Electrical connectors provide signal connections between electronic devices using electrically-conductive contacts. It is sometimes desirable to increase data transfer through an existing connector without changing the physical dimensions (height, width, depth, mating interface, and mounting interface) of the connector. However, it is difficult to change one aspect of an electrical connector without unintentionally changing another aspect. For example, metallic crosstalk shields can be added to an electrical connector to reduce crosstalk, but the addition of shields generally lowers the impedance. At lower data transmission speeds, such at 1 to 1.25 Gigabits/sec, impedance matching does not substantially affect performance. However, as data transmission speeds increase to 10 Gigabits/sec through 40 Gigabits/sec and any discrete point there between, skew and impedance mismatches become problematic. Therefore, while crosstalk can be lowered by adding a metallic crosstalk shield to an existing electrical connector, other problems with signal integrity can be created.
What is therefore desired is an electrical connector having a shield that avoids the shortcomings of conventional shields.
In accordance with one aspect, an electrical connector includes a dielectric housing, a plurality of electrical signal contacts carried by the dielectric housing, and a ground plate carried by the dielectric housing. The electrical signal contacts are arranged along a first plane, wherein the signal contacts define signal pairs such that a respective gap is disposed between adjacent signal pairs. The ground plate includes a ground plate body oriented in a second plane that is substantially parallel to the first plane and offset from the first plane. The ground plate body defines first and second opposed surfaces. The ground plate includes at least one stamped or embossed rib that defines first and second opposed surfaces, wherein the first surface of the rib projects from the first surface of the ground plate body in a direction toward the gap, and the second surface is recessed into the second surface of the ground plate body.
The foregoing is a non-limiting summary, as the invention is defined only by the appended claims.
The foregoing summary, as well as the following detailed description of a preferred embodiment of the application, will be better understood when read in conjunction with the appended drawings. For the purposes of illustrating the electrical connector of the present application, there is shown in the drawings a preferred embodiment. It should be understood, however, that the application is not limited to the precise arrangements and instrumentalities shown. In the drawings:
Referring initially to
The first electrical connector 22 includes a housing 31 that carries a plurality of electrical contacts 33. The electrical contacts 33 may be insert molded prior to attachment to the housing 31 or stitched into the housing 31. The electrical contacts 33 define respective mating ends 34 that extend along the mating interface 26, and mounting ends 36 that extend along the mounting interface 28. Each of the mating ends 34 can define a respective first broadside and a respective second broadside opposite the first broadside so as to define header mating ends. Thus, the first electrical connector 22 can be referred to as a header connector as illustrated. The mounting ends 36 may be press-fit tails, surface mount tails, or fusible elements such as solder balls, which are configured to electrically connect to a complementary electrical component such as a substrate 38 which is illustrated as a printed circuit board. The substrate 38 can be provided as a backplane, midplane, daughtercard, or the like.
Because the mating interface 26 is substantially parallel to the mounting interface 28, the first electrical connector 22 can be provided as a vertical connector, though it should be appreciated that the first electrical connector can be provided in any desired configuration so as to electrically connect the substrate 38 to the second electrical connector 24. For instance, the first electrical connector 22 can be provided as a header connector or a receptacle connector, and can be arranged as a vertical or mezzanine connector or a right-angle connector as desired.
With continuing reference to
Each mounting end 48 extends vertically down along a transverse or third direction T that is perpendicular to both the lateral direction A and the longitudinal direction L. Thus, as illustrated, the longitudinal direction L and the lateral direction A extend horizontally as illustrated, and the transverse direction T extends vertically, though it should be appreciated that these directions may change depending, for instance, on the orientation of the electrical connector 24 during use. Unless otherwise specified herein, the terms “lateral,” “longitudinal,” and “transverse” as used to describe the orthogonal directional components of various components and do not limit to specific differential signal pair configurations. The terms “inboard” and “inner,” and “outboard” and “outer” with respect to a specified directional component are used herein with respect to a given apparatus to refer to directions along the directional component toward and away from the center apparatus, respectively.
