[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

TWI505554B - Wideband antenna and wireless communication device - Google Patents

Wideband antenna and wireless communication device Download PDF

Info

Publication number
TWI505554B
TWI505554B TW101123464A TW101123464A TWI505554B TW I505554 B TWI505554 B TW I505554B TW 101123464 A TW101123464 A TW 101123464A TW 101123464 A TW101123464 A TW 101123464A TW I505554 B TWI505554 B TW I505554B
Authority
TW
Taiwan
Prior art keywords
radiator
signal
radiating portion
wireless communication
communication device
Prior art date
Application number
TW101123464A
Other languages
Chinese (zh)
Other versions
TW201401644A (en
Inventor
Chia Hao Chang
Kai Yang Cheng
Chih Sen Hsieh
Chih Ming Wang
Original Assignee
Wistron Neweb Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Wistron Neweb Corp filed Critical Wistron Neweb Corp
Priority to TW101123464A priority Critical patent/TWI505554B/en
Publication of TW201401644A publication Critical patent/TW201401644A/en
Application granted granted Critical
Publication of TWI505554B publication Critical patent/TWI505554B/en

Links

Landscapes

  • Support Of Aerials (AREA)
  • Details Of Aerials (AREA)

Description

寬頻天線及無線通訊裝置Broadband antenna and wireless communication device

本發明係指一種寬頻天線及無線通訊裝置,尤指一種利用金屬邊框作為寄生輻射體,增加操作頻寬,且可符合產品機構之寬頻天線及無線通訊裝置。The invention relates to a broadband antenna and a wireless communication device, in particular to a broadband antenna and a wireless communication device which can use the metal frame as a parasitic radiator to increase the operation bandwidth and conform to the product mechanism.

天線係用來發射或接收無線電波,以傳遞或交換無線電訊號。一般具無線通訊功能的電子產品,如筆記型電腦、個人數位助理(Personal Digital Assistant)等,通常透過內建之天線來存取無線網路。而隨著無線通訊技術的演進,不同無線通訊系統的操作頻率可能不同,因此,理想的天線應能以單一天線涵蓋不同無線通訊網路所需的頻帶。The antenna is used to transmit or receive radio waves to transmit or exchange radio signals. Electronic products with wireless communication functions, such as notebook computers, personal digital assistants, etc., usually access the wireless network through built-in antennas. With the evolution of wireless communication technology, the operating frequencies of different wireless communication systems may be different. Therefore, an ideal antenna should cover the frequency bands required by different wireless communication networks with a single antenna.

現今大部分可攜式無線通訊裝置為兼顧美觀、耐用性等,常使用金屬殼體或外框,因此當天線整合入可攜式無線通訊裝置時,往往會遭遇天線增益降低或不穩定的問題。在此情形下,天線設計者除了需面對寬頻需求的挑戰外,尚需考慮與金屬外框的整合性。舉例來說,如何在金屬外框環境下,設計一支援長期演進(Long Term Evolution,LTE)頻帶(704MHz至960MHz及1710MHz至2700MHz)的天線,就存在著一定的難度。Most of today's portable wireless communication devices are designed with aesthetics, durability, etc., often using metal casings or frames, so when the antenna is integrated into a portable wireless communication device, the antenna gain is often reduced or unstable. . In this case, in addition to the challenges faced by the antenna designer, the antenna designer needs to consider the integration with the metal frame. For example, how to design an antenna supporting the Long Term Evolution (LTE) band (704MHz to 960MHz and 1710MHz to 2700MHz) in a metal frame environment is difficult.

因此,如何將天線與金屬外框環境結合,設計為具有寬頻特性之寬頻天線,同時滿足無線通訊裝置的空間限制,已成為業界所努力的目標之一。Therefore, how to combine the antenna with the metal frame environment, designing a broadband antenna with broadband characteristics, and satisfying the space limitation of the wireless communication device has become one of the goals of the industry.

因此,本發明之主要目的即在於提供一種寬頻天線,其具有寬頻特性,且滿足無線通訊裝置的空間限制。Accordingly, it is a primary object of the present invention to provide a wideband antenna that has broadband characteristics and that satisfies the space limitations of wireless communication devices.

