NCR18650B: A Lithium Ion battery with a ton of promise! People say it has twice the energy per gram as LiPos... but is that true? Lets test it!
But it doesn't stop there! I want to know how to actually use this on an RC Aircraft, how to charge it, what it's maximum amp draw is, how many watt hours of power does it have, and in the end, can you actually use these on RC aircraft?
I think I've found the answers to these questions!
Battery: Panasonic NCR18650B
Grams per Watt Hours is 57% that of a typical LiPo
Pack Capacity: 3.3Ah (3,325mah)
Pack Voltage in 4S: 14.4v
Pack Power: 43 watt hours (personally tested with a watt meter)
Pack C-Rating: 2 (6amp max discharge rate)
Pack Cycles: Hundreds! I've not personally tested this, but this is the same chemistry as an iPhone, which can last years of daily use.
Buy the battery pack here: http://store.mygeekshow.com/product-p/3.3a-4s-2c-battery.htm
See you next week!
-Trent
http://news.nationalgeographic.com/news/energy/2013/08/130821-supercapacitors/
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I may decide to make a cylidrical pack when i get some balance connectors though and do some testing
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Jeff
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Not knocking your ideas but there is an obvious limitation!
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6S1P would be able to deliver 171 W continuous.
Still for lower voltage setups you could look at the Panasonic CGR18650CH Li-on cell. This one can deliver up to 10C.
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Give them some time, they might just surpass Lipos in a few years.
You might be surprised what you can do with a lightweight aircraft drawing 6 amps. Give it a shot.
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Lithium polymer / Lithium Ion are the same chemistry the difference is the packaging; Ion with metal and poly with the plastic which is why we switched to the polys 10+ years ago. You can trade C rating for capacity with a constant weight.
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Thanks Paul
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1. Start with a standard LiPo pack. Build some sort of monitoring device onboard that records the current draw through several flights, collecting the actual data over time for a while to get an idea of the usage patterns.
2. Add a 2nd Li-Ion pack to the platform, and size it so that if you took it's mAh in ratio to the LiPo mAh, you end up with the same general ratio of time spent in flight where high current draw is needed vs. lower current draw that a Li-Ion pack could handle.
3. Build a small custom controller board that senses voltage and current draw and switches load from one pack to the other in response to the level of current load at any given moment. The data from step one could be used to tailor the firmware on this board to react to the conditions previously recorded.
Other thoughts: The controller board might also have a bank of caps that could help buffer the load switching between the packs. Also, in step 2, one could lean towards slightly more LiPo than Li-Ion, so it would be more likely to deplete the Li-Ion first, then switch to LiPo for end-of-flight and perhaps sound an alarm or beacon to indicate near-discharge. This would leave the craft with maximum maneuverability near the end for a more hasty and agile return to home.
Might this type of configuration buy the best of both worlds? Just a tinkerer's thoughts.
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Now in a plane, would it possible to break past a 1:1 power to weight ratio, while having a good flight time? If it's possible, that would be great and possibly break records. Now I want to know how many of these you can hook up together, and what the most beneficial setup is.
I'm glad there's this alternative now since I don't trust Li-Poly very much. Most dangerous batteries I've ever handled. And with Li-Ion, can't you go past the 80% usage?
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And the C rating is what?
I'm using a 5600 mah pack 4s weight is 433 grams I hover at 16 -17 amps
trying to do the math on weight per amperage.
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I've been reading more than I want to about Li-Ion batteries, it turns out there is a lot of different kinds... Great article at http://batteryuniversity.com/learn/article/types_of_lithium_ion
I see one on amazon, "Efest Purple IMR 35A 18650 2500mAh 3.7v Rechargeable" that while a bit lower on the mAh, claims a 35A high discharge rate... any thoughts?
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im planning to make a 3s with it. It'll weigh about 160grams, im also thinking of a 3s2p, but with panasonics ncr18650b's. that way i'd have a ~15A 7800mah battery weighing in at 320grams, but think of the flight times on a 250mm! with the 22a samsungs im expecting 10-12min and
with the samsung 20+minutes!
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