Lithium Ion Super Capacitors

I have been using these capacitors in my wearables to eliminate coin cell batteries. Yes, these are larger than a coin cell, but I just love the fact that you can recharge these in just a couple of minutes. For my latest design I use a 90F 4.2V capacitor and use a standard battery IC to control the charging current and use the undervoltage protection. I have shorted the leads on accident and the capacitor got very hot to a point where it vents out through the top, but no explosion or fire. I have overcharged these as well to 4.5V, but nothing really happened, these still worked fine.

I'm using hybrid super-caps for solar charged outdoor lights. I find the voltage range corresponds pretty well to what a white LED wants.

First time in my life I hear "killo farad"

I just found you and love your channel! I have always been interested in Supercapacitors for their cycle life, and this is very cool idea, this hybrid. Your presentation is not only hyper-interesting, but expertly presented. I subscribed immediately. Can't wait for more. All good wishes.

I guess these could be used for dash cams, but most often one buys a "hard wire kit" which connects to the car's 12V battery via a cutout that operates around 12.6V, preventing the battery being completely discharged. Some brands offer lithium batteries as the "vehicle off" supply instead.
These'd be very useful for remote outdoor IoT sensors or actuators (say a self resetting rat trap), or trail cameras though, with a small PV panel. Especially in places where it gets cold or very hot. 30,000 daily cycles is an eighty year life! That's what I call "set and forget".

saw a 2500F 2.5V cap the other day and it was literally the size of a tall-boy can.

Downloaded, read and printed your free pdf regarding your battery charger sir. Fascinating read. Thank you sir. I had no idea you uploaded UA-cam videos. Excellent sir, keep up the good work.

Very nice demonstration of this product. Thanks for sharing.😊

"And don't do that. Why would you do *that*?"
Well, they in fact are referring to chucking them all together in a big bowl where they can freely short each other out.

A bank of Lion cells would need a charge controller, would the same apply to these hybrid caps?

Wow, That Notecard is Clearly readable, even for a visually impaired like me. :-) Used te Perfect font!! Also good explanation about the differences and workings of them.

I'm not at all used to seeing small capacitors like this rate in other than microfarads that just seems massive but I have at best a hobby level understanding of these things.

That would be a killer solution for a home solar/wind system..!! Big C rating for large dynamic loads is the way to go..!! You can keep your bank size small and still have reserve power for a few hrs or more (with load shedding)..!! I built a custom 3kw AC charger to take over when there's no solar or wind.. It also carries the loads at night..

I'm struggling with the idea that you said the Anode is Negative and the Cathode is Positive.
You then connect an LED to the Caps and clearly show the Cathode of the LED connected to the Negative lead of the Cap.
Am I missing something here?

I could imagine a scenario where it makes sense to use these hybrids as a buffer for a much larger battery for both charging and discharging. IE regenerative braking perhaps. The 30,000 cycles has me intrigued. If we consider that these are roughly 1/10th as energy dense, that means we'd need about $10 for the same storage as an 18650 cell that costs $3. So about 3x the cost, 10x the size, but would essentially last forever. I could see these being very useful for some sort of off-grid workshop with big equipment. Using some sort of smart charging/pass-through, perhaps combine with LTO batteries for the bulk of the storage.

My first Tandy meter had 2mm banana plugs. it was a shame nothing else did at the time. The only real advantage of 4mm is you can see them from the back of the class

Used in remote sensing, telemetry backup, essential control backup.
Lets you turn something back on remotely if it's been turned off remotely. Keeps ears and little blue lights turned.

Freecharge is not a give me, they have to, A Beautiful thing to Behold 💗

It's basically a battery people will use as a capacitor and end up ruining in 1 week.

Interesting. I guess they should have discharge protection IC's produced at some point.

Julian, AL142 is FP6291
Last 3-digit reflects xyy
X = year
YY = lot
So 142 is 2021 lot #42.

A few years ago there was a YT channel on super capacitors (I forget which one) where one of the commenters mentioned they would want to see when the caps have as much energy storage as a lithium ion battery. I responded with the future super cap will probably be a mix of capacitor and battery.

So I'm wondering whether they follow standard capacitor theory, when connecting in series or parallel? And if in series, would they need a BMS to balance the cap's voltages? I would imagine so, due to the 2.5v lower limit

Great stuff Julian. Wouldn't expect anything less... 3 or 4 of those for 1Ah not bad.

Excellent video. Very interesting products. 👍

If they shouldn't be discharged below 2.5v then why don't they have a built in protection circuit?

"they don't shoot out flames"... color me skeptical, but this very much looks like adding a Li-ion cell to a design without a protection circuit... If you have a single component fault in your circuit (Vreg dies and applies 12V to one of these, or a downstream component fails shorted) will these become unsafe? Is your product now a "battery" if you design one of these in? Do you now have to meet UN3480 before shipping?