本發明揭露一種寬頻天線,用於包含有一金屬外框之一無線通訊裝置,包含有一輻射體,用來收發一射頻訊號;一固定點,該輻射體經由該固定點耦接至一接地部;一饋入元件,電性連接於該輻射體與該接地部之間,用來饋入該射頻訊號至該輻射體;以及一寄生輻射體,電性連接於該接地部,該寄生輻射體與該輻射體間隔一第一距離,該寄生輻射體係為該金屬外框的一部分;其中,該第一距離使該寄生輻射體與該輻射體產生耦合作用,以形成一耦合天線,用來收發該射頻訊號。The invention discloses a broadband antenna for a wireless communication device including a metal frame, comprising a radiator for transmitting and receiving an RF signal; and a fixed point, the radiator is coupled to a ground via the fixed point; a feed element electrically connected between the radiator and the ground portion for feeding the RF signal to the radiator; and a parasitic radiator electrically connected to the ground portion, the parasitic radiator and The radiator is separated by a first distance, the parasitic radiation system is a part of the metal frame; wherein the first distance causes the parasitic radiator to couple with the radiator to form a coupled antenna for transmitting and receiving the RF signal.

本發明另揭露一種無線通訊裝置,包含有一金屬外框;以及至少一天線,每一天線包含有:一輻射體,用來收發一射頻訊號;一固定點,該輻射體經由該固定點耦接至一接地部;一訊號饋入端,電性連接於該輻射體與該接地部之間,用來饋入該射頻訊號至該輻射體;以及一寄生輻射體,電性連接於該接地部,該寄生輻射體與該輻射體間隔一第一距離,該寄生輻射體係為該金屬外框的一部 分;其中,該第一距離使該寄生輻射體與該輻射體產生耦合作用,以形成一耦合天線,用來收發該射頻訊號。The invention further discloses a wireless communication device, comprising a metal frame; and at least one antenna, each antenna comprising: a radiator for transmitting and receiving an RF signal; and a fixed point, the radiator being coupled via the fixed point a signal feeding portion electrically connected between the radiator and the ground portion for feeding the RF signal to the radiator; and a parasitic radiator electrically connected to the ground portion The parasitic radiator is spaced apart from the radiator by a first distance, and the parasitic radiation system is a part of the metal frame And the first distance causes the parasitic radiator to couple with the radiator to form a coupled antenna for transmitting and receiving the RF signal.

請參考第1圖,第1圖為本發明實施例一無線通訊裝置MS之示意圖。無線通訊裝置MS外部包覆有殼體100,其內部包含有多個寬頻天線ANT_1、ANT_2及ANT_3,分別用來收發無線訊號,或是進行多輸入多輸出(Multi-in Multi-out,MIMO)等通訊技術,以增加無線傳輸的吞吐量(Throughput)。為便於說明,無線通訊裝置MS為一筆記型電腦,然而不限於此,無線通訊裝置MS亦可以是平板電腦、手機、個人數位助理或是任何具有無線通訊功能之電子裝置。如第1圖所示,寬頻天線ANT_1、ANT_2設置於無線通訊裝置MS的顯示器上方,而寬頻天線ANT_3係設置於無線通訊裝置MS的鍵盤側邊。Please refer to FIG. 1 , which is a schematic diagram of a wireless communication device MS according to an embodiment of the present invention. The wireless communication device MS is externally covered with a casing 100, and includes a plurality of broadband antennas ANT_1, ANT_2 and ANT_3 for transmitting and receiving wireless signals or for multi-in multi-out (MIMO). Communication technologies are used to increase the throughput of wireless transmissions (Throughput). For convenience of explanation, the wireless communication device MS is a notebook computer, but is not limited thereto. The wireless communication device MS can also be a tablet computer, a mobile phone, a personal digital assistant or any electronic device with wireless communication function. As shown in FIG. 1, the wideband antennas ANT_1 and ANT_2 are disposed above the display of the wireless communication device MS, and the wideband antenna ANT_3 is disposed on the side of the keyboard of the wireless communication device MS.

