The present disclosure generally relates to the electronic information and communication field, and more specifically, to a board-to-board radio frequency coaxial connector.
Currently, with the continuous development of wireless communication technology and the broad application of wireless communication, especially diversified development of mobile communication network standards and a miniaturized and highly integrated apparatus may become popular. Thus, a new technical indicator is proposed for an inter-board connector, which requires the inter-board connector to satisfy large axial and radial tolerances and low cost. At present, a variety of board-to-board radio frequency connection solutions exist on the market. For example, an axial offset and a radial offset of a board-to-board connector (MMBX) are ±0.7 mm and ±4.5°, respectively. These connectors may solve the axial and radial tolerance issues, but the cost of the product is high.
Embodiments of the present disclosure provide a board-to-board radio frequency coaxial connector including an adapter, a clamping socket, and a fixed socket. The clamping socket is arranged at a first end of the adaptor and includes a first outer conductor, a first inner conductor, and a first insulator. The first inner conductor is arranged coaxially in the first outer conductor. The first insulator is arranged between the first inner conductor and the first outer conductor. The fixed socket is arranged at a second end of the adaptor and includes a second outer conductor, a second inner conductor, a second inner conductor, and a second insulator. The second inner conductor is arranged coaxially in the second outer conductor. The second insulator is arranged between the second inner conductor and the second outer conductor. The adapter includes a third outer conductor, a third inner conductor, and two third insulators. The third inner conductor is arranged coaxially in the third outer conductor. The two third insulators are arranged at two ends of the third inner conductors, respectively, and sleeved on an outside of the third inner conductor. The two third insulators are arranged coaxially with the third inner conductor and between the third inner conductor and the third outer conductor. The third insulator includes a body portion and an auxiliary portion. The body portion includes a second groove recessed inwardly from an outer circumferential surface of the body portion. A first through-hole is arranged between the body portion and the auxiliary portion. A second through-hole is arranged at a center of the body portion and extends axially. The third inner conductor is arranged in the second through-hole. The auxiliary portion is arranged around the body portion. Two ends of the third outer conductor are electrically connected to the first outer conductor and the second outer conductor, respectively. The two ends of the third inner conductor are electrically connected to the first inner conductor and the second inner conductor, respectively.
The technical solution of embodiments of the present disclosure is described in detail in connection with accompanying drawings of embodiments of the present disclosure.
Referring to
The clamping socket 2 may include a first outer conductor 21, a sixth outer conductor 22, a first inner conductor 23, and a first insulator 24. The first outer conductor 21 may be coaxially arranged in the sixth outer conductor 22. The first inner conductor 23 may be coaxially arranged in the first outer conductor 21. The first insulator 24 may be arranged between the first outer conductor 21 and the first inner conductor 23.
The fixed socket 3 may include a second outer conductor 31, a second inner conductor 32, and a second insulator 33. The second inner conductor 32 may be coaxially arranged in the second outer conductor 31. The second insulator 33 may be arranged between the second outer conductor 31 and the second inner conductor 32.
The adapter 4 includes a third outer conductor 41, a third inner conductor 42, and two third insulators 43. The third inner conductor 42 may be coaxially arranged in the third outer conductor 41. The two third insulators 43 may be arranged at both ends of the third inner conductor 42 and sleeved on the outside of the third inner conductor 42. The third insulator 43 may be arranged between the third outer conductor 41 and the third inner conductor 42. The two ends of the third outer conductor 41 may be electrically connected to the first outer conductor 21 and the second outer conductor 31, respectively. The two ends of the third inner conductor 42 may be electronically connected to the first inner conductor 23 and the second inner conductor 32, respectively.
As shown in
The fifth outer conductor 45 may be formed by punching and wrapping a material belt. The material belt may include a beryllium copper material belt. The structure of the fifth outer conductor 45 may have the effect of cost-saving and life extension. The fifth outer conductor 45 includes an end portion 451 and an extension portion 452. The end portion 451 may be connected to the fourth outer conductor 44 and located in the fourth outer conductor 44. The end portion 451 may abut against the outer wall of the first groove 441. The extension portion 452 may be located outside of the fourth outer conductor 44. The inner diameter of the extension portion 452 may be less than the inner diameter of the end portion 451. A first step 453 may be formed between the end portion 451 and the extension portion 452. The first step 453 may cooperate and contact with the slope 442 at the fourth outer conductor 44. The extension portion 452 can have a free end in a direction away from the end portion 451, and the end of the free end includes a protrusion 454. The protrusion 454 may contact a first outer conductor 21. A plurality of notches 455 are arranged at the end of the free end and extend in a direction toward the end portion 451. The elasticity of the extension portion 452 of the fifth outer conductor 45 may be increased by the arrangement of the notches 455 to satisfy the larger radial offset. In some embodiments, the radial offset of an example board-to-board connector is ±4°. The protrusion 454 may further strengthen the contact with the first outer conductor 21 when the fifth outer conductor 45 contacts the inner wall of the first outer conductor 21 of the clamping socket 2. The design of the notches 455 and the protrusion 454 may facilitate the installation of the fifth outer conductor 45 at the third insulator 43.
The first outer conductor 21 may contact the fifth outer conductor 45. The first outer conductor 21 includes an inner wall, and the inner wall is flat. The fifth outer conductor 45 may contact the inner wall so that there is an axial offset of ±1.2 mm between the clamping socket 2 and the adapter 4. Thus, the product may be caused to have functions of a large tolerance and low intermodulation. The sixth outer conductor 22 includes a guide surface 221 configured to guide the fifth outer conductor 45 to contact the inner wall of the first outer conductor 21.
As shown in
As shown in
The technical content and technical features of the present disclosure are disclosed as above. However, those skilled in the art may make various replacements and modifications based on the teachings and disclosures without departing from the spirit of the present disclosure. Therefore, the scope of the present disclosure should not be limited to the content disclosed in embodiments of the present disclosure but should include various replacements and modifications without departing from the scope of the present disclosure. The scope of the present invention should be covered by the claims of this patent application.
Number | Date | Country | Kind |
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201921716460.9 | Oct 2019 | CN | national |
This application is a continuation of International Application No. PCT/CN2020/096374, filed Jun. 16, 2020, which claims priority to Chinese Application No. 201921716460.9, filed on Oct. 14, 2019, the entire contents of both of which are incorporated herein by reference.
Number | Date | Country | |
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Parent | PCT/CN2020/096374 | Jun 2020 | US |
Child | 17500384 | US |