Reversible polarity MPO fiber optic connector

We claim: 1. A multi-fiber, fiber optic connector comprising: a connector body defining a first surface and a second surface; a first key structure slidably positioned within a first slot defined on the first surface of the connector body; a second key structure slidably positioned within a second slot defined on the second surface of the connector body; a key housing enclosing a portion of the first surface of the connector body and the second surface of the connector body, wherein the first key structure is slideable relative to the first slot and the key housing and configured to be received within the key housing, wherein the second key structure is slideable relative to the second slot and the key housing and configured to be received within the key housing, either one of guide pins or guide pin receiving holes for guiding a connection with a second connector, and wherein, in operation, a polarity of the fiber optic connector is selectively adjusted by ingressingly sliding the first key structure into the key housing within the first slot and retracting the second key structure relative to the key housing within the second slot such that the second key structure extends from the key housing while the first key structure remains at least partially within the key housing. 2. The connector of claim 1 , wherein a distal end of the first key structure is configured to be covered by the key housing when the first key structure is slid within the key housing. 3. The connector of claim 1 , wherein a portion of the first key structure and a portion of the second key structure remains within the key housing when the polarity is being selectively adjusted. 4. The connector of claim 1 , wherein the key housing defines a first slot adjacent the first slot of the first surface for receiving the first key structure. 5. The connector of claim 1 , wherein the key housing defines a second slot adjacent the second slot of the second surface for receiving the second key structure. 6. The connector of claim 1 , wherein, when the connector is in a configuration where the guide pins extend from the connector, the connector is in a male configuration, and wherein, when, the guide pins are removed, the connector is in a female configuration. 7. The connector of claim 1 , wherein the key housing remains in an enclosed position relative to the first surface and the second surface when the polarity is being selectively adjusted. 8. A multi-fiber, fiber optic connector comprising: a connector body defining a first surface and a second surface; a first key structure slidably positioned within a first slot defined on the first surface of the connector body; a second key structure slidably positioned within a second slot defined on the second surface of the connector body; a housing enclosing a portion of the first surface of the connector body and the second surface of the connector body, wherein the first key structure is slideable relative to the first slot and the housing and configured to be received within the housing, wherein the second key structure is slideable relative to the second slot and the housing and configured to be received within the housing, either one of guide pins or guide pin receiving holes for guiding a connection with a second connector, wherein, in operation, a polarity of the fiber optic connector is selectively adjusted by ingressingly sliding the first key structure into the housing within the first slot and retracting the second key structure relative to the housing within the second slot such that the second key structure extends from the housing while the first key structure remains at least partially within the housing, and wherein a distal end of the first key structure is configured to be covered by the housing when the first key structure is slid within the housing and a portion of the first key structure and a portion of the second key structure remains within the housing when the polarity is being selectively adjusted. 9. The connector of claim 8 , wherein, when the connector is in a configuration where the guide pins extend from the connector, the connector is in a male configuration, and wherein, when, the guide pins are removed, the connector is in a female configuration. 10. The connector of claim 8 , wherein the housing remains in an enclosed position relative to the first surface and the second surface when the polarity is being selectively adjusted. 11. A method of changing the polarity of a fiber optic connector, the method comprising: selecting one of a first key structure and a second key structure for slideably positioning the first or second key structure into an active position, wherein the first key structure is slidably positioned within a first slot defined on a first surface of a connector body, wherein the second key structure is slidably positioned within a second slot defined on a second surface of the connector body, wherein the first key structure and the second key structure are at least partially enclosed within a key housing, the key housing enclosing a portion of the first surface of the connector body and the second surface of the connector body, sliding the selected one of the first key structure and the second key structure towards a terminal end of the fiber optic connector into an active position; and retracting the other of the selected one of the first key structure and the second key structure into the key housing in a direction away from the terminal end of the fiber optic connector thereby changing the polarity of the fiber optic connector, wherein the connector includes either one of guide pins or guide pin receiving holes for guiding a connection with a second connector. 12. The method of claim 11 , wherein a distal end of the first key structure is configured to be covered by the key housing when the first key structure is slid within the key housing. 13. The method of claim 11 , wherein a portion of the first key structure and a portion of the second key structure remains within the key housing when the first key structure or second key structure is being slid. 14. The method of claim 11 , wherein the key housing defines a first slot adjacent the first slot of the first surface for receiving the first key structure. 15. The method of claim 11 , wherein the key housing defines a second slot adjacent the second slot of the second surface for receiving the second key structure. 16. The method of claim 11 , wherein, when the connector is in a configuration where the guide pins extend from the connector, the connector is in a male configuration, and wherein, when, the guide pins are removed, the connector is in a female configuration. 17. The method of claim 11 , wherein the key housing remains in an enclosed position relative to the first surface and the second surface when the polarity is being selectively adjusted.