詳細來說,請參考第2圖,第2圖為第1圖之寬頻天線ANT_1及ANT_2之結構示意圖。寬頻天線ANT_1包含有一固定點P、一接地部200、一輻射體20、一訊號饋入端210以及一寄生輻射體212。接地部200用來提供接地。訊號饋入端210電性連接於輻射體20與接地部200之間,用來饋入射頻訊號RF_1至輻射體20。輻射體20電性連接於訊號饋入端210並藉由固定點P耦接至接地部200,用來收發一射頻訊號RF_1。寄生輻射體212電性連接於接地部200,寄生輻射體212與輻射體20間隔一距離D1,使得寄生輻 射體212與輻射體20間產生耦合作用,因此寬頻天線ANT_1形成一耦合天線(Coupled Antenna)的架構,可用來收發射頻訊號RF_1,達到無線通訊之功效。In detail, please refer to FIG. 2, and FIG. 2 is a schematic structural view of the broadband antennas ANT_1 and ANT_2 of FIG. The broadband antenna ANT_1 includes a fixed point P, a grounding portion 200, a radiator 20, a signal feeding end 210, and a parasitic radiator 212. The grounding portion 200 is used to provide grounding. The signal feeding end 210 is electrically connected between the radiator 20 and the grounding portion 200 for feeding the RF signal RF_1 to the radiator 20. The radiator 20 is electrically connected to the signal feeding end 210 and coupled to the grounding portion 200 by a fixed point P for transmitting and receiving an RF signal RF_1. The parasitic radiator 212 is electrically connected to the ground portion 200, and the parasitic radiator 212 is spaced apart from the radiator 20 by a distance D1, so that the parasitic antenna The emitter 212 and the radiator 20 are coupled. Therefore, the broadband antenna ANT_1 forms a coupled antenna structure, which can be used to transmit and receive the RF signal RF_1 to achieve wireless communication.

具體來說,當射頻訊號RF_1饋入輻射體20時,在輻射體20上產生一電流路徑,藉由寄生輻射體212與輻射體20間的耦合作用,從而在寄生輻射體212上形成一耦合電流路徑回流至接地部200。由寄生輻射體212延伸至接地部200的耦合電流路徑長度較長,因此可激發出低頻帶的共振模態,用來收發在低頻帶的射頻訊號RF_1。並且,透過調整距離D1的大小,可改變輻射體20與寄生輻射體212間的等效電感或等效電容值,用來調整寬頻天線ANT_1的輻射頻帶及頻寬,以設計出欲得的匹配與共振模態。Specifically, when the RF signal RF_1 is fed into the radiator 20, a current path is generated on the radiator 20, and a coupling between the parasitic radiator 212 and the radiator 20 forms a coupling on the parasitic radiator 212. The current path is returned to the ground portion 200. The length of the coupled current path extending from the parasitic radiator 212 to the ground portion 200 is long, so that a resonant mode of the low frequency band can be excited for transmitting and receiving the RF signal RF_1 in the low frequency band. Moreover, by adjusting the size of the distance D1, the equivalent inductance or equivalent capacitance between the radiator 20 and the parasitic radiator 212 can be changed, and the radiation band and bandwidth of the broadband antenna ANT_1 can be adjusted to design a desired match. With resonance mode.

值得注意的是,寬頻天線ANT_1係搭配無線通訊裝置MS的外觀造型而設計,其中無線通訊裝置MS的殼體100包含有一金屬外框23,寄生輻射體212係為金屬外框23的一部分,因此可將寬頻天線ANT_1巧妙地整合入無線通訊裝置的外觀造型。換句話說,耦合形式的寬頻天線ANT_1不僅是單純地設計輻射體20,而是涵蓋到整體接地部200相關結構的一種天線形式,接地部200、寄生輻射體212以及金屬外框23的結構與設計都是影響天線特性的因素。It should be noted that the broadband antenna ANT_1 is designed in accordance with the appearance of the wireless communication device MS. The housing 100 of the wireless communication device MS includes a metal frame 23, and the parasitic radiator 212 is part of the metal frame 23, The wideband antenna ANT_1 can be subtly integrated into the appearance of the wireless communication device. In other words, the broadband antenna ANT_1 in the form of a coupling not only simply designs the radiator 20 but covers an antenna form of the structure of the integral ground portion 200, the structure of the ground portion 200, the parasitic radiator 212, and the metal frame 23 Design is a factor that affects antenna characteristics.

