Flashlight dumb questions

Hey thanks for the link! :slight_smile: Easy peasy now for ordering batteries and good prices too. :+1:

Yeah, that’d be fine. At some point you’ll want a “real” charger, and I’ll keep harping on you about getting a cheap multimeter until you get one. :slight_smile: But run what you have for now that’s perfectly fine.

Thought of something else….while you’re learning the basics of cells and whatnot. Owning those Olights with their unique/proprietary designs can really throw you off track a little. Most lights are more basic and have used similar designs for many years now. Either is fine, but generally people that tinker or might want to try to repair their own lights if they fail tend to appreciate the more traditional designs that are easier to access or mod. So you hear a lot of people talking on those terms or making suggestions, but in your head you’ve got the Olight programming to also understand (or overcome). Sorta…maybe. Once the terms and parts feel comfortable and you grasp more of it you’ll see that the safety concerns are much more minor than what you’ve been worrying about.

The plus side to all this normal traditional light design is that you can save money, have tinkering fun, and not need to worry about finding “special” batteries or charging cords and stuff. So if you want to own only a few batteries, you can move those from light to light to light and not really have to think about it, and use the same charger for those normal cells without having to think about brand or size (because we have the gift of pretty-smart chargers these days…and that’s awesome).

yes
and 18650 means charging is fairly infrequent [they seem to store at least 2 weeks worth of my typicals usage]

Yes to the charging in another light. As long as there is nothing “special” about the battery arrangement.
If this is going to become a hobby, Correllux recommendation of a cheap meter and “real” charger to evaluate batteries is to be heeded.

If money is truly tight, the Convoy line is hard to ignore.

All the Best,
Jeff

you can also get single cell chargers for like $2
they may be slow, 200-500ma, and no fancy metering
just a red/green LED - maybe

wle

—oh - that should be all the charger you ever need…

wle

Keep in mind, asking a question like “what’s the best light out there that I should get?” or “teach me everything about flashlights” isn’t likely to get much of a response. They’re way too vague. Analysis paralysis, and all that.

“What light should I get?”, well, whaddya gonna DO wittit? Searching a huge field for critters is one thing, carrying a keychain light to plunk a key into a hole is another. And one thing that flat out pisses me off is getting shot down at each suggestion.

What about light X?

Too big.

Light Y?

Too small.

Light Z?

Don’t want a sideswitch.

ad nauseam, like, wtaf??, to the point you wanna tell the asker to go f himself. Why wrack your brain coming up with suggestions when the SOB is just gonna find something to DQ the suggestion whose initial question was too vague to begin with?

And someone once asked publicly where to get XYZ, and I suggested something and even looked up and provided a link on Amazon. And I got back a snotty “Duuh, I’m not even in the USA”, like I’m supposed to just know that, and the person’s location field was either blank or had some cutesy text instead of an actual location.

And while people are generally helpful, no one really likes to spoon-feed. If someone wants to be taught “LED Emitters 101”, all the different types of LEDs, color, tint, CRI, etc., uhhh, no. There are plenty of articles already written about that. But if there’s a question about something specific, like, “Okay, I see the same LED described as ‘3V’, ‘6V’, etc., so what does that mean?”, that’s at least specific enough to warrant an answer.

Places like ‘flashlightwiki’, ‘battery university’, etc., are out there, and lots of info can keep you busy for quite a while. Digest all you can, and lot of people will be more than happy to fill in the gaps.

Good charger…you’re set.

A multimeter will let you check a lot of things. In this case, simple voltage checks, but with that you can assure yourself that the charged cell coming out of the Xtar or out of a built-in light charger is where it should be (previously you were wondering about that). You can also check cells that have been sitting unused on the shelf for awhile to see if they have self-discharged to any degree that points to degraded life. And if you want to try to get a reasonable estimation of total mAh capacity of your cells, you can drain them down to something close to the factory specs (usually 2.5v, depends)…check with the multimeter to see where the voltage is, drain a little more if need be, and when you’re at that low voltage, charge them back up at a low rate until they’re full……see what the charger tells you for how many mAh it put in.

You don’t need all of that, but it does help you learn and understand and to keep tabs on battery health (more important if you buy cheap cells or get cheap cells with lights you buy…laptop pulls…cells that you’ve used a ton for a few years, etc). The charger you bought will serve you really well, though…good choice. One tip, since this is new to you…two tips….try not to let the spring-loaded charging bar contact thingys snap back (either with no load, or smacking onto the bottom of a cell where it might dent it), and when you go to insert or remove cells, pull the cell back enough to get good clearance and tilt it in/out carefully (so that you don’t tear the wrap, mostly). Other than that, sit back and enjoy the light show. :slight_smile:

DMMs are like $5 at harbor freight

Don't buy a $5 harbor freight meter ..Such garbage .It's as bad as buying a flashlight from them .. best to sharpen up a rusty screw driver and fall on it ..

But it’s perfectly fine as long as you’re not measuring mains voltage.

The Sofirn sc31pro has Anduril correct? Keep in mind that its voltage reading may not be perfect. Also this is the kind of a situation where having a DMM would be handy. So you can have another way to double-check the voltage of your batteries.

Yeah, I would not trust the readout on the Anduril firmware. Consider the voltage check on the sofirn (or any Anduril light) as just a close-enough guideline to help you know how much time you have left (or, say, if you’re a guy that only wants to run his cells down to 3.5 volts before charging, then it helps for that scenario).

The SC31 Pro comes with original Anduril and the voltage check cannot be calibrated. In Anduril 2 they added that calibration feature and you can change it in .05 increments…but of course for that you would want the truth-telling accuracy of a multimeter so you know what the voltage of the cell actually is before telling the light what it should say. This isn’t critical, though…that’s not the light’s job really.

