Next update is the factory was in that complex that was damaged by a land slippage.
Don't give them idea like that!
Next update is the factory was in that complex that was damaged by a land slippage.Don't give them idea like that!Wow.. you guys called it right on!
- "My dog ate the schematics"
Next update is the factory was in that complex that was damaged by a land slippage.Don't give them idea like that!Wow.. you guys called it right on!
There has been a remarkable parallel with things/ideas said on this forum which then Batteriser have used days or weeks later. Maybe 4-5 things now?
Next update is the factory was in that complex that was damaged by a land slippage.Don't give them idea like that!Wow.. you guys called it right on!
There has been a remarkable parallel with things/ideas said on this forum which then Batteriser have used days or weeks later. Maybe 4-5 things now?
The short circuit issue begat the coating.
The uselessness of the device for low current draw devices like remotes has got us 500 to 1500 mA spec change and the "Fab Delay."
Pointing out the the RF interference issue got us the ridiculously-gamed FCC class B test.
Pointing out that 0.8V was the industry standard for "dead" forced Batteroo to give up on the energy extraction down to 0.5V nonsense.
Testing devices' actual dropout voltages got the admission that 0.9-1.1V was actually where devices cutoff at, not the 1.35V got more claims changes.
So yes, it's fair to think Bob and Frankie keep tabs on this thread.
Now they are just saying another couple of weeks
so it seems they are actually going to ship these things?
Shall we start a pool to guess the shipping date?
As much current as your device needs, 500ma, 1500ma, 1300ma, it's all the same thing really!
What happens if you exceed 1300ma though?
Observation
In order to get 1.5W from the cell, the cell must have greater than 70% of capacity left.
As much current as your device needs, 500ma, 1500ma, 1300ma, it's all the same thing really!
What happens if you exceed 1300ma though?
You can't. The math was done a few pages back.QuoteObservation
In order to get 1.5W from the cell, the cell must have greater than 70% of capacity left.
1300mA @ 1.5V is 1.95W, ie. The battery will go into a death spiral almost as soon as you switch the device on.
The idea of Batteriser being useful at 1.95W is pure comedy. Delaying the product to achieve that figure is a farce.
(Or it would be, if they weren't stealing other people's money...)
But assuming you have brand new cells, what happens if your digital camera needs 2 amps to charge the flash capacitor?
Remember, they started claiming that the batteriser was to reduce voltage dips that occur when there's a current spike, from the load, on the battery...
Is exceeding the current limit going to result in the voltage dropping just as much, if not more than not having a butteriser on the cell at all?
As much current as your device needs, 500ma, 1500ma, 1300ma, it's all the same thing really!
What happens if you exceed 1300ma though?
Actually I'm wondering how this device is going to cope with very low output currents, going from 10mA to 100uA makes the inductor 100 times the value. The component values I got for plugging some of Batteriser claims into a calculator for boost inverters are comical, would never fit into a AA battery space, much less the tiny area in and around one.
Actually I'm wondering how this device is going to cope with very low output currents, going from 10mA to 100uA makes the inductor 100 times the value.
With each passing day, we are getting closer and closer to shipping your Batterisers.
Unfortunately, in the construction of the updated Batteriser IC, we encountered unexpected technical fabrication process related issues which caused us to miss our estimated November shipping date.
Unfortunately, due to a tragic heavy landslide in Shenzhen, China this week, we are now facing additional slight delays.