如第2圖所示,金屬外框23包含有一間距(gap)231,間距231的位置取決於寄生輻射體212的長度L1大小,其中長度L1係 由寄生輻射體212對應於固定點P處延伸至間距231的長度。較佳地,長度L大致等於在低頻帶的射頻訊號RF_1之四分之一波長,以使寬頻天線ANT_1在低頻帶具有較佳的匹配。As shown in FIG. 2, the metal frame 23 includes a gap 231 whose position depends on the length L1 of the parasitic radiator 212, wherein the length L1 is The length of the pitch 231 is extended by the parasitic radiator 212 corresponding to the fixed point P. Preferably, the length L is substantially equal to a quarter wavelength of the RF signal RF_1 in the low frequency band, so that the broadband antenna ANT_1 has a better match in the low frequency band.

請注意,本發明主要是利用金屬外框23作為寬頻天線ANT_1的寄生輻射體212,再透過輻射體20與寄生輻射體212間的耦合作用,激發出不同的共振模態,以使寬頻天線ANT_1可操作於相異的頻帶F1、F2、F3,因此具有良好的頻寬。除此之外,寬頻天線ANT_1搭配無線通訊裝置MS的外觀造型而設計,將金屬外框23的一部分,即寄生輻射體212,作為寬頻天線ANT_1的輻射體之一,因此可將寬頻天線ANT_1巧妙地整合入無線通訊裝置的外觀造型。Please note that the present invention mainly utilizes the metal frame 23 as the parasitic radiator 212 of the broadband antenna ANT_1, and then transmits the coupling between the radiator 20 and the parasitic radiator 212 to excite different resonant modes, so that the broadband antenna ANT_1 It is operable in different frequency bands F1, F2, F3 and therefore has a good bandwidth. In addition, the broadband antenna ANT_1 is designed in accordance with the appearance of the wireless communication device MS, and a part of the metal frame 23, that is, the parasitic radiator 212, is one of the radiators of the broadband antenna ANT_1, so the broadband antenna ANT_1 can be ingeniously Integrate the appearance of the wireless communication device.

另一方面,無線通訊裝置MS包含有寬頻天線ANT_2,用來收發射頻訊號RF_2。在此架構下,金屬外框23相應地包含了間距232,其中寬頻天線ANT_1、ANT_2不同之處在於,兩者與間距231、232的相對位置不同,即間距231係位於寬頻天線ANT_1往-X方向的位置,而間距232係位於寬頻天線ANT_2往+X方向的位置。如此一來,設計者可依照實際需求,調整寬頻天線ANT_1、ANT_2與間距231、232的相對位置,以增加寬頻天線的設計彈性。On the other hand, the wireless communication device MS includes a broadband antenna ANT_2 for transmitting and receiving the RF signal RF_2. In this architecture, the metal frame 23 correspondingly includes the spacing 232. The broadband antennas ANT_1 and ANT_2 are different in that the relative positions of the two are different from the spacings 231 and 232, that is, the spacing 231 is located in the broadband antenna ANT_1 to -X. The position of the direction, and the spacing 232 is located in the +X direction of the broadband antenna ANT_2. In this way, the designer can adjust the relative positions of the broadband antennas ANT_1, ANT_2 and the spacings 231, 232 according to actual needs, so as to increase the design flexibility of the broadband antenna.

