Riser collet connector systems and methods

The invention claimed is: 1. A connector system, comprising: a first riser joint configured to form part of a riser and comprising a pin; and a connector configured to couple to a wellhead assembly and comprising a plurality of collet segments that are configured to move radially-inwardly to engage the pin of the first riser joint, wherein the connector further comprises: a connector body comprising: a collet housing; a tapered neck portion; and a cylindrical neck portion, wherein the tapered neck portion tapers radially outwardly to join the cylindrical neck portion to the collet housing, the cylindrical neck portion having an inner diameter that is larger than an outer diameter of the pin, wherein the collet housing comprises: an outer wall; an inner wall; and an annular space defined between the outer wall and the inner wall, the connector further comprising: a piston configured to move vertically within the collet housing to drive the plurality of collet segments to move radially-inwardly to engage the pin of the first riser joint, wherein first portions of the plurality of collet segments are positioned to form a ring in the annular space of the collet housing. 2. The connector system of claim 1 , wherein the first riser joint comprises: a main body; and a first riser joint flange positioned between the main body and the pin along a vertical axis of the first riser joint. 3. The connector system of claim 2 , wherein the connector comprises a connector flange that is configured to contact the first riser joint flange while the plurality of collet segments engage the pin of the first riser joint. 4. The connector system of claim 2 , wherein a pin height of the pin along the vertical axis is at least two times a flange height of the first riser joint flange along the vertical axis. 5. The connector system of claim 1 , wherein the first riser joint is configured to support one or more auxiliary lines, and the connector comprises a connector flange that supports one or more line connectors that are configured to couple to the one or more auxiliary lines. 6. The connector system of claim 5 , wherein the one or more line connectors are configured to couple to the one or more auxiliary lines via respective stab connections. 7. The connector system of claim 1 , wherein second portions of the plurality of collet segments are positioned vertically above the inner wall to enable the second portions of the plurality of collet segments to engage the pin of the first riser joint. 8. A subsea drilling system, comprising: a riser that extends between a platform at a sea surface and a wellhead assembly at a sea floor, wherein a distal end of the riser comprises a pin; and a connector coupled to the wellhead assembly, wherein the connector comprises: a plurality of collet segments that are configured to move radially-inwardly to engage the pin to enable the connector to couple the riser to the wellhead assembly; a connector body comprising: a collet housing; a tapered neck portion; and a cylindrical neck portion, wherein the tapered neck portion tapers radially outwardly to join the cylindrical neck portion to the collet housing, the cylindrical neck portion having an inner diameter that is larger than an outer diameter of the pin; wherein the collet housing comprises: an outer wall; an inner wall; and an annular space defined between the outer wall and the inner wall, the connector further comprising: a piston configured to move vertically within the collet housing to drive the plurality of collet segments to move radially-inwardly to engage the pin, wherein first portions of the plurality of collet segments are positioned to form a ring in the annular space of the collet housing. 9. The subsea drilling system of claim 8 , wherein the riser comprises a plurality of riser joints that are stacked end-to-end, and the plurality of riser joints comprises a first riser joint that forms the distal end of the riser and that comprises the pin. 10. The subsea drilling system of claim 8 , wherein the connector is coupled to a lower marine riser package (LMRP) of the wellhead assembly. 11. The subsea drilling system of claim 8 , wherein the riser comprises a riser flange that is separated from the distal end of the riser along a vertical axis of the riser. 12. The subsea drilling system of claim 11 , wherein the connector comprises a connector flange that is configured to contact the riser flange while the plurality of collet segments engage the pin. 13. The subsea drilling system of claim 12 , wherein the riser and the wellhead assembly are connected only via engagement between the plurality of collet segments and the pin, and the connector flange and the riser flange are not coupled to one another via threaded fasteners. 14. The subsea drilling system of claim 11 , wherein a pin height of the pin along the vertical axis is at least two times a flange height of the riser flange along the vertical axis. 15. The subsea drilling system of claim 8 , wherein second portions of the plurality of collet segments are positioned vertically above the inner wall to enable the second portions of the plurality of collet segments to engage the pin. 16. A method of coupling a riser and a wellhead assembly, the method comprising: moving a first riser joint of the riser toward a connector coupled to a portion of the wellhead assembly, the connector comprising: a connector body comprising: a collet housing; a tapered neck portion; and a cylindrical neck portion, wherein the tapered neck portion tapers radially outwardly to join the cylindrical neck portion to the collet housing; inserting a pin of the first riser joint of the riser into an opening defined by a plurality of collet segments of the connector, the cylindrical neck portion having an inner diameter that is larger than an outer diameter of the pin so as to align and guide the pin into the opening defined by the plurality of collet segments of the connector; and driving the plurality of collet segments to move radially-inwardly to engage the pin of the first riser joint of the riser to form a connection between the riser and the wellhead assembly, the method further comprising: providing a fluid to a sealed space within collet housing of the connector to drive a piston to move within the collet housing, the collet housing comprising: an outer wall; an inner wall; and an annular space defined between the outer wall and the inner wall, wherein first portions of the plurality of collet segments are positioned to form a ring in the annular space of the collet housing, wherein contact between the piston and the plurality of collet segments as the piston moves within the collet housing causes the plurality of collet segments to move radially-inwardly. 17. The method of claim 16 , comprising moving the first riser joint of the riser toward the connector until respective flanges of the first riser joint and the connector contact one another to thereby align the pin of the first riser joint of the riser with the opening defined by the plurality of collet segments of the connector. 18. The method of claim 16 , comprising driving the plurality of collet segments to move radially-outwardly to disengage from the pin of the first riser joint of the riser to break up the connection between the riser and the wellhead assembly. 19. The method of claim 18 , comprising withdrawing the pin of the first riser joint of the riser to separate the riser from the wellhead assembly. 20. The method of cl