well am getting back late in this thread. Why measure anything except the lowest frequency? Because seeing only one part of the elephant tells you nothing about the whole elephant. It really doesn't matter if the meter is "accurate" at either test frequency, what matters is that you use the same meter in all your measurements that you do with your pickups. You establish a baseline based on one measuring instrument. Measuring only at the lowest frequency doesn't tell you what is happening at 1khz, the two aren't related to eachother, in some meausrements they may be real close to eachother in others, far apart. I have a suspiscion that the meters that go to 10khz even though they are not accurate in pickups up there it still might be useful in relative measurements. the biggest disappointment of the Extech is that you have no clue what is happening in the higher frequencies, the meter can give you nearly identical readings on two different pickups yet one pickup may be doing something completely different in the high frequencies that you can hear but the meter can't. Doing a frequency analysis chart I found interesting but not very useful either, maybe I didn't go far enough with it, I probably should have "pegged" certain higher frequencies to get actual digital read numbers at those spots for side by side comparisons against other variants in pickup design. there is a point though where all this geek stuff becomes useless. A Charlie Christian pickup isn't going to sound like a strat or a humbucker and numbers on a chart will never tell you what a pickups character will be like. Numbers are good when comparing doing changes in pickup design, its a tool and is helpful but ears and playing tests always should be the final test and this should be a studio recording test, a home bedroom scenario and playing loud at a live gig, which is probably the most important. Owning alot of expensive test gear isn't going to make your pickups sound better :-)

Owning a lot of expensive gear would imply that I have a lot of money, and therefore, I could afford to hire a really good player to play my pickups, and then they would of course sound better.

Greg

well am getting back late in this thread. Why measure anything except the lowest frequency? Because seeing only one part of the elephant tells you nothing about the whole elephant. It really doesn't matter if the meter is "accurate" at either test frequency, what matters is that you use the same meter in all your measurements that you do with your pickups. You establish a baseline based on one measuring instrument. Measuring only at the lowest frequency doesn't tell you what is happening at 1khz, the two aren't related to each other, in some measurements they may be real close to each other in others, far apart. I have a suspicion that the meters that go to 10khz even though they are not accurate in pickups up there it still might be useful in relative measurements. The biggest disappointment of the Extech is that you have no clue what is happening in the higher frequencies, the meter can give you nearly identical readings on two different pickups yet one pickup may be doing something completely different in the high frequencies that you can hear but the meter can't. Doing a frequency analysis chart I found interesting but not very useful either, maybe I didn't go far enough with it, I probably should have "pegged" certain higher frequencies to get actual digital read numbers at those spots for side by side comparisons against other variants in pickup design. There is a point though where all this geek stuff becomes useless.

Is there some comparable commercial instrument that would make it simple? Lately I've been doing way too many experiments, and even using the Extech becomes a pain....

Well I don't know the tech explanations but the Extech at 120hz and 1khz for sure doesn't get the same readings. 120hz will always read lower in most pickups because bass gets lost the more winds you put on, and 1khz doesn't get so clogged up so fast. Treble can't be read unfortunately but the 1khz readings show whats going on in the mids somewhat. when the two readings are real close you know you got a real clear sounding pickup like a heavy formvar low wind strat....

Looking at the impedance of a pickup as a function of frequency is useful. But inductance as a function of frequency? The measurement I presented a few posts above convinces me that a pickup has a single value of inductance, period. But I will listen, if you can show some evidence that inductance really does vary as a function of frequency.

How would these really expensive LCR meters read better at high test frequencies than the current LCR meters you see on ebay in the $200 range?

Inductance does vary with frequency in practical coils. (It also varies with DC bias, but that's not an issue here.) In iron-cored low-frequency (ie, not RF) inductors, the dominant effect is due to eddy currents in the iron. There are entire chapters on this in books on inductor and transformer design. It isn't simple.

There is a very good discussion in "The Theory and Design of Inductance Coils", V.G. Welsby, Macdonald & Co., 1950, 180 pages. Welsby worked for the British Post Office, which built and operated the British telephone system.

Thanks, Joe. That looks like an interesting book. A casual search turned up two copies for sale in Britain, and one in Australia, but none in the US. I will try again later.

In a solid round slug, eddy current effects vary as the square of the rod diameter.