TW201143200A - Wireless transceiving device and antenna module thereof - Google Patents

Abstract

A wireless transceiving device includes an antenna module and a PCB, wherein the antenna module has a frame, two antenna ports, a first feed part, and a second feed part. The antenna ports, the first feed part, and the second feed part are constituted form an integral structure. The antenna ports are disposed on two sides of the frame respectively, and the first feed part and the second feed part are disposed on two sides of the frame respectively. The PCB is disposed in the frame, and a circuit module and an electrical wiring are electrically disposed on the PCB. The circuit module couples with the antenna ports, and the electrical wiring is corresponding to a connector part of the frame.

Description

201143200 VI. Description of the Invention: [Technical Field] The present invention relates to a wireless transceiver device, and more particularly to a wireless transceiver device having an antenna module, and the feeding portion and the frame body in the antenna module are integrally formed . [Prior Art] In recent years, the popularization of consumer computer products such as notebook computers and personal assistants (PDAs) and the rapid development of the Internet have enabled information from different regions of the world to interact with each other. communicate with. At present, the interconnection architecture of the Internet has gradually changed from a wired connection type such as an optical fiber, a cable, and a network route to a wireless connection type network architecture, thereby solving the problem that the line layout of the wired network architecture is too complicated. At the same time, it provides a more convenient and user-friendly communication environment for users. In order to respond to the use of the wireless network, the computer device must be electrically connected to a wireless receiver to enable the computer device to smoothly transmit and receive wireless network signals. At present, the electrical connectors of the wireless transceivers are generally conformed to the universal serial bus (USB) standard specification, so as to be electrically connected with the universal serial bus socket of the computer device. The transceiver device must be equipped with at least one antenna module to receive and transmit wireless network signals, and the wireless transceiver device has broadband and multi-band operation capability. The current manufacturing method has multiple antenna modules assembled in the antenna device. The outside of the casing of the wireless transceiver device and the circuit board of the wireless transceiver device are electrically connected to each other, so that the wireless network signal received by the 201143200 is transmitted to the microprocessor chip on the circuit board, or is generated by the micro processing chip. The wireless signal is transmitted through the antenna module. Another manufacturing method is to print two or more antenna modules on a dielectric substrate, and then directly lay out on the circuit board inside the wireless transceiver by surface adhesion technology. However, in the actual application, because the size of the external antenna module is too large, if it is installed on the wireless transceiver of the Tongkelong drainage type, the structure of the wireless transceiver will be large and cannot meet the age. The size of the wireless transceiver module must be thin and light. Furthermore, the antenna module is directly disposed on the circuit board of the wireless transceiver device, and the antenna performance is not good, and if the antenna module is configured, the size of the wireless transceiver device is too large, which is also inconsistent with the present day. The need for a thinner electronic product. On the contrary, if you want to maintain the thin and light volume of the wireless transceiver, it will inevitably limit the size of the antenna module within the range of the antenna module, which will result in the limitation of the operating band of the antenna module. Even the radiation field type has poor stability. The problem. Therefore, how to design a wireless transceiver with broadband and multi-band capability, and to meet the requirements of bribery and omnidirectional transmission requirements, has become the main direction of development. SUMMARY OF THE INVENTION The present invention provides a wireless transceiver device and an antenna module thereof for improving the size of an existing wireless transceiver device due to the configuration of multiple antenna modules, and the manufacturing process is complicated, and the manufacturing cost is high. problem. The antenna module disclosed in the present invention comprises a frame body, two antenna portions, a first 201143200 feed portion, and a second feed portion. The two antenna portions are respectively formed to extend from opposite sides of the frame body, and the first feed portion and the second feed portion are respectively formed to extend from opposite sides of the frame. The wireless receiver disclosed in the present invention comprises a frame, a two antenna portion, a first feed portion, a second feed portion, and a circuit board. The seven body members have an electrical connector portion ′ and the two antenna portions extend from opposite sides of the frame body, and the first feeding portion and the second feeding portion are respectively formed from opposite sides of the _. The circuit board is disposed in the casing ” and the circuit board is provided with at least a circuit module and a plurality of electrical pins. The circuit module and the antenna portion are