Rotating electric machine

What is claimed is: 1. A rotating electric machine comprising: a rotor which is rotatably supported and which has, on its outer circumference, a plurality of convex-shaped salient pole sections arranged in a circumferential direction; a stator core which is disposed around the outer circumference of the rotor with an air gap formed therebetween and which has, on its inner circumference, a plurality of convex-shaped teeth arranged in a circumferential direction; field windings each of which is wound around each of the plurality of the teeth, each of the field windings forming a pole; and armature windings each of which is wound around each of the plurality of the teeth so as to be insulated from the field windings, forming a plurality of poles, wherein the number of the teeth and the number of the poles formed by the field windings are equal, and a ratio of the number of the poles formed by the field windings to the number of the poles formed by the armature windings is equal to a predetermined ratio, and the number of the salient pole sections formed in the rotor is equal to (p f +p a )/2, where p f is the number of the poles formed by the field windings, and p a is the number of the poles formed by the armature windings. 2. The rotating electric machine according to claim 1 , wherein a rotating magnetic field is generated corresponding to that obtained by assuming that the rotor is rotated at a speed of (1+p f /p a ) times the actual rotating speed of the rotor. 3. The rotating electric machine according to claim 2 , wherein a relationship between the number of the poles formed by the field windings and the number of the poles of the armature windings satisfies p f /p a =1.5. 4. The rotating electric machine according to claim 2 , wherein a relationship between the number of poles formed by the field windings and the number of poles of the armature windings satisfies p f /p a =1.2. 5. The rotating electric machine according to claim 2 , wherein a relationship between the number of poles formed by the field windings and the number of poles of the armature windings satisfies p f /p a =1.125. 6. The rotating electric machine according to claim 1 , wherein a relationship between the number of the poles formed by the field windings and the number of the poles of the armature windings satisfies p f /p a =1.5. 7. The rotating electric machine according to claim 1 , wherein a relationship between the number of poles formed by the field windings and the number of poles of the armature windings satisfies p f /p a =1.2. 8. The rotating electric machine according to claim 1 , wherein a relationship between the number of poles formed by the field windings and the number of poles of the armature windings satisfies p f /p a =1.125.