Hi everyone, Benedict here. I apologize for the irregularity of my posts. I was preparing with my team for a presentation for our final year project.Although this preparation occupied the bulk of my semester break, I was still able to squeeze in a little time to work on a few small projects and experiments. Allow me to share two of them with you below.
The first is bridging two computer power supplies together to effectively combine their powers to supply enough power to my PC. The second power supply is tucked in the bottom right corner of the chassis (case) as you can see in the picture above.
So how did I come to this idea? Well, prior to doing this, I observed that my PC was constantly freezing or crashing when it had been under load for anywhere from a few minutes to half an hour.
One observation I noticed when it appeared to freeze, was that it only froze when carrying out a disk read or write operation. (A task that needs to read or write data to the hard disk.) If I dragged an open window across the screen, it worked fine. If I tried to open an application, it froze.
After some trial and error, I realized that it occurred because at the time when the system was under load, there were moments where the hard drive could not receive enough power for the disks inside to continue spinning, causing them to spin down and be unable to start up again. The most likely cause I deduced was a power supply with an insufficient wattage rating to handle all the components in it.
The second is changing the cooling system for my graphics card, also known as a GPU. At the time of purchase, it was using a squirrel cage type fan. This fan was fine for normal use, but once the GPU was running under load, I observed the temperature of around 80+ degrees Celsius.
I used a few applications to monitor the temperature. They are CPUID’s HWMonitor, Speedfan and Piriform’s Speccy. This was to ensure that the temperature was being reported accurately. Hot temperatures increase the rate of wear and tear on the GPU circuits, hence I thought of a better cooling solution, and came up with this.
Yes, I just directly screwed down a powerful fan onto the heatsink, and made an adapter for the fan wires. (Sorry that it isn’t in the picture.) Why this method? Well, I was looking at how CPU processor heatsinks were designed, and thought, if these heatsink designs are able to sufficiently cool a CPU, they might just be effective enough in cooling the GPU.
I installed the GPU back and gave it some work to churn on. Using the same software as mentioned above, I observed the temperature drop to around 50+ degrees Celsius. It was a drop of almost 30 degrees Celsius. At first, I was a little suprised at the vast drop. I even touched the heatsink with my bare hand, and yes, it was much cooler.
The third is still a work in progress. The device you see in the picture above is a Global Positioning System (GPS) tool that I happened to find in the trash. Well, sort of. I had to remove the back cover to do some minor fixes and it broke in the process, so I had to case to mount it in.
So I played around with the user interface for a while, and managed to find a way to get into the operating system. It runs on Windows Embedded Compact Edition 6.0. In other words, it’s very much like an embedded PC, which has limited functionality, with only the tools needed to serve it’s purpose as a GPS.
I’m still poking around it for now, and I see some potential uses for it, such as a media player or document viewer. Although it cannot connect to the internet due to a lack of the necessary hardware, it does accept a micro SD card for data transfer. It’s quite interesting to see how many functions it can serve as for an embedded PC.
I hope this information is useful to you, especially if you have been experiencing some issues like these with your computer as well. If you need further help on this, please feel free to drop me a message through my contact in the “About Benedict” page at the top.
Last but not least, thanks for coming once again to have a look at my blog.