NZXT N7 Visual Inspection

Our first glimpse of the board shows it is clad in what many will likely refer to as armor (thanks, ASUS!). The majority of the motherboard is covered in black aluminum shrouding. About the only exposed parts we are able to see are the important ones such as the socket, DRAM and PCIe slots, power connectors, as well as the headers on top and bottom. Between the PCIe slots are two covers that when removed, reveal the locations for the M.2 drives. If the stealth black look doesn't tickle your fancy, it is also available with the cover in white (picture in the gallery).

The perforated shroud on top of the chipset is attached via two ball and socket type connectors - when removed it exposes the actual chipset heatsink hidden below. The other perforated heatsink is mounted to the VRM heatsink partially hidden underneath. In order to remove this shroud, it takes four screws, two of which require removing the back panel IO shroud to reach. The large shroud itself is held on securely by metal pushpins. Removing it made me a bit nervous as I needed to use needle nose pliers to push the pins in and get it off. Since they are metal, after replacing the shroud, it wasn't as tight without using a tool to push them back out. Not many people like plastic push pins, but I can see a use case for them here (not that many will be removing the shroud anyway). 

Overall, the board looks good with this shrouding and chooses not to use RGB LEDs. If those are a requirement, you will need to use the two onboard headers. For the M.2 drives, NZXT does recommend the shrouds are left off when in use. 


Starting off with fan headers, there are a total of nine fan/pump headers around the board. All of these are located either at the top of the board above the VRM or across the bottom part of the motherboard. The top headers are for the CPU fan, AIO Pump, and three system fans (Sys Fan 4/5/6). The bottom contains a W Pump fan and the first three system fans. All headers are able to control the attached device via PWM or DC methods through the BIOS or CAM software. The six system fan headers support up to 5W per channel so be aware if you have a powerful fan or want to daisy chain a couple on the header. Typically headers support around 1A. There was no mention of how much the CPU/AIO/W PUMP headers can handle. 

The NZXT N7 VRM looks to be a total of 15 phases by count. These are controlled by a single Infineon IR35201 multi-phase buck controller for the CPU that we have seen on a few X299 boards we reviewed. The IR35201 is able to control a total of 8 phases which means these are doubled. The phase doublers used are IR3598 MOSFET drivers. Feeding power to the CPU is an 8-pin EPS 12V connector. This setup shouldn't have much issue driving the flagship i7-8700K. 

As is typical with the Z370 platform, there are a total of four DRAM slots capable of supporting a total of 64GB RAM. Memory compatibility is up to DDR4 3866. What is visible in the picture is part of the 8-pin EPS 12V connector, five fan headers, and both of the RGB LED headers. 

The right side of the board really doesn't havasdfasde much to show outside of the 24-pin ATX connector. An item of note, however... take a look at the hole in the shroud where we would screw in the motherboard. It is small - small enough in fact that the screws that come with my Banchetto 101 open-air benching station do not fit. These are not your typical screws, they have slightly larger heads than what one normally would receive with a case, but there is very little room for anything larger. This is the first time I ran across this issue with shrouds. 

The Z370 chipset is able to split off six SATA ports with the NZXT N7 giving users four. This configuration ensures there is no SATA port sharing between the two M.2 drives. In other words, both M.2 slots can be populated and still have all four SATA ports available. 

The bottom part of the board contains all sorts of headers. From left to right we see:

  • Front Panel Audio
  • Power/Reset Buttons
  • 3 x USB 2.0 headers
  • USB 3.0 header
  • 4 x Fan headers (1 Pump, 3 fans)
  • Front Panel connectors
  • BIOS switch
  • ROM Backup button

The bottom half of the board comes equipped with a total of five PCIe slots. The two full-length slots are CPU connected while the x1 and x4 slots are connected via chipset. Also pictured here are the locations for the two M.2 drives with the covers removed. Both will fit up to 80mm modules. The bottom slot (M.2_2) supports both PCIe and SATA based drives while the top slots (M.2_1) supports only PCIe mode. 

Below is a simplified list of how the PCIe slots will work with each family of CPUs (talking PCIe lanes) when multiple cards are used (the "@" symbol is used to show slot preference for the configuration). PCIe slot numbers are referred to by top-down. In other words, PCIe 1 is the first slot, PCIe 2 below it, and so on:

PCIe 1 @x16 x8
PCIe 4 - x8
SLI - Yes
Crossfire - Yes

The back panel IO is devoid of many colors outside of the four USB 3.0 ports but has most of what we come to expect from a mid-range motherboard. What I do see missing are any USB 3.1 (10 Gbps) ports. Everything here is either 2.0 or 3.0. From left to right we have:

