The 960GB OWC Mercury Electra MAX

OWC Mercury Electra MAX 3G (960GB) Specifications
Raw NAND Capacity 1024GiB
Formatted Capacity 894GiB
NAND Micron 25nm Asynchronous MLC NAND
Controller 2x SandForce SF-2181
RAID Controller Silicon Image SteelVine Sil5923CNU
Sequential Read 254MB/s
Sequential Write 250MB/s
Sequential Read (Incompressible Data) 252MB/s
Sequential Write (Incompressible Data) 223MB/s
Price $1,118

I want to start off by saying that the 960GB Mercury Electra is not meant to be the highest performing SSD on the market. OWC apparently had to go with a SATA 3Gbps interface due to the limited size that a 2.5" form factor offers, which makes especially thermals a tough item to deal with. Price was also a concern as the 960GB Mercury Electra is not cheap to begin with, so sticking with SATA 3Gbps allowed OWC to keep the price a bit more affordable.

Oddly enough, OWC hasn't reported any random read or write numbers for the 960GB Mercury Electra. I asked OWC why and they told me it's because they see audio and video professionals as the biggest niche for the drive, whose usage will mainly consist of big sequential file transfers and hence OWC felt that the random read/write speeds are not important. We'll have our own real-world numbers in a moment either way, but capping all read/writes to ~3Gbps is going to severely limit performance in some scenarios.

Inside the 960GB OWC Mercury Electra MAX

Externally the 960GB Mercury Electra doesn’t differ from its smaller siblings. The only external difference is that when you turn the SSD around, you see a 960GB sticker. I have to say the Mercury Electra feels very rugged and solid. The chassis is made out of fairly thick metal and that gives the impression of good quality.

The internal design of the 960GB Mercury Electra is not something we typically see. Because it’s basically two 480GB SSDs in RAID 0, there are two main PCBs to hold the controllers and NAND. Each PCB consists of a SandForce SF-2181 controller and 16 NAND packages. There are also two smaller PCBs to keep the main ones separate, although the other small PCB is also housing the SATA connector and RAID controller.

The SF-2181

Typically all SandForce SSDs are based on the SF-2281 controller but since the Mercury Electra is a 3Gb/s drive, it makes sense for OWC to go with a cheaper SATA 3Gb/s controller. There are always SandForce's first generation controllers that are all SATA 3Gb/s, but SandForce also has two second generation SATA 3Gb/s controllers: the SF-2141 and SF-2181. The difference between the two is that SF-2141 is a 4-channel design and its maximum capacity is limited to 64GB. I've only seen it used in some very low-end SandForce SSDs (e.g. ADATA Premier SP800), which is its target market. The SF-2181 has 8 channels like most SSD controllers the only difference between it and SF-2281 is the interface, which limits the sequential read/write speeds of SF-2181 to 250MB/s. SandForce has not released any pricing information but it should be safe to say that the SF-2181 is cheaper than SF-2281. Like all semiconductors, not every die is equal, which means SandForce can brand the lower binned parts as SF-2181 and sell the higher binned parts as SF-2281.

The RAID Controller

The RAID controller is partially hidden under one of the main PCBs but OWC told us that it's Silicon Image's SteelVine Sil592 (you can actually see the logo in the picture above). Physically it's very small and the whole package measures in at only 36mm^2.

The Sil5923 isn't a very complex controller and only supports RAID 0, RAID 1 and JBOD. It's also limited to the SATA 2.6 spec (3Gbps) and at least Silicon Image does not have a controller with SATA 6Gbps support right now. The market for SATA to SATA RAID controllers is much smaller compared to PCIe to SATA controllers, which is why I'm not surprised that Silicon Image's solution is only SATA 3Gbps.


Micron has been reforming their part numbering system. Instead of a long part number, there are now two five character codes. The lower code is what Micron calls FBGA code and it corresponds to the former part number. Obviously there is the downside of using such a system because the FBGA code doesn’t provide anywhere near as much information as the old part number did. Fortunately, Micron has a public FBGA code decoder which will decode the FBGA code and match it to a corresponding part number.

In this case, NQ392 is the same as MT29F256G08CMCABH2-10R:A. From that we get all the information we need: each package is 32GB in size (4x 8GB 25nm dies) and the NAND is running in asynchronous mode.

Test System


Intel Core i5-2500K running at 3.3GHz (Turbo and EIST enabled)


AsRock Z68 Pro3


Intel Z68

Chipset Drivers

Intel + Intel RST 10.2

Memory G.Skill RipjawsX DDR3-1600 2 x 4GB (9-9-9-24)
Video Card XFX AMD Radeon HD 6850 XXX
(800MHz core clock; 4.2GHz GDDR5 effective)
Video Drivers AMD Catalyst 10.1
Desktop Resolution 1920 x 1080
OS Windows 7 x64


Introduction Random & Sequential Read/Write Speed
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  • geoffty - Saturday, October 20, 2012 - link

    "If we go a year back in time, you had to fork off around $1000 for a 512GB SSD"

    It's "fork out", not "fork off". That just sounds rude. :-)
  • Donkey2008 - Saturday, October 20, 2012 - link

    SandForce/LSI (Milpitas, CA)
    OWC (Woodstock, IL)
    Micron (Boise, ID)

    USA! USA! USA!
  • Kristian Vättö - Tuesday, October 23, 2012 - link

    It's made in the US.
  • adriantrances - Sunday, October 21, 2012 - link

    250MB speeds + Sandforce + 1100$ + OWC = GG

    Good luck selling that.
  • Luscious - Monday, October 22, 2012 - link

    How can you talk 9 pages about a SSD and not mention the z-height? Many notebook/netbook drive caddies won't fit a 9.5mm device.
  • Kristian Vättö - Tuesday, October 23, 2012 - link

    It's 9.5mm like most 2.5" drives are. Usually I don't mention the height unless it's thinner (or thicker) than the usual 9.5mm. Most laptops use 2.5" 9.5mm drives, although some thinner models have started to adopt 7mm drives (especially Ultrabooks and other SSD only laptops).

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