Abstract: A magneto generator can be made small in size and light in weight, and improved in power generation efficiency. The magneto generator includes an iron core having an iron core main body and a plurality of teeth (9) radially extending from the iron core main body, and an armature having a first three-phase winding (14) and a second three-phase winding (15) comprising winding portions (18u, 18v, 18w, 19a, 19b and 19c) of individual phases wound around the stator core. The individual first and second three-phase windings (14, 15) have the winding portions (18u, 18v, 18w, 19a, 19b and 19c) constructed by concentratedly winding conductors around the individual teeth (9), respectively, while skipping every predetermined number of teeth (9), and are wound in a state divided into an inner layer side and an outer layer side, respectively.
Abstract: Disclosed herein is a reliable inner rotor type miniature brushless motor structure wherein, while a field coil is fixedly disposed onto the inner wall of a housing, an end flange is fixedly disposed into one end of the housing from where tap wires of the field coil are drawn out, so that the tap wires exposed from the end-flange side end of the housing can be connected to wiring substrates fixedly disposed onto the outer periphery of the end flange without the need to bend the wiring substrates, and further so that power feed lands can be large enough to reduce the likelihood of wiring breakage and other problems.
Abstract: The subject dynamoelectric machine comprises an armature between two field assemblies. The armature may rotate between the field assemblies or vice versa. The armature has three two-coil windings with the coils of each winding located diametrically opposite each other on the armature and wound in opposite directions. Each field assembly comprises a field ring, winding cores (or permanent magnets) and pole faces which span essentially 180.degree., there being a north face and a south face for each field assembly. The field assemblies are positioned with like faces facing each other. The commutation apparatus energizes each armature winding just as it is positioned completely between the field pole faces and de-energizes it just before it starts to move out from between the faces because of the relative motion between the armature and field assemblies. The machine concept is adaptable to pancake and cylindrical configuration.