electrically reduced, and the position of the electrical pins is corresponding to the electrical connector portion of the housing. The other antenna module disclosed in the present invention includes a frame body, a two antenna portion, a first feed portion, and a second feed portion and two antenna portions respectively from opposite sides of the frame portion of the frame body The side extension is formed, and the first feeding portion and the second feeding portion are respectively disposed at the 'end of the one antenna portion. Another wireless transceiver device disclosed in the present invention includes a frame, two antennas P, a feed 4, a second feed, and a circuit board. Wherein, the frame body has an electrical connector and a domain portion, and the branch portion is formed to extend from one side of the electrical connector portion. The two antenna portions are respectively formed from the two side boats of the branch building, and the first feeding portion and the second feeding portion are respectively disposed at the ends of the two antenna portions. The circuit board is disposed in the frame body and the circuit board is electrically disposed at least—the circuit module and the plurality of electrical f-pin modules are electrically connected to the antenna portion, and the positions of the electrical pins are correspondingly set. In the electrical connector portion of the frame. 201143200 The effect of the invention is that the antenna part, the first feeding part, the second feeding part and the frame system of the antenna module are designed as an integral structure to greatly reduce the volume of the antenna module and the wireless transceiver, and reduce the manufacturing process. The complexity and manufacturing cost while maintaining the good working efficiency of the wireless transceiver and its antenna module. The above description of the present invention and the following description of the embodiments of the present invention are intended to illustrate and explain the principles of the invention. Lu [Embodiment] The application range of the wireless transceiver device and the antenna module thereof of the present invention includes but is not limited to various types of wireless network transmission and reception such as WIFLY wireless network, 3G mobile wireless network card, and wireless local area network (wireless LAN). Device. In the following detailed description of the present invention, a wireless transceiver of a universal serial bus (USB) type is taken as a preferred embodiment of the present invention, but the drawings are provided for reference and explanation only, and It is used to limit the invention. Fig. 1 is a perspective view showing an antenna module according to a first embodiment of the present invention. As shown in the figure, the antenna module 1 of the first embodiment of the present invention includes a frame 11 (), two antenna portions 120, a first feeding portion 131, and a second feeding portion 132, and the housing 110 The antenna unit 120, the first feeding unit 13 and the second feeding unit 132 are integrally formed. Specifically, the antenna module 100 is made of a metal material, and the frame 11 〇, the antenna portion 120, the first feeding portion 13 and the second feeding portion 132 are directly bent by a sheet metal method to constitute One-piece modular structure. However, those skilled in the art can integrally form the frame n, the antenna portion, the 7 201143200 first feed portion 131, and the second feed portion 132 by any processing and forming method. The body 110 has an electrical connector portion ill, wherein the shape and size of the electrical connector portion ill conform to the standard specifications of the universal serial bus (USB). The electrical connector portion 111 is folded from the end f of the frame m to form a rectangular outer appearance, and the opposite end faces of the electrical connector portion m are opened through the opening 111 of the electrical connector portion 111. In addition, the frame 110 is adjacent to The electrical connector portion lu # position further includes two branches 12 and a connecting portion 113. The two supporting portions 112 are respectively disposed on one opposite side of the frame body 110, and the two ends of the connecting portion 113 are respectively connected to the two branch portions 112 to form an open receiving space inside the frame body 110. Continuing to refer to Fig. 1, the two antenna portions 12() are respectively extended from the branch portion ι2, and each of the antenna portions 12G has a radiation portion 121, a two-signal transmission/reception portion 122, and a ground portion 123. The ground portion 123 and the support portion 112 are opposed to each other in a parallel relationship. And the distance between the second signal transmitting and receiving units 122 is adjacent to each other, and the two ends of the one signal transmitting and receiving unit 122 are respectively connected to the supporting material 112 and the grounding portion 123. The shape of the light-emitting portion 121 is F-type. The end of the radiation portion 121 is connected to the ground portion 123 || [5 121 W The other end is separated from the grounding portion 123 by a fixed distance. It should be noted that the antenna portion 120 of the present invention is not limited in its number, setting position, or shape. The person familiar with the technology can also change the view of the antenna portion 12G according to actual design requirements, and does not The embodiments disclosed in the present invention are limited. Fig. 2A is a perspective view showing the radio transceiver of the first embodiment of the