請參考第3A圖及第3B圖,第3A圖及第3B圖分別為寬頻天線ANT_1之電壓駐波比(Voltage Standing Wave Ratio,VSWR)以及輻射增益之示意圖。如第3A圖所示,寬頻天線ANT_1在低頻頻 帶F1(704MHz~960MHz)的電壓駐波比皆小於3.5,在高頻頻帶F2(1710MHz~2170MHz)的電壓駐波比皆小於2,在高頻頻帶F3(2300MHz~2700MHz)的電壓駐波比大致小於2。如第3B圖所示,寬頻天線ANT_1在低頻頻帶F1的輻射增益約大於-4dB,在高頻頻帶F2的輻射增益大致大於-4dB,在高頻頻帶F3的輻射增益大致大於-4.5dB。Please refer to FIG. 3A and FIG. 3B. FIG. 3A and FIG. 3B are respectively a schematic diagram of a voltage standing wave ratio (VSWR) and a radiation gain of the broadband antenna ANT_1. As shown in Figure 3A, the broadband antenna ANT_1 is at low frequency. The voltage standing wave ratio with F1 (704MHz~960MHz) is less than 3.5, and the voltage standing wave ratio in the high frequency band F2 (1710MHz~2170MHz) is less than 2, and the voltage standing wave ratio in the high frequency band F3 (2300MHz~2700MHz) It is roughly less than 2. As shown in FIG. 3B, the radiation gain of the broadband antenna ANT_1 in the low frequency band F1 is greater than -4 dB, the radiation gain in the high frequency band F2 is substantially greater than -4 dB, and the radiation gain in the high frequency band F3 is substantially greater than -4.5 dB.

由此可見,寬頻天線ANT_1可操作於相異的頻帶F1、F2、F3,因此具有良好的頻寬,以適用於不同訊技術所需之通訊頻帶,如長期演進(Long Term Evolution,LTE)、無線廣域(Wireless Wide Area Network,WWAN)、無線區域網路(Wireless Local Area Network,WLAN)及全球互通微波存取(Worldwide Interoperability for Microwave Access,WIMAX)等操作頻帶。It can be seen that the wideband antenna ANT_1 can operate in different frequency bands F1, F2, and F3, and therefore has a good bandwidth to be applied to communication bands required by different communication technologies, such as Long Term Evolution (LTE), Operating Bands such as Wireless Wide Area Network (WWAN), Wireless Local Area Network (WLAN), and Worldwide Interoperability for Microwave Access (WIMAX).

再者,寬頻天線ANT_1除了具有良好的天線效能,對於環境的變化也有相當程度的耐受力。在第1圖中,寬頻天線ANT_3與寬頻天線ANT_1具有相同的天線圖樣(Pattern),兩者的差別在於擺放的位置不同,即寬頻天線ANT_1設置於無線通訊裝置MS的顯示器上方,而寬頻天線ANT_3係設置於無線通訊裝置MS的鍵盤側邊。請參考第4A圖及第4B圖,第4A圖及第4B圖分別為寬頻天線ANT_3之電壓駐波比以及輻射增益之示意圖。如第4A圖所示,寬頻天線ANT_3在低頻頻帶F1(704MHz~960MHz)的電壓駐波比皆小於4,在高頻頻帶F2(1710MHz~2170MHz)的電壓駐波比皆 小於4.5,在高頻頻帶F3(2300MHz~2700MHz)的電壓駐波比大致小於4。如第4B圖所示,寬頻天線ANT_3在824MHz~960MHz的輻射增益約大於-4dB,在1850MHz~1990MHz的輻射增益約大於-4dB。因此,即使擺放位置不同,寬頻天線ANT_3仍可具有相當程度的天線效能。Furthermore, the wideband antenna ANT_1 has a good antenna performance and a considerable degree of tolerance for environmental changes. In the first figure, the broadband antenna ANT_3 and the broadband antenna ANT_1 have the same antenna pattern, the difference between the two is that the position of the transmission is different, that is, the broadband antenna ANT_1 is disposed above the display of the wireless communication device MS, and the broadband antenna The ANT_3 is disposed on the side of the keyboard of the wireless communication device MS. Please refer to FIG. 4A and FIG. 4B. FIG. 4A and FIG. 4B are schematic diagrams showing the voltage standing wave ratio and the radiation gain of the broadband antenna ANT_3, respectively. As shown in Fig. 4A, the voltage standing wave ratio of the wideband antenna ANT_3 in the low frequency band F1 (704 MHz to 960 MHz) is less than 4, and the voltage standing wave ratio in the high frequency band F2 (1710 MHz to 2170 MHz) Below 4.5, the voltage standing wave ratio in the high frequency band F3 (2300 MHz to 2700 MHz) is substantially less than 4. As shown in FIG. 4B, the broadband antenna ANT_3 has a radiation gain of about -4 dB at 824 MHz to 960 MHz, and a radiation gain of about -4 dB at 1850 MHz to 1990 MHz. Therefore, the wideband antenna ANT_3 can have a considerable degree of antenna performance even if the placement position is different.

