Active magnetic bearing apparatus

The invention claimed is: 1. An active magnetic bearing apparatus for supporting a rotor of rotary machine, the apparatus comprising: an axial magnetic bearing unit for supporting an axial load of the rotor; a radial magnetic bearing unit for supporting a radial load of the rotor, the radial magnetic bearing unit including an inner radial magnetic bearing; and an auxiliary bearing unit for supporting loads exceeding a load capacity of one of the axial magnetic bearing unit or the radial magnetic bearing unit; wherein the radial magnetic bearing unit is mounted directly to the axial magnetic bearing unit, and wherein the axial magnetic bearing unit is mounted to a support frame plate, the support frame plate configured to be removably connected to a housing of the rotary machine. 2. The active magnetic bearing apparatus of claim 1 , wherein the axial magnetic bearing unit includes an inner axial magnetic bearing surrounded by an outer auxiliary coil, the inner axial bearing including a primary winding of wire wound a magnetic core, and the outer auxiliary coil including a secondary winding of wire. 3. The active magnetic bearing apparatus of claim 2 , wherein the primary winding of wire and the secondary winding of wire are wound in opposing directions. 4. The active magnetic bearing apparatus of claim 2 , wherein a shielding frame reduces leakage of magnetic flux from the inner radial magnetic bearing to the support frame and electromagnetic components of the axial magnetic bearing unit. 5. The active magnetic bearing apparatus according to claim 1 , wherein the apparatus comprises a position sensor for determining one of an axial or a radial position of the rotor. 6. The active magnetic bearing apparatus according to claim 1 , wherein the apparatus comprises a fluid cooling channel for cooling the axial magnetic bearing unit and the radial magnetic bearing unit, the fluid cooling channel extending transversely through the active magnetic bearing apparatus and extending between the axial magnetic bearing unit and the radial magnetic bearing unit. 7. The active magnetic bearing apparatus according to claim 6 , wherein the fluid cooling channel extends from a cooling fluid inlet nozzle provided on a first side of the active magnetic bearing apparatus to a second side of the active magnetic bearing apparatus opposite the first side of the active magnetic bearing apparatus. 8. The active magnetic bearing apparatus according to claim 6 , wherein the fluid cooling channel extends through or adjacent one of the axial magnetic bearing unit and the radial magnetic bearing unit. 9. The active magnetic bearing apparatus according to claim 6 further comprising a fluid mover for generating a flow of a cooling fluid through the cooling channel, wherein the fluid mover is connected to the cooling fluid inlet nozzle. 10. The active magnetic bearing apparatus according to claim 1 , wherein the auxiliary bearing unit includes an angular contact auxiliary ball bearing and a damping ribbon. 11. The active magnetic bearing apparatus according to claim 1 , wherein the auxiliary bearing unit includes a brush seal configured to inhibit back flow of fluid from the rotary machine into the active magnetic bearing apparatus. 12. A rotary machine comprising: a housing; an active magnetic bearing apparatus arranged in the housing and configured to support a rotor of the rotary machine, the active magnetic bearing apparatus including: a support frame plate configured to be removably connected to the housing; an axial magnetic bearing unit for supporting an axial load of the rotor; a radial magnetic bearing unit for supporting a radial load of the rotor, the radial magnetic bearing unit including an inner radial magnetic; and an auxiliary bearing unit for supporting loads exceeding a load capacity of one of the axial magnetic bearing unit or the radial magnetic bearing unit; wherein the radial magnetic bearing unit is mounted directly to the axial magnetic bearing unit, and wherein the axial magnetic bearing unit is mounted to the support frame plate. 13. The rotary machine of claim 12 , wherein the axial magnetic bearing unit includes an inner axial magnetic bearing surrounded by an outer auxiliary coil, the inner axial bearing including a primary winding of wire wound a magnetic core, and the outer auxiliary coil including a secondary winding of wire. 14. The rotary machine of claim 13 , wherein the primary winding of wire and the secondary winding of wire are wound in opposing directions. 15. The rotary machine of claim 12 , wherein a shielding frame reduces leakage of magnetic flux from the inner radial magnetic bearing to the support frame and electromagnetic components of the axial magnetic bearing unit. 16. The rotary machine of claim 12 , wherein the apparatus comprises a position sensor for determining one of an axial or a radial position of the rotor. 17. The rotary machine of claim 12 , wherein the apparatus comprises a fluid cooling channel for cooling the axial magnetic bearing unit and the radial magnetic bearing unit, the fluid cooling channel extending transversely through the active magnetic bearing apparatus and extending between the axial magnetic bearing unit and the radial magnetic bearing unit. 18. The rotary machine of claim 17 , further comprising a fluid mover for generating a flow of a cooling fluid through the cooling channel. 19. The rotary machine of claim 12 , wherein the auxiliary bearing unit includes an angular contact auxiliary ball bearing and a damping ribbon. 20. The rotary machine of claim 12 , wherein the auxiliary bearing unit includes a brush seal configured to inhibit back flow of fluid from the rotary machine into the active magnetic bearing apparatus.