Cable connector having cross-talk suppressing feature and method for making the connector
First Claim
1. A cable connector comprising:
- a metal shell;
an insulative body received in the metal shell;
a plurality of contacts secured to the insulative body;
a printed circuit board electrically connecting with the contacts;
an insulative spacer mounted in the metal shell;
a plurality of pairs of upper and lower shielding plates fixed to the spacer, the upper and lower shielding plates respectively electrically connecting with grounding circuitry on top and bottom faces of the printed circuit board, respectively; and
a cable having a plurality of lines having front ends fixed to the spacer, each line having a pair of upper and lower signal wires and a grounding wire, the grounding wire being electrically connected to a corresponding shielding plate, the upper and lower signal wires being respectively electrically connected to signal circuitry on the top and bottom faces of the printed circuit board, respectively;
wherein the upper and lower signal wires of each line are located between two pairs of upper and lower shielding plates so that interference between two neighboring lines can be effectively suppressed;
wherein the spacer consists of upper half and lower half connected with each other, the upper shielding plates being mounted to the upper half, the lower shielding plates being mounted to the lower half;
wherein each of the upper and lower shielding plates has a body, an engaging arm extending from the body and electrically connecting with the printed circuit board and a mounting arm extending from the body and having an interferential fit with a corresponding one of the upper and lower halves;
wherein the body has a generally L-shaped configuration whit a vertical flap from which the engaging and mounting arms extend, and a horizontal flap for electrically connecting with a corresponding grounding wire;
wherein the upper and lower shielding plates are electrically connected together;
wherein the spacer has elliptical passageways and the lines are respectively fitted in the elliptical passageways.
1 Assignment
0 Petitions
Accused Products
Abstract
A high speed cable connector (1) includes a cover (3), a base (80) and a cable assembly (30) mounted between the cover and the base. The cable assembly includes a cable (42) consisting of a plurality of lines (44). Each line has a pair of upper and lower signal wires (442, 444) and a grounding wire (446). Front ends of the lines are sandwiched between upper half (462) and lower half (464) of a spacer (46) to which upper and lower shielding plates (50, 52) are respectively mounted. The upper and lower shielding plates are electrically connected with each other. The upper and lower signal wires are soldered to signal circuitry on top and bottom faces of a printed circuit board (62), respectively. The upper and lower shielding plates have engaging arms (508) soldered to ground circuitry of on the top and bottom faces of the printed circuit board, respectively. Each grounding wire is soldered to a corresponding upper shielding plate. Each pair of upper and lower signal wires is located between two pairs of upper and lower shielding plates, whereby cross-talk between the signal wires of two neighboring lines can be effectively suppressed.
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Citations
5 Claims
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1. A cable connector comprising:
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a metal shell;
an insulative body received in the metal shell;
a plurality of contacts secured to the insulative body;
a printed circuit board electrically connecting with the contacts;
an insulative spacer mounted in the metal shell;
a plurality of pairs of upper and lower shielding plates fixed to the spacer, the upper and lower shielding plates respectively electrically connecting with grounding circuitry on top and bottom faces of the printed circuit board, respectively; and
a cable having a plurality of lines having front ends fixed to the spacer, each line having a pair of upper and lower signal wires and a grounding wire, the grounding wire being electrically connected to a corresponding shielding plate, the upper and lower signal wires being respectively electrically connected to signal circuitry on the top and bottom faces of the printed circuit board, respectively;
whereinthe upper and lower signal wires of each line are located between two pairs of upper and lower shielding plates so that interference between two neighboring lines can be effectively suppressed;
whereinthe spacer consists of upper half and lower half connected with each other, the upper shielding plates being mounted to the upper half, the lower shielding plates being mounted to the lower half;
whereineach of the upper and lower shielding plates has a body, an engaging arm extending from the body and electrically connecting with the printed circuit board and a mounting arm extending from the body and having an interferential fit with a corresponding one of the upper and lower halves;
whereinthe body has a generally L-shaped configuration whit a vertical flap from which the engaging and mounting arms extend, and a horizontal flap for electrically connecting with a corresponding grounding wire;
whereinthe upper and lower shielding plates are electrically connected together;
whereinthe spacer has elliptical passageways and the lines are respectively fitted in the elliptical passageways. - View Dependent Claims (2, 3)
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4. A cable assembly for a cable connector comprising:
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an insulative body forming a tongue extending forwardly;
a plurality of contacts received in top and bottom face of the tongue, adapted for electrically connecting with a complementary connector;
a printed circuit board having a front end electrically connecting with rear ends of the contacts;
a cable having a plurality of lines each having a pair of signal wires electrically connecting with signal circuitry on a rear end of the printed circuit board and a grounding wire;
a spacer mounted to the rear end of the printed circuit board, defining a plurality of passageways therein, said lines extending through the passageways, respectively; and
a plurality of shielding plates secured to the spacer and electrically connecting with grounding circuitry on the rear end of the printed circuit board, wherein the grounding wire of each line is electrically connected to a corresponding shielding plate and the signal wires of each line are located between two neighboring shielding plates, whereby cross-talk between two neighboring lines can be effectively suppressed;
whereinthe passageways in the spacer each have an elliptical profile;
whereinthe spacer consists of an upper half and a lower half, and the shielding plates comprises upper shielding plates secured to the upper half and lower shielding plates secured to the lower halt each shielding plate having a forwardly extending engaging arm soldered to the printed circuit board;
whereinthe upper half forms a post and a recess in a bottom face thereof, and the lower half forms a post and a recess in a top face thereof, the post of the upper half being inserted into the recess of the lower half and the post of the lower half being inserted into the recess of the upper half;
whereinthe grounding wire is soldered to a corresponding upper shielding;
wherein the pair of signal wires includes an upper signal wire soldered to a top face of the printed circuit board and a lower signal wire soldered to a bottom face of the printed circuit board, the upper shielding plates being soldered to the top face of the printed circuit board and the lower shielding plates being soldered to the bottom face of the printed circuit board, the upper signal wire being located between two neighboring upper shielding plates, and the lower signal wire being located between two neighboring lower shielding plates.
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5. A cable connector assembly comprising:
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a housing with a plurality of contacts electrically connected to an internal printed circuit board;
a cable including plural differential pairs of wires, each differential pair of said wires including two signal wires extending in a forward direction respectively soldered on two opposite sides of a rear region of the printed circuit board, and a drain wire exposed to an exterior by peeling before said signal wires are exposed by peeling, and extending in a direction perpendicular to said forward direction; and
a spacer defining channels receiving the differential pairs of wires, respectively;
two rows of shielding plates associated with said spacer and including portions extending toward the printed circuit board and located on said two sides of the rear region of the printed circuit board to isolate the exposed corresponding adjacent signal wires;
whereinat least one of said two rows of shielding plates are mechanically and electrically contacted with the corresponding drain wires, respectively;
whereinsaid spacer includes two halves, and said two rows of shielding plates are respectively mounted to the corresponding halves;
whereinsaid differential pairs of wires are tightly sandwiched between said two halves, and thus said spacer functions as a strain relief for prevent impact derived from the cable from imposing upon joints between the signal wires and the printed circuit board.
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Specification