The influence of various design parameters on the cogging torque developed
by permanent magnet machines is investigated. It is shown that the slot and
pole number combination has a significant effect on the cogging torque, an
d influences the optimal value of both skew angle and magnet are, as well a
s determining the optimal number of auxiliary teeth/slots. A simple factor,
which is proportional to the slot number and the pole number and inversely
proportional to their smallest common multiple, has been introduced to ind
icate the "goodness" of the slot and pole number combination. In general, t
he higher the "goodness" factor the larger the cogging torque.