Patent ID: 7828603

Claim:
An electrical connector with crosstalk compensation comprising: a substrate ( 10 ); a first conducting group (G 1 ), installed on the substrate ( 10 ) and having at least four conductors; wherein the four conductors have a first conductor (T 11 ), a second conductor (R 11 ), a third conductor (T 12 ), and a fourth conductor (R 12 ), respectively; the first conductor (T 11 ) and the second conductor (R 11 ) forming a first conducting pair (S 11 ), and the third conductor (T 12 ) and the fourth conductor (R 12 ) forming a second conducting pair (S 12 ); a second conducting group (G 2 ), installed on the substrate ( 10 ) and having at least four conductors; wherein the four conductors have a first conductor (T 21 ), a second conductor (R 21 ), a third conductor (T 22 ), and a fourth conductor (R 22 ), respectively; the first conductor (T 21 ) and the second conductor (R 21 ) forming a first conducting pair (S 21 ), and the third conductor (T 22 ) and the fourth conductor (R 22 ) forming a second conducting pair (S 22 ); wherein the first conducting pair (S 21 ) of the second conducting group (G 2 ) is electrically connected to the first conducting pair (S 11 ) of the first conducting group (G 1 ) to form a first signal loop pair (L 1 ); and the second conducting pair (S 22 ) of the second conducting group (G 2 ) is electrically connected to the second conducting pair (S 12 ) of the first conducting group (G 1 ) to form a second signal loop pair (L 2 ); a first metal conducting wire (C 1 ) electrically connected to the second conductor (R 21 ) of the second conducting group (G 2 ); a second metal conducting wire (C 2 ) electrically connected to the fourth conductor (R 22 ) of the second conducting group (G 2 ); whereby the first metal conducting wire (C 1 ) and the second metal conducting wire (C 2 ) are installed in parallel on the substrate ( 10 ) to obtain a compensation capacitance to reduce a crosstalk induced between the first signal loop pair (L 1 ) and the second signal loop pair (L 2 ) when signals are sent through either of the two signal loop pairs (L 1 , L 2 ).