Hello -
I purchased a battery-backup pack for my cell phone, and I'm not happy with the performance thus far. Here's a quick break-down of what it is - It contains 4xAA cells, with special "tips" which I assume contain some voltage regulating electronics as difference cell phones will be expecting different voltages. I'm sure many of you have seen these devices, there are many on the market.
On the wall charger, the phone charges up pretty fast. I did some testing, and the phone will charge from 50 -> 98% in under 2 hours. On the battery pack charger, with fresh Alkaline or hot-of-the-charger NiMh cells, it will charge the phone from 50 -> 98% in 3-4 hrs.
And to make the scenario even more irritating, if the cells aren't hot-off-the-charger, then the phone charge time is even longer - sometimes slower than the stand-by discharge rate of the phone! Meaning even if the cells still still show as "good" on my battery tester, and still work great in my digital camera, it doesn't charge the phone.
So I did some testing, and this is what I found - The wall charger puts out about 5.75V and the battery backup about 4.7V. So thinking this was the problem, I wired another 1.2V NiMH cell in-line to bump up the voltage but that didn't seem to make much difference.
Can you think of any reason why the battery pack is having this problem? From my basic understanding of batteries, they should dish out as many amperes as the circuit demands, unless the circuit limits the draw. Do you think that something in the "tip" portion of the battery pack is limiting the current as well as the voltage? Unfortunately there isn't an easy way to test this without destroying one of the "tips", and they are a bit spendy.
Thanks,
- Jeff
I purchased a battery-backup pack for my cell phone, and I'm not happy with the performance thus far. Here's a quick break-down of what it is - It contains 4xAA cells, with special "tips" which I assume contain some voltage regulating electronics as difference cell phones will be expecting different voltages. I'm sure many of you have seen these devices, there are many on the market.
On the wall charger, the phone charges up pretty fast. I did some testing, and the phone will charge from 50 -> 98% in under 2 hours. On the battery pack charger, with fresh Alkaline or hot-of-the-charger NiMh cells, it will charge the phone from 50 -> 98% in 3-4 hrs.
And to make the scenario even more irritating, if the cells aren't hot-off-the-charger, then the phone charge time is even longer - sometimes slower than the stand-by discharge rate of the phone! Meaning even if the cells still still show as "good" on my battery tester, and still work great in my digital camera, it doesn't charge the phone.
So I did some testing, and this is what I found - The wall charger puts out about 5.75V and the battery backup about 4.7V. So thinking this was the problem, I wired another 1.2V NiMH cell in-line to bump up the voltage but that didn't seem to make much difference.
Can you think of any reason why the battery pack is having this problem? From my basic understanding of batteries, they should dish out as many amperes as the circuit demands, unless the circuit limits the draw. Do you think that something in the "tip" portion of the battery pack is limiting the current as well as the voltage? Unfortunately there isn't an easy way to test this without destroying one of the "tips", and they are a bit spendy.
Thanks,
- Jeff
