This non-provisional application claims priority under 35 U.S.C. §119(a) to Patent Application No. 201510607495.9 filed in China, P.R.C. on Sep. 23, 2015, the entire contents of which are hereby incorporated by reference.
The instant disclosure relates to an electrical connector, and more particular to an electrical receptacle connector.
Universal Serial Bus (USB) is a serial bus standard commonly applied for computer, communication, and consumer electronics. Due to the developments of products in different aspects, demands for higher transmission speeds are urging. During high frequency signal transmission, severe crosstalk between terminals may occur in the case of the common USB 2.0 interfaces. In addition, the conventional USB 2.0 interfaces may suffer from radiofrequency interference (RFI) as well as electromagnetic interference (EMI) easily.
Regarding to the USB 3.0 interfaces, the crosstalk and interference problems may become serious due to the higher transmission speed which can be more than 5 Gbs of the USB 3.0 interfaces. To reduce the crosstalk, conventionally, a metallic grounding plate is positioned between upper and lower terminals. To reduce the radiofrequency interference and the electromagnetic interference, a metallic shell is applied to enclose the terminals. Nevertheless, the metallic shell commonly has a rear cover, which may increase the difficulty for soldering tail portions of the terminals on the circuit board during a packaging procedure.
Moreover, common soldering legs includes through-hole legs and flat legs (legs manufactured by surface mount technology). To standardize the soldering procedures of the circuit boards, in some cases the circuit board may include additional insertion holes or grooves. Therefore, upon the soldering procedure, solder empty or non-wetting problems may occur. Due that the structures of the components become complex and due to the aforementioned structure of the metallic shell, a person cannot check if holes or grooves of the circuit board are properly mated with the terminals (i.e., whether or not the pin assignments between the circuit board and the terminals are in right positions), and the connector may be difficult to be repaired. As a result, once the connector is damaged, the whole receptacle has to be detached from the assembled circuit board and repaired separately. Therefore, the overall cost for repairing the connector assembly may be very expensive.
In view of this, an embodiment of the instant disclosure provides an electrical receptacle connector. The electrical receptacle connector comprises an insertion module, an adapting circuit board, and an adapting terminal module. The insertion module comprises a plurality of first receptacle terminals, a plurality of second receptacle terminals, a grounding plate, and an insulated housing. The first receptacle terminals, the second receptacle terminals, and the grounding plate are fixed on the insulated housing. The first receptacle terminals are on one of two opposite sides of the insulated housing, and each of the first receptacle terminals comprises a first tail portion protruding from the insulated housing. The second receptacle terminals are on the other side of the insulated housing, and each of the second receptacle terminals comprises a second tail portion protruding from the insulated housing. The grounding plate is between the first receptacle terminals and the second receptacle terminals. The adapting circuit board comprises a plurality of first soldering portions, a plurality of second soldering portions, and a plurality of third soldering portions. A first side of the adapting circuit board faces the insertion module, and a second side of the adapting circuit board faces the adapting terminal module. The first tail portions are soldered with the first soldering portions. The second tail portions are soldered with the second soldering portions. The adapting terminal module comprises an adapting insulated member and a plurality of third receptacle terminals. Each of the third receptacle terminals comprises a third tail portion and a fourth tail portion respectively protruding from two sides of the adapting insulated member. The third tail portions are soldered with the third soldering portions.
In one embodiment, each of the first soldering portions and the second soldering portions is an insertion hole. In other words, the first tail portions and the second tail portions are inserted into the adapting circuit board from the first side by through-hole techniques. In one embodiment, each of the third soldering portions is an insertion hole. In other words, the third tail portions are inserted into the adapting circuit board from the second side by through-hole techniques.
