Top mount assembly having adjustable damping characteristics

What is claimed is: 1. A top mount assembly for interconnecting a damper assembly and a frame of a vehicle, said top mount assembly comprising: a housing disposed about an axis for being connected to the frame of the vehicle; a rod connection assembly disposed in said housing for being attached to a piston rod of the damper assembly; a chamber defined between said rod connection assembly and said housing for receiving a fluid; a resilient member disposed between said rod connection assembly and said housing and allowing relative movement between said rod connection assembly and said housing; a partition assembly positioned between said resilient member and said housing and axially dividing said chamber into an upper chamber region and a lower chamber region; said partition assembly defining at least one passage extending between said upper chamber region and said lower chamber region to allow said fluid to pass between said upper and lower chamber regions during movement of said housing relative to said rod connection assembly to dampen the movement of said rod connection assembly relative to said housing; and a least one electromagnetic coil disposed adjacent to said passage for selectively modifying the characteristics of said fluid passing through said passage to modify the damping characteristics of said top mount assembly. 2. A top mount assembly as set forth in claim 1 wherein said resilient member is a bushing of a rubber material and having a generally tube shape. 3. A top mount assembly as set forth in claim 1 wherein said fluid is a magnetorheological fluid. 4. A top mount assembly as set forth in claim 1 wherein said housing has a sidewall and a mounting plate extending radially outwardly from said sidewall for being connected to the frame of the vehicle. 5. A top mount assembly as set forth in claim 1 wherein said rod connection assembly includes a rod support extending axially between an upper end and a lower end along an outside wall, wherein said rod connection assembly defines a channel extending axially between said upper end and said lower end, and wherein said resilient member is coupled with said outside wall. 6. A top mount assembly as set forth in claim 5 further including an outer ring fixed to said resilient member and said partition assembly to interconnect said resilient member and said partition assembly, and an inner ring fixed to said resilient member and said rod connection assembly to interconnect said resilient member and said rod connection assembly. 7. A top mount assembly as set forth in claim 5 further including an upper insert having a body portion received by said channel at said upper end of said rod support and coupled to said rod support; a lower insert having a shaft portion received by said channel at said lower end of said rod support and coupled to said rod support; and wherein said upper and lower inserts define a passage extending axially therethrough for receiving the piston rod of the damper assembly. 8. A top mount assembly as set forth in claim 7 wherein said upper and lower inserts are threadedly connected to said rod support in said channel. 9. A top mount assembly as set forth in claim 7 further including a diaphragm of flexible material extending radially inwardly from an outer segment adjacent said housing to an inner securement segment connected to said rod connection assembly, to define an upper chamber region between said partition assembly and said diaphragm. 10. A top mount assembly as set forth in claim 9 wherein said upper insert further includes a flange extending radially outwardly from said body portion outside of said channel, and wherein said inner securement segment of said diaphragm is axially and sealingly secured between said flange and said rod support. 11. A top mount assembly as set forth in claim 9 further including an elastomeric member disposed radially between said housing and said rod connection assembly to define a lower chamber region between said partition assembly and said elastomeric member; a jounce rate washer disposed at least partially radially inwardly from said housing and at least partially axially below said housing, and wherein said elastomeric member extends between said jounce rate washer and said housing; a rebound rate washer connected to said rod connection assembly and overlying said elastomeric member in said lower chamber region to limit upward axial movement of said elastomeric member; said lower insert includes a lip portion extending radially outwardly from said shaft portion of said lower insert outside of said channel; and wherein said jounce rate washer and said rebound rate washer are sealed axially between said lip portion and said rod support. 12. A top mount assembly as set forth in claim 1 wherein said partition assembly includes a coil support positioned radially against said housing, said partition assembly further includes a flux ring disposed radially between said resilient member and said coil support, and wherein said at least one passage is defined between said coil support and said flux ring. 13. A top mount assembly as set forth in claim 12 wherein said fluid is a magnetorheological fluid, wherein said coil support defines a coil compartment adjacent to said passage, and wherein said at least one electromagnetic coil is disposed in said coil compartment for generating a magnetic flux across said passage for varying the viscosity of said magnetorheological fluid in said passage to change the damping characteristics of said top mount assembly. 14. A top mount assembly as set forth in claim 13 further including a power source electrically connected to said at least one electromagnetic coil for providing power to said electromagnetic coil. 15. A top mount assembly as set forth in claim 13 further including a controller connected to said at least one electromagnetic coil for selectively controlling the flux generated by said electromagnetic coil. 16. A top mount assembly as set forth in claim 1 further including a diaphragm of flexible material extending radially between said housing and said rod connection assembly to define said upper chamber region between said partition assembly and said diaphragm. 17. A top mount assembly as set forth in claim 16 further including a cap connected to said housing and at least partially overlying said diaphragm for protecting said diaphragm during operation of said top mount assembly. 18. A top mount assembly as set forth in claim 16 further including an elastomeric member disposed radially between said housing and said rod connection assembly on the opposite side of said partition assembly as said diaphragm to define said lower chamber region between said partition assembly and said elastomeric member. 19. A top mount assembly as set forth in claim 18 further including a jounce rate washer disposed at least partially radially inwardly from said housing and at least partially axially below said housing, and wherein said elastomeric member extends between said jounce rate washer and said housing. 20. A top mount assembly as set forth in claim 18 further including a rebound rate washer connected to said rod connection assembly and overlying said elastomeric member in said lower chamber region to limit upward axial movement of said elastomeric member.