Surgical instrument motor with increased number of wires per phase set and increased fill factor and corresponding manufacturing method

What is claimed is: 1. A motor for a surgical instrument, the motor comprising: a rotor comprising a shaft and a magnet; and a stator comprising (i) a cavity in which the rotor is disposed, and (ii) a coil assembly, wherein the coil assembly comprises a plurality of phase sets, the plurality of phase sets comprise a plurality of sets of wires, wherein each set of the plurality of sets of wires comprises multiple wires, each of the plurality of phase sets comprises a plurality of coils and corresponds to a respective one of the plurality of sets of wires, the coils in each of the plurality of phase sets are at respective positions about the rotor, one of the plurality of sets of wires comprises at least three wires, and the stator causes the rotor to axially rotate a surgical tool of the surgical instrument based on current received at the plurality of sets of wires. 2. The motor of claim 1 , wherein each of the plurality of sets of wires comprises three or more wires. 3. The motor of claim 1 , wherein each of the plurality of sets of wires comprises 15-20 wires. 4. The motor of claim 1 , wherein: the coil assembly comprises three phase sets of coils; each of the phase sets of coils comprises two coils; the phase sets are 120° out-of-phase from each other relative to the rotor; each of the coils in the plurality of phase sets are evenly distributed about the rotor at 60° intervals; and the coils of each of the plurality of phase sets are 180° apart from each other such that the coils in each of the plurality of phase sets are opposite each other. 5. The motor of claim 1 , wherein the coils are evenly distributed about the rotor at 60° intervals. 6. The motor of claim 1 , wherein the plurality of sets of wires are a compressed plurality of sets of wires having a rigid structure such that the coil assembly is not supported by a support member extending within the coil assembly. 7. The motor of claim 1 , wherein a cross-sectional diameter of each of the wires in the plurality of sets of wires is between 0.10-0.12 mm. 8. The motor of claim 1 , wherein: each of the wires in the plurality of sets of wires has a round shaped cross-section; and a fill factor of the coil assembly is greater than or equal to 58%. 9. The motor of claim 1 , wherein: each of the wires in the plurality of sets of wires comprises a bonding layer and has a round shaped cross-section; and a fill factor of the coil assembly is between 58-65%. 10. The motor of claim 9 , wherein the bonding layers comprise a bonding agent or varnish. 11. The motor of claim 9 , wherein each of the wires in the plurality of sets of wires comprises an insulation layer. 12. The motor of claim 11 , wherein a combined thickness of the insulation layer and the bonding layer of each of the wires in the plurality of sets of wires is 15 μm. 13. The motor of claim 1 , wherein: each of the wires in the plurality of sets of wires does not include a bonding layer and has a round shaped cross-section; and a fill factor of the coil assembly is between 66-74%. 14. A surgical instrument comprising: the motor of claim 1 ; a motor housing comprising the motor; a collet connected to the motor housing and through with a portion of the surgical tool extends; and a cable connected to the motor and supplying the current to the plurality of sets of wires. 15. The motor of claim 1 , wherein the plurality of phase sets comprise: a first phase set for a first phase of the motor; a second phase set for a second phase of the motor; and a third phase set for a third phase of the motor. 16. The motor of claim 1 , wherein each of the wires in the plurality of sets of wires comprises a bonding layer. 17. The motor of claim 16 , wherein each of the wires in the plurality of sets of wires comprises an insulation layer. 18. The motor of claim 1 , wherein an outer diameter of a center portion or a distal end of the coil assembly is 10-11 mm. 19. The motor of claim 18 , wherein an outer diameter of a proximal end of the coil assembly is 12-14 mm. 20. A motor housing comprising: the motor of claim 1 ; one or more walls; and one or more laminations disposed on one or more interior surfaces of the one or more walls, wherein the coil assembly is held in place via the one or more laminations, and the stator does not include a support member for supporting the coil assembly. 21. The motor housing of claim 20 , wherein: a gap exists between the coil assembly and the one or more laminations; and the gap is filled with a dielectric material. 22. The motor of claim 1 , wherein each set of the plurality of sets of wires includes a plurality of simultaneously wound wires. 23. The motor of claim 1 , wherein: each of the plurality of coils has a first end and a second end; and each of the wires in the plurality of sets of wires has (i) a first end at a corresponding one of the first ends of the plurality of coils, and (ii) a second end at a corresponding one of the second ends of the plurality of coils.