In another embodiment, each of the third soldering portions is a soldering groove. In other words, the third tail portions are soldered with the second side of the adapting circuit board by surface mount technology (SMT). Furthermore, an opening direction of each of the third soldering portions and an opening direction of the corresponding first soldering portion create an angle, and the opening direction of each of the third soldering portions and an opening direction of the corresponding second soldering portion create the angle. Hence, after the first tail portions are soldered with the first soldering portions and the second tail portions are soldered with the second soldering portions as well as the third tail portions are soldered with the third soldering portions, each of the third tail portions and the corresponding first tail portion create the angle and each of the third tail portions and the corresponding second tail portion create the angle. It is understood that the structural configurations described in this paragraph may be altered according to different condition.
In one embodiment, the adapting terminal module further comprises a plurality of fixing posts extending from the adapting insulated member and inserted into a plurality of fixing holes of the adapting circuit board, respectively. Accordingly, the adapting terminal module can be fixed and positioned with the adapting circuit board.
In one embodiment, the grounding plate further comprises a plurality of insertion legs, and the adapting circuit board further comprises a plurality of grounding insertion holes. The insertion legs correspond to the grounding insertion holes and soldered into the grounding insertion holes. Therefore, a grounding circuit can be formed.
In one embodiment, the electrical receptacle connector further comprises a first conductive sheet and a second conductive sheet. The first conductive sheet is on a first surface of the insertion module, the second conductive sheet is on a second surface of the insertion module, and the first surface is opposite to the second surface. The first conductive sheet and the second conductive sheet respectively shield parts of the first receptacle terminals and parts of the second receptacle terminals for retarding electromagnetic interferences and radiofrequency interferences. Moreover, the first conductive sheet is engaged with the insulated housing and in contact with a first ground terminal of the first receptacle terminals. the second conductive sheet is engaged with the insulated housing and in contact with the second ground terminal of the second receptacle terminals. Hence, another grounding circuit is further formed to further retarding the electromagnetic interferences and radiofrequency interferences.
In one embodiment, the electrical receptacle connector further comprises a metallic shell enclosing the insertion module, the adapting circuit board, and the adapting terminal module. The metallic shell shields the first receptacle terminals and the second receptacle terminals, and the fourth tail portions are exposed from the metallic shell. Moreover, the metallic shell comprises two protecting legs at two sides of the fourth tail portions.
In one embodiment, the insertion module comprises a first terminal module, a second terminal module, and a grounding plate module. The first terminal module comprises the first receptacle terminals and a first insulated positioning member fixed and positioned with the first receptacle terminals. The second terminal module comprises the second receptacle terminals and a second insulated positioning member fixed and position with the second receptacle terminals. The grounding plate module comprises the grounding plate and a grounding insulated member. The grounding insulated member is on an outer surface of the grounding plate and assembled with the first insulated positioning member and the second insulated positioning member. Moreover, after the first terminal module, the second terminal module, and the grounding plate module are assembled with each other, the first terminal module, the second terminal module, and the grounding plate module are positioned with each other by molding techniques.
Accordingly, signals transmitted by the first receptacle terminals or the second receptacle terminals of the insertion module can be adapted to different mating connector by adapting the insertion module with the adapting circuit board and the adapting terminal module. Therefore, the insertion module can be provided as a standard piece. Hence, different legs can be adapted with the insertion module through the adapting circuit board and the adapting terminal module. Moreover, the external circuit board is only connected to the adapting terminal module, so the pin assignments of the soldering configuration can be standardized. Therefore, the connector can have a simple appearance and easy to be repaired.
Detailed description of the characteristics and the advantages of the instant disclosure are shown in the following embodiments. The technical content and the implementation of the instant disclosure should be readily apparent to any person skilled in the art from the detailed description, and the purposes and the advantages of the instant disclosure should be readily understood by any person skilled in the art with reference to content, claims, and drawings in the instant disclosure.
