3Eman;
I did as you suggested and spent some time searching on Wye/Delta motor configurations. The best explanations I've found so far were in the RC community. Specifically, this Brian Mulder guy at
http://www.southernsoaringclub.org.za/. In his Electric Motors - Part 2 he goes into some depth on windings configuration. Using his explanations as reference, I bounced around the MP data sheets, trying to make better sense of it all.
The question that kept coming up in my mind was, "Why would anybody configure for Wye when Delta seems to be better on most points?". Delta is more efficiency and has better top end rpm. Brian says that Wye has better torque characteristics, but our data sheets show that peak torque for the 16" only slightly lower (albeit at higher power consumption).
I think the missing ingredient is wire gauge. Thinner wire can't handle the amps as well and because Delta draws considerably more current it's most likely to be wired with a heavier gauge. Heavier gauge wire means fewer turns per tooth and fewer turns means less field flux. Less field flux equals less torque.
The higher the number of turns on a tooth, the greater the magnetic field produced for a given current. Stronger magnet field results in more torque and lowers the RPM/Volt number.
I don't know if our 16" MP motor is wound with heavier gauge wire or not, but that could account for the reduced torque even though we see more power input to the system.
The 36V data sheets would seem to agree:
28 N.m = 750.64 watts (31.50A) for the 16"
28 N.m = 583.52 watts (23.66A) for the standard
Here, both motors are producing the same torque, but the 16" is costing us more in power. What we lose here in power is gained in speed because the 16" is rotating at 255 rpm versus 199 rpm for the standard.
