Power transfer configuration for supplying power to a detachable probe for a coordinate measurement machine

The invention claimed is: 1. An power transfer configuration for providing power to a stored coordinate measurement machine (CMM) probe which is stored in a storage rack and is automatically attachable to and detached detachable from a coordinate measurement machine, wherein the storage rack is mounted proximate to a CMM and comprises a probe receptacle configured to accept and hold the CMM probe to be automatically inserted and removed from the probe receptacle by the CMM; the power transfer configuration comprising: a primary electromagnetic winding mounted to the storage rack proximate to or within the probe receptacle, the primary electromagnetic winding configured to receive power from an alternative current generating power supply and generate a changing electromagnetic field proximate to a housing of the CMM probe held in the probe receptacle; and a secondary electromagnetic winding located internally to and proximate to a housing of the CMM probe held in the probe receptacle, the secondary electromagnetic winding generating power usable inside the CMM probe, in response to the changing electromagnetic field. 2. The power transfer configuration of claim 1 , wherein the secondary electromagnetic winding is configured to provide power to a heat regulating element included in electronic components of the CMM probe. 3. The power transfer configuration of claim 2 , wherein the heat regulating element comprises at least some of the electronic components that are normally powered when the CMM uses and powers the CMM probe during measurement operations. 4. The power transfer configuration of claim 1 , wherein the primary electromagnetic winding comprises a coil including at least two turns. 5. The power transfer configuration of claim 1 , wherein the secondary electromagnetic winding comprises a coil including at least two turns. 6. A storage rack including a primary electromagnetic winding configured for use a in power transfer configuration for providing power to a stored coordinate measurement machine (CMM) probe which is stored in the storage rack and is automatically attachable to and detached detachable from a coordinate measurement machine, wherein the storage rack may be mounted proximate to a CMM and comprises a probe receptacle configured to accept and hold the CMM probe to be automatically inserted and removed from the probe receptacle by the CMM; the power transfer configuration comprising: the primary electromagnetic winding mounted to the storage rack proximate to or within the probe receptacle, the primary electromagnetic winding configured to receive power from an alternative current generating power supply and generate a changing electromagnetic field proximate to a housing of the CMM probe held in the probe receptacle; and a secondary electromagnetic winding located internally to and proximate to a housing of the CMM probe held in the probe receptacle, the secondary electromagnetic winding generating power usable inside the CMM probe, in response to the changing electromagnetic field. 7. The storage rack of claim 6 , wherein the secondary electromagnetic winding is configured to provide power to a heat regulating element included in electronic components of the CMM probe. 8. The storage rack of claim 7 , wherein the heat regulating element comprises at least some of the electronic components that are normally powered when the CMM uses and powers the CMM probe during measurement operations. 9. The storage rack of claim 6 , wherein the primary electromagnetic winding comprises a coil including at least two turns. 10. The storage rack of claim 6 , wherein the secondary electromagnetic winding comprises a coil including at least two turns. 11. A method for providing power to at least one coordinate measurement machine (CMM) probe which is detached from a coordinate measurement machine, the method comprising: holding the CMM probe in a probe receptacle of a storage rack, the probe receptacle comprising a primary electromagnetic winding mounted proximate to or within the probe receptacle; operating the storage rack to provide power to the primary electromagnetic winding and generate a changing electromagnetic field proximate to a housing of the CMM probe held in the probe receptacle; and generating power in a secondary electromagnetic winding in the CMM probe in response to the changing electromagnetic field.