Original Link: http://www.anandtech.com/show/6769/an-update-on-intels-ssd-525-power-consumption

Intel's SSD 525 is the mSATA version of last year's SF-2281 based Intel SSD 520. The drive isn't just physically smaller, but it also features a new version of the Intel/SandForce firmware with a bunch of bug fixes as well as some performance and power improvements. Among the improvements is a tangible reduction in idle power consumption. However in our testing we noticed higher power consumption than the 520 under load. Intel hadn't seen this internally, so we went to work investigating why there was a discrepancy.

The SATA power connector can supply power to a drive on a combination of one or more power rails: 3.3V, 5V or 12V. Almost all 2.5" desktop SSDs draw power on the 5V rail exclusively, so our power testing involves using a current meter inline with the 5V rail. The mSATA to SATA adapter we use converts 5V to 3.3V for use by the mSATA drive, however some power is lost in the process. In order to truly characterize the 525's power we had to supply 3.3V directly to the drive and measure at our power source. The modified mSATA adapter above allowed us to do just that.

Idle power consumption didn't change much:

Drive Power Consumption - Idle

Note that the 525 still holds a tremendous advantage over the 2.5" 520 in idle power consumption. Given the Ultrabook/SFF PC/NUC target for the 525, driving idle power even lower makes sense.

Under load there's a somewhat more appreciable difference in power when we measure directly off of a 3.3V supply to the 525:

Drive Power Consumption - Sequential Write

Our 520 still manages to be lower power than the 525, however it's entirely possible that we simply had a better yielding NAND + controller combination back then. There's about a 10 - 15% reduction in power compared to measuring the 525 at the mSATA adapter's 5V rail with the 240GB model.

Drive Power Consumption - Random Write

There story isn't any different in our random write test. Measuring power sent direct to the 525 narrows the gap between it and our old 520 sample. Our original 520 still seems to hold a small active power advantage over our 525 samples, but with only an early sample to compare to it's impossible to say if the same would be true for a newer/different drive. 

I've updated Bench to include the latest power results.

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