Line connector having a link detection system and method of making same

What is claimed is: 1. A line connector for a personal fall protection system, said line connector comprising: a carabiner having a loop portion that at least partially defines an opening, said opening configured to receive a mating component for a harness of the personal fall protection system, the mating component for the harness including at least one of a D-ring, an O-ring and a snap hook; at least one sensor that comprises a coil disposed around said loop portion of said carabiner; and a control unit coupled to said at least one sensor, said control unit operable to: send an excitation signal to said at least one sensor to cause said at least one sensor to generate an electromagnetic field in response to the excitation signal and to detect a modification of the electromagnetic field induced by the presence of an object as a response signal, wherein said control unit is configured to determine whether the presence of the object that induces the detected modification of the electromagnetic field is associated with the mating component extending through said opening, and to determine that said line connector is coupled to the mating component based on the detected modification of the electromagnetic field induced by the mating component and detected by said at least one sensor. 2. The line connector according to claim 1 , wherein said control unit comprises a communication interface configured to communicate with one of a personal monitor and a workspace monitor. 3. The line connector according to claim 1 , wherein said at least one sensor comprises a plurality of sensors, each said coil of said plurality of sensors located at a different position along said loop portion of said carabiner. 4. The line connector according to claim 3 , wherein said plurality of sensors comprises a first sensor positioned along a first portion of said loop portion of said carabiner, and a second sensor positioned along a second portion of said loop portion of said carabiner that is substantially non-parallel to said first portion. 5. The line connector according to claim 3 , wherein said plurality of sensors comprises a first sensor positioned along a first portion of said loop portion of said carabiner, and a third sensor positioned along a third portion of said loop portion of said carabiner that is substantially opposite to said first portion across said opening. 6. The line connector according to claim 1 , wherein said control unit is further operable to: store a table of expected mating component response signals for said at least one sensor, wherein each expected mating component response signal is associated with an expected modification of the electromagnetic field induced by the presence of a corresponding one of a plurality of types of the mating component extending through said opening; and compare the detected modification of the electromagnetic field induced by the presence of the object as the response signal to said table to determine whether the response signal matches one of the expected mating component response signals, wherein the expected mating component response signal for each of the plurality of types of the mating component is based on a material from which each type is formed. 7. The line connector according to claim 1 , wherein said control unit is further operable to: store a table of expected environmental noise response signals for said at least one sensor, wherein each expected environmental noise response signal is associated with an expected modification of the electromagnetic field induced by the presence of one of a plurality of sources of environmental noise proximate said opening; and compare the detected modification of the electronic field induced by the presence of the object as the response signal to said table to determine whether the response signal matches one of the expected environmental noise response signals, wherein the plurality of sources of environmental noise includes at least one of a metal post and a guard rail. 8. The line connector according to claim 1 , wherein said control unit is coupled to a cross-bar that extends across said opening. 9. The line connector according to claim 1 , wherein said at least one sensor further comprises a sensor positioned proximate a gate portion of said carabiner, said control unit is further configured to determine whether said gate portion is in a locked configuration based on the detected modification of the electromagnetic field induced by said gate portion and detected by said at least one sensor. 10. A personal fall protection system comprising: a harness; at least one line element; and a plurality of line connectors configured to couple to mating components for connecting said harness, said at least one line element, and an anchor, at least one of said plurality of line connectors comprising: a carabiner having a loop portion that at least partially defines an opening, said opening configured to receive one of said mating components for said harness, said mating component including at least one of a D-ring, an O-ring and a snap hook; at least one sensor that comprises a coil disposed around said loop portion; and a control unit coupled to said at least one sensor, said control unit operable to: send an excitation signal to said at least one sensor to cause said at least one sensor to generate an electromagnetic field in response to the excitation signal and to detect a modification of the electromagnetic field induced by the presence of an object as a response signal, wherein said control unit is configured to determine whether the presence of the object that induces the detected modification of the electromagnetic field is associated with said mating component extending through said opening, and to determine that said line connector is coupled to said mating component based on the detected modification of the electromagnetic field induced by said mating component and detected by said at least one sensor. 11. The personal fall protection system according to claim 10 , wherein said control unit comprises a communication interface configured to communicate with one of a personal monitor and a workspace monitor. 12. The personal fall protection system according to claim 10 , wherein said at least one sensor comprises a plurality of sensors, each said coil of said plurality of sensors located at a different position along said loop portion of said carabiner. 13. The personal fall protection system according to claim 12 , wherein said plurality of sensors comprises a first sensor positioned along a first portion of said loop portion of said carabiner, and a second sensor positioned along a second portion of said loop portion of said carabiner that is substantially non-parallel to said first portion. 14. The personal fall protection system according to claim 12 , wherein said plurality of sensors comprises a first sensor positioned along a first portion of said loop portion of said carabiner, and a third sensor positioned along a third portion of said loop portion of said carabiner that is substantially opposite to said first portion across said opening. 15. The personal fall protection system according to claim 10 , wherein said control unit is further operable to: store a table of expected mating component response signals for said at least one sensor, wherein each expected mating component response signal is associated with an expected modification of the electromagnetic field induced by the presence of a corresponding one of a plurality of types of said mating component extending through said opening; and compare the detected modif