Compact high speed connector

We claim: 1. A plug connector assembly, comprising: a shell that defines a mating portion; a connector positioned in the shell, the connector including a first wafer and a second wafer, each of the first and second wafers having an insulative block that supports a row of terminals, each of the terminals in the row including a contact and a tail on opposite ends of the terminal, the connecter including a support column that defines the relative position of the wafers with respect to each, the support column extending between the wafers, the connecter further including a housing shell positioned around the wafers, the housing shell defining a card slot, wherein the contacts are positioned in the card slot; a circuit board mated to the tails of the terminals; and a securing layer positioned on both sides of the circuit board, the securing layer mechanically coupling the circuit board to the wafers. 2. The plug connector assembly of claim 1 , wherein the shell includes vents on a first and second side of the mating portion, the vents aligned with the contacts and configured to allow air to flow between the first and second sides. 3. The plug connector assembly of claim 1 , wherein a spatial relationship between the wafers and the circuit board is not controlled by direct physical contact between the wafers and the circuit board. 4. The plug connector assembly of claim 1 , wherein the shell has opposing fingers that engage the circuit board so as to provide mechanical support between the shell and the circuit board. 5. The plug connector assembly of claim 4 , wherein the circuit board includes a contact pad aligned with the fingers so as to provide a ground connection between the shell and the circuit board. 6. The plug connector of claim 1 , wherein the circuit board has a cutout that allows the support column to extend transversely to the circuit board. 7. A plug connector assembly, comprising: a cable that extends from the plug connector assembly; a shell that defines a mating portion, the shell including a protrusion on two opposing sides; a connector positioned in the shell, the connector including a first wafer and a second wafer, each of the first and second wafers having an insulative block that supports a row of terminals, each of the terminals in the row including a contact and a tail on opposite ends of the terminal, the connecter further including a housing shell positioned around the wafers, the housing shell defining a card slot, wherein the contacts are positioned in the card slot, the housing shell including a retention block positioned in the protrusion; a circuit board mated to the tails of the terminals; and a securing layer positioned on both sides of the circuit board, the securing layer mechanically coupling the circuit board to the wafers, wherein the shell, housing shell, insulative block, securing layer and the circuit board form a structure between the two opposing sides of the shell. 8. The plug connector assembly of claim 7 , wherein the housing shell includes a biasing rail positioned in front of the contacts, the biasing rail configured to cause an inserted mating blade to be correctly aligned with the contacts. 9. The plug connector assembly of claim 8 , wherein the biasing rail is supported by a plurality of support anus, wherein the biasing rail is configured to deflect when the mating blade is inserted into the card slot. 10. The plug connector assembly of claim 8 , wherein the biasing rail extends past the edge of the contacts so that the biasing rail overlaps the contacts. 11. The plug connector assembly of claim 7 , wherein the securing layer is a curable material that allows the wafers to be adjustably positioned with respect to the circuit board before the securing layer is hardened. 12. The plug connector assembly of claim 7 , wherein one of the wafers has a cutout and the housing shell includes an arm that is positioned in the cutout. 13. The plug connector assembly of claim 12 , wherein the arm has an aperture and the cutout includes a locking member that is positioned in the aperture. 14. The plug connector assembly of claim 13 , wherein the locking member is hot-formed so as to fill the aperture, the aperture having a negative taper. 15. A plug connector assembly, comprising: a shell that defines a mating portion; a connector positioned in the shell, the connector including a first wafer and a second wafer, each of the first and second wafers supporting a row of terminals, each of the terminals in the row including a contact and a tail on opposite ends of the terminal, a peg provided on one of the wafers, the peg defining a spatial relationship between the first and second wafers, the connecter further including a housing shell positioned around the wafers, the housing shell defining a card slot, wherein the contacts are positioned in the card slot; a circuit board mated to the tails of the terminals; and a securing layer positioned on both sides of the circuit board, the securing layer mechanically coupling the circuit board to the wafers. 16. The plug connector assembly of claim 15 , wherein the peg is a first peg on the first wafer, the connector including a second peg on the second wafer, wherein the first and second pegs are pressed together to define a mating line. 17. The plug connector assembly of claim 16 , wherein the mating line is positioned between a first side and a second side of the circuit board. 18. The plug connector assembly of claim 15 , wherein the circuit board has a cutout that allows the peg to extend transversely through the circuit board. 19. The plug connector assembly of claim 15 , wherein the cutout is an aperture in the circuit board. 20. The plug connector assembly of claim 15 , wherein the circuit board being mated to the tails of the terminals comprises the circuit board being soldered to the tails of the terminals.