I thought anode is the positive one..

Why are the leds blinking/flashing when connecting them to the caps? They should glow permanently, shouldn't they?

These might be great for some lidmotor creations!

Some of those mobile phone holders that have motorised clamps are advertised as having "super capacitor" to allow the arms to open or close a few times after the ignition/accessory power is off. Another use for them.

Great and very interesting video. Thanks for that. Do you also have details about the power module and measurement module?

Very interesting. Thank you for this content. Obviously not a replacement for Lion batteries for capacity and even D ratings maybe but... seems to have a place in a lot of applications due to discharge and recharge dynamics as well as lifespan. Love the kit you are doing testing with. Cheers!
Oh, I'm a total newb by the way. If I only had a percent of your knowledge on this stuff! Just interested in learning.

Can these be used to power a quad-copter ?

There is a similar alternative - Nichicon SLB (LTO battery) - but have a lower voltage range.

Killo Farad sounds like Terra Byte.😊 Thank you, for showing, anyway.

why is your led blinking when directly connected to the supercaps? special leds or just video refresh rate issue?

Why diodes are flashing instead of solid brightness?

Very interesting little caps/batteries. They are still rather expensive tough but maybe advantegous in some applications 🙂 Could be a game changer when these are further improved with more capacity and charge time and price ;-)

Kind of interesting caps, but I can't think of any practical application for one. When you need to add a bunch of support and protection circuitry just for a capacitor, might as well just use a battery. 🤔

I bet is super fun to touch the leads when they are fully charged

Quick question. If the voltage of the cap doesnt go to 0v but stop at 2.5v shouldnt the calc be Q = max v -min v * C?

They would be perfect for garden solar torches.

Very nice information Great wark Excellent Video Very good 👍

Are you ever going to parallel those 25A bucks ?

can this be used to charge an electric car while driving on the highway

I can see these being used on thermostats with the caveat that there must be voltage supplied to it so that during a power outage it keeps the settings. Then at the same time while there is no call for heat or cooling it charges the cap back up and then a run can happen just off the capacitor. I may get some to experiment with for this purpose.

Really cool info. Thanks for the video. Honestly, I am having trouble thinking of good applications for these given their "don't discharge" risk of failure when discharged completely. Hard to say how many times it can handle this before failing, but they put it in the warning so that probably means that you can't do it without risk. Ok, they do charge fast, but what kind of application requires massive charge speeds with very low total capacity vs just having a Lithium battery?

Was the bottom right image of the multiple capacitors mingling their leads together a warning against connecting them in series or parallel??

A blinking LED and no resistor?? How what is that?

To protect against over-discharge, could you get a zener diode driving the base of a simple transistor? So when the voltage isn't enough to overcome the zener, the transistor just cuts off? Stick a resistor inline with the diode, too. Would that simple solution work? If it's bipolar, I suppose you'd have to account for it's own base-emitter voltage drop too of 0.6V.

Thanks Julian 👍

Thank you, Julian. I really enjoyed your video. Nice to know that capacitors are so close to having the same energy density as batteries (for example, a htc1450 LTO ). Mind blowing! Try the S9V11MACMA buck/boost regulator from Pololu with adjustable voltage cut-off. They are great and still tiny. All the best.

Home energy storage could be interesting if cost per kWh can lower than traditional li-on. The cycle life would be very handy, maybe it could be used every day for 30 years with little degradation.

So I could connect this directly to my 5v solar panel that is powering my little water pump. The water pump stops working around 3v and only works in direct sun but with the LSC between the two it would theoretically work during cloudy days.

Why LEDs are blinking??

Why don't these flashing LEDs need no resistor? Is the current from the capacitor low enough?

I don't define that as a capacitor, it's a battery if you can't discharge it past a certain voltage. Capacitors have no discharge limit, its part of the characteristic that defines them as a capacitor. Having said that, when they start to make these in the 5 amp range things will suddenly become very interesting!.

What about leakage current?

*How fast can they charge and discharge???*

I added a 5F cap to my car audio system 20+ years ago. It is about the size of two soda cans. Remember thinking it was such a huge amount of capacitance! Well, my headlights don't dim when the bass hits...

Can you perform some cycle life test?

I am curious how tolerant of overdischarge these are. The standard DW01 cell protection IC has an overdischarge threshold of 2.4V, which may be OK if that 2.5V min discharge voltage is a little conservative. Otherwise, most other cell protection ICs state their overdischarge threshold as 2.5V, so perhaps it would be better to go with one of those rather than a DW01.

What would be the Farads of a typical 18650? Does it even apply?

Could be used in latching relay circuit to delatch relay after power is removed.

Love the British accent ❤❤

good for pager and walkie talkie designs

Brilliant made with 3 half's.

