This disclosure relates to the field of connectors, more specifically to the field of press-fit connectors suitable for high data rates.
A system provides a connector mounted on a circuit board. The circuit board includes a top surface and includes a plurality of ground vias and signal vias. The signal vias can be backdrilled so that the signal via doesn't extends more than about 0.3 mm past the trace connected to the signal via and in an embodiment the signal via can extend down 0.5 mm from the top surface. The connector includes ground terminal tails positioned in the ground via and signal terminal tails positioned in the signal vias. The signal terminal tails include an enlarged portion that extends into the board not more than 0.5 mm and thus can engage the shorter signal via but the total length of the signal terminal tail can still extend into the circuit board as far as the ground terminal tail.
The present invention is illustrated by way of example and not limited in the accompanying figures in which like reference numerals indicate similar elements and in which:
The detailed description that follows describes exemplary embodiments and is not intended to be limited to the expressly disclosed combination(s). Therefore, unless otherwise noted, features disclosed herein may be combined together to form additional combinations that were not otherwise shown for purposes of brevity.
It should be noted that the details of the connector are not shown herein. The disclosure provided herein is suitable for use with a variety of connector types that are configured to provide high data-rate capable connectors and one potential application is a backplane connector such as the MOLEX IMPEL connector family. Another potential application is a standard input/output (I/O) style connector such as the MOLEX zQSFP stacked connectors. In each case the connector could be modified to include signal tails as described herein to obtain benefits at higher signaling frequencies and data rates.
As noted above, the current state of the art is problematic at 20 GHz signaling frequencies for signal rows in the top two or three layers. One potential solution is to just make the terminal tails very short, such as is illustrated in
The solution in Config. #3, however, is problematic from an assembly process as it becomes very difficult to align the terminal tails with the vias once the tails become so short. In addition, the short tails tend to have much lower retention force, thus making the resulting solution undesirable from a robustness standpoint, at least without additional retention features. Consequentially persons of skill have been dissuaded from attempting to use an eye-of-the-needle style tail shorter than about 1 mm length and the depicted designs use terminals that are configured to extend into the circuit board between 1 and 1.4 mm in length, with the terminals in
As depicted, the ground terminals 159 are configured so that the enlarged portion 159a (e.g., the eye in an “eye of the needle” design) is positioned in the circuit board a substantial distance so as to provide good retention and in the depicted embodiments the top of the enlarged portion is more than 0.2 mm into the circuit board 160. This helps provide good retention of the ground terminal tails 159 in the circuit board 160 and improves the robustness of the system. To aid in installation the ground terminal tails are configured to extend about 1.3 mm into the circuit board because, as noted above, shorter tails are difficult to position in the vias.
The signal terminal tails 158 are also configured to extend about 1.3 mm into the circuit board 160 but are configured so that the enlarged portion 158a extends into the circuit board not more than 0.5 mm. In addition, the signal vias are backdrilled so that the via 170 only extends about 0.3 mm past the trace, which could be about 0.5 mm into the circuit board 160 for traces near the top surface of the circuit board 160 (in that regard, the signal vias are similar to the configuration depicted in
As can be appreciated, therefore, the signal terminal tails 158 can extend more than 0.5 mm past the backdrilled via 170 and in the depicted embodiment extend 0.8 mm past the via barrel 170. The signal tails could be shortened somewhat to provide further improvements but shorter tails provides diminishing returns that must be balanced with the desire for reliable assembly. In that regard it should be noted that having the signal terminal tails substantially the same length as the ground terminal tails is beneficial in insuring all the terminals are properly seated in their respective vias before the connector is pressed onto the board. And for retention purposes it is desirable to have the ground terminals with an enlarged portion that is reliably below the top surface so that a reliable engagement between the connector and the circuit board.
The depicted configuration also allows the signal terminal tails 158 to be inserted into their respective vias prior to having the enlarged portion 159a of the ground terminal tails 159 start to be compressed. This helps provide better tactile feedback and reduces the chance that the signal tails could be misaligned and inadvertently damaged/crushed due to the difficulty in perceiving the misalignment because of the higher efforts associated with compressing the enlarged portions 159a. Another advantage of the depicted system is that the maximum insertion force of the tails can be reduced due to the fact that the enlarged portions 159a are finished being compressed before the enlarged portions 158a start to get compressed. In other words, the enlarged portions of the terminals are compressed in a sequenced manner with the ground terminal tails being compressed first and the signal terminals tails being compressed second. This configuration is Config. #2 and as can be appreciated, the performance of this system is close to the performance of the theoretical design illustrated in
It should be noted that the backdrill is shown as being 0.7 mm in diameter and can also be as large as about 1.0 mm in diameter. While it is beneficial to increase the backdrill diameter from about 0.5 mm to about 0.7 mm, Applicants have determined that there are decreasing returns as the backdrill diameter is increased beyond about 0.7 mm. Therefore for most solutions it is expect that it will be more desirable to use a backdrill diameter of about 0.7 mm.
Turning to
It should be noted that the depicted designs are connectors with terminals configured to engage vias that are about 0.40 mm in diameter. The features described herein are also effective for slightly larger tails and vias, such as a system where the tails are configured to engage vias that have about a 0.45 mm diameter.
As the charts in
The disclosure provided herein describes features in terms of preferred and exemplary embodiments thereof. Numerous other embodiments, modifications and variations within the scope and spirit of the appended claims will occur to persons of ordinary skill in the art from a review of this disclosure.
This application claims priority to U.S. Provisional Application No. 62/129,414, filed Mar. 6, 2015, which is incorporated herein by reference in its entirety.
Number | Date | Country | |
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62129414 | Mar 2015 | US |