The receptacle mounting ends 48 may be constructed similar to the header mounting ends 36, and thus may include press-fit tails, surface mount tails, or fusible elements such as solder balls, which are configured to electrically connect to a complementary electrical component such as a substrate 42 which is illustrated as a printed circuit board. The substrate 42 can be provided as a backplane, midplane, daughtercard, or the like. The receptacle mating ends 46 are configured to electrically connect to the respective header mating ends 34 of the first electrical connector 22 when the respective mating interfaces 26 and 30 are engaged.
The right angle electrical contacts 44 may have a material thickness of about 0.1 mm to 0.5 mm and a contact height of about 0.1 mm to 0.9 mm. The contact height may vary over the length of the right angle electrical contacts 44. The second electrical connector 24 also may include an IMLA organizer 50 that may be electrically insulated or electrically conductive. An electrically conductive IMLA organizer 50 that retains the IMLAs 40 may be electrically connected to electrically conductive portions of the IMLAs 40 via slits 52 defined in the IMLA organizer 50 or any other suitable connection.
Because the mating interface 30 is substantially perpendicular to the mounting interface 32, the second electrical connector 24 can be provided as a right-angle connector, though it should be appreciated that the first electrical connector can be provided in any desired configuration so as to electrically connect the substrate 42 to the first electrical connector 22. For instance, the second electrical connector 24 can be provided as a receptacle connector or a header connector, and can be arranged as a vertical or mezzanine connector or a right-angle connector as desired. When the connectors 22 and 24 are mounted onto their respective substrates 38 and 42 and electrically connected to each other, the substrates are placed in electrical communication.
Referring now also to
Each IMLA 40 further includes a ground plate 62 that is carried by the leadframe housing 54. The ground plate 62 can be formed from any suitable electrically conductive material, such as a metal, and includes a body 64, a plurality of mating ends 66 extending forward from the body 64, and a plurality of mounting ends 68 extending down from the body. The mating ends 66 and mounting ends 68 can be constructed as described above with respect to the mating ends 58 and 60 of the electrical signal contacts 56. The ground plate 62 can be discretely attached to the housing 54 or overmolded by the housing 54. Referring now also to
The ground plate 62 can be electrically conductive, and thus configured to reflect electromagnetic energy produced by the signal contacts 56 during use, though it should be appreciated that the ground plate 62 could alternatively be configured to absorb electromagnetic energy. For instance the ground plate 62 can be made from one or more ECCOSORB® absorber products, commercially available from Emerson & Cuming, located in Randolph, Mass. The ground plate 62 can alternatively be made from one or more SRC Polylron® absorber products, commercially available from SRC Cables, Inc, located in Santa Rosa, Calif. Furthermore, the ground plates 62 are disposed between the signal contacts 56 of adjacent IMLAs, the ground plates 62 can provide a shield that reduces cross-talk between signal the signal contacts 56 of adjacent IMLAs 40.
The mating ends 66 of the ground plate 62 define ground mating ends, while the mounting ends 68 of the ground plate 62 define ground mounting ends. The mating ends 66 are aligned along the transverse direction T, and are further aligned with the mating ends 58 along the transverse direction T. The mounting ends 68 are aligned along the longitudinal direction L, and are aligned with the mounting ends 60 along the longitudinal direction L. The mating ends 66 are positioned adjacent and/or between pairs 57 of mating ends 58, and the mounting ends 68 are positioned adjacent and/or between pairs of mounting ends 60. Thus, the mating ends 46 of the electrical connector 24 include both the mating ends 58 and the mating ends 66, and the mounting ends 48 of the electrical connector 24 include both the mounting ends 60 and the mounting ends 68.
