VRML And The Dream Of Bringing 3D To The World Wide Web

You don’t have to be a Snow Crash or Tron fan to be familiar with the 3D craze that characterized the rise of the Internet and the World Wide Web in particular. From phrases like ‘surfing the information highway’ to sectioning websites as if to represent 3D real-life equivalents or sorting them by virtual streets like Geocities did, there has always been a strong push to make the Internet a more three-dimensional experience.

This is perhaps not so strange considering that we humans are ourselves 3D beings used to interacting in a 3D world. Surely we could make this fancy new ‘Internet’ technology do something more futuristic than connect us to text-based BBSes and serve HTML pages with heavily dithered images?

Enter VRML, the Virtual Reality Modelling Language, whose 3D worlds would surely herald the arrival of a new Internet era. Though neither VRML nor its successor X3D became a hit, they did leave their marks and are arguably the reason why we have technologies like WebGL today.

Continue reading “VRML And The Dream Of Bringing 3D To The World Wide Web”

A PC That Uses Hot Coffee As Coolant

Modern computers generate a great deal of heat when under load, thus we cool them with fans and sometimes even water cooling systems. [Doug MacDowell] figured that water was alright, but why not use coffee instead?

Someone tell us how [Doug] made this graph look like it’s right out of a 1970s college textbook.
The concept is simple enough — replace water in a PC’s cooling loop with fresh-brewed coffee. [Doug] fully integrated an entire PC build on to the side of a General Electric drip coffee maker. It’s an absolute mess of tubes and wires, but it’s both a PC and a functional coffee maker in one.

The coffee maker percolates coffee as per normal into the carafe, and from there, it’s then pumped through two radiators on top of the PC. From there, it circulates to the water block on top of the CPU, and then back to the carafe on the coffee maker where the cycle repeats. Doug notes the coffee is initially so hot (90 C) that the PC is at risk of crashing, but after 75 minutes circulating through the system, the coffee and CPU sit at an equilibrium temperature of 33 C.

You can’t really drink coffee from this machine. PC water cooling components are not food safe in any way, and [Doug] notes mold will become an issue over time. For short periods at least, though, it’s possible to sort-of-cool your computer with hot, fresh coffee if you really want to do that.

We’ve featured some great hacks of conventional coffee machines over the years, including this fantastic talk at Supercon 2023.

Continue reading “A PC That Uses Hot Coffee As Coolant”

330k volts

Sparks Fly: Building A 330 KV Supply From A PC PSU

If you’re hunting for a bench power supply, you’ll quickly notice options dry up above 48 V or so, and you definitely won’t find a 330 kV supply on the shelf at your local electronics shop. But with just a few parts, [Mircemk] has crafted a high-voltage source from a modified PC power supply that delivers electrifying results.

The sparks arcing over a foot of thin air are a dead giveaway, but let’s be clear: this project is not for beginners. High voltage — defined as around 1,000 V and up, with this project hitting 350 times that — carries risks of severe injury or death. Only tackle it if you fully understand the dangers and take precautions like proper insulation and never working alone.

This project showcases a Cockcroft-Walton voltage multiplier, a clever setup using diodes and capacitors to step up voltage. The capacitors charge and discharge in an alternating pattern, doubling the voltage after each diode pair. [Mircemk] uses 3 mm thick Plexiglas as an insulator, providing both structure and electrical isolation for the diode-capacitor cascade.

To achieve the 330,000 V output, [Mircemk] starts by modifying a standard PC ATX power supply, removing the Schottky diodes from the secondary winding’s output to produce a roughly 15 V square wave. This feeds into another transformer, boosting the voltage before it enters the Cockcroft-Walton multiplier. At first glance, the multiplier’s sides look identical, but their opposite polarities create a massive potential difference across the spark gap.

[Mircemk]’s benchtop exploration into high-voltage territory is a shocking success. If this project lights up your curiosity, dive into our other high-voltage adventures, like DIY Tesla coils or plasma speakers, for more electrifying inspiration.

Continue reading “Sparks Fly: Building A 330 KV Supply From A PC PSU”