Kawboy wrote: ....The alternative would be an energized rotor which is a rotating iron core with windings that are energized creating a rotating magnet of varied intensity. By controlling the amount of electricity going to the rotor one controls the input of magnetism applied to the stator and that controls the output of the stator. All that happens after the stator is the rectifcation of the AC to DC. This type of alternator runs much cooler since it only generates as much electricity as required.
My 80's DOHC Honda 4's have excited-field alternators in them. Some folks are on a mission to convert them into the permanent magnet type - seems crazy to me to convert something that is marginally more complex (and which improves performance) into something that likes to burn out.
Having said that, the reason that some folks want to convert the excited type to the permanent magnet type is because the windings in the 'excited part' - the rotor - rotate, and can chafe leading to open or short circuits. Open-circuiting isn't that big of a deal, the bike's charging is impaired. However short-circuits - which are not uncommon - cause the R/R to pump more current into the rotor in an attempt to maintain the magnetic field (which is impaired due to the shorted winding) and the heat from that extra current can (and generally does) take out the R/R leaving both a faulty rotor and R/R. This is a lot more prominent on bikes that are run a lot at high RPM (since that rotor is spinning on the end of the crankshaft). A design improvement would have a circuit to limit rotor short circuit current (or fusible links) which would prevent the R/R from burning out.
