Turbine assembly with auxiliary wheel

We claim: 1. A turbomachine comprising: a non-magnetic turbine disc carried by a rotating shaft; and a system for detecting an overspeed condition of the non-magnetic turbine disc using a magnetic probe positioned in proximity to a magnetic target carried past the probe during rotation of the shaft, the system comprising: an annular spanner nut threadably mounted on the non-magnetic turbine disc for axially engaging a turbine disc coverplate, said annular spanner nut comprising a speed sensor target having a plurality of teeth spaced about the circumference thereof. 2. The turbomachine of claim 1 , wherein said annular spanner nut further comprises a balance land having an annular machinable surface. 3. A turbomachine comprising: a turbine disc carried by a rotating shaft; and a system for balancing the turbine disc, the system comprising a machinable surface positioned about a circumference of the disc, said system comprising: an annular spanner nut threadably mounted on the disc for axially engaging a turbine disc coverplate, said annular spanner nut comprising a balance land having an annular machinable surface. 4. The turbomachine of claim 3 , wherein said annular spanner nut further comprises a speed sensor target having a plurality of teeth spaced about the circumference thereof. 5. A turbine rotor assembly comprising: a turbine disc carried by a rotating shaft; a coverplate carried by said turbine disc; an annular spanner nut threadably mounted to said turbine disc and axially engaging said coverplate, said spanner nut comprising a speed sensor target having a plurality of teeth spaced about the circumference thereof; and a magnetic probe positioned proximate the speed sensor target so that rotation of the shaft carries the plurality of teeth past the probe, said probe being configured to detect the speed of the teeth passing the probe. 6. The turbine rotor assembly of claim 5 , wherein said annular spanner nut further comprises a balance land having an annular machinable surface. 7. The turbine rotor assembly of claim 5 , wherein the balance land is positioned axially intermediate of a threaded portion of said annular spanner nut and the speed sensor target. 8. A turbine rotor assembly comprising: a turbine disc carried by a rotating shaft; a coverplate carried by said turbine disc; an annular spanner nut threadably mounted to said turbine disc and axially engaging said coverplate, said spanner nut comprising at least one of a speed sensor target having a plurality of teeth spaced about the circumference thereof or a balance land having an annular machinable surface. 9. The turbine rotor assembly of claim 8 , wherein said annular spanner nut comprises a speed sensor target having a plurality of teeth spaced about the circumference thereof and a balance land having an annular machinable surface. 10. The turbine rotor assembly of claim 9 , wherein said turbine disc is non-magnetic and said speed sensor target is magnetic. 11. The turbine rotor assembly of claim 9 , wherein said balance land is positioned axially between a portion engaging said coverplate and said speed sensor target. 12. The turbine rotor assembly of claim 9 , wherein said annular machinable surface faces radially outward. 13. The turbine rotor assembly of claim 9 , wherein said plurality of teeth extend radially outward. 14. The turbomachine of claim 3 , wherein the turbine disc is non-magnetic. 15. The turbine rotor assembly of claim 5 , wherein the turbine disc is non-magnetic. 16. The turbomachine of claim 2 , wherein the balance land is positioned axially intermediate of a threaded portion of said annular spanner nut and the speed sensor target. 17. The turbomachine of claim 3 , wherein the balance land is positioned axially intermediate of a threaded portion of said annular spanner nut and the speed sensor target.