That was for a PAF type bobbin.
That probably won't be valid for your bobbins.

You should be thinking about inductance targets anyway, which correlates with turns, and not DC resistance. You'd want to figure out what your final inductance target is, and then figure out what inductance you need for each coil based on the series/parallel combination you go with.

Frankly, I think you ought to just have all the coils in series so that any given coil can be of a low inductance, and you will end up with a high final inductance. In series, the values add together, so if you want a 3 Henry pickup, each of the twelve individual coils would only need to achieve 250 millihenries each, which is probably in the area of a 1000 turns of wire, depending on the core material. If you're into chugging bass lines, I imagine you'd want a rather high inductance, for a darker sound and higher output.

I'll have to admit my complete ignorance of the affects of inductance on a pickup/circuit.

And my goal so far has just been to find a wind-number to start with. Any DCR that I've looked as is only to try to reverse engineer the number of winds on a reference pickup without having one on hand. No specific goal on a DCR to speak of, I know that how it's wired will change that number, which to this point has given me the assumption that it was something I could worry about fine-tuning later. Hopefully that was not an incorrect assumption

I really appreciate the input, as I said above, I feel like I'm flying a little blind on this and hoping for the best. New knowledge is very appreciated.

The inductance determines the resonant peak and the output voltage for a given input current. When you have a "hot" pickup, the DC resistance just so happens to be higher more often than not, but it's a higher inductance that actually makes the pickup "hot". When you combine inductors in series, the inductance adds together

You said the Wals were 10k turns per coil, with pairs of two in series, and a total of six pairs in parallel. Let's suppose each coil is 4 henries as a result of the 10,000 turns. Each pair of two combines in series to become 8 henries. If you now think of it as six inductors in parallel, 8 henries each, the end result will be only 1 henry (which will make for a low output, and very bright sound). You can use an online calculator to figure out what values different combinations will result in very quickly Inductance in series and parallel Calculator - High accuracy calculation . Just as a point of reference, a typical Fender P Bass pickup is about 6 to 7 henries, while the Jazz Bass pickups are about 3 to 4 henries. Which is also to say, I don't think you will be pleased with the result of your pickup as it's currently configured, and you might want to consider having more of these coils in series.

Since adding together inductors sums their inductance, series wiring is the most economical way to achieve a given resonance target (hence why nearly all humbuckers are wire in series), and saves you a lot of time winding, saves space, relieves you from having to use tiny wire which breaks more easily than heavier gauge wire.

You can make educated guesses as to the inductance by calculating it from the wind count, but if you want to get serious with precision, you can get an Extech 380193, which is known to work good with guitar pickups.

If I'm understanding you correctly, if I wanted to have this wiring configuration reach the desired inductance I'd have to have enormous numbers of turns, or I could have less turns and change to series wiring across the board (and that would, in your opinion, be the much more sensible approach)

My background is 50% guitar & 50% bass, more or less. My first instrument was a bass, and shortly after had to play both for recording purposes.

I'm a big Tool fan, and Justin Chancellor has always been a big influence as a bassist. Consequently, I have more than a passing interest in Wal Basses, Multi Coil Pickups, and Filter-based Preamps.

My taste in guitar tones tends to run on the "dark" side, with lots of low-mid "chug" and a tight low end for the "djug" and then several other vague adjectives

Anyway, some of the qualities I've seen described by using multiple coils sounded like I could probably capitalize on a few of those qualities for guitar tones. I'm actually not 100% confident that it will fit my goal, but I have a feeling that it may work well for the technical/progressive metal acts that use a lot of tapping and articulation.

We'll see

I started out by testing to see what it's like to wind a mono-coil.

[ATTACH=CONFIG]40540[/ATTACH]


This is a .125" steel rod as a pole piece, the coil is a little under .350" tall, and bit over .400" wide. I got 10,000 turns of 44 AWG wire on the coil.

I'm planning on doing a taller coil and adding an insulator around the pole piece, and probably try 8-9,000 winds to start out with. Not sure yet. I also want to see if I could manage a standard .195" pole piece so I could use some off-the-shelf Alnico 5 rods.

To start with I'm using steel rods and varying sizes of neodymium discs (mostly .25" and smaller)

I've also got some .125" neodymium rods, but I'm anticipating them being significantly overpowered. Figured it was worth a fair test, at least.

A more typical coil geometry seems like it would be possible given tight-enough tolerances, but for rough prototyping the taller coils will give me a larger margin of error for getting the coils perfectly placed on a fabricated backplate. All I've got to drill with at the moment is a Dremel so it's a little hard to get things perfect.

My plan is to wire everything up like a more recent Wal, with each string being a "column" wired in series, and then each "column" wired together in parallel.

When this is finished I'll make another one where each "row" is wired in series as a unit, and each "row" can then be wired in either series or parallel like a standard humbucker.

Still figuring out how to manufacture lots of the little "discs" out of the Forbon. It has proved difficult to be precise.

I think I've found a solution, but I will be unable to work on it for a day or so.

The assumption I'm running with right now is that for a preamp to sum 6+ "columns" of coils together, it would have to be a design that HAD that many inputs,

If the little disks, are for the bobbins?
Why not order some fiber washers.