Connectors and adapters with auto-latching features

The invention claimed is: 1. A managed connectivity system comprising: at least one adapter defining at least one port, the adapter including an abutment surface and a magnet arrangement disposed within each port; a plug connector including a magnetizable latching arm that is sufficiently short to not extend outside of the adapter when the fiber optic connector is mounted within the port of the adapter, the latching arm being moveable between a lowered position and a raised position, the latching arm being sized to pass by the abutment surface when in the lowered position during insertion or removal of the plug connector, the latching arm being sized to engage the abutment surface when in the raised position during insertion or removal of the plug connector; and a management system including a processor configured to operate the magnet arrangements of the adapter. 2. The managed connectivity system of claim 1 , further comprising a printed circuit board coupled to the adapter, the printed circuit board being electrically coupled to the magnet arrangement and to the management system. 3. The managed connectivity system of claim 1 , wherein the processor is located local to the adapter. 4. The managed connectivity system of claim 1 , wherein the processor is located remote from the adapter. 5. The managed connectivity system of claim 1 , further comprising an indicator associated with the at least one port of the adapter, the indicator operationally coupled to the management system. 6. The managed connectivity system of claim 5 , wherein the indicator includes an internal micro-switch disposed within the at least one port. 7. The managed connectivity system of claim 5 , wherein the adapter defines a plurality of ports including the at least one port, and wherein the indicator includes a push button associated with the plurality of ports. 8. The managed connectivity system of claim 1 , wherein the latching arm of the plug connector is configured to be in the lowered position absent an external force. 9. The managed connectivity system of claim 1 , wherein the plug connector is an optical plug connector. 10. The managed connectivity system of claim 1 , wherein the plug connector is an electrical plug connector. 11. The managed connectivity system of claim 1 , wherein the magnet arrangement includes at least one permanent magnet and at least one electromagnet, the electromagnet being stronger than the permanent magnet. 12. The managed connectivity system of claim 11 , wherein the permanent magnet constantly generates a magnetic field within the at least one port; and wherein the electromagnet is configured to selectively generate a magnetic field within the at least one port. 13. The managed connectivity system of claim 11 , wherein the permanent magnet is sufficiently weak that a magnetic field generated by the permanent magnet is insufficient to attract the latching arm towards the permanent magnet when the latching arm is in the lowered position; and wherein the permanent magnet is sufficiently strong that the magnetic field generated by the permanent magnet is sufficient to attract the latching arm when the latching arm is in the raised position. 14. The managed connectivity system of claim 11 , wherein the electromagnet is sufficiently strong that a magnetic field generated by the electromagnet when activated is sufficient to attract the latching arm when the latching arm is in the lowered position. 15. The managed connectivity system of claim 1 , further comprising an ejector disposed within the at least one port of the adapter, the ejector being configured to selectively push the plug connector out of the port.