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of services at home, such as mirror.quantum5.ca—had a problem: it was
using a nameless case that was at least 20 years old, and it wasn’t doing the
job well. The ancient case was from an era when computers were much smaller and
emitted a lot less heat. With a modern air cooler, I couldn’t even close the
side panel.
However, buying a modern case has significant drawbacks. The design philosophy for cases in the 2020s is completely focused on displaying all the internals with as much glass as possible, offering as much cooling as possible for power-hungry components, or both. Given that spinning hard drives (HDDs) have gone completely out of fashion in the PC market, drive bays are sacrificed to improve cooling and aesthetics. Whereas my 20+-year-old case had six 3.5” HDD bays and four more 5.25” bays for optical drives that could be repurposed to house more HDDs, most modern cases, if they still had 3.5” HDD bays, could host at most three. This was perfectly fine for building PCs, but it was far from ideal for building a NAS.
What I really wanted was a full ATX case with good cooling and as many drive bays as possible. There’s effectively only one case on the market that fulfilled these requirements—Fractal Design’s Meshify 2 or the XL variant—and they came at a price of ~$200 CAD and ~$270 CAD, respectively, which always felt a bit too expensive for this hobby. So instead, I kept using the crappy old case. That was until I found an old Antec 1200, which ticked all my requirements, for free.
This post documents my experience of repurposing the 17-year-old Antec 1200 to fit a modern computer acting as a NAS, and my thoughts on the endeavour after doing it.
A common question might be: why do these old cases still fit modern components just fine?
This is because ever since the late 1990s, the vast majority of computer cases, motherboards, and power supplies have followed the ATX standard, which was introduced by Intel in 1995. Even 30 years later in 2025, the latest motherboard could still be installed into the earliest computer case, as long as they are both ATX1. For this reason, computer cases are one of the most reusable components in a computer—that is, if you are willing to deal with the quirks.
Despite ostensibly following the same ATX standard, computer cases have evolved significantly over the years, aesthetically from the beige boxes to the modern fad of using as much glass as possible, and functionally from sealed boxes to complete mesh fronts.
You’ll notice several things that have changed over the years:
As I’ve mentioned before on this blog, the hardware specs are as follows:
Note that while I only have four drives at the moment, my storage is quite close to being full anyway and I will likely need to add more drives soon, so extensibility is quite important to me.
However, this time around, what’s more important is probably the dimensions of the components rather than the exact hardware:
The Antec 1200 is an ATX full tower case first released in 2008. It contained rooms for twelve 5.25” bays, which probably explained the name. It’s the cousin of the Antec 902, sharing the exact same top design, but that case only had nine bays. The Antec 1200 came with three drive cages, each containing exactly three 3.5” drives, taking up three 5.25” bays each, for a total of nine drives with these cages. Each drive cage contained a 120 mm fan and a washable filter.
On top of the case is a front panel containing two USB 2.0 ports and an eSATA3 port (which were replaced by three USB 3.0 ports in the V3 version, but I have the original), and then a huge 200 mm fan inside a circular honeycomb mesh. At the back, there were two 120 mm fans next to the motherboard rear I/O, and the standard 7 full-height expansion card slots. Next to the expansion card slots were two rubber grommets to run tubing for a custom water cooling loop, if you were so inclined. At the very bottom was a spot for PSU.
The Antec 1200 I got was actually part of a full system that I managed to acquire. It was a high-end system back in the day, containing a first-generation Intel Core i7 CPU (Nehalem architecture), first released in 2008. It was the kind of system I dreamed of owning during its heyday, though in 2025, it was laughably obsolete and likely performs worse than a new phone.
The system I got wasn’t the stock configuration for the Antec 1200, but somewhat modified. The harsh blue LEDs on all the fans were removed, resulting in a more sane look. The lower of the two rear fans was replaced with a 120 mm AIO cooler for the CPU. The bottom drive bay also lacked a fan that was supposed to be included in the stock configuration. The side panel was also not the stock version with a fan mount, but rather a full acrylic piece that showcased the entire interior of the computer.
For fun, I powered it on and was greeted with a BIOS setup screen straight out of the 90s. Instead of a modern GUI with mouse support on so many motherboards these days, it looked like this:
CMOS Setup Utility - Copyright (C) 1984-2010 Award Software
╔══════════════════════════════════════╤═══════════════════════════════════════╗
║ │ ║
║ │ ║
║ ► MB Intelligent Tweaker(M.I.T.) │ Load Fail-Safe Defaults ║
║ │ ║
║ ► Standard CMOS Features │ Load Optimized Defaults ║
║ │ ║
║ ► Advanced BIOS Features │ Set Supervisor Password ║
║ │ ║
║ ► Integrated Peripherals │ Set User Password ║
║ │ ║
║ ► Power Management Setup │ Save & Exit Setup ║
║ │ ║
║ ► PC Health Status │ Exit Without Saving ║
║ │ ║
║ │ ║
╟──────────────────────────────────────┴───────────────────────────────────────╢
║ Esc : Quit ↑↓→←: Select Item F11 : Save CMOS to BIOS ║
║ F8 : Q-Flash F10 : Save & Exit Setup F12 : Load CMOS from BIOS ║
╟──────────────────────────────────────────────────────────────────────────────╢
║ ║
║ Change CPU's Clock & Voltage ║
║ ║
╚══════════════════════════════════════════════════════════════════════════════╝
Ah, the memories it brought back…
Either way, the entire system inside had to go out, along with all the dust that accumulated from the previous owner. I took apart the machine completely and removed every removable part of the case and vacuumed up all the dust inside. That took quite the effort.
