Electric motor

What is claimed is: 1. An electric motor comprising: a housing; a stator fixed relative to the housing; a rotor having a hub portion, a cylindrical portion made of a magnetic material, and a disk portion made of a non-magnetic material, wherein the hub portion has a first end, a second end, and a through hole therethrough; a brake assembly fixed relative to the housing and configured to selectively prevent rotation of the rotor, wherein the brake assembly comprises (i) a base that is fixedly attached to the housing, (ii) a brake housing having a first cylindrical portion and a second cylindrical portion, the second cylindrical portion of the brake housing being concentrically positioned within the first cylindrical portion of the brake housing, wherein the first cylindrical portion and the second cylindrical portion extend axially from the base, and (iii) a brake plate covering at least a portion of an axial end of the first cylindrical portion of the brake housing and an axial end of the second cylindrical portion of the brake housing; a first bearing mounted between the first end of the hub portion of the rotor and the disk portion of the rotor; and a second bearing mounted between the second end of the hub portion of the rotor and the disk portion of the rotor. 2. The electric motor of claim 1 , wherein the hub portion is made of a non- magnetic material. 3. The electric motor of claim 1 , further comprising a plurality of magnets mounted circumferentially about the cylindrical portion of the rotor. 4. The electric motor of claim 1 , wherein the brake plate is biased against the disk portion of the rotor by a spring that is positioned in a recess of the first cylindrical portion or a recess of the second cylindrical portion. 5. The electric motor of claim 4 , wherein the brake assembly further comprises an electromagnetic brake release at least partially positioned between the first cylindrical portion of the brake housing and the second cylindrical portion of the brake housing, and wherein the electromagnetic brake release is configured to move the brake plate away from the disk portion of the rotor when activated. 6. The electric motor of claim 5 , configured such that: a line segment AB that is parallel to the axis of rotation of the rotor passes through the disk portion of the rotor, the brake assembly, the first bearing, the spring, and the brake plate, wherein the spring is positioned in the recess of the second cylindrical portion; and a line segment CD that is perpendicular to the axis of rotation of the rotor passes through the hub portion of the rotor, the brake housing, the electromagnetic brake release, the cylindrical portion of the rotor, and the stator. 7. The electric motor of claim 4 , wherein the brake plate is biased against a knurled pattern on a surface of the disk portion of the rotor. 8. The electric motor of claim 1 , wherein an axial end of the first cylindrical portion is axially offset from and parallel to an axial end of the second cylindrical portion. 9. The electric motor of claim 1 , wherein the first bearing and the second bearing each have an outer diameter that is greater than an inner diameter of the second cylindrical portion of the brake housing, and wherein the first bearing and the second bearing each have an inner diameter that is less than the inner diameter of the second cylindrical portion of the brake housing. 10. The electric motor of claim 1 , wherein the brake assembly further comprises a brake wire passageway passing through the base of the brake assembly, thereby connecting a slot formed between the first cylindrical portion of the brake housing and the second cylindrical portion of the brake housing with an inner side of the base. 11. The electric motor of claim 1 , wherein the first bearing and the second bearing each have an inner diameter that is greater than an inner diameter of the through hole of the hub portion of the rotor. 12. The electric motor of claim 1 , further comprising a feedback system having a target and a reader head, wherein the reader head is mounted to the housing, and wherein the target is mounted to the disk portion of the rotor with fasteners that are mounted asymmetrically about the disk portion of the rotor. 13. An electric motor comprising: a housing; a stator fixed relative to the housing; a rotor having a hub portion, a cylindrical portion, and a disk portion, wherein the hub portion has a first end, a second end, and a through hole therethrough; a brake assembly fixed relative to the housing, the brake assembly having a cylindrical portion and being configured to selectively prevent rotation of the rotor; a first bearing mounted between the first end of the hub portion of the rotor and the disk portion of the rotor; and a second bearing mounted between the second end of the hub portion of the rotor and the disk portion of the rotor, wherein the first bearing and the second bearing each have an outer diameter that is greater than an inner diameter of the cylindrical portion of the brake assembly, and wherein the first bearing and the second bearing each have an inner diameter that is less than the inner diameter of the cylindrical portion of the brake assembly. 14. The electric motor of claim 13 , wherein the inner diameter of the first bearing and the inner diameter of the second bearing are greater than an inner diameter of the through hole of the hub portion of the rotor. 15. The electric motor of claim 13 , further comprising a feedback system having a target and a reader head, wherein the reader head is mounted to the housing, and wherein the target is mounted to the disk portion of the rotor with fasteners that are mounted asymmetrically about the disk portion of the rotor. 16. An electric motor comprising: a housing; a stator fixed relative to the housing; a rotor having a hub portion, a cylindrical portion, and a disk portion, wherein the hub portion has a first end, a second end, and a through hole therethrough; and a brake assembly fixed relative to the housing and configured to selectively prevent rotation of the rotor, wherein the brake assembly comprises a brake housing and a base, the brake housing having a first cylindrical portion extending axially from the base and a second cylindrical portion extending axially from the base, the second cylindrical portion of the brake housing concentrically positioned within the first cylindrical portion of the brake housing, and wherein an axial end of the first cylindrical portion is axially offset from and parallel to an axial end of the second cylindrical portion. 17. The electric motor of claim 16 , wherein the brake assembly further comprises a brake plate covering at least a portion of an axial end of the first cylindrical portion of the brake housing and an axial end of the second cylindrical portion of the brake housing. 18. The electric motor of claim 17 , wherein: the brake plate is biased against the disk portion of the rotor by a spring that is positioned in a recess of the first cylindrical portion or a recess of the second cylindrical portion, and wherein the brake assembly further comprises an electromagnetic brake release at least partially positioned between the first cylindrical portion of the brake housing and the second cylindrical portion of the brake housing, and the electromagnetic brake release is configured to move the brake plate away from the disk portion of the rotor when activated.