The charger shouldn’t have overcharged it to the point of rising voltage. When the battery is full, the charger will not completely shut off but the charging current drops WAY low so it’s like a very slight trickle charge. Not enough to increase voltage or capacity any meaningful amount.

Ok, so don’t let this feel too techy, but here’s a testing measurement graph from HKJ’s review of this charger that might help you understand what’s happening. It’s showing several things but what we want to look at is the red line and the red scale on the left margin…this is voltage as the cell started on the charger (left) and then completed its charging (right). But bottom line is that the charger is likely accurately-correct while the feedback from the firmware in the flashlight is not…but without a multimeter you just need to have some faith. :slight_smile:

Looking at the red voltage line, you can see that when he first puts the battery in, it’s reading just under 3.5 volts. And it charges and charges and the voltage rises gradually and it keeps on charging and then somewhere around 2-1/2 hours it reaches the point of about 4.15 volts. And then the red voltage line starts to get flat instead of continually rising. This marks the almost-end of the charging process. After all that running it’s time for a cooldown lap. What happens now is that the charging current starts to diminish rapidly…a good charger like this one will taper down so that the voltage does reach that nice 4.2 volt top off (or really close) but the current is low and gets lower and lower. This gives the cell time to cool off a little and take that last final bit of energy for a good complete charge.

This brings us to the darker green line (ignore the bright neon green) and the green scale on the right margin. This is the charging current that is going in to the cell throughout the charging process. It starts way up top, pretty much on the 1,000mA line…which is 1 amp. He selected the 1 amp charging rate for this test. The current stays constant, like filling up a pool with a hose. Now, right around that same 2-1/2 hour mark you see the green line cross the red voltage line….and then poof….the bottom falls out and the green line plummets to the bottom quickly. That’s the charger saying, hey, we’re about done here, taper off so we can go home boys. Takes a little time for the current to drop all the way down to that minimal trickle charge level (HKJ stated that it was 70mA). But at this point there’s basically almost nothing going in to the cell.

That said, since it doesn’t totally shut off (many chargers don’t) it’s wise to remove the cells from the charger not too long after they have finished their charge cycle. You won’t hurt anything or risk overcharging them if you forget and leave them on overnight or something, but it’s just best practice to stay attentive and pull them out when finished. There are some poorly designed chargers that might actually hurt the battery or worse if they exhibit bad termination characteristics, but this is not one of them. It’s doing a great job.

I guess this is like filling that pool with a hose but then right as it’s almost full you reduce the amount of water so that you can juussst fill the pool without making it overflow. I think onboard charging circuits inside of flashlights mostly do the same thing, less sophisticated, and it seems that they vary a bit as far as when they decide that they’re “full”…but not in a disadvantageous way or a dangerous one…just not as accurate as a good dedicated charger.

(I can’t seem to get the direct link to the pic to show in this post….so a link and then just a link to the review and you can look at the first graph that you come to)

http://lygte-info.dk/review/Review%20Charger%20Xtar%20VC4%20UK.html

HKJ Xtar VC4 graph

I hear you. I’ve just spent the kids’ next week lunch money :slight_smile:

Kidding, kind of, but I’m brand new to flashlights and only joined this forum a couple of days ago. I now have three flashlights on the way. One was an AAA multi chemistry impulse buy before I came across here and the other two affordable-ish Convoy T3 and S2+ based on recommendations from here. I have a ton of AA, AAA, and 18650s around the house.

The S2+ I got in 2700K and 3x7135 becasuse I do not care about brightness and was more interested in an “old school vibe”. However I’m not sure of my decision but it seems to be something I can mod in the future after I learn more.

Have you come across a good, comprehensive but not too intimidating, reference on drivers? Been trying to read up / watch videos / on LED theory and practice, current limiting, voltage regulation but it’s all over the place and quite overwhelming.

B

Don’t worry, it’ll turn up somewhere.

It would be a good idea if you are going to be having multiple batteries around.
For example, you could check the accuracy of your new charger.
Or at what voltage your light cuts out for low voltage protection (if it has that feature).
This stuff ain’t rocket science (or I wouldn’t be playing with it). It’s only a hobby (keep repeating that as you buy more and more lights).
Keep reading and asking questions. The worst that can happen is getting a snooty answer.
All the Best,
Jeff
Take peak at Big Clive and a look at cheap DIMMs

Take a break…come back to it later. In the meantime enjoy the heck out of the lumens you have and don’t worry.

Main takeaways so far are that chargers are generally more accurate/trustworthy than the circuitry in the lights themselves, but the multimeter is the real truthteller, even the cheapies. So use, charge, rinse and repeat, don’t sweat it. You have good equipment in the charger you picked, the cells, and the lights.

This one is WILLINGLY drinking the kool-aid! Run while you still can!! Run!!!

Whoa! Absolutely not! No breaks! You gotta push push push, right on through! Push push push! All the way, all the time, right on down the line!!

See??

Flashlights are pretty simple devices. A LED, switch, battery, and driver (or not, some just have a resistor). They really only get complicated when you start delving into the realm of driver circuitry, resistor modding, boost/buck/linear/FET, ser interfaces (Anduril, Narsil, 4-mode, 5-mode groups, etc) different types of optics (reflector, Carclo, TIR, aspheric) and the eccentricity of various LEDs, types, binning, CRI, BBL. Most of us don’t concern ourselves with those too much and focus on the basics. I fall in the middle of that chaos. You will find a common ground the deeper down the rabbit hole you go, and strike a balance.

Stick with the basics. Those links are all good resources, or flashlight wiki. CRX on here has a great guide. You can also check out 1Lumen.com for detailed flashlight reviews.