Housing for pluggable module

What is claimed is: 1. A housing for a pluggable module, the housing usable with a printed circuit board (PCB) having first and second sides and first and second ends, the housing comprising sidewalls disposed along the housing and enclosing an enclosure space of the housing, the sidewalls having a plurality of protrusions configured to support the PCB insertable in the housing, the protrusions including: a first seating protrusion having a first seating surface, the first seating surface facing a first direction inward to the enclosure space; a second seating protrusion having a second seating surface, the second seating surface facing a second direction outward from the enclosure space opposite the first direction, the second seating surface positioned parallel to the first seating surface, the second seating surface offset relative to the first seating surface in a direction parallel to the first seating surface, the second seating surface offset relative to the first seating surface in a direction perpendicular to the first seating surface; and a locking protrusion having a locking surface, the locking surface facing the first direction inward to the enclosure space, the locking surface positioned parallel to the first seating surface, the locking surface offset relative to the first seating surface in the direction perpendicular to the first seating surface, wherein the first and second seating surfaces are configured to receive the first end of the PCB inserted between the first and second surfaces at an angle, the first and second seating surfaces configured to support the first and second sides of the PCB pivoted parallel to the housing; and wherein the locking surface at the second longitudinal offset is configured to support the first side of the PCB toward the second end thereof. 2. The housing of claim 1 , wherein the protrusions further comprise a ramp protrusion having a ramp surface, the ramp surface positioned oblique to the first seating surface and facing the second direction outward from the enclosure space, the ramp surface offset relative to the first seating face in the direction parallel to the first seating surface, the ramp surface offset relative to the first seating surface in the direction perpendicular to the first seating surface, wherein the first seating surface and the ramp surface are configured to receive the first end of the PCB inserted therebetween. 3. The housing of claim 1 , further comprising a plurality of fiber retention tabs disposed on the sidewalls. 4. The housing of claim 1 , further comprising a cross-wall disposed between the sidewalls and having a cross-wall surface facing the second direction outward from the enclosure space, the cross-wall surface positioned parallel to the second seating surface. 5. The housing of claim 1 , further comprising a crossbar disposed between the sidewalls and having a crossbar surface facing the second direction outward from the enclosure space, the crossbar surface positioned parallel to the second seating surface. 6. The housing of claim 1 , wherein the housing defines a fastener retention hole open in the first direction and the second direction. 7. The housing of claim 1 , further comprising a lateral alignment protrusion configured to engage a notch in an edge of the PCB. 8. The housing of claim 1 , wherein the protrusions further comprise a step configured to engage a notch in an edge of the PCB. 9. An optoelectronic transceiver module comprising: a printed circuit board (PCB) having first and second sides and having first and second ends, the PCB defining an opening in an edge of the PCB; and a housing having sidewalls, the sidewalls disposed along the housing and enclosing an enclosure space of the housing, the sidewalls having a plurality of protrusions configured to support the PCB insertable in the housing, the protrusions including: a first seating protrusion having a first seating surface, the first seating surface facing the first side of the PCB inserted in the housing; a second seating protrusion having a second seating surface, the second seating surface facing the second side of the PCB inserted in the housing, the second seating surface positioned parallel to the first seating surface, the second seating surface offset relative to the first seating surface in a direction parallel to the first seating surface, the second seating surface offset relative to the first seating surface in a direction perpendicular to the first seating surface, the first end of the PCB being insertable between the first and second seating protrusions, the second end of the PCB being pivotable about the inserted first end; and a locking protrusion having a locking surface, the locking surface facing the first side of the PCB inserted in the housing, the locking surface positioned parallel to the first seating surface, the locking surface offset relative to the first seating surface in the direction perpendicular to the first seating surface, the opening of the PCB being passable past the locking protrusion aligned therewith in the pivot of the PCB, the PCB being slideable between the first and second seating surfaces and the locking surface to misalign the locking protrusion from the opening. 10. The optoelectronic transceiver module of claim 9 , wherein the protrusions further comprise a ramp protrusion having a ramp surface, the ramp surface facing the second side of the PCB inserted in the housing, the ramp surface positioned oblique to the first seating surface, the ramp surface offset relative to the first seating face in the direction parallel to the first seating surface, the ramp surface offset relative to the first seating surface in the direction perpendicular to the first seating surface, the first end of the PCB being insertable between the first seating protrusion and the ramp protrusion. 11. The optoelectronic transceiver module of claim 9 , further comprising optical fiber, wherein the sidewalls of the housing further includes a plurality of fiber retention tabs, and wherein the optical fiber is positioned within the enclosure space of the housing at least in part by the plurality of fiber retention tabs. 12. The optoelectronic transceiver module of claim 9 , wherein the housing further comprises a cross-wall disposed between the sidewalls and having a cross-wall surface facing the second side of the PCB inserted therein, the cross-wall surface positioned parallel to the second seating surface. 13. The optoelectronic transceiver module of claim 9 , wherein the housing further comprises a crossbar disposed between the sidewalls and having a crossbar surface facing the second side of the PCB inserted, the crossbar surface positioned parallel to the second seating surface. 14. The optoelectronic transceiver module of claim 9 , further comprising: a cover defining a fastener opening and configured to position over the enclosure space of the housing; and a fastener, wherein the housing defines a fastener retention hole, and wherein the fastener is positioned in the fastener opening of the cover, the opening of the PCB, and the fastener retention hole of the housing. 15. The optoelectronic transceiver module of claim 9 , wherein the sidewalls of the housing further includes a plurality of fiber retention tabs, and wherein the PCB further defines a second opening sized and shaped to pass a first fiber retention tab of the plurality of fiber retention tabs through the second opening. 16. The optoelectronic transceiver module of claim 9 , wherein the housing further includes a lateral alignment protrusion.