Introduction and First Impressions
NZXT has proven to be willing to adapt and innovate in the competitive DIY PC space, introducing their own software control suite (CAM) to control cooling and lighting effects in 2014, and this year launching their first motherboard. We have have seen CAM in action with products like the Kraken AiO liquid CPU coolers, which required the software to fully unlock their potential - both thermally and visually (RGB) speaking, and it's an integral part of the new H700i enclosure.
“The H700i showcases NZXT’s vision for modern PC building. This premium mid-tower case features a unique CAM Powered Smart Device that digitally drives RGB lighting and fan performance. You can effortlessly control RGB lighting and fans, while Adaptive Noise Reduction optimizes your build’s acoustics through machine learning and ideal fan settings. Includes four integrated Aer F fans and two RGB LED to enhance the aesthetics of your build as seen through the H700i’s stunning tempered glass panel.”
Now that NZXT has brought that CAM software feature-set to enclosures beginning with the H700i mid-tower we have for you today, we will pay close attention to the way the integrated "Smart Device" - a module that controls fans and lighting - fits into the usual thermal/noise equation. OEM systems from the likes of Dell with their Alienware desktops have used similar dedicated hardware for cooling and lighting control, and it's interesting to see this enter the DIY space. How important is software control of cooling and RGB effects to you? That depends, of course, and partly on how easy it is to use.
We will take a close look in and around this new enclosure, and while it’s on the test bench we will see how the stylish H700i stacks up with thermal and noise results vs. some other recent cases - and test the H700i both with and without CAM software optimization to see what sort of difference it makes in practice. Let’s get started!