1. Field of the Invention
The present invention relates to a high density connector and particularly to a connector assembly utilizing such high density connectors to create a unique connection interface.
2. Description of Related Art
With electronic device miniaturization and high signal integrity electronic communications becoming more prevalent, the optimization of space usage becomes a significant factor in connector design.
In card edge connectors, it is known to arrange contacts in two levels. U.S. Pat. No. 5,052,936 issued on Oct. 1, 1991 to Biechler et al. exemplifies such a connector. In this design, two arrays of aligned contact members for interfacing either side of a board or card edge are insert molded to a lower subassembly housing which in turn is assembled to an upper housing. The board or card edge is provided with an upper level of contact pads and a lower level of contact pads. When the board or card edge is inserted into the housing, the lower level of contact pads electrically connect with a first array of contact members of the connector and the upper level of contact pads electrically connect with a second array of contact members.
U.S. Pat. No. 7,104,848 issued on Sep. 12, 2006 to Chou et al. discloses an USB (Universal Serial Bus) related electrical connector comprising a plug and a socket mated with the plug. The plug has an array of front contact pins and an array of rear contact pins. The socket also has an array of front contact pins and an array of rear contact pins for electrically connecting with the rear and front contact pins of the plug, respectively.
The above two patents do not disclose how their contact arrangement in two (e.g. upper and lower) levels or in two (e.g. front and rear) arrays can be implemented in a tight space, such as in mezzanine backplane applications where, for example, a daughter board is to be interfaced with a mother board through two interconnected connectors associated with individual (printed circuit) boards. As a further example of one level only interconnection or interface, U.S. Pat. No. 6,981,883 issued on Jan. 3, 2006 to Raistrick et al. discloses an impedance controlled electrical connector, particularly a mezzanine connector, which comprises insert molded leadframe assembly in a split configuration.
U.S. Pat. No. 5,904,581 issued on May 18, 1999 to Pope et al. discloses an electrical interconnection system comprising a female connector and a male connector mated with the female connector. Each of the male and female connectors comprises body walls with contact elements positioned on opposite side faces of the body wall. The contact element may have straight or angled end segments. Generally, for a mating pair of contact elements of the two connectors, one of the mated contact elements has a straight end segment and the other contact element has an angled end segment. Unlike the upper and lower aligned contact members seen in the card edge connector of the mentioned '936 patent, the contact elements on a specific side face of the body wall in this patent does not show aligned contact arrangement nor imply interconnection occurring at two levels.
U.S. Pat. No. 6,371,773 issued on Apr. 16, 2002 to Crofoot et al. discloses a high density interconnect system used in association with printed circuit boards, circuit cards, back panels and other like substrates. Conceiving a need to reduce interference, cross-talk and similar signal degration, and especially to do so in relatively small size connectors while providing relatively high signal density, the interconnect system comprises electrical connector modules each having a plurality of signal conductors substantially parallel within a first plane and a reference conductor element made of a single piece of sheet metal. The reference conductor element includes a plurality of first reference conductors substantially parallel to one another and interspersed between the signal conductors and at least part of which are in the first plane and a plurality of second reference conductors within a second plane which is offset from and substantially parallel to the first plane. The second reference conductor is aligned with the signal conductor in a direction perpendicular to the plane of the connector module. However, when the connector modules of two mating connector portions are mated, curved contact ends of mating signal conductors make a hermaphrodite mating while associated second reference conductors only shield beside the mated signal conductor but not touch each other.
U.S. patent application Ser. No. 11/818,100 filed on Jun. 13, 2007 and assigned to the same assignee as the present invention also discloses a USB-related contact mating interface which occurs at two levels. However, like above-mentioned prior art patents, there is not any discussion as to how the unique two-level mating interface can be exploited or modified to be used in high density connector applications, in combination with other feature or features as will be apparent from the detailed description and claims below.
An object of the present invention is to provide a terminal arrangement in an electrical connector, comprising: an array of terminal pairs arranged along a first direction, each terminal pair comprising a first terminal and a second terminal, each of the first terminal and the second terminal having a portion angled toward the other terminal, a connecting end continuing the angled portion, and a terminating end opposite the connecting end, the connecting ends of the first and second terminals of each terminal pair being substantially aligned to each other in a second direction perpendicular to the first direction, the connecting end of the first terminal having a mating face facing away from the second terminal, the connecting end of the second terminal having a mating face facing toward the first terminal, the mating faces of the first and second terminals being spaced a distance from each other in the second direction.