另外,請參考第5A至5C圖,第5A至第5C圖分別為寬頻天線ANT_5應用在無線通訊裝置MS之上視圖、等角視圖以及下視圖。第5A圖繪示了寬頻天線ANT_5的細部結構的一實施例,寬頻天線ANT_5的輻射體50包含有輻射部51、52,輻射體50透過輻射部52電性連接至固定點P,從而電性連接至接地部500,其中連接的方式可利用螺絲、導電泡棉等固定元件使輻射部52與接地部500電性導通。輻射部51與輻射部52間隔一距離D2,距離D2使輻射部51與輻射部52產生耦合作用。輻射部52與寄生輻射體512間隔距離D1,距離D1使輻射部52與寄生輻射體512產生耦合作用。當射頻訊號RF_1饋入輻射體50時,在輻射部51上產生一電流路徑,藉由輻射部51與輻射部52間的耦合作用,從而在輻射部52上形成一耦合電流路徑回流至接地部500,並且寄生輻射體512上也會產生一耦合電流路徑回流至接地部500。輻射部52具有一長度L2,其中長度L2係由輻射部52對應於固定點P處延伸至輻射部52之末端。較佳地,長度L2大致等於在頻帶F1的射頻訊號RF_1之四分之一波長,因此輻射部52也可用來接收頻帶F1的射頻訊號RF_1。In addition, please refer to FIG. 5A to FIG. 5C, and FIG. 5A to FIG. 5C respectively illustrate a top view, an isometric view and a bottom view of the wireless communication device MS applied to the broadband antenna ANT_5. FIG. 5A illustrates an embodiment of the detailed structure of the broadband antenna ANT_5. The radiator 50 of the broadband antenna ANT_5 includes radiating portions 51 and 52. The radiator 50 is electrically connected to the fixed point P through the radiating portion 52, thereby electrically It is connected to the grounding portion 500, wherein the connecting portion can electrically connect the radiating portion 52 and the grounding portion 500 by using a fixing member such as a screw or a conductive foam. The radiation portion 51 is spaced apart from the radiation portion 52 by a distance D2 which causes the radiation portion 51 to couple with the radiation portion 52. The radiation portion 52 is spaced apart from the parasitic radiator 512 by a distance D1 which causes the radiation portion 52 to couple with the parasitic radiator 512. When the RF signal RF_1 is fed into the radiator 50, a current path is generated on the radiation portion 51, and a coupling current path is formed on the radiation portion 52 to return to the ground portion by the coupling between the radiation portion 51 and the radiation portion 52. 500, and a coupling current path is also generated on the parasitic radiator 512 to return to the ground portion 500. The radiating portion 52 has a length L2 in which the length L2 extends from the radiating portion 52 to the end of the radiating portion 52 corresponding to the fixed point P. Preferably, the length L2 is substantially equal to a quarter wavelength of the RF signal RF_1 in the frequency band F1, so the radiation portion 52 can also be used to receive the RF signal RF_1 of the frequency band F1.

詳細來說,輻射部51包含有支臂RAD_1、RAD_2,支臂RAD_1由訊號饋入端210朝+X方向延伸,用來收發在頻帶F2的射頻訊號RF_1,支臂RAD_2由訊號饋入端210朝-X方向延伸,用來收發在頻帶F3的射頻訊號RF_1。如此一來,寬頻天線ANT_1可操作於相異的頻帶F1、F2、F3,因此具有良好的頻寬。另外,支臂RAD_1、RAD_2在+X方向及-X方向的長度可依照實際應用相應地調整,以改變支臂RAD_1、RAD_2的操作頻帶F2、F3。In detail, the radiating portion 51 includes the arms RAD_1, RAD_2, and the arm RAD_1 extends from the signal feeding end 210 in the +X direction for transmitting and receiving the RF signal RF_1 in the frequency band F2, and the arm RAD_2 is connected to the signal feeding terminal 210. Extending in the -X direction, it is used to transmit and receive the RF signal RF_1 in the frequency band F3. In this way, the broadband antenna ANT_1 can operate in the different frequency bands F1, F2, and F3, and thus has a good bandwidth. In addition, the lengths of the arms RAD_1 and RAD_2 in the +X direction and the -X direction can be adjusted accordingly according to actual applications to change the operating bands F2 and F3 of the arms RAD_1 and RAD_2.