The biggest modification I had to do to the case was replacing all the fans. After 17 years, they were quite noisy and no longer in good shape. The Antec 1200 was also designed in an era before PWM fan control. Instead, all the fans were powered through Molex connectors, and to control the fans, potentiometers were connected to the fans, with the knob sticking out of the front mesh for the front fans that you could turn to tune the fans manually. The rear and top fans were controlled from the rear with hardware switches, also connected to the fans. This was a mess. I’d much rather have the motherboard automatically control the fans based on the temperature and workload.
Rather than waiting for the fans to inevitably fail and tolerate the noise in the meantime, I decided to just replace them when it wouldn’t incur downtime. So I bought a set of five Thermalright TL-C12C fans to replace all the 120 mm fans and install another fan in the bottom HDD cage to better cool the drives. Replacing the 120 mm fans was a fairly simple operation, though the case did show its age in an unpleasant way.
You see, the drive bay fan mounts had this plastic piece that sticks into the mounting holes of the 120 mm fan, and it had a hole inside to accept a screw. This allowed you to mount the fan to the front of the drive bay before attaching the front portion to the rest of the drive bay. Unfortunately, those thin pieces of plastic proved easily damaged, and the mere act of screwing in the fan caused all the little plastic pieces to shear off. At least the fans were held in place tightly once the drive bay was assembled, so it was no great loss.
The top 200 mm fan proved to be a lot trickier due to it being a custom part. The fan had a super thick rim that was exactly the same size as the top fan mesh, and there were several random screw holes that attached the fan to the case. I bought a Thermaltake CL-F015-PL20BL-A, which looked like it might fit, but it ultimately didn’t. I had to saw off the corners on one side to get it to fit inside the mesh, which created microplastic dust that probably wasn’t very good for my health. Then, none of the screw holes ended up aligning, so I had to hot glue the fan into place. In retrospect, it may have been wiser to keep the top as it was.
Also, if any case designers are reading this: please don’t have custom fan shapes in your case. It’s clear that Antec wanted a circular fan grill on top for aesthetic reasons, which necessitated the custom shape, instead of a square one that could have fit standard 200 mm fans.
An interesting consideration was which fan slots to populate. The instinct might be to populate all fan slots, but that would also create a problem given the Antec 1200’s design.
As previously mentioned, to keep dust to a minimum, maintaining positive pressure is essential. Given that there were two rear 120 mm exhausts and a huge 200 mm top exhaust, but only three filtered front 120 mm intakes, the case would have negative pressure if I had populated all the fans.
To solve this problem, I decided to run only a single 120 mm fan at the back instead of two, while running the front intakes at a much higher speed than the other fans for positive pressure inside the case. Given that the server isn’t running a power-intensive GPU, the cooling was more than sufficient.
There were several accessories missing when I got my Antec 1200:
Now that the Antec 1200 was modernized with new fans and cleaned, it was time to move the server over from the nameless case. So I picked a night when there was very low traffic on my mirror and powered down the server. I apologize for the downtime if you noticed it.
Due to a lack of space inside the old case, I opted to move all the hard drives over first. It was there that I ran into the first snag: while all the Seagate IronWolfs were moved over without issue, the WD Red Pros were missing the middle set of side screws4, resulting in only the front of the drives being screwed into the drive cages. Fortunately, because the drive cages have metal flaps for the drive to sit on, the drive is resting stably inside the case anyway, though the back could pivot up if a force is applied.
After mounting the drives, I moved over the PSU. Due to the compatible nature of the ATX, the PSU fit perfectly. However, due to the lack of a bottom intake, I had to mount the PSU with the fan facing up. Also, due to the lack of a PSU basement and the non-modular nature of my PSU, there’s a bunch of cable clutter, but I don’t really care.
I then moved over the motherboard, which also fit without issue thanks to ATX. However, I did have some trouble plugging in the EPS 12 V cable from the PSU due to the height of the case causing it to not reach, but it appeared the original system suffered from the same problem and there was an extension in the original system that I reused.
With the motherboard installed, I plugged in the front panel audio5, USB headers, and all the fans, which was a surprisingly easy task. Inside ATX mid-towers or smaller cases, that was always a struggle due to how close the headers on the motherboard were to the edge of the case, making it super difficult to get my hands in there. Due to the additional height of the Antec 1200, there was a lot more space and this ended up being the smoothest experience I’ve had in ages.
Due to wire length issues, I ended up plugging the rear fan into the AIO pump header. I had to override it in the UEFI to configure that as a PWM fan and set up a fan curve manually, but it worked just like a regular fan after that.
Interestingly, the Antec 1200 didn’t have a power LED, because the obnoxious blue lights on the fans were supposed to serve as power indicators, according to the manual. Since none of the replacement fans had lighting, I’ll just have to settle for looking at whether the fans are spinning or not to see if the system is powered on. I also didn’t bother plugging in the eSATA port, since eSATA hasn’t been relevant for a decade at this point.
With the system all wired up, I turned it on and it booted normally. I set up the fan curves in the UEFI configuration and the server was all good to go and booted back up as if nothing happened.
I apologize for the cable management.
The Antec 1200 is still a great case for a modern NAS with its drive bays and good cooling. After replacing all the fans, the system was surprisingly quiet—even at full load—while having great cooling. When the system is mostly idle, I could barely hear it, while it was slightly audible at full load, though it still sounded pleasant and not distracting.
There are just several small downsides due to the age and design of the case:
Overall, I am pretty happy with this. It certainly saved me a lot of money compared to buying a new Meshify 2 for $200 CAD, given that the fan replacement only cost around $56. Given that it was Earth Day recently, I’ll also say that it’s better for the environment to reuse a perfectly good case instead of buying a new one.
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