Another object of the present invention is to provide an electrical connector comprising: a housing; and a first and a second terminal modules secured to the housing, the first terminal module being disposed adjacent to the second terminal module with a void space therebetween, each terminal module comprising an array of terminal pairs arranged along a first direction, each terminal pair comprising a first terminal and a second terminal substantially aligned to each other in a second direction perpendicular to the first direction, each of the first terminal and the second terminal having a connecting end and a terminating end opposite the connecting end, the connecting ends of the first and second terminals of each terminal pair being substantially aligned to each other in a second direction perpendicular to the first direction, each of the connecting ends of the first and second terminals having a mating face directed in a third direction orthogonal to both the first and the second directions, the mating faces of the terminal connecting ends of one terminal module being exposed to the void space.
Still another object of the present invention is to provide an electrical connector system comprising: a first connector defining a mating direction, the first connector comprising a housing and an array of terminal pairs arranged in the housing along a first direction, each terminal pair comprising a first terminal and a second terminal, each terminal having a connecting end, the connecting end of the first terminal of a pair of terminals being positioned alignedly forwardly of the connecting end of the second terminal of the pair of terminals along the mating direction, each terminal having a mating face facing toward a second direction vertical to the first direction; and a second connector defining a mating direction, the second connector comprising a housing and an array of terminal pairs arranged in the housing along the first direction, each terminal pair comprising a first terminal and a second terminal, each terminal having a connecting end, the connecting end of the first terminal of a pair of terminals being positioned alignedly forwardly of the connecting end of the second terminal of the pair of terminals, each terminal having a mating face facing toward the second direction, the mating face of the first terminal of the second connector engaging the mating face of the second terminal of the first connector and the mating face of the second terminal of the second connector engaging the mating face of the first terminal of the first connector.
Other objects, advantages and novel features of the invention will become more apparent from the following detailed description of a preferred embodiment when taken in conjunction with the accompanying drawings.
Reference will now be made to the drawing figures to describe the present invention in detail. Referring to
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The male connector 30 comprises a male housing 3 defining a receiving cavity 31 and a plurality of male terminal modules 4 retained to the housing 3 in the retaining cavity 31. The female and male terminal modules 2 and 4 are similarly constructed, at least as to their mating interface, as will be detailed later. The male housing 3 also has a configuration similar to the that of the female housing 1 and comprises a base or bottom wall 32 defining a plurality of channels or slots 321 and a pair of side walls 33 defining a plurality of engaging recesses 331.
In conjunction with
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The second terminal 6 comprises a connecting end 61 having a flat mating face 611, a terminating end 62, and a connecting beam 63 connecting the connecting end 61 and the terminating 62. The connecting beam 63 has two angled portions.
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The connecting end 51 of the first terminal 5 and the connecting end 61 of corresponding mated second terminal 6 are presented to mate each other. Also, the mating face of the connecting end 51 of the first terminal 5 and the mating face of the connecting end 61 of the second terminal 6 in a terminal pair face toward a same direction. A transverse distance between the first position A and the second position B is smaller than a transverse distance between a lower end of the contact beam 53 and a lower end of the adjacent connecting beam 63. The soldering portions 52 and the soldering feet 62 extend toward a same direction in a same connector, and extend toward opposite directions in the female and male connectors 10, 30. The contact beam 53 of the first terminal 5 and the connecting beam 63 of the second terminal 6 has a respective angled portion so that the connecting ends in a terminal pair are brought closer to each other.
The connecting end 51 of the female terminal pair 22 comes to contact with the connecting end 61 of the male terminal pair 42 at the first position A. The connecting end 61 of the female terminal pair 22 comes to contact with the contact end 51 of the male terminal pair 42 at the second position B. Two electrical paths have been established; one electrical path may be used for grounding and the other may be used for transferring signal. The first position A and the second position B are disposed at two different levels and are substantially aligned with each other along the mating direction so that the space taken up in such contact interface arrangement will not extend beyond to occupy the space intended for adjacent modules. Therefore, the space occupied by the hermaphroditic terminals, i.e., first and second terminals, has been made of efficient use.
The disclosure is illustrative only, changes may be made in detail, especially in matter of shape, size, and arrangement of parts within the principles of the invention.