In accordance with the illustrated embodiment, the mating ends 66 of the ground plate 62 are disposed in the gap 59 that extends between adjacent pairs 57 of mating ends 58, such that the mating ends 46, which includes mating ends 58 and 66, are equidistantly spaced along the mating interface 30 of the electrical connector 24. Likewise, the mounting ends 68 of the ground plate 62 are disposed in the gap 59 that extends between adjacent pairs of mounting ends 60, such that the mounting ends 48, which includes the mounting ends 60 and 68, are equidistantly spaced along the mounting interface 32 of the electrical connector 24.
The pairs 57 of electrical signal contacts 56 may be differential signal pairs, or the signal contacts 56 can be provided as single-ended contacts. The signal contacts 56 are positioned edge-to-edge along a common centerline CL. Six differential signal pairs 57 are illustrated, however the connector 24 can include any number of differential signal pairs extending along the centerline CL, such as two, three, four, five, six, or more.
Referring now to
The ribs 74 define a front or first portion 82 disposed proximate to the mating ends 66, and a rear or second portion 84 that is disposed proximate to the mounting ends 68. The front and rear portions 82 and 84 define a respective front or first terminal end 83, and a rear or second terminal end 85. The ribs 74 thus define a length extending between the first end second terminal ends 83 and 85. As illustrated, the ribs 74 can have different lengths along the ground plate body 64. For instance, those ribs 74 disposed at an upper or first end of the ground plate body 64 are longer than the ribs 74 that are disposed at a lower or second end of the ground plate body 64. In accordance with the illustrated embodiment, the length of each ribs 74 decreases along a direction from the upper or first end to the lower or second end of the ground plate body 64.
The ribs 74 can extend along a direction that includes one or more of a horizontal or longitudinal direction, a vertical or transverse direction, and an angled direction having both longitudinal and transverse directional components. For instance, as illustrated, the front portions 82 of some of the ribs 74 extend along a longitudinal rearward or direction from a location proximate to the mating ends 66 to the rear portion 84. The rear portion 84 extends along a second direction that is laterally rearward and transversely down from the front portion 82 to a location proximate to the mounting ends 68. The rear portion 84 extends at an angle between 90° and 180° with respect to the front portion 82. It should be appreciated that one or more of the ribs 74, for instance the bottommost rib 74 shown in
Referring now to
The ground plate 62 includes a first neck 61 extending between the ground plate body 64 and each mating end 66, and a second neck 63 extending between the ground plate body 64 and each mounting end 68. In particular, each first neck 61 extends laterally inward from the second plane T-L2 toward the first plane T-L1 along a longitudinally forward direction from the ground plate body 64, such that the mating ends 66 lie in the first plane T-L1 and are thus co-planar with the mating ends 58 of the signal contacts 56. Likewise, the second neck 63 extends laterally inward from the second plane T-L2 toward the first plane T-L1 along a transversely downward direction from the ground plate body 64, such that the mounting end 68 lies in the first plane T-L1, and is thus co-planar with the mounting ends 60 of the signal contacts 56.
Each rib 74 defines a cross-sectional distance D that extends along the second plane T-L2 in a direction normal to the outer perimeter 80. The distance D can be consistent along the length of a given rib 74, as illustrated in the lowermost rib 74 shown in
With continuing reference to
The middle wall portion 96 is thus disposed at a location that is laterally offset with respect to the inner surface 72 of the ground plate body 64. In accordance with the illustrated embodiment, the middle wall portion 96 defines a distal end 98 of the rib 74 that lies in the first plane T-L1. The middle wall portion 96 can include a curved portion along a direction extending normal to the signal contacts 56 that define the corresponding gap 59, or can alternatively or additionally include a flat portion along a direction extending normal to the signal contacts 56 that define the gap 59. In this regard, it should be appreciated that the middle wall portion 96 can alternatively be entirely curved along a direction extending normal to the signal contacts 56 that define the corresponding gap 59, or entirely flat along a direction extending normal to the signal contacts 56 that define the gap 59. Thus, the ribs 74 can define curvatures that vary from each other. It should thus be appreciated that the ribs 74 can be curved or tapered, and thus devoid of sharp edges that are out of plane T-L1 with respect to the differential signal contacts 56. Furthermore, each rib 74 can be spaced at a consistent distance along its length from its adjacent signal contacts 56 that define the corresponding gap 59. Moreover, each rib 74 can be spaced from its adjacent signal contacts 56 a distance that is substantially equal to the distance that one or more up to all of the other ribs 74 are spaced from their adjacent signal contacts.
While the middle wall portion 96 can lie in the first plane T-L1 as illustrated, it should be appreciated that the rib 74 could alternatively terminate at the distal end 98 which is positioned inward of, or past, the first plane T-L1. In accordance with the illustrated embodiment, the middle wall portion 96 extends at substantially a constant lateral distance LD from the inner surface 72 of the ground plate 62 that is substantially equal to the lateral distance between the second plane T-L2 and the first plane T-L1.
It should be appreciated that a portion of each rib 74 can overlap the electrical signal contacts 56 that define the corresponding gap 59 with respect to an axis extending through the signal contacts 56 in a direction perpendicular to and between the first and second planes T-L1 and T-L2. Alternatively, the ribs 74 can be wholly contained between the axes extending through the signal contacts 56 in a direction perpendicular to and between the first and second planes T-L1 and T-L2. For instance, In accordance with the illustrated embodiment, the proximal end 92 of each rib 74 is positioned inward with respect to the corresponding signal contacts 56 that define the gap 59. Accordingly, a lateral axis L1 that extends through the proximal ends 92 one or more ribs 74 also extends through the corresponding gap 59, and not one of the signal contacts 56 that defines the gap 59. Alternatively, the proximal ends 92 could be disposed outward or inline with respect to the corresponding signal contacts 56 that define the gap 59. Accordingly, the lateral axis L1 that extends through the proximal ends 92 or other locations of the rib 74 can also extend through one or both signal contacts 56 that defines the corresponding gap 59.
With continuing reference to
While the ribs 74 are illustrated as extending continuously from their respective front end 83 to their rear ends 85, it should be appreciated that one or more up to all of the ribs 74 can be discontinuous or segmented between the front and rear ends 83 and 85. For instance, as illustrated in
While
Referring now to
For instance, in accordance with one embodiment, the mating ends 46 of the first IMLAs 40A are arranged in a repeating G-S-S-G-S-S pattern in a direction along the common centerline CL from the top of the mating interface 30 toward the bottom of the mating interface 30, whereby “G” denotes electrical ground contact mating ends 66 and “S” denotes electrical signal contact mating ends 58. Furthermore, in accordance with one embodiment, the mating ends 46 of the second IMLAs 40B are arranged in a repeating S-S-G-S-S-G pattern in a direction along the common centerline CL from the top end of the mating interface 30 toward the bottom of the mating interface 30, whereby “G” denotes electrical ground contact mating ends 66 and “S” denotes electrical signal contact mating ends 58.
It should thus be appreciated that a method of producing an electrical connector includes the steps of 1) providing a plurality of electrical signal contacts 56, 2) retaining the electrical signal contacts 56 in the leadframe housing 54 along the first plane T-L1 so as to define gaps 59 disposed between adjacent pairs of electrical signal contacts 56, 3) providing a ground plate 62 having a ground plate body 64 that defines first and second opposed surfaces 72 and 70, respectively, 4) stamping a plurality of ribs 74 into the second surface 70 of the ground plate body 64 such that the ribs 74 define first and second opposed surfaces 75 and 77, respectively, wherein the first surface 75 of each rib 74 projects out from the first surface 72 of the ground plate body 64, and the second surface 77 of each rib is recessed in the second surface 70 of the ground plate body 64, and 5) attaching the ground plate 62 to the leadframe housing 54 such that the ground plate body 64 is oriented in the second plane T-L2 that is offset with respect to the first plane T-L1, and the first surface 75 of each rib 74 projects toward a respective one of the gaps 59 defined by the adjacent pairs 57 of electrical signal contacts 56.
