*BLF LT1 Lantern Project) (updated Nov,17,2020)

It’s bad for the cycle life of any Li-Ion cell to keep it charged at 100% and even worse to keep charging it once it has passed 100% charge capacity. For “float” charging set-ups, you are better off using lead acid batteries. Perhaps, if the terminal voltage of the charger were set below the max charge voltage of the Li-Ion cell, some of its life can be spared. But I don’t know that. I’m just guessing it might be possible. Best is to not overcharge, not over-discharge and not overheat the cell ever.

Just for grins I ran some stats to see what the breakdown of lantern interest are as of this minute:

1,221 users have signed up for a total of 1,848 lanterns as follows:

  • 1 lantern - 801
  • 2 lanterns - 297
  • 3 lanterns - 74
  • 4 lanterns - 33
  • 5 lanterns - 7
  • 6 lanterns - 4
  • 7 lanterns - 2
  • 8 lanterns - 2
  • 10 lanterns - 1

Still time to get your addition lanterns on the list :slight_smile:

I’m on the list for one. I’ve long been “interested” in more, but my wallet disagrees, so I stay at one. If I come up with some more money, I’ll certainly be looking to add a couple more lanterns for gifting. :money_mouth_face:

Please add me to list to purchase one

I don’t know if I missed it or not, but will the USB port on the lantern work with USB PD? Most lights that I’ve heard about, or have experience with, that use a type C port won’t charge with PD, you must use an A to C cable.

yes, it will likely work with the USB power delivery (PB) type chargers. the TP5100 charging chip can accept and regulate any input from most power sources i have tested.

It appears that protected cells use IC’s like this one, which provides over-discharge, over-current, and over-charge protection.

However, the over-charge cut-off is triggered at a specific voltage. Thus, the protection circuit will only shut off current after the voltage reaches that trigger, which it may never do if the over-charge trigger is above the output voltage of the LT1 charging board.

It seems likely that the cells would just sit and “soak” at ~4.2V for as long as the light were kept running. Cell charging current would drop quite low and nothing dangerous would happen, but li-ions are not meant to remain in constant-voltage mode indefinitely, which is effectively what happens with the light running and the cells charging at the same time.

So, the answer is probably that protected cells will not be a safeguard.

Please correct me if I’m wrong here as I don’t want to misinform anyone.

My collegue wants one. I’m in for one atm, please add one for a total of 2 :slight_smile:

Put me down for one please

Hey everyone my mom got sick and I’ve been offline for a few months… I live in the US….can you guys tell me what batteries you recommend for this one? Should I just get more like I have for the Q8 (Samsung 30Q) or does it need something different for output/longetivity?

Thanks and sorry if someone else has already posted this…

No need for something different.

Just go with something that has the best capacity to performance ratio.

Button top 30q batteries are fine, but a higher capacity battery like the PANASONIC/SANYO NCR18650GA will have better runtimes without reducing output.

I was thinking of something like the NCRs - needs to be button top though, right?

that’s correct

Thanks, SIGShooter. You’re doing a great job.

I’m already on the list for one (#1591), but would like to bump that up to two, just to further support the project.

Who’s the madman getting 10?!?

I would like to add 1 lantern, to make 2 total (#1372)

He might regret it if the v2 is even better ,better keep another $500+ spare :money_mouth_face:

A person that has a big mansion and wants a lantern for each room in case of a black out.

Since the names and quantities are easily gotten from the Interest list by user names.xlsx file linked in post #1 I can tell you it’s osb40000.

Better hurry and sign up for more if you want to beat him out :slight_smile: