G
Guest
- Jan 1, 1970
- 0
Hi,
Our product uses a CR2032 lithium coin cell as a CMOS battery for an
embedded PC. The cell is OR'ed with a 3.3V supply which becomes
available when the product is powered on, the intention was to extend
the cell life. I think desktop PCs do a similar thing using the standby
power.
However the diodes we are using have a reverse leakage of a few
microamps at room temp, rising to a few tens of microamps when hot.
This means the cell could see a 'trickle-charge' current of say 30uA
under worst-case conditions. Is this likely to damage the cell?
The reverse leakage current also means that the cell is discharging into
the standby power circuit when the product is powered down. I have
found some alternative diodes with a spec'd worst case reverse leakage
of 200 nA, but I am trying to get to the bottom of a series of early
cell failures we have had - cells completely flat in a matter of weeks.
The extra leakage current would certainly reduce the life, but not by
this much? The CMOS input pin on the PC draws 5 uA, for a 225 mAh cell
this should give about 5 years' life, or about 9 months if it had to
supply the extra 30uA leakage continuously as well.
Any suggestions welcome.
Our product uses a CR2032 lithium coin cell as a CMOS battery for an
embedded PC. The cell is OR'ed with a 3.3V supply which becomes
available when the product is powered on, the intention was to extend
the cell life. I think desktop PCs do a similar thing using the standby
power.
However the diodes we are using have a reverse leakage of a few
microamps at room temp, rising to a few tens of microamps when hot.
This means the cell could see a 'trickle-charge' current of say 30uA
under worst-case conditions. Is this likely to damage the cell?
The reverse leakage current also means that the cell is discharging into
the standby power circuit when the product is powered down. I have
found some alternative diodes with a spec'd worst case reverse leakage
of 200 nA, but I am trying to get to the bottom of a series of early
cell failures we have had - cells completely flat in a matter of weeks.
The extra leakage current would certainly reduce the life, but not by
this much? The CMOS input pin on the PC draws 5 uA, for a 225 mAh cell
this should give about 5 years' life, or about 9 months if it had to
supply the extra 30uA leakage continuously as well.
Any suggestions welcome.