On 04/11/10 01:54, John Robinson wrote:
operating power is 7W, the maximum transition power (whatever that is)
is 40W - yes, 40W
I'd guess this is either during spin-up, (or spin speed change if
enabled), or possibly even the "inrush" current when power is first
applied to the device (i.e. only for a few milliseconds when the machine
is turned on), and so probably wouldn't cause much of a problem unless.
To check for such transient power supply issues, you need a good fast
(expensive) digital scope, I'd guess - so that you can catch very
short-lived ("transient") spikes or sags in the supply voltages, but you
can do some quite easy checks to see if any of the speced currents are
being exceeded (or are near the specified limits) over longer periods
using a "DC Current Clamp" - such as a "UT203" clamp which I bought on
ebay for about US$30.
A quick search showed that there are other models available at about
double the price which have an "inrush" function which presumably
measures the peak transient current e.g. "Mastech MS2108" - so this
might be a good compromise before splashing out loads of cash on a
digital scope.
Using a clamp meter is pretty easy - you just get all the individual
wires of a particular voltage for the power supply (e.g. all the yellow
12v wires), and place the jaws of the clamp around those wires only -
such that they are all "pointing the same way" i.e. the power-supply
side is all on one side of the meter, and the power-consumers are all on
the other side of the meter.
i.e.
PSU--------------+------------->Drive
PSU--------------+------------->Drive
PSU--------------+------------->Drive
PSU--------------+------------->Drive
PSU--------------+------------->Drive
PSU--------------+------------->Motherboard
with the clamp passed around the wires where the '+' is.
The DC current in the wires induces a circular magnetic field in the
clamp jaws, and this in turn "bends" the average path of a small current
across a flat piece of silicon inside the meter - because the path is no
longer "straight across from A to B" in the silicon but instead takes a
longer route: the stronger the magnetic field, the higher apparent
resistance of the silicon (known as the "Hall effect").
... then you read off the measured current on the meter, check the spec
sheet for the power supply (or sometimes the ratings sticker) to see
what the max draw at 12v is, then repeat for 5v (red), 3.3v (orange) etc....
Tim.
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