Optical connector with photodetector, adaptor for optical connector, and system

We claim: 1. An optical connector comprising: a first end comprising an external interface, the external interface comprising a light-carrying port, mechanical connection elements and an electrical interface, the external interface being configured to be detachably received by an adapter; a second end integrated with an optical fiber cable; a main optical conduit comprising a first length of optical fiber and a second length of optical fiber aligned and joined together at a splice point to form a continuous length of optical fiber for propagating light between the light-carrying port and the optical fiber cable; and a photodetector, connected to the optical fiber between the light-carrying port and the splice point, for detecting light travelling through the optical connector and providing a signal indicative of the detected light via the electrical interface. 2. The optical connector defined in claim 1 , wherein the optical connector is an optical fiber connector. 3. The optical connector defined in claim 2 , further comprising an optical tap coupled to the optical fiber for tapping a portion of the light, wherein the photodetector is coupled to the optical tap for detecting the tapped portion. 4. The optical connector defined in claim 3 , wherein the optical fiber comprises a core and a cladding surrounding the core, wherein the optical tap comprises a portion of the cladding having a varied refractive index for tapping the light. 5. The optical connector defined in claim 3 , wherein the optical tap comprises a Bragg grating in the optical fiber, configured for tapping the light. 6. The optical connector defined in claim 3 , wherein the optical tap comprises a directional optical coupler. 7. The optical connector defined in claim 3 , wherein at least one of a tap ratio of the optical tap and a responsivity of the photodetector is such that an output of the photodetector includes a calibrated indication of a power of light traveling through the optical connector. 8. The optical connector defined in claim 1 , further comprising an wherein the external interface is configured to convey the signal and the signal is further indicative of an output of the photodetector. 9. The optical connector defined in claim 8 , wherein the signal is an electrical signal and wherein the electrical interface comprises an electrode. 10. The optical connector defined in claim 9 , wherein the electrode is disposed at a periphery of the connector. 11. The optical connector defined in claim 8 , wherein the signal is an optical signal and wherein the external interface further comprises a light-emitting device. 12. The optical connector defined in claim 11 , wherein the light-emitting device is a light-emitting diode. 13. The optical connector defined in claim 8 , wherein the signal is an audible signal and wherein the external interface further comprises a sound-emitting device. 14. The optical connector defined in claim 1 , further comprising a circuit configured for processing an output of the photodetector to generate an output signal. 15. The optical connector defined in claim 14 , wherein the external interface is configured to convey the output signal. 16. The optical connector defined in claim 15 , wherein the electrical interface comprises an electrode. 17. The optical connector defined in claim 1 , wherein the photodetector is an active device. 18. The optical connector defined in claim 1 , further comprising an electrode accessible from outside the connector and connected to the photodetector. 19. The optical connector defined in claim 18 , wherein the electrode is configured to receive power from an external source for the photodetector. 20. The optical connector defined in claim 18 , wherein the electrode is visible from inspection of an exterior of the connector. 21. The optical connector defined in claim 1 , wherein the photodetector is a passive device. 22. The optical connector defined in claim 1 , wherein the photodetector is configured to draw power from light tapped from an optical connection made by the connector when in use. 23. The optical connector defined in claim 1 , wherein the first end comprises a form factor selected from a group consisting of FC, SC, ST, LC, MU, DIN, MTRJ, D4 and MPO. 24. The optical connector defined in claim 1 , comprising a directional optical coupler configured to tap light traveling from the first end towards the second end. 25. The optical connector defined in claim 24 , wherein the directional optical coupler is configured to tap light entering the connector at the second end. 26. The optical connector defined in claim 1 , wherein the optical fiber cable comprises a plurality of optical fibers arranged in parallel, the photodetector being a first photodetector, the connector comprising a plurality of built-in photodetectors including the first photodetector wherein the connector is configured to tap light traveling through each optical fiber and couple the tapped light to a respective one of the plurality of photodetectors. 27. An optical connector responsive to light to generate an electrical signal, the connector comprising: a first end comprising an external interface, the external interface comprising a light-carrying port, mechanical connection elements and an electrical interface, the external interface being configured to be detachably received by an adapter; a second end integrated with an optical fiber cable; a main optical conduit comprising a first length of optical fiber and a second length of optical fiber aligned and joined together at a splice point to form a continuous length of optical fiber for propagating light between the light-carrying port and the optical fiber cable; and a photodetector, connected to the optical fiber between the light-carrying port and the splice point, for detecting light travelling through the optical connector and providing a signal indicative of the detected light via the electrical interface.