19:30.240 then you have different colors going on
00:19:31.700 00:19:31.710 with what that situations really going
00:19:33.800 00:19:33.810 to create is the lesser value of your
00:19:35.720 00:19:35.730 two batteries is what both of them will
00:19:37.520 00:19:37.530 now become your 3000 mAh battery now
00:19:39.530 00:19:39.540 matches the worst one you decided to use
00:19:41.720 00:19:41.730 with maybe 2500 mAh now your box is in
00:19:44.030 00:19:44.040 both the 2500 mAh
00:19:45.530 00:19:45.540 so you want to acquit that all right
00:19:47.600 00:19:47.610 guys so we said this is a long video now
00:19:49.760 00:19:49.770 if you guys have any questions
00:19:50.450 00:19:50.460 definitely throw them in the comments
00:19:52.250 00:19:52.260 we'll check that out and try to reply to
00:19:53.510 00:19:53.520 you now if you're interested in any of
00:19:55.970 00:19:55.980 these products they're all available on
00:19:57.290 00:19:57.300 our website which is discount vape ENCOM
00:19:59.300 00:19:59.310 and if you guys liked what you saw make
00:20:02.060 00:20:02.070 sure you subscribe give us a like
00:20:03.440 00:20:03.450 that'll notify you of future videos but
00:20:06.050 00:20:06.060 with that being said that's our summary
00:20:07.580 00:20:07.590 of what is the best battery for my
00:20:09.500 00:20:09.510 device
00:20:11.120 00:20:11.130 00:20:14.370 00:20:14.380 [Applause]
00:20:17.379 00:20:17.389 you

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