除此之外,製作寬頻天線ANT_5的輻射體50的方式無所限制,例如將輻射部51、52印刷於一FR-4玻璃纖維基板之上,或者透過模具射出成形(Molding)一塑膠件,再利用沖壓(Stamping)等技術將輻射部51、52固定於該塑膠件上,另外也可透過雷射直接成形(Laser Direct Structuring,LDS)等技術將輻射部51、52形成於塑膠件上。In addition, the manner of fabricating the radiator 50 of the broadband antenna ANT_5 is not limited, for example, printing the radiation portions 51, 52 on an FR-4 glass fiber substrate, or molding a plastic piece through a mold. Further, the radiation portions 51 and 52 are fixed to the plastic member by a technique such as stamping, and the radiation portions 51 and 52 may be formed on the plastic member by a technique such as Laser Direct Structuring (LDS).

總而言之,本發明主要是利用金屬外框作為寬頻天線的寄生輻射體,再透過輻射體與寄生輻射體或是多個輻射體彼此間的耦合作用,激發出不同的共振模態,以使寬頻天線可操作於相異的頻帶,因此具有良好的頻寬。除此之外,寬頻天線搭配無線通訊裝置的外觀造型而設計,將金屬外框的一部分作為寬頻天線的輻射體之一,因此可將寬頻天線巧妙地整合入無線通訊裝置的外觀造型,進而達到寬頻效果且可符合產品機構。In summary, the present invention mainly utilizes a metal frame as a parasitic radiator of a broadband antenna, and then transmits a coupling between the radiator and the parasitic radiator or a plurality of radiators to excite different resonance modes to make the broadband antenna. It can operate in different frequency bands and therefore has good bandwidth. In addition, the broadband antenna is designed with the appearance of the wireless communication device, and a part of the metal frame is used as one of the radiators of the broadband antenna, so that the broadband antenna can be skillfully integrated into the appearance of the wireless communication device, thereby achieving Broadband effects and compliance with product organizations.

以上所述僅為本發明之較佳實施例,凡依本發明申請專利範圍所做之均等變化與修飾,皆應屬本發明之涵蓋範圍。The above are only the preferred embodiments of the present invention, and all changes and modifications made to the scope of the present invention should be within the scope of the present invention.

MS‧‧‧無線通訊裝置MS‧‧‧Wireless communication device

100‧‧‧殼體100‧‧‧shell

ANT_1、ANT_2、ANT_3、ANT_5‧‧‧寬頻天線ANT_1, ANT_2, ANT_3, ANT_5‧‧‧ wideband antenna

200、500‧‧‧接地部200, 500‧‧‧ Grounding Department

20、50‧‧‧輻射體20, 50‧‧‧ radiator

51、52‧‧‧輻射部51, 52‧‧‧ Department of Radiation

210‧‧‧訊號饋入端210‧‧‧ signal feed end

212、512‧‧‧寄生輻射體212, 512‧‧‧ Parasitic radiator

D1、D2‧‧‧距離D1, D2‧‧‧ distance

L1、L2‧‧‧長度L1, L2‧‧‧ length

23、53‧‧‧金屬外框23, 53‧‧‧ metal frame

231、232、531‧‧‧間距231, 232, 531‧‧ ‧ spacing

RF_1、RF_2‧‧‧射頻訊號RF_1, RF_2‧‧‧ RF signals

RAD_1、RAD_2‧‧‧支臂RAD_1, RAD_2‧‧‧ arms

+X、-X‧‧‧方向+X, -X‧‧ Direction

P‧‧‧固定點P‧‧‧ fixed point

F1、F2、F3‧‧‧頻帶F1, F2, F3‧‧‧ bands

第1圖為本發明實施例一無線通訊裝置之示意圖。FIG. 1 is a schematic diagram of a wireless communication device according to an embodiment of the present invention.