present invention. As shown in the figure, the radio transceiver 200 of the first embodiment of the present invention includes the antenna module 100 of the first embodiment of the above-mentioned 201143200, and further has a circuit board 14A. The circuit board 140 is electrically provided with at least one circuit (4), for example, micro-electrically connected to each other. The processing chip and the conductive trace are processed to process the receiving and transmitting of the wireless signal, and the position of the circuit board 140 near the side is also electrically The plurality of electrical pins 142 are provided. The circuit board 140 is disposed in the accommodating space inside the housing 110, and the circuit module, the group 14H of the circuit board 140 and the antenna unit 12 are electrically connected to each other, for example, directly soldered to the board i40. The circuit module 110 and the antenna portion 12 are electrically connected to each other by a connection of a wire (not shown) #, but are not limited thereto. When the circuit board 14〇| is set in the frame n丨1(), the position of the electrical pin 142 of the circuit board is engaged in the frame-cut electrical connector portion (1), and the opening 11U of the electrical connector portion 111 And being exposed, electrically connected to the electrical connection (not shown) of the electronic device. In addition, the electrical connector portion (1) of the frame 110 can be used as the grounding of the antenna portion 120 to increase the grounding area of the wireless transceiver device 2, thereby improving the isolation and ωωη of the antenna module and the gain. . • As shown in FIG. 2A and FIG. 2B, a housing 15G is finally provided on the housing 110 to completely surround the portion other than the electrical connector portion 111, so that the circuit board inside the housing 110 is just outside due to the outside. The moisture or dust caused the circuit board 14 〇 can not be smooth = 仃 职 职 Wei Guan title. The outer casing (9) disclosed in the present invention is made of a plastic material, and the material f of the material casing (9) can be selected according to actual manufacturing requirements, and is not limited thereto. 3A and 3B are perspective views of an antenna module according to a second embodiment of the present invention. As shown in the figure, the Tianlai Group_Package 201143200 of the second embodiment of the present invention includes a frame 110, two antenna portions 12A, a first feeding portion m, and a second feeding portion 132, and the frame 11G The antenna unit 12G, the first-feeder unit (3), and the second feed unit 132 are in a body-molded structure. Specifically, the antenna module is made of a metal material, and the frame 110, the antenna portion 12A, the first feeding portion 13 and the second feeding portion 132 are directly folded by a sheet metal method to form a single sheet. The modular structure of the piece. However, the person skilled in the art can also form the body forming frame 110, the antenna unit 120, the first feeding portion 131, and the second feeding portion 132. The body 110 has an electrical connector portion (1) and a building portion. The electrical connector 111 has dimensions and dimensions that conform to the standard specifications of the general serial bus flow (_). The electrical connector portion 111 forms a structure of the moment from the end of the frame 11G, and the second end of the n-connected 1U is provided with an opening 1111 penetrating the electrical connection poem (1), and the support portion 112 is self-contained. The other side of the connector portion lu having an opening is formed to extend. Please continue to refer to "3A" and "3B". The two antenna portions 12 are respectively extended from the support portion 112, and each of the first _ 12 〇 has a first u-shaped segment 124 arranged at intervals. a second u-shaped segment 125, a u-shaped segment 126, a fourth.u-shaped segment 127, a first-connected segment 1281, a second connected segment (four), and a --third connected segment 1283' and each U The segments 124, 125, (3) have a first end 1291 and a first end 1292. Wherein the first u-shaped section 124 is connected to the support portion 112 by the first end 1291. The second end of the first u-shaped section 124 is connected to the first connecting section (10), and the first end of the second u-shaped section 125 is 1291. The first end 1291 and the second end 1292 of the third port section 201143200 126 are respectively connected to the second connecting section l282 and the third end, respectively, connected to the second connecting section 1282 and the second connecting section 1282 respectively. The first end 1291 of the fourth u-shaped section 127 is connected to the third connecting section 1283, and the second end 1292 of the fourth υ-shaped section 127 has a spacing between the second portion 1292 and the branch portion 112, and the first feeding The inlet portion 131 and the second feeding portion 132 are disposed on the second end 1292 of the fourth U-shaped segment 127. It should be noted that the first ϋ section 124, the second U section 125, the third 126 section 126, the fourth 段 section 127, the first connection section 1281, and the second connection of the antenna part 120 of this embodiment The segment 1282 and the third connecting segment 1283 are connected to each other in a vertical relationship. It should be noted that the antenna portion 120 and the ϋ-shaped segments 124, 125, 126, and 127 of the present invention are not limited in number, arrangement position, or design. Those skilled in the art may also be required according to actual design