Electronics connector for facilitating treatment

We claim: 1. An M.2 connector comprising: a first subassembly, the first subassembly comprising an M.2 connector base and a printed circuit board upon which the M.2 connector base is mounted; a second subassembly, the second subassembly comprising a one-part latch; the one-part latch comprising a longitudinal portion and two depending legs unitary with and extending from the longitudinal portion, whereby the longitudinal portion and the two depending legs are configured to all rotate in an identical direction relative to the M.2 connector base and the printed circuit board; each of the first and the second subassemblies being heat treated before the first and second subassemblies are connected to each other. 2. The M.2 connector of claim 1 , wherein the first and second subassemblies can be assembled together by relative rotational motion. 3. The M.2 connector of claim 1 , further comprising an electronic module inserted into the second subassembly comprising the one-part latch, wherein the one-part latch is connectable to the M.2 connector base by relative vertical motion. 4. The M.2 connector of claim 1 , further comprising an electronic module inserted into the M.2 connector base of the first subassembly. 5. The M.2 connector of claim 1 , further comprising a replacement second subassembly having a length different than the length of the second subassembly, wherein the second subassembly is removable from the first subassembly for replacement with the replacement second subassembly. 6. The M.2 connector of claim 1 , wherein the M.2 connector base includes a first side wall configured to abut a first of the depending legs of the one-part latch, and a second side wall configured abut a second of the depending legs of the one-part latch. 7. The M.2 connector of claim 6 , wherein the M.2 connector base omits a first rearward wall abutting the first of the depending legs, and omits a second rearward wall abutting the second of the depending legs, thereby allowing rotation of the one-part latch. 8. An M.2 connector, comprising: an M.2 connector base having opposing ends, the M.2 connector base being configured to receive an electronic module between the opposing ends; and a one-part latch pivotably coupled to both opposing ends of the M.2 connector base, wherein the one-part latch is configured to rotate relative to the M.2 connector base to secure the electronic module in the M.2 connector base. 9. The M.2 connector of claim 8 , wherein the M.2 connector base includes a first side wall configured to abut a first depending leg of the one-part latch, and a second side wall configured abut a second depending leg of the one-part latch. 10. The M.2 connector of claim 9 , wherein the M.2 connector base omits a first rearward wall abutting the first of the depending legs, and omits a second rearward wall abutting the second of the depending legs, thereby allowing rotation of the one-part latch.