The instant disclosure will become more fully understood from the detailed description given herein below for illustration only, and thus not limitative of the instant disclosure, wherein:
Please refer to
As shown in
The adapting circuit board 30 comprises a plurality of first soldering portion 31, a plurality of second soldering portion 33, and a plurality of third soldering portions 35. The first tail portions 113 are soldered with the first soldering portions 31, and the second tail portions 133 are soldered with the second soldering portions 33. In this embodiment, each of the first soldering portions 31 and the second soldering portions 33 is an insertion hole. In other words, the first tail portions 113 and the second tail portions 133 are inserted into the adapting circuit board 30 from the first side 30A by through-hole techniques. In addition, the number of the first soldering portions 31 and the number of the second soldering portions 33 may be equal to or more than the number of the first tail portions 113 and the number of the second tail portions 133, respectively.
The adapting terminal module 50 comprises an adapting insulated member 51 and a plurality of third receptacle terminals 53 molded with the adapting insulated member 51. Each of the third receptacle terminals 53 comprises a third tail portion 531 and a fourth tail portion 533 respectively protruding from two sides of the adapting insulated member 51, and the third tail portions 531 are soldered with the third soldering portions 35. In this embodiment, the third soldering portions 35 may also be an insertion hole. Accordingly, the third tail portions 531 may be soldered with the third soldering portions 35 from the second side 30B by through-hole techniques.
The fourth tail portions 533 are for soldering with an external circuit board (not shown) by through-hole techniques or surface mount technology (SMT). In addition, the adapting terminal module 50 further comprises a plurality of fixing posts 55 extending toward the second side 30B from the adapting insulated member 51 for respectively inserted into fixing holes 39 of the adapting circuit board 30. Therefore, the adapting circuit board 30 and the adapting terminal module 50 can be positioned with each other by the mating between the fixing posts 55 and the fixing holes 39.
As shown in
Please refer to
Please refer to
Accordingly, the components of the connector are separately modulized and then assembled with each other by molding. Therefore, the modulized design of the connector allows the mold for components being sharable and utilizable in connector with different models. Hence, the cost for mold design can be reduced. In addition, since the terminals are molded with the module in advance, the pin assignments of the tail portions of the terminals can be aligned properly.
Furthermore, the electrical receptacle connector 1 further comprises a first conductive sheet 41 and a second conductive sheet 43. The first conductive sheet 41 is on a first surface of the insertion module 10, for example, an upper surface, for shielding parts of the first receptacle terminals 11. The second conductive sheet 43 is on a second surface of the insertion module 10, for example, a lower surface. The first surface is opposite to the second surface. As shown in
Please refer to
In this embodiment, the third soldering portion 35 is a soldering groove. The angle created by an opening direction 35A of each of the third soldering portions 35 and an opening direction 31A of the corresponding first soldering portion 31 is θ as shown in
As shown in
Please refer to
Accordingly, signals transmitted by the first receptacle terminals or the second receptacle terminals of the insertion module can be adapted to different mating connector by adapting the insertion module with the adapting circuit board and the adapting terminal module. Therefore, the insertion module can be provided as a standard piece. Hence, different legs can be adapted with the insertion module through the adapting circuit board and the adapting terminal module. Moreover, the external circuit board is only connected to the adapting terminal module, so the pin assignments of the soldering configuration can be standardized. Therefore, the connector can have a simple appearance and easy to be repaired.
While the instant disclosure has been described by the way of example and in terms of the preferred embodiments, it is to be understood that the invention need not be limited to the disclosed embodiments. On the contrary, it is intended to cover various modifications and similar arrangements included within the spirit and scope of the appended claims, the scope of which should be accorded the broadest interpretation so as to encompass all such modifications and similar structures.
Number | Date | Country | Kind |
---|---|---|---|
2015 1 0607495 | Sep 2015 | CN | national |
Number | Name | Date | Kind |
---|---|---|---|
20150194770 | Little | Jul 2015 | A1 |
20150372424 | Little | Dec 2015 | A1 |
20160104975 | Guo | Apr 2016 | A1 |
Number | Date | Country | |
---|---|---|---|
20170085017 A1 | Mar 2017 | US |