  • 2 x USB 2.0 ports
  • CMOS Reset button
  • HDMI / DisplayPort / SPDIF outputs
  • 1 x USB 2.0 port
  • 4 x USB 3.0 ports
  • Intel Gigabit LAN port
  • 2 x USB 2.0 ports
  • 7.1-Channel Audio jacks

In the Box

The accessory stack is pretty light but does include most anything needed to get started. A great value-add to the accessory stack are two RGB LED strips as well as two LED connection cables (500mm) and two extension cables (300mm). This list below is from the NZXT specifications:

  • Users Manual
  • I/O Shield
  • 4 x SATA cables
  • NZXT SLI Bridge
  • 2 x LED strips
  • 2 x 500mm LED connection cables
  • 2 x 300mm LED extension cables

EDITOR'S NOTE: On 1/19/18 NZXT will not bundle the RGB LED strips or extensions in order to reduce the MSRP to $249

NZXT N7 Overview BIOS and Software
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  • madalice - Friday, January 26, 2018 - link

    There is plenty of scientific evidence that the best outcomes for transgender individuals come from affirmation and supportive medical interventions. See this blog post ( for a decent list of references on that topic. You may find that the expertise of participants in a forum focused on computer hardware and technology is of limited value in a discussion of gender identity.
  • edzieba - Wednesday, January 10, 2018 - link

    The whole paragraph could definitely have benefited from a preface of "we don't have any data for Z370 boards, so X299 is the closest comparison we have". Along with some explanation for where the numbers came from for the "different uncore" 8700ks: are they tested on another motherboard which varies the uncore frequency (that different motherboards do that AT ALL would be worthy of an article in and of itself)? Were they tested on the same board (different CPUs have different uncore frequencies even with the same designation, also worthy of an article), and if so why can't the N7's uncore not be changed for an apples-to-apples test? Are they numbers from the same CPU with the uncore overclocked on the N7 board (if so, why are the numbers everywhere /except/ the 'overclocking' page)?
  • Tunrip - Wednesday, January 10, 2018 - link

    Thank you for the response :) I think maybe you over-worried about what you could/couldn't tell people here quite early on. I appreciate your honest answers and will look forward to reading more of your articles :)
  • viktorborge - Sunday, January 28, 2018 - link

    If you tried to say that this is the first Z370 board you tested, and that you didn't have any other Z370 boards available, so you don't have anything to compare it to, why didn't you just write that? That paragraph sounds like what you write in a research paper when you want to hide some screwup behind jargon.

    You could have compared it to to the data from your initial review of the 8700K:
    Yeah, yeah, different setup, but it still makes WAY more sense to do this than the i9.
  • Sailor23M - Wednesday, January 10, 2018 - link

    Agree w/ Tunrip, threw me off as well.
  • Slash3 - Wednesday, January 10, 2018 - link

    I re-read it twice as I thought someone had accidentally pasted a paragraph from the conclusion page in the introduction page. I stopped asking myself questions when I got to the graphs containing undefined asterisks.
  • Galcobar - Wednesday, January 10, 2018 - link

    The whole article could have used a copy editor, unfortunately. It's replete with both fragmentary and run-on sentences, incomplete lines of thought, and flat-out missing explanations.

    Aside from the grammatical issues, the concerns commenters raised are typical of a piece written by someone who knows the subject matter. The author thus does not see the jumps from point to point which the reader for lack of background information cannot follow.
  • ApePriori - Wednesday, January 10, 2018 - link

    Yeah, 'Coffe Lake' shows up twice, paragraph and header.
  • :nudge> - Tuesday, January 9, 2018 - link

    One of the most surprising and appealing things I've seen reviewed here in quite a while. I wasn't evening planning on buying a motherboard but am considering getting one. Considering it's their first MB, the price is to be expected. I don't mind the lack of usb3.1 and like the sacrifice of 2 Sata for better M2 support. I hope this clean (no gamer) look starts a trend.
  • l8gravely - Tuesday, January 9, 2018 - link

    The most annoying things about this board is the lack of colors on the audio block, making it more difficult to figure out what goes where. Especially whe it's in the case and around back. The second thing is the shrouds, I worry that the board will get hotter than expected, since air won't be able to flow around it as easily. Plus, when you do (you know you will!) drop a screw and it goes under a shroud, it's going to be a pain to get back out.

    I do like the lack of bling, but that's cause I'm a grumpy old man. Get off my lawn kids! I *never* look into my cases once they're setup, so not having that part is great.

    Being a new vendor, with new BIOS and other features, I'd probably steer clear of this board unless the price was super good, just because the time I waste chasing down problems isn't worth it.

    Can you do some long term stability tests? Maybe put it all into a case with crappy airflow and then let it crank doing some CPU stress tests for 48, 72 or more hours? With lots of IO and stressing of the PCIe busses?

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