Often used in combination with a Bobbin-constructed lithium thionyl chloride primary battery, for a 10 year + battery supply.

Great video, interested in the 2mm Clips too!

The lithium ion super capacitors would be interesting to try for motorized rubber powder model airplanes.

I bet an electric car made with these would be poggers

1:21 three halves?

Maybe these are useful in buffering windturbine power generation fluctuations. Quickly charging a bank of these and if wind drops it takes over the 12/24/48v output. 30.000 cycles might be just enough to last you a year if not longer. building might not as simple and costly, any ideas?

Are these used in the newer electronic vaping devices that are throw away?

Wow - Cabacitors or Cabacitries !

I have a large selection of the supercaps and hybrid capacitors

now we need a charging circuit that follows the rating of the Cap

You will need an auto shutoff in the circuit to use this if not it will discharge below 2.5V if left unattended

That one icon at 8:29, "why would you do that", I took to mean don't place it in a pile with other components (like a storage drawer).

They are putting these in those disposable rechargeable vapes.
I was walking down the street and saw a vape that was run over by a car and saw that hanging out of it. The land fill is going to be full of these!

How much acceleration could you get out of a car entirely powered by banks of these?

I've often wondered how something like these (or regular supercapacitors) would work for regenerative braking. They'd very quickly soak up charge from braking, and trickle it back to the slower-charging main battery. Maybe they already do that. I dunno.

8:20 I guess they could have just sad: Do not short out the legs... as for 8:29 I guess this is to show the situation when you put several capacitors loosely in one container/ box and they might touch each other?

Only 30K cycles? Doesn't seem to last very long.

The 300mAh probably is due to 1) rounding and 2) the fact that battery declines in capacity faster than a hybrid capacitor/battery

2mm Banana's are too easy to break in a working environment is why they use 4mm.

Put in short, they are fairly useless compared with modern LFP cells. Modern LFP cells can do 20C easily, modern LFP cells can do 5k~10k cycles at 1C, modern power-type LFP cells have less than 1mR@10Ah, while those CDA cells have 2mR@10Ah. Other than low temperature and being available in really small capacity, I don't see any advantages. So maybe, those are great for EDLC replacements, but that's all. I can't see them challenging true batteries even for pulse power applications. What I can see usage of this thing is in embedded systems needing more than an RTC battery. Say, a multi-core SoC with rewritable storage subsystem where the system takes more than a few hundred milliwatts to finish its current job, flush the memory, and gracefully shutdown. You might want a small solderable component in the system to support all of these while taking minimal space and still be safe by not storing too much energy to piss the TSA/IATA off.

Why use these? If you are holding out for the perfect supercap which also has capacity like a battery, you can use these while you are waiting.
They are 1/6th the capacity of an 18650, or 6x the size, allowing 30k cycles and freezing temp charging(?). 500mA good for unattended or remote installation; telephone pole cam wi/solar panel will last decades.
Set up an Eagle nest cam, climb the tree once, install and cheer on the internet eagle chick stream forever.

Bat Trees??? interesting. lol. just kidding. Love the video! Very informative!

imagine putting those through a wave soldering process lol 💥💥

Maybe have a try DIYing some capacitors? out of anodised titanium sheet, submerged in water, and inside say a length of copper pipe.
The anodized layer has a high dielectric constant. Should self repair(with decreased capacitance) if over volted. Anodised layer is very thin, and has extremely high resistance...in comparasion the resistance of the water can be considered neglible. In effect separation between capacitor plate is tiny. Taken together very high capacitance for surface area. And without the usual voltage limitations of supercaps
*And* it can get even more interesting.. it's a wide range variable capacitor. Adjust the water level and capacitance value changes...If capacitor is charged, it'll hold a certain amount of energy. E=C*V*V/2
let some water out of a charged capacitor. Even as capacitance drops, energy wants to stay constant so. . the voltage across the plates has to increase.

Those are not capacitors.
They are merely Li-ion cells dressed up as capacitors.
Their minimum allowed voltage is what exposes them as a fraud.
My guess is that their working temperature range and the cycle life is not what they claim, and that they are not cheap.
I would say they've found a way to sell ultra-low capacity Li-ion cells (possibly old depleted ones) as "ultra-capacitors".
I hope I'm wrong.

My Joule Thief supercapacitor flashlight lasts 20 minutes on one charge of a five volt 4 Farad supercapacitor. At 1.1 kilo Farad it would last around 9 days one one change 😂.

@0:59 they are half Capacitor, half Supercapacitor and half battery
...dude thats 3 halves...

Very interesting the bigger ones have about 600 milliamps they would very much replace RC airplane Lipo

First time I hear (and see it printed on your paper) that Anode negative and Cathode positive

the two larger capacity ones, sound like a small LI-ion battery to me??

Could be used in amplifires

Don't cross the beams!😂