requirements. Corresponding to changing the configuration of the antenna portion 12 and its meandering segments 124, 125, 126, 127 is not limited to the embodiments disclosed herein. Fig. 4 is a perspective view showing a radio transceiver according to a second embodiment of the present invention. As shown in the figure, the wireless transceiver device 2 of the second embodiment of the present invention includes a circuit board 14 之外 in addition to the antenna module 九 (9) structure of the second embodiment. The circuit board 140 is electrically disposed with at least one circuit module 141, such as micro-processing pads and conductive traces electrically connected to each other, to process the receiving and transmitting of the wireless signal, and the position of the circuit board 140 near the side is also The plurality of electrical pins 142 are provided. The circuit board 140 is disposed in the accommodating space inside the frame no and the circuit module 141 of the circuit board 140 is electrically coupled to the antenna unit 12 ,, for example, 11 201143200 is directly soldered to the frame through the circuit board MO. 11〇, or by the connection of the wire (not shown) ^ circuit mode, the group 141 and the antenna portion 12 〇 electrically connected, but not limited to this. When the circuit board 14 is mounted in the casing 11〇, the position of the electrical pin 142 of the circuit board _ corresponds to the electrical connector portion (1) of the casing 11〇 and is electrically connected to the H portion 111 to close σ U11. It has a scale and is electrically connected to the electronic device (not shown). In addition, the electrical connector portion (1) of the frame body (10) can be used as the grounding of the antenna portion 120 to increase the grounding area of the wireless transceiver device, thereby improving the isolation (is〇lati〇n) and gain (four) sentences of the antenna module 100. . As shown in FIG. 4B, the outer casing 150 is finally jacketed on the casing 110 to completely cover the portion other than the electrical connector portion (1), thereby preventing the circuit board 140 inside the casing (10) from being exposed to external moisture or dust. As a result, the board 14〇 cannot successfully perform its preset function. The outer casing (9) disclosed in the present invention is made of a rotating material, and the material of the outer casing 15 can be turned into various types of materials according to the actual manufacturing, and is not limited thereto. The wireless transceiver device and the antenna module thereof of the present invention have two antenna portions disposed opposite to each other on the two sides of the inner body to optimize the coverage and bandwidth of the antenna module to achieve good isolation. Degree and gain effect. And the antenna part, the first feeding part, the second feeding part and the frame system of the antenna module are directly bent into a body structure by a single-piece metal plate member, thereby greatly reducing the antenna module and the wireless transceiver device. Volume, while reducing manufacturing difficulties and manufacturing costs. Although the embodiments of the present invention are disclosed as described above, it is not intended to limit the present invention, and any skilled person in the art can make the shape, structure, features and spirit of 12 201143200 without departing from the spirit and scope of the present invention. </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of an antenna module according to a first embodiment of the present invention; FIG. 2A is a perspective view of a wireless transceiver device having an antenna module according to a first embodiment of the present invention; FIG. 3 is a perspective view of an antenna module according to a second embodiment of the present invention; FIG. 3B is a perspective view of an antenna module according to a second embodiment of the present invention; FIG. 4A is an exploded perspective view of a wireless transceiver device according to a second embodiment of the present invention; and FIG. 4B is a perspective view of a wireless transceiver device according to a second embodiment of the present invention. Group frame electrical connector opening support portion connecting portion antenna portion radiating portion • wireless diagram of the antenna module of the embodiment 100 110 111 1111 112 113 120 13 121 Signal transmitting and receiving portion grounding portion First U-shaped segment Second U-shaped segment Third U-shaped section Fourth U-shaped section First connecting section Second connecting section Lu third connecting section First end Second end First feeding part Second feeding part Circuit board circuit module · Electrical pin housing Line transceiver 14

Claims (1)

201143200 VII. Patent application scope 1. An antenna module includes: a frame body having an electrical connector portion; and two antenna portions extending from the side, the two antenna portions are respectively opposite from the frame body And a first feeding portion and a second feeding portion, wherein the first feeding portion and the first receiving portion are respectively formed to extend from the opposite sides of the frame. The antenna module of claim 1, wherein the frame further comprises two branches respectively disposed on the opposite sides of the frame, the two antenna portions, the first portion, and The second feeding portions are respectively extended from the two supporting portions. The antenna module of claim 2, wherein the frame further has a connection end connecting the two ends of the connecting portion to the two supporting portions. 