Closer Examination

The CORSAIR Hydro XC7 is only compatible with the recent Intel and AMD mainstream platforms, has a plastic trim, and a less complex cooling engine than their own Hydro XC9 we reviewed before. What is common to both is that the ID is definitely reminiscent of CORSAIR's Hydro series CPU AIO cooling solutions, with the top and mounting bracket especially familiar to anyone who has used their Asetek-based coolers before. There is a small CORSAIR logo on the bottom, which helps with figuring out the intended orientation of the block, although the manual mentions there will be no discernible orientation effect, and we believe it, too. On top are also two BSP G1/4" threaded ports, spaced such that all but the largest of fittings used in this market will fit without issues. The recent trend is to go with smaller tubing and fittings than even a few years ago (think 12–14 mm vs. 16–19 mm before), and those will work just fine here. There are no arrows or signs to indicate any preferred inlet or outlet ports. Ideally, you would want the port with the CORSAIR logo at the bottom, on the right, as the inlet port, but you won't lose out on much performance if you have to swap things around for a better plumbing layout. The Intel mounting bracket with the glossy gray finish provides for a subtle contrast to the black matte plastic trim, and we see enough of the transparent nylon top to where a colored coolant will look nice here. Given the nature of the RGB lighting support, however, CORSAIR recommends using a clear coolant and customizing the color scheme via the RGB LEDs instead.


The presence of the LEDs is why we also see a cable with three wires in black insulation jut out the side—a ribbon-style cable, it is easier than a regular cable to route/hide as well. It terminates in a connector specifically meant for CORSAIR's Commander PRO or Lighting Node PRO instead of an addressable 5 V RGB header on your motherboard as you may have thought. CORSAIR wants to have people in their own ecosystem, which arguably is big and polished enough to merit consideration, but giving people the option to use it with a motherboard would be nice, especially since the CORSAIR solution is an additional purchase. This is where a recent update I got from the company comes in, with them saying they are going to include an adapter to make this very thing possible in future revisions of the block.

Flipping the block over, we see a plastic cover to help protect the cold plate during transit. The cold plate also has pre-applied thermal paste in a hexagonal fashion with gaps in between that would fill out as you install and apply pressure on the cold plate. This does mean you have a one-time application only and would need to buy thermal paste separately if you mess it up, do maintenance on the watercooling loop, or simply switch hardware later on.


The entire design takes cues from Asetek in more ways than one. This includes the notches and twists to help install/remove the mounting bracket in a very similar manner, which keeps things easy for the average user, but does result in some give. Seen above is a look at the Hydro XC7 block with the AMD mounting bracket, which unfortunately will be the extent of its involvement with AMD here given the lack of testing hardware at my disposal.


Taking the mounting bracket out exposes four Phillips head screws that keep the plastic trim and the rest of the block together, and a precision screwdriver helps separate them easily, which reveals 16 individually addressable RGB LEDs around the top, placed on a circular PCB that has the aforementioned cable connected to it for power and control alike. There could be a big light show if you want, and we will take a look at the lighting on the next page. Removing the plastic trim shows a fully functional nylon top, which should fare better than the usual plexi/acrylic in case you end up over-tightening fittings or screws, and it is polished to allow for a better look at the cooling engine underneath.


Disassembly of the core block (done after all testing is complete) is fairly easy—unscrew the 10 Torx T6 screws on the back with a compatible screwdriver and separate the components as seen above. The cold plate is 1.5 mm thick outside of the fins and ~5 mm with them, which is more than most. The jetplate is made out of plastic and ~0.5 mm thick, but the plastic construction will work against the thickness and help balance out the eventual cold plate bow when installed. I am not sure how well the plastic will hold up over time, but CORSAIR says they have tested various configurations for multiple years without issues. We get the usual machined set of ultra-thin microfins and microchannels, which number over 60 here as opposed to over 70 with the Hydro XC9. The fins are also ~2.65 mm tall, which is once more higher than average. So all other things being equal, liquid flow restriction might well be higher than average, but the increased surface area will help with the thermal transfer from the cold plate to the coolant.

This is just one part of the cooling engine, and the larger space around the fins coupled with the split-central inlet flow via the jetplate and the flow guide on the top will also contribute to the liquid flow restriction and ease of air bleeding. The circular coolant flow path should allow for air to escape more readily than with the rounded rectangular path often used by others, for example.