Every day this month and until Christmas, [vk2zay] is (has already been!) posting a simple but useful hack in his 2nd sort-of-annual “Advent Calender of Circuits” that many of you will want to be bookmarking. For those already saturated with the season of holiday hacks, don’t worry – other than being festively generous of him to tutor and demo a new hack every day, the hacks themselves have nothing to do with Christmas. Though he missed the last couple years we here at Hackaday covered his first month of hacks back in 2011 (now in playlist).
The daily hacks posted so far cover a wide variety of useful projects (leaning towards HV) for the electronics hobbyist who might not have all the fancy tools in their shop: DIY high voltage probes, a 1-hour tesla coil from junk, measuring RF power, a stud detector, how to test an unknown transformer’s saturation, and many others. We cannot predict what will be posted the rest of the calender (the author hints to be making them up as he goes), but by now it is safe to say that they will not disappoint.
We would be stealing his thunder to cover them all, so, we will just pick our favorite for now:
The 1-hour tesla coil is a delightful all-shortcuts-taken hack project. If one were to listen to aficionados, teslacoiling is a highly precise hobby to get into. It appears to require careful planning, much calculation, special-ordered or soviet-surplus parts, custom jigs, fine tuning, etc. [vk2zay] shows otherwise.
Every single component of the assembly is itself a hack.
No fancy tungsten-infused grade 8 copper being water-cooled via heat pump here – the spark gap is just the bent leg of a capacitor hovering near the start of the primary winding. The power supply is a backlight inverter with a chain of Cockcroft-Walton voltage doublers. The high voltage resistor is a bunch of series-chained resistors shoved into a silicone tube. The topload is a couple cheap pie tins masking-taped together to “resemble something like a sphere.” The primary is a loose, unsupported spring of copper wire. The secondary was calculated to be whatever the height of the tube he had handy and coiled only as smoothly as a first attempt would allow. He does not even bother using wires or a switch – the circuit is completed by clipping a couple of test leads.
After all this hodgepodgery the circuit was then carefully tuned to optimize how little time it took to build (additional time used: zero). Since the frequencies do not match (1.7 vs. 2.6 mhz – 35% apart) the only thing this circuit resonates with is a hacker’s appeal for making do. Does not matter, still works. The streamers easily reach 2 inches and the author claims double that in dark lighting.
In the just 6 minute video he also manages to explain roughly what is going on theory-wise and suggest the time-effective things to considering upgrading. Almost a dozen hacks in the bag and over a dozen more to come before Christmas.
Thanks a bunch to [Thorsten] for the tip, what a gem!
Gidday mate!
Its late news hackaday! I’ve been following it from day1. Try to follow important people such as Alan VK2ZAY on twitter so that you can report such things sooner
Just FYI for all our readers… if you come across content anywhere on the net and think “This is the kind of stuff Hackaday usually writes about” or otherwise think it belongs here… SEND IN A TIP!
This makes all the difference!
A large percentage of the stories and projects we cover come directly, organically, from our readership. All Hackaday writers get to read the tip line and we pull a large portion of our coverage from it.
I’d say 90% of our Tips are the hackers themselves, proud of and wanting to share their project. Which is great, please keep doing this. But it’s not limited to that. Anything our readers come across that is interesting and belongs here, we’re thrilled to hear about.
So, send in those tips!
That man is a madman… and I salute him to the fullest. Hack on high voltage, hack on.
Yep… fail. Sorry! Editors feel free to correct please!
This reminds me of the Tesla coil I built as my 9th grade science fair project. It was mostly made up of junk box parts, with an old 7.5kv neon sign transformer to power it. The capacitors were also homebrewed, aluminum foil sandwiched between sheets of window glass. The spark gap was a pair of aluminum spikes with the ends cut, one of which was adjustable to control the width of the gap. The secondary was hand wound on a 2″ cardboard tube, a process that took me several days to complete. There was no top load, as I didn’t know better (and I couldn’t look it up online, the web didn’t even exist then).
Not the best or most scientific way to go about building a coil, but it worked well enough and was capable of 4″ to 6″ sparks.
I got second place at the science fair, but I think I would have won if I hadn’t scared the everliving crap out of one of the teachers who was also one of the judges. The spark gap in my build was extremely loud, and this idiot (not even the other teachers liked him) had his back to my coil at a close but safe distance, so I fired it up for a second. I’ve never seen a man jump like that. It was a beautiful moment, and well worth losing over!
Maybe I’ll have to build another Tesla coil one of these days. I’ve got an old Ford coil just itching to be used for something…