Described herein are fractional slot electric motors with compact crowns. A motor comprises multiple coil elements protruding through a stator core and forming electrical connections with each other and/or with a lead assembly. The lead assembly comprises phase busbars connected to selected coil elements and comprising terminals for connecting to an external power supply. The lead assembly also comprises neutral busbars, with no external connections and internally connected to other coil elements. Each coil element has a rectangular cross-sectional profile to maximize the slot-fill-ratio of the motor. Each coil element is electrically coupled to two other components. For example, each looped coil element is coupled to two other coil elements at a stator side, opposite the lead assembly. Each extended coil element is coupled to another coil element at that same side and coupled to another coil element or a busbar at the lead assembly side.

A rotating electrical machine may include a stator and a rotor. The stator may include a plurality of iron cores and a plurality of windings. The plurality of windings may include a first phase winding, a second phase winding, and a third phase winding connected in a delta connection. The first phase winding, the second phase winding, and the third phase winding may each be connected in series with a respective crossover wire. The first and third phase windings may be wound in a first winding direction. The second phase winding may be wound in a second winding direction. A first crossover wire connecting the first phase winding and/or a third crossover wire connecting the third phase winding may be arranged on a first side of the stator. A second crossover wire connecting the second phase winding may be arranged on a second side of the stator.

In resin molding, potting to be conducted with a male terminal bonded to a female terminal increases costs and processes. A resin-molded stator includes a coil, a female terminal, a male terminal, and an insulator. The female terminal includes a female terminal connection portion and a spring portion. The male terminal includes a male terminal connection portion, a wire connection portion, and a second surface contact portion. The insulator accommodates the female terminal connection portion, the spring portion, and the male terminal connection portion, and electrically connects the male terminal to the female terminal. The second surface contact portion faces a second surface of the insulator wall.

In resin molding, potting to be conducted with a male terminal bonded to a female terminal increases costs and processes. A resin-molded stator includes a coil, a female terminal, a male terminal, and an insulator. The female terminal includes a female terminal connection portion and a spring portion. The male terminal includes a male terminal connection portion, a wire connection portion, and a second surface contact portion. The insulator accommodates the female terminal connection portion, the spring portion, and the male terminal connection portion, and electrically connects the male terminal to the female terminal. The second surface contact portion faces a second surface of the insulator wall.

An electromagnetic pole (17) for a rotary electric machine is disclosed. The pole has a tooth (18) comprising a tooth body (19), the tooth (18) being radially oriented and the tooth (18) comprising a recess (21), a coil (16) comprising a plurality of wire turns (20) wound around the tooth (18) between a first radial end (28) and a second radial end (29), the wire turns (20) which are the most distant from the tooth body (19) between the first radial end (28) and the second radial end (29), forming an outer wire layer (22), the coil (16) comprising a bracing wire (14), the bracing wire (14) being wound on the outer wire layer (22) from the first radial end (28) to the second radial end (29) in less than one turn around the tooth (18) so as to hold in position the outer wire layer (22).

A handheld power tool includes a housing and an electric motor. The housing is formed with a grip for a user to hold. The electric motor is disposed in the housing and used for driving a functional accessory to implement a function of the handheld power tool, where output power of the electric motor is greater than or equal to 120 W and less than or equal to 4500 W. The electric motor includes at least a stator, a rotor, and multiple coil windings disposed on the stator. A cross-section of each of the multiple coil windings is non-circular, and a slot fill factor of the electric motor is greater than or equal to 40%.

A motor includes a stator having a core and a plurality of radially inwardly extending teeth defining slots therebetween. Each tooth has a tip having a pair of circumferentially protruding tooth projections. A first insulation sheet is inserted between each pair of the teeth and has a body part and a pair of first end parts formed by folding both ends of the body part toward each other. A second insulation sheets is arranged between the winding parts of adjacent teeth and has a body part and a pair of second end parts formed by folding both ends of the body part away from each other. The tooth projections, the second end parts and the first end parts are arranged in this order from radially inside to outside and overlap radially.

A motor includes a stator and first and second electrical insulator assemblies at opposite ends of the stator. A crossover wire extends along an outer wall part of the second insulator. A cover for covering the crossover wire is mounted onto the second electrical insulator assembly via a mounting mechanism. The mounting mechanism includes an engagement recess formed in an inner peripheral surface of the outer wall part of the second electrical insulator assembly and an engagement piece formed within a recess of the cover which engagement piece has a claw configured to be locked to an engagement recess forming face that defines the engagement recess.

A first electrical insulator assembly is arranged on the first side of a stator core in an axial direction and has first and second flanges formed on a tip part of a connection part and respectively protruding to the first and second sides in a circumferential direction. A second electrical insulator assembly is arranged on the second side of the stator core in the axial direction and has third and fourth flanges formed on a tip part of a connection part and respectively protruding to the first and second sides in the circumferential direction. The first to fourth flanges respectively have first to fourth radial movement restriction surfaces that are configured to restrict outward movement of an interface insulation member in the radial direction.

This centrifugal blood pump apparatus includes an impeller (10) provided in a blood chamber (7), and a plurality of coils (20) provided in a motor chamber (8) for driving the impeller (10) to rotate with a dividing wall (6) interposed therebetween. A flexible substrate (23) in the shape of a strip is arranged to surround outer circumferences of the plurality of coils (20), and is connected to the plurality of coils (20) and a connector (24). A driving voltage (VU, VV, VW) is externally supplied to the plurality of coils (20) via the connector (24) and the flexible substrate (23). Thus, assembling workability, productivity and reliability are improved.