4. The antenna touch according to claim 2, wherein each of the antenna portions has a light-emitting portion, a Weifa portion, and a ground portion, and the ground portion is opposite to the two portions. Turning the two ends of the two signal transceivers are respectively connected to the bud portion and the ground portion, one end of the radiant portion is connected; ^ (4), another qingqi sacred-missing/intersecting the shot 6 of the 4th day fine ^, its (four) __ 彡 shape is F type. The line transceiver device includes: a frame body; the frame body has an electrical connector portion; and a second antenna portion respectively extending from two opposite sides of the frame body 15 201143200 - a first feeding portion and a second feeding portion, wherein the first feeding portion and the second reading portion are respectively formed from the opposite sides of the frame; and a circuit board is disposed in the frame The circuit board is electrically provided with at least a circuit module and a plurality of electrical pins, and the circuit module is coupled to the two antenna portions, and the positions of the electrical pins correspond to the electricity Connector part. The wireless transceiver device of claim 6, wherein the frame further comprises two grafting portions respectively disposed on the opposite sides of the frame, the two antenna portions, the feeding portion, and the feeding portion. And the second feeding unit is extended from the two continuations. 8. The radio transceiver of claim 7, wherein the frame further has a connecting portion, and the two ends of the connecting portion are respectively connected to the two supporting portions. The wireless transceiver device of claim 7, wherein each of the antenna portions has a light-emitting==at least two-signal transceiver unit and a grounding portion, and the grounding portion is opposite to the two-stationary portion. The two-terminal county of the two-signal transceiver unit is connected to the ground portion of the ground portion and the other end of the ground portion of the ground portion is spaced apart from the ground portion by a distance. &quot; 镰 镰 镰 镰 镰 , , , , , , , , , 镰 镰 镰 镰 杂The antenna module includes: a system (four) = a lion having a power-cut-cut portion, a side of the paste portion connecting the benefit portion extending; an antenna portion 'the two antenna portions are formed separately; and the knife supports the support . The two opposite side extensions of ρ—the first feeding portion and the second second feeding portion ′ are the first feeding portion and the second feeding portion of the second feeding portion 201143200 respectively provided at one end of the two antenna portions. 12. The antenna module of claim 11, wherein each of the antenna portions has a sequential interval One end is connected to the support portion, and the first second end is connected to the second connecting end of the U-shaped section by the second end of the U-shaped section. End systems are connected to The second end is respectively connected to the second connecting segment and the third connecting segment, the fourth end of the fourth U-shaped segment is connected to the third connecting segment, and the second end of the first segment is connected to the branch The lion has an H-domain first-feeding portion and the second feeding portion is disposed on the second end of the fourth U-shaped segment. 13. The antenna module of claim 12, wherein the first u-shaped segment, the second u-shaped segment, the second U-shaped segment, the fourth u-shaped segment, the first connected segment, The second connecting section and the third connecting section are perpendicular to each other. A wireless transceiver device comprising: a frame having an electrical connector portion and a support portion extending from a side of the electrical connector portion; an antenna. The antenna portion is formed by extending from opposite sides of the branch portion; a first feeding portion and a second feeding portion, wherein the first feeding portion and the second feeding portion are respectively disposed on the two antennas One end of the part; and 17 201143200 circuit board disposed in the frame body, the circuit board is electrically provided with at least two circuit modules and a plurality of electrical pins, and the circuit module is electrically connected to the two antenna parts The position of the electrical pins corresponds to the electrical connector portion. 15·Ζ1面14 describes the innocent ship, shoots each drum_with order: arranged---U-shaped section...the second u-shaped section, the third u-shaped section, one four-U section, one a connecting section, a second connecting section, and a third connecting section, each of the U-shaped sections has a first end and a second end, wherein the first U-shaped section is connected to the branch part, The second end of the first u-shaped segment is connected to the second=, and the (four) ship-end-end contact is respectively connected=the first connecting segment and the second connecting segment, the first segment of the third U-shaped segment The end and the system are respectively connected to the second connecting segment and the third connecting segment, and the fourth system is connected to the third connecting segment, and the feeding support portion of the thin U-shaped segment has a spacing And the first feeding portion and the second feeding portion are disposed on the second end of the fourth U-shaped segment. • The non-issuing device according to claim I5, wherein the two U-shaped segments, 嗲坌_ττ, the second-shaped segment, the fourth U-shaped segment, the first-connected segment, the connected segment, and the third money The connecting segments are perpendicular to each other.