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It has been mentioned that breaking up a PI coil into a series of smaller coils (windings, not diameter) and individually damping each segment results in a faster coil response. The basis for this claim seems to be Spice sims, since I don't think I've seen anyone try it yet.
So I threw it into Spice and, sure enough, 2 segments is faster than a mono coil, and 4 segments even faster, and 8 segments wicked fast. It appears that as you approach a series of individually-damped single-turn coils the whole thing gets infinitely fast, and we should have the Holy Grail of PI coils.
This is one of those "something for nothing" deals, and smells funny.
Right away I saw a glaring fallacy: my Spice sims did not include all the mutual couplings between all the coil segments, which makes the sims completely bogus. Since each segment couples to all the other segments, getting it correctly set up in sims would be a nightmare. So I just built the durn thing.
My design, as mentioned in this thread, is a 12" diameter 20T coil @ 300uH. I built a mono version for comparison. The segmented version has 4 sections of 5T each, measured to 19.7uH. A small perf board holds the 4 damping resistors and wires all the coils together.
In the end, when the coil segments are critically damped, the overall settling of the coil is identical to the mono coil. The required Rd for each segment is exactly 1/4 the Rd for the mono, which is what I expected.
In order to get the results seen in Spice, I suspect all I need to do is spread the coil segments (axially), and re-damp for their individually smaller (non-mutual) inductances.
Sorry guys, there is no Free Lunch. Pay attention to the details, and don't believe everything Spice tells you.
- Carl
So I threw it into Spice and, sure enough, 2 segments is faster than a mono coil, and 4 segments even faster, and 8 segments wicked fast. It appears that as you approach a series of individually-damped single-turn coils the whole thing gets infinitely fast, and we should have the Holy Grail of PI coils.
This is one of those "something for nothing" deals, and smells funny.
Right away I saw a glaring fallacy: my Spice sims did not include all the mutual couplings between all the coil segments, which makes the sims completely bogus. Since each segment couples to all the other segments, getting it correctly set up in sims would be a nightmare. So I just built the durn thing.
My design, as mentioned in this thread, is a 12" diameter 20T coil @ 300uH. I built a mono version for comparison. The segmented version has 4 sections of 5T each, measured to 19.7uH. A small perf board holds the 4 damping resistors and wires all the coils together.
In the end, when the coil segments are critically damped, the overall settling of the coil is identical to the mono coil. The required Rd for each segment is exactly 1/4 the Rd for the mono, which is what I expected.
In order to get the results seen in Spice, I suspect all I need to do is spread the coil segments (axially), and re-damp for their individually smaller (non-mutual) inductances.
Sorry guys, there is no Free Lunch. Pay attention to the details, and don't believe everything Spice tells you.
- Carl
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