It’s been a while since I’ve posted about the Kentli PH5 battery, which is a Li-ion cell with an integrated 1.5-volt regulator, wrapped up in an AA-sized package. Although I haven’t written much about its performance yet, that doesn’t mean I haven’t been doing work on it. In fact, I’m sure I have never put so much work into a single blog post before!
The full analysis of the battery’s performance is not fully complete, but I’ll reveal some details of my test setup and what I’m currently working on:
I’m doing a much more thorough analysis of this battery than I have done with any other one on this blog. I have created a second bq27541 fuel gauge board, but with the explicit goal of measuring the voltage, current, passed charge (mAh) and temperature of a given DC-DC converter. This way, I can measure the input and output of the DC-DC converter simultaneously, greatly enhancing the data I can collect.
These are the data points/attributes I am currently collecting:
- Battery voltage sag at high load currents
- Battery capacity over different load currents (it’s not constant!)
- DC-DC efficiency, both at different load currents but also over a single discharge cycle
- Temperature rise of the DC-DC converter at different loads, and also over a single discharge cycle
- Changes in battery capacity and internal resistance over many charge cycles
I want to be as thorough as possible with my measurements, mostly because nobody else has done a detailed performance review of this rather unusual battery, but also partially because I want to challenge myself and see how much of a “real engineer” I can be (#JustHobbyistThings). 😛
I’m quite curious, please let everyone know soon about test results!
Great, can’t wait for the review!😀
Can’t wait neither !! 🙂
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I am in the process of buying these Kenli units, since I am fed up with my NiMh batts.
Your measurements would be of great help.
A very interesting blog. How will the electronics cope with running several batteries in series?
As far as I can tell, multiple batteries in series run just fine, but the only thing preventing a cell from being over-discharged is the Li-ion protection circuitry.