On 10/28/2011 10:10 PM, Hal Murray wrote:
I haven't carefully checked the accuracy of my Kill-a-Watt, but it's passed
all my sanity checks. At $20, it's a useful tool. (The technology for this
sort of thing must be reasonably solid. My new electric meter has an LCD
rather than a spinning wheel and dials.)
Yes for $20 it can do a lot as long as the limits are understood. I
mention it because I've had to have the same conversation with a few
deployments and some consultant for an education ministry. They were
taking power readings and concerned that their numbers were much
different than my numbers.
The question I was commenting on was roughly: Can a person put out enough
power to usefully charge the battery on an XO? In that context, I think
anything within a factor of 2 is close enough.
Yes, and in that context you are quite close but, I have to deal with
all the out-of-context uses. :) So when I see power numbers thrown
about in a olpc public forum I try to frame them accordingly.
XO-1, system running, not doing much (no human), backlight off.
17W Adapter. (12V, 1.42A) running on 120V, 60 Hz.
The battery says LiFe, 6.5Vdc, 3.1Ah.
Kill-a-Watt reads 19-20 watts.
It took 2 hours to charge the battery from 10% to 80%. The charge% was quite
linear up to 80%. At 80%, it started to round off. After another half hour
it got to 90%, then jumped to 100%.
80% is roughly where it switches from constant current to constant
voltage. The jumps are because all the batteries are not equal yet the
charging system treats them that way. When the CV marker or the full
markers are detected the charge% is set to specific values.
Here's a graph of the battery power on a XO-1 across a few different
batteries.
http://dev.laptop.org/~rsmith/XO1-chg.png
I'll make a pretty graph if anybody wants.
Here's one for a 1.5:
http://dev.laptop.org/~rsmith/xo15_chg_graph.png
Its a 1.5 on 220Vac rather than 120Vac but works for illustration
purposes. Sample time is 10 seconds per sample. The "Off" curves are XO
powered off and the "Idle" is with the XO powered on but just sitting
there. Automatic suspend is disabled.
An XO-1 graph will look very similar but since the DC input power of an
XO-1 is capped at 17W instead of 25W the front of the curve will be much
flatter until the draw decreases below the DC 17W input limit.
If you take the area under the curves then you get 30Wh for the "Off"
cases and 47Wh for the "Idle" case. The matching number I have for an
XO-1 in the "Idle" case is 56Wh. Its a good bit higher since the XO-1.5
has more efficient power supplies than XO-1.
--
Richard A. Smith <rich...@laptop.org>
One Laptop per Child
_______________________________________________
Devel mailing list
Devel@lists.laptop.org
http://lists.laptop.org/listinfo/devel
