Connector having a latch with a locating member and a tooth with a notch

What is claimed is: 1. A connector, the connector comprising: a connector housing, the connector housing supporting a plurality of conductive terminals extending lengthwise therewithin, each terminal including termination portions and contact portions at opposite ends, the contact portions being disposed proximate a mating end of the connector; and at least one latching member for latching the connector to an opposing connector, each latching member including a base end fixed to the connector, a free end proximate the mating end, a body portion interconnecting the base and free ends such that each latching member has a cantilevered structure, at least one engagement member disposed proximate the free end for engaging a portion of the opposing connector, and a locating member extending at an angle from the body portion; wherein the connector housing includes a channel formed therein, the channel receiving each locating member, guiding the locating member in vertical movement. 2. The connector of claim 1 , wherein the channel fixes a horizontal location of each engagement member by constraining horizontal movement thereof. 3. The connector of claim 1 , further including a second latching member, each latching member being disposed along opposite sides of the connector. 4. The connector of claim 3 , wherein the second latching member includes a base end fixed to the connector, a free end proximate the mating end, a body portion interconnecting the second latching member base and free ends such that the second latching member also has a cantilevered structure, and an engagement member proximate the second latching member free end for engaging a portion of the opposing connector. 5. The connector of claim 4 , wherein each engagement member includes pairs of latching teeth, the latching teeth being separated by intervening notches, the notches being at least partially defined by a pair of planar, spaced-apart sidewalls. 6. The connector of claim 5 , wherein each latching member includes ramped surfaces extending lengthwise thereon and extending toward the notches. 7. The connector of claim 6 , wherein the ramped surfaces communicate with the notches. 8. The connector of claim 7 , wherein the ramped surfaces end at the sidewalls of the notches. 9. The connector of claim 5 , wherein the sidewalls define pairs of stop surfaces for engaging the opposing connector during insertion and removal of the connector therewith. 10. The connector of claim 1 , wherein the channel prevents drifting of each latching member horizontally. 11. The connector of claim 1 , wherein each latching member further includes an actuating tab that extends at an angle to the latching member body, the actuating tab being configured to contact an actuator member associated with the connector housing such that pressure upon the actuator member causes each free end to move vertically. 12. A connector with a bi-directional latching mechanism, the connector comprising: a connector housing supporting a plurality of conductive terminals, each terminal including tail portions and contact portions for contacting opposing terminals of an opposing connector, the contact portions disposed proximate a mating end of the connector housing; a conductive shroud supported by the connector housing, the shroud enclosing the contact portions and providing a conductive surface for mating with a shield of the opposing connector; and a pair of latching members supported by the connector housing, each latching member including a base fixed in place with respect to the connector housing and a free end extending lengthwise from the bases in a cantilevered fashion, the base and free ends being interconnected by an intervening body portion, the free end including pairs of latch teeth which extend vertically with respect to the body portion, each pair of latching teeth being separated by a gap, each gap including leading and trailing edges which extend vertically with respect to the body portion, the trailing edges of each gap defining stop surfaces that limit the extent to which the connector can be inserted into mating engagement with the opposing connector, the leading edges of each gap defining stop surfaces that prevent unintended removal of the connector from mating engagement with the opposing connector. 13. The connector of claim 12 , wherein each latching member further includes an actuating member that extends vertically into contact with a portion of the connector housing such that when pressure is applied to the connector housing, the engagement ends deflect vertically. 14. The connector of claim 13 , wherein each body portion has an offset configuration such that the actuating member thereof is positioned at different elevations than the engagement ends. 15. The connector of claim 13 , wherein each actuating member extends vertically from the body portion and each gap is open along top portions of the free ends. 16. The connector of claim 12 , wherein each latching member further includes pairs of cam surfaces associated with the latching teeth and extending in different directions than the leading and trailing edges, each pair of cam surfaces including distinct leading and trailing edges. 17. The connector of claim 16 , wherein each cam surface leading edge communicates with one gap leading edge, and the cam surface trailing edge communicates with one gap trailing edge. 18. The connector of claim 17 , wherein the cam surfaces are ramps. 19. The connector of claim 12 , wherein the shroud includes pairs of openings through which the latching teeth extend. 20. The connector of claim 19 , wherein the latching teeth have a height sufficient to project through the openings and into engagement with the opposing connector. 21. The connector of claim 12 , wherein at least one of the latching members further includes a locating tab extending vertically therefrom, and the connector housing further includes a channel that receives at least a portion of the locating tab therein, the channel restraining the latching teeth to substantially vertical movement. 22. A cable connector with a bi-directional latching mechanism, the cable connector comprising: a connector housing supporting a plurality of conductive terminals, each terminal including tail portions for terminating to wires and contact portions for contacting opposing terminals of an opposing connector, the contact portions disposed proximate a frontal mating end of the connector housing; a conductive shroud supported by the connector housing, the shroud encircling the terminal contact portions for mating with a conductive portion of the opposing connector; and a pair of latching members supported by the connector housing for latching the cable connector to the opposing connector after mating therewith, each latching member including a first ends fixed in place with respect to the connector housing, and a second end disposed on cantilevered beam portions that interconnect the first and second ends together, each second end including a plurality of latching teeth extending vertically with respect to the beam portions, pairs of the latching teeth including engagement notches interposed between the latching teeth pairs, each engagement notch including opposing, vertical leading and trailing edges, the trailing edges defining first stop surfaces of each notch that limits the insertion of the connector into the opposing connector, the leading edges defining second stop surfaces that prevent unintended