This is the same data, using the same 250mA constant current scenario.
If you have a device which cuts out at 1.0V, it would cut out after just over 7 hours of operation, and you would have another 22 minutes of operation potential left in the cell, if all other things were 100% efficient, say if you took the cell out of the device with the 1V cutoff at that point and put it into a new device with the same 250mA constant current draw but with a 0.6V cutoff.
If the same device with 250mA CC draw cut out at 1.1V, it would cut out at just under 6 hours of operation, and doing the same as above you could potentially gain another 1 hour and 39 minutes of use out of the cell doing the same as mentioned above.
Now, add into this scenario the inefficiencies of the boost converter, and other inefficiencies, and the gains are not that much.
So there's no way you'd gain an extra 800%, or even 80%. You might gain a few minutes here and there.
I have a better idea for Batteriser to market....
Make a battery with a beeper and bluetooth module in it, so you can insert it into your TV remote control. When you lose the remote and can't find it, use your PHONE to connect to it and activate the beeper so you can hear where it is and find it.
That's been everyone's argument from day 1.
It's bleedingly obvious by inspection to anyone who knows anything about batteries.
About to start the test with some fresh duracells that I just bought (same brand they used in their video)
morons.
The device will show it can no longer display the back-light or it will shut down. That is a fail for either mode. With the their (custom) boost converter it runs almost 6X longer. UL has verified it in their lab.
Ah yes, then the comeback is UL is paid so they do what you want. Really, are you all that retarded. They are in business to make money, they charge to test a product. I do not know of any labs that test a company product for free. You cannot buy the result.
I have dealt with UL many times over the course of my career in Silicon Valley. They are very rigid in terms of reporting results.
And, genius, if you use an off the shelf boost converter you will likely see a different result. That is not their product. You may only see 2 or 3X. Keep digging. They win, you lose. Do something constructive. Like little children stomping their feet.
If you want to find bad things you will. If you want to find good things, you will. Just constantly negative. You cannot stop them. They have investors that have done due diligence. Try an incandescent flashlight. Will it stay brighter longer with a highly efficient boost converter? very simple. try it.
No go back and tell him we all said "Hi" oh and tell him that an oscilloscope with a calibration signal on a video at the back is not going to fool anyone, really how pathetic, in fact the most pathetic thing I have ever seen.
Hello,
There is an easy way to tell if you can squeeze more juce out of a Battery.
If you know the theoretical Capacity of the Battery, you can easily tell how much juce is left.
For this reason i did a chemical analysis of a brand new DURACELL Battery.
The results are in the attached pdf file.
In short:
The Battery delivers a capacity of about 3,5Ah with a constant Load of 5mA (datasheet) und this is almost the theoretical Limit (calculated from the analysis: 3,554Ah) !
So there is nothing left you can use to deliver more Capacity (if you don't break the laws of Physics of course).
This is scientific foundamental and it doesn't matter how you measure the voltage/Capacity, what circuit you use or whatever, when your Load is about 5mA (of corse higher Loads gives us a lower capacity due to the increase of ionic resitens) you can't squeeze more juce out of the Battery then you already do with a cut-off voltage of 0,8V.
(Sry for my english, i hope there aren't too many mistakes)
There is an easy way to tell if you can squeeze more juce out of a Battery.
If you know the theoretical Capacity of the Battery, you can easily tell how much juce is left.
For this reason i did a chemical analysis of a brand new DURACELL Battery.
The results are in the attached pdf file.
In short:
The Battery delivers a capacity of about 3,5Ah with a constant Load of 5mA (datasheet) und this is almost the theoretical Limit (calculated from the analysis: 3,554Ah) !
And can anyone here understand French as it's all Greek to me.
He's STILL at it!
He's just keeps the libel going
OK, so he called himself David Parish again now, and has also claimed that "Brad Jones" is another real person.
Why then have both "David Parish" and "Brad Jones" posted the exact same comment to one of my videos?
What an absolute fruitcake!
Hello,
There is an easy way to tell if you can squeeze more juce out of a Battery.
If you know the theoretical Capacity of the Battery, you can easily tell how much juce is left.
For this reason i did a chemical analysis of a brand new DURACELL Battery.
The results are in the attached pdf file.
In short:
The Battery delivers a capacity of about 3,5Ah with a constant Load of 5mA (datasheet) und this is almost the theoretical Limit (calculated from the analysis: 3,554Ah) !
So there is nothing left you can use to deliver more Capacity (if you don't break the laws of Physics of course).
This is scientific foundamental and it doesn't matter how you measure the voltage/Capacity, what circuit you use or whatever, when your Load is about 5mA (of corse higher Loads gives us a lower capacity due to the increase of ionic resitens) you can't squeeze more juce out of the Battery then you already do with a cut-off voltage of 0,8V.
(Sry for my english, i hope there aren't too many mistakes)
There is an easy way to tell if you can squeeze more juce out of a Battery.
If you know the theoretical Capacity of the Battery, you can easily tell how much juce is left.
For this reason i did a chemical analysis of a brand new DURACELL Battery.
The results are in the attached pdf file.
In short:
The Battery delivers a capacity of about 3,5Ah with a constant Load of 5mA (datasheet) und this is almost the theoretical Limit (calculated from the analysis: 3,554Ah) !
I haven't seen that done before, nice!, thanks for sharing.
PS: What causes the difference in battery capacity due to temperature and load? Is it purely due to wasted heat from ESR?
ie. In cold weather it has higher ESR and will produce more heat. Higher loads mean the battery gets warmer.
And can anyone here understand French as it's all Greek to me.
Sounds like he's just reading the Batteriser press release so it's just the usual batteriser marketing fluff.
Batteries can last 8x longer...
It works because most devices shut down at 1.4V, leaving most of the power unused...
etc.