Connectors and methods for manufacturing connectors

What is claimed is: 1. A method of manufacturing a metal frame for an electrical plug connector, the method comprising: using a first metalworking process to form an insertion end of the metal frame, the insertion end having: width, height and length dimensions; and first and second opposing sides extending in the width and length dimensions, the first side including a first opening and the second side including a second opening registered with and opposite the first opening, third and fourth opposing sides extending between the first and second sides in the height and length dimensions, an end surface extending in the width and height dimensions at a distal end of the insertion end between the first and second opposing sides and between the third and fourth opposing sides, and a third opening extending in the width and height dimensions opposite the end surface at a proximal end of the insertion end, wherein the first side includes a first portion that extends from the third opening to the first opening along the entire width of the first side and the second side includes a second portion that extends from the third opening to the second opening along the entire width of the second side; and using a second metalworking process to form a flanged end, the flanged end having: width, height and length dimensions; and a flange opening extending through the flanged end in the length dimension; and thereafter, assembling the flanged end with the insertion end at the proximal end of the insertion end to form the metal frame for an electrical plug connector, wherein the flange opening communicates with the third opening forming a cavity that extends in the length, width and height dimensions from the flanged end into the insertion end. 2. The method of claim 1 wherein the first metalworking process includes one or more of machining, stamping, forging or cold heading. 3. The method of claim 1 wherein the second metalworking process includes one or more of machining, stamping, forging or cold heading. 4. The method of claim 1 wherein the first and second metalworking processes are the same process. 5. The method of claim 1 further comprising bonding together the insertion end and the flanged end. 6. The method of claim 1 further comprising machining or stamping first and second detents on the third and fourth sides of the insertion end, respectively. 7. The method of claim 1 wherein the insertion end and the flanged end are made from stainless steel. 8. The method of claim 1 wherein the insertion end is formed from a first metalworking process and an insert molding process. 9. The method of claim 8 wherein the first metalworking process is used to form the first, third and fourth sides of the insertion end and the insert molding process is used to form the second side of the insertion end. 10. The method of claim 9 wherein the insert molding process is further used to embed contacts within the first and second openings and a printed circuit board within the cavity. 11. The method of claim 8 wherein the first metalworking process includes one or more of machining, stamping, forging or cold heading. 12. The method of claim 8 wherein the second metalworking process includes one or more of machining, stamping, forging or cold heading. 13. A method of manufacturing a metal frame for an electrical plug connector, the method comprising: using a sheet metal forming process to form the metal frame, the metal frame having: (i) width, height and length dimensions; (ii) an insertion end including first and second opposing sides extending in the width and length dimensions, third and fourth opposing sides extending between the first and second sides in the height and length dimensions, an end surface extending in the width and height dimensions at a distal end of the insertion end between the first and second opposing sides and between the third and fourth opposing sides, and a third opening extending in the width and height dimensions opposite the end surface at a proximal end of the insertion end, wherein the first side includes a first portion that extends from the third opening to the first opening along the entire width of the first side and the second side includes a second portion that extends from the third opening to the second opening along the entire width of the second side; and (iii) a flanged end including a flange opening that communicates with a cavity that extends in the length, width and height dimensions from the flanged end into the insertion end; and thereafter, laser cutting, machining or stamping a first opening in the first side and a second opening in the second side, the first opening being registered with the second opening. 14. The method of claim 13 wherein the sheet metal forming process is deep drawing. 15. The method of claim 13 wherein the sheet metal forming process includes deep drawing and stamping. 16. The method of claim 15 wherein the stamping step comprises: inserting a mandrel sized to form the insertion end into the cavity; and pressing portions of the metal frame corresponding to material that will form the insertion end against the mandrel using a stamping machine to form the insertion end. 17. The method of claim 15 wherein the stamping step is used to form the flanged end. 18. The method of claim 13 wherein the sheet metal forming process includes deep drawing and cold heading. 19. The method of claim 18 wherein the deep drawing step is used to form the insertion end and the cold heading step is used to form the flanged end. 20. A method of manufacturing a frame for an electrical plug connector, the method comprising: using zinc die casting to form the frame, the frame having: (i) width, height and length dimensions; (ii) an insertion end including first and second opposing sides extending in the width and length dimensions, the first side including a first opening and the second side including a second opening registered with and opposite the first opening, third and fourth opposing sides extending between the first and second sides in the height and length dimensions, an end surface extending in the width and height dimensions at a distal end of the insertion end between the first and second opposing sides and between the third and fourth opposing sides, and a third opening extending in the width and height dimensions opposite the end surface at a proximal end of the insertion end, wherein the first side includes a first portion that extends from the third opening to the first opening along the entire width of the first side and the second side includes a second portion that extends from the third opening to the second opening along the entire width of the second side; and (iii) a flanged end including a flange opening that communicates with a cavity that extends in the length, width and height dimensions from the flanged end into the insertion end past the first and second openings. 21. The method of claim 1 wherein the height of the flanged end is greater than the height of the insertion end such that when the flanged end is assembled with the insertion end, a first lip extends between the insertion end and the flanged end at the first side of the insertion end and a second lip extends between the insertion end and the flanged end at the second side of the insertion end.