Polarity test of fiber arrays based on electronically switched optical signals

What we claim is: 1. An optical testing device comprising a microcontroller and a plurality of pluggable transceivers, wherein: each pluggable transceiver of the plurality of pluggable transceivers are pluggable in an optical domain to a channel of an optical fiber array; each pluggable transceiver of the plurality of pluggable transceivers are pluggable in an electrical domain to an electronic interface of the microcontroller; each pluggable transceiver of the plurality of pluggable transceivers comprises a light source and a photodetector configured to be optically paired with one another over a designated channel of the optical fiber array; and the microcontroller executes logic to designate a channel of the optical fiber array to test using a chosen pluggable transceiver of the plurality of pluggable transceivers, control the chosen pluggable transceiver of the plurality of pluggable transceivers to activate the light source of the chosen pluggable transceiver to transmit a light signal over the designated channel of the optical fiber array, control the chosen pluggable transceiver of the plurality of pluggable transceivers to activate the photodetector of the chosen pluggable transceiver, automatically determine whether the photodetector of the chosen pluggable transceiver is detecting the light signal transmitted by the light source of the chosen pluggable transceiver, and mark the designated channel of the fiber array as (i) a correct connection if the photodetector that detects the light signal transmitted by the light source of the chosen pluggable transceiver is the photodetector of the chosen pluggable transceiver, (ii) an incorrect connection if the photodetector that detects the light signal transmitted by the light source of the chosen pluggable transceiver is not the photodetector of the chosen pluggable transceiver, and (iii) no connection if no photodetector of the plurality of pluggable transceivers detects the light signal transmitted by the light source of the chosen pluggable transceiver. 2. The optical testing device as recited in claim 1 , wherein the light source of each pluggable transceiver is a laser. 3. The optical testing device as recited in claim 1 , wherein each pluggable transceiver of the plurality of pluggable transceivers is a Small Form-factor Pluggable. 4. The optical testing device as recited in claim 3 , wherein the light signal of the light source of each pluggable transceiver of the plurality of pluggable transceivers is un-modulated. 5. The optical testing device as recited in claim 3 , wherein each pluggable transceiver of the plurality of pluggable transceivers is applicable to both single mode (SM) and multi-mode (MM) fiber arrays. 6. The optical testing device as recited in claim 1 , wherein each of the pluggable transceivers is one of SFP, QSFP, QSFP+, XFP, XSP+, CFP, and CFP2. 7. The optical testing device of claim 1 , wherein the microcontroller is configured to consecutively control the light source of each pluggable transceiver to test each channel of the fiber array. 8. The optical testing device of claim 1 , wherein the microcontroller is configured to selectively control the light source of each pluggable transceiver to test any channel of the fiber array. 9. The optical testing device of claim 1 , wherein each pluggable transceiver of the plurality of pluggable transceivers is separately replaceable. 10. The optical testing device as recited in claim 1 , wherein, if an incorrect connection is found and a photodetector that detects the light transmitted by the light source of the chosen pluggable transceiver is not the photodetector of the chosen pluggable transceiver, the microcontroller is configured to mark the incorrect photodetector. 11. An optical fiber testing assembly comprising: an optical fiber array; a microcontroller; a display; and a plurality of pluggable transceivers, wherein the display, and the plurality of pluggable transceivers are communicatively coupled to the microcontroller, each pluggable transceiver of the plurality of pluggable transceivers are pluggable in an optical domain to a channel of the optical fiber array, each pluggable transceiver of the plurality of pluggable transceivers are pluggable in an electrical domain to an electronic interface of the microcontroller, each pluggable transceiver of the plurality of pluggable transceivers comprises a light source and a photodetector optically paired with one another over a designated channel of the optical fiber array, and the microcontroller executes logic to designate a channel of the optical fiber array to test using a chosen pluggable transceiver of the plurality of pluggable transceivers, control the chosen pluggable transceiver of the plurality of pluggable transceivers to activate the light source of the chosen pluggable transceiver to transmit an un-modulated light signal over the designated channel of the optical fiber array, control the chosen pluggable transceiver of the plurality of pluggable transceivers to activate the photodetector of the chosen pluggable transceiver, automatically determine whether the photodetector of the chosen pluggable transceiver is detecting the un-modulated light signal transmitted by the light source of the chosen pluggable transceiver, if the photodetector of the chosen pluggable transceiver is not detecting the un-modulated light signal transmitted by the light source of the chosen pluggable transceiver, control the plurality of pluggable transceivers to activate the photodetectors of the plurality of pluggable transceivers and automatically determine from the plurality of pluggable transceivers which photodetector of the plurality of pluggable transceivers is detecting the un-modulated light signal transmitted by the light source of the chosen pluggable transceiver, automatically mark the designated channel of the fiber array as (i) a correct connection if the photodetector that detects the un-modulated light signal transmitted by the light source of the chosen pluggable transceiver is the photodetector of the chosen pluggable transceiver, (ii) an incorrect connection if the photodetector that detects the un-modulated light signal transmitted by the light source of the chosen pluggable transceiver is not the photodetector of the chosen pluggable transceiver, and (iii) no connection if no photodetector of the plurality of pluggable transceivers detects the un-modulated light signal transmitted by the light source of the chosen pluggable transceiver, display with the display whether the designated channel has a correct connection, an incorrect connection, or no connection, and control the chosen pluggable transceiver of the plurality of pluggable transceivers to deactivate the light source of the chosen pluggable transceiver upon determining that the designated channel has a correct connection, an incorrect connection, or no connection.