A magneto ignition system for battery less hand-held combustion engines includes a claw generator with a stationary circular power coil winding enclosed by two iron claw halves and with a rotating flywheel magnet ring with multiple magnetic poles. The stationary circular coil winding includes a trigger coil with a stationary coil winding arranged in a plane orthogonal to the stationary circular power coil winding. The magneto ignition system further includes an engine control module ECM for establishment of appropriate ignition timing, and an ignition coil module ICM. The stationary circular power coil winding may provide the electrical power supply to both the ignition timing module ECM and the ignition coil module ICM.

The present invention is a fan having rotation sensing, comprising a casing, a motor disposed within the casing, a rotation sensing unit, and a control unit, the rotation sensing unit detecting a first rotation of the casing and outputting a first sensing signal, the control unit having a controller electrically coupled to the rotation sensing unit and the motor, the controller receiving the first sensing signal according thereto to control the motor to perform a first operation mode. Through this design, an operation mode of the fan can be adjusted according to the rotation of the fan in the present invention.

A magneto ignition system for battery less hand-held combustion engines includes a claw generator with a stationary circular power coil winding enclosed by two iron claw halves and with a rotating flywheel magnet ring with multiple magnetic poles. The stationary circular coil winding includes a trigger coil with a stationary coil winding arranged in a plane orthogonal to the stationary circular power coil winding. The magneto ignition system further includes an engine control module ECM for establishment of appropriate ignition timing, and an ignition coil module ICM. The stationary circular power coil winding may provide the electrical power supply to both the ignition timing module ECM and the ignition coil module ICM.

Plural windings are wound around plural teeth in sequence such that crossover wires formed in the plural windings are all arranged on another axial direction side of an annular section of a stator core. When this is performed, the plural windings are wound around the plural teeth in sequence such that terminal portions of the plural windings are placed in a fifth slot, a sixth slot, an eighth slot, and a ninth slot.

A rotating electrical machine includes a magnetic field generator that includes a magnet unit that has magnetic polarities. The magnet polarities alternate in a circumferential direction of the rotating electrical machine. The rotating electrical machine includes an armature that comprises multi-phase armature windings. One of the magnetic field generator and the armature serves as a rotor. Each of the multi-phase armature windings includes conductor members arranged at regular intervals in the circumferential direction to face the magnet unit. Each of the multi-phase armature windings includes a heat dissipation passage defined in each of the conductor members for dissipation of heat from the corresponding one of the conductor members.

The present invention provides a magnet generator that can reduce a mass without lowering a desired inertia and can prevent an engine from being locked by vibration or impact in a high rotation speed region. In a magnet generator including a rotor including a bowl-like flywheel having a cylindrical section and a ceiling section, a plurality of permanent magnets arranged over the inner circumferential wall surface of the cylindrical section, and a boss arranged in the center of the ceiling section and attached to an output shaft of an engine, and a stator facing the permanent magnets, fixed to the engine side inside the flywheel and including laminated steel plates and coils, wherein at least a part of the ceiling section of the flywheel is formed of a synthetic resin and the remaining part is formed of a metal.

A brushless DC motor fan is provided. The brushless DC motor fan includes a rotor and a stator module. The rotor has a shaft disposed on an inner side of the stator module and rotating relative to the stator module. The stator module has a coreless coil and a lead frame, wherein the lead frame includes six pins electrically connected to the coreless coil.

In a rotating electrical machine, a field generator includes a magnet unit and a cylindrical magnet holder. The magnet unit includes circular-arc magnets arranged in the circumferential direction. Each magnet has an outer peripheral surface. The magnet unit includes a magnet fastening member configured to fasten the magnets. Each magnet has first and second end surfaces in the circumferential direction. The first end surface of each magnet is located to be in contact with the magnet located adjacent to the first end surface thereof. The second end surface of each magnet is located to be in contact with the magnet located adjacent to the second end surface thereof. The magnet fastening member is wound around the outer peripheral surfaces of the circumferentially arranged magnets to radially and inwardly press the outer peripheral surfaces of the circumferentially arranged magnets.

A rotating electric machine includes a rotor and a stator. The rotor includes a magnet section constituted of permanent magnets. The stator is arranged coaxially with the rotor and includes a stator coil and a stator coil holder. The stator coil is formed of electrical conductors arranged in a circumferential direction of the stator. The stator coil holder is configured to hold the stator coil. In the stator, there are provided inter-conductor members between the electrical conductors in the circumferential direction or no inter-conductor members are provided between the electrical conductors in the circumferential direction. Moreover, the inter-conductor members are formed of a magnetic material satisfying a predetermined relationship or formed of a nonmagnetic material. The stator coil has a coil end part protruding from an axial end of the stator coil holder. A soft-magnetic member is provided on at least part of a surface of the coil end part.

A rotating electrical machine has a magnetic field-producing unit, an armature with armature windings for multiple phases, and a rotor implemented by one of the magnetic field-producing unit and armature. The armature winding of each phase has a conductor portion. The conductor portion is made of a bundle of wires and has a resistance value between the bundled wires larger than that within each of the wires. Each conductor portion includes magnet facing portions arranged at a given interval away from each other and face the magnet unit. The magnet facing portions of the same phase are connected in series. The wires of the conductor portion of the same phase are connected in parallel. The order of locations of the wires of each of the magnet facing portions for the same phase is different between given portions of the magnet facing portion in an axial direction of the rotor.