The ground plate 62 is a wide continuous conductor, and is wider than the ground contacts of an electrical connector that is substantially identical with respect to the electrical connector 24, with the exception that the substantially identical electrical connector does not include the ground plate 62, but instead includes discrete ground contacts extending in the gaps 59 that define opposing ground mating ends and ground mounting ends as described in U.S. Pat. No. 7,497,736. Accordingly, it should be appreciated that the electrical connector 24 can be modified with respect to substantially identical electrical connector, with the exception that the electrical connector 24 is devoid of discrete ground contacts in favor of the ground plate 62 having ribs 74 that extend between adjacent pairs 57 of signal contacts 56. Thus, the electrical connector 24 is an improvement over shieldless, high density, right-angle electrical connectors that have discrete ground contacts without significantly lowering impedance matching and without significantly increasing inductance. In accordance with embodiments of the present invention, the impedance of the electrical connector 24 is not significantly altered with respect to a pre-modified connector, inductance of the electrical connector 24 is lower than the ground contacts in the same pre-modified connector, crosstalk of the electrical connector 24 is lower as compared to the same pre-modified connector, and the overall dimensions of the electrical connector 24 are the same as those of the pre-modified connector.
For instance, it is believed that the ground plate 62 provides a low-impedance common path that intercepts and dissipates stray electro-magnetic energy between signal contacts 56 that otherwise would have been a source for cross talk. It is believed that a connector that incorporates the IMLAs 40 as described above can operate at 13 GHz with acceptable worst-case, multi-active crosstalk on a victim pair of no more than six percent, for instance less than one percent, such as 0.4 percent. Worst case, multi-active crosstalk may be determined in the manner described in U.S. Pat. No. 7,497,736.
The foregoing description is provided for the purpose of explanation and is not to be construed as limiting the invention. While various embodiments have been described with reference to preferred embodiments or preferred methods, it is understood that the words which have been used herein are words of description and illustration, rather than words of limitation. Furthermore, although the embodiments have been described herein with reference to particular structure, methods, and embodiments, the invention is not intended to be limited to the particulars disclosed herein. Those skilled in the relevant art, having the benefit of the teachings of this specification, may effect numerous modifications to the invention as described herein, and changes may be made without departing from the spirit and scope of the invention as defined by the appended claims.
This Application is a continuation of U.S. application Ser. No. 15/283,341, entitled “ELECTRICAL CONNECTOR HAVING RIBBED GROUND PLATE” filed on Oct. 1, 2016, which claims the benefit under 35 U.S.C. § 120 of U.S. application Ser. No. 14/339,769, entitled “ELECTRICAL CONNECTOR HAVING RIBBED GROUND PLATE” filed on Jul. 24, 2014, which is herein incorporated by reference in its entirety. Application Ser. No. 14/339,769 claims the benefit under 35 U.S.C. § 120 of U.S. application Ser. No. 13/755,628, entitled “ELECTRICAL CONNECTOR HAVING RIBBED GROUND PLATE” filed on Jan. 31, 2013, which is herein incorporated by reference in its entirety. Application Ser. No. 13/755,628 claims the benefit under 35 U.S.C. § 120 of U.S. application Ser. No. 12/722,797, entitled “ELECTRICAL CONNECTOR HAVING RIBBED GROUND PLATE” filed on Mar. 12, 2010, which is herein incorporated by reference in its entirety. Application U.S. patent Ser. No. 12/722,797 claims priority under 35 U.S.C. § 119(e) to U.S. Provisional Application Ser. No. 61/161,687, entitled “HIGH SPEED, LOW-CROSS-TALK ELECTRICAL CONNECTOR” filed on Mar. 19, 2009, which is herein incorporated by reference in its entirety.
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