第2圖為第1圖之寬頻天線之結構示意圖。Fig. 2 is a schematic view showing the structure of the wideband antenna of Fig. 1.

第3A圖及第3B圖分別為第1圖之寬頻天線之電壓駐波比以及輻射增益之示意圖。3A and 3B are schematic diagrams showing the voltage standing wave ratio and the radiation gain of the wideband antenna of Fig. 1, respectively.

第4A圖及第4B圖分別為第1圖之寬頻天線擺放於另一位置時的電壓駐波比以及輻射增益之示意圖。4A and 4B are schematic diagrams showing the voltage standing wave ratio and the radiation gain when the broadband antenna of Fig. 1 is placed at another position.

第5A至第5C圖分別為一寬頻天線應用在無線通訊裝置之上視圖、等角視圖以及下視圖。5A to 5C are respectively a top view, an isometric view, and a bottom view of a wireless communication device applied to a wireless communication device.

ANT_1、ANT_2‧‧‧寬頻天線ANT_1, ANT_2‧‧‧ wideband antenna

200‧‧‧接地部200‧‧‧ Grounding Department

20‧‧‧輻射體20‧‧‧ radiator

210‧‧‧訊號饋入端210‧‧‧ signal feed end

212‧‧‧寄生輻射體212‧‧‧ Parasitic radiator

D1‧‧‧距離D1‧‧‧ distance

L1‧‧‧長度L1‧‧‧ length

23‧‧‧金屬外框23‧‧‧Metal frame

231、232‧‧‧間距231, 232‧‧‧ spacing

RF_1、RF_2‧‧‧射頻訊號RF_1, RF_2‧‧‧ RF signals

P‧‧‧固定點P‧‧‧ fixed point

+X、-X‧‧‧方向+X, -X‧‧ Direction

Claims (16)

一種寬頻天線,用於包含有一金屬外框之一無線通訊裝置,包含有:一輻射體,用來收發一射頻訊號;一固定點,該輻射體經由該固定點耦接至一接地部;一訊號饋入端,電性連接於該輻射體與該接地部之間,用來饋入該射頻訊號至該輻射體;以及一寄生輻射體,電性連接於該接地部,該寄生輻射體與該輻射體間隔一第一距離,該寄生輻射體係為該金屬外框的一部分;其中,該第一距離使該寄生輻射體與該輻射體產生耦合作用,以形成一耦合天線,用來收發該射頻訊號;其中該金屬外框包含有一間距;該寄生輻射體具有一第一長度,該第一長度係由該寄生輻射體對應於該固定點處延伸至該間距的長度,該寄生輻射體用來收發一第一頻帶之射頻訊號;該第一長度大致等於該第一頻帶之射頻訊號之一四分之一波長。 A broadband antenna for a wireless communication device including a metal frame, comprising: a radiator for transmitting and receiving an RF signal; and a fixed point, the radiator coupled to a ground portion via the fixed point; a signal feed end electrically connected between the radiator and the ground portion for feeding the RF signal to the radiator; and a parasitic radiator electrically connected to the ground portion, the parasitic radiator and The radiator is separated by a first distance, the parasitic radiation system is a part of the metal frame; wherein the first distance causes the parasitic radiator to couple with the radiator to form a coupled antenna for transmitting and receiving the The radio frequency signal; wherein the metal frame comprises a spacing; the parasitic radiator has a first length, and the first length is extended by the parasitic radiator to the length corresponding to the spacing, the parasitic radiator Transmitting and receiving a radio frequency signal of a first frequency band; the first length is substantially equal to one quarter wavelength of one of the radio frequency signals of the first frequency band. 如請求項1所述之寬頻天線,其中該無線通訊裝置包含有一殼體,該金屬外框係為該殼體的一部分。 The broadband antenna of claim 1, wherein the wireless communication device comprises a housing, the metal frame being part of the housing. 如請求項2所述之寬頻天線,其中該接地部係該殼體的一部分,用來提供接地。 The wideband antenna of claim 2, wherein the ground portion is part of the housing for providing grounding. 如請求項1所述之寬頻天線,其中該輻射體包含有一第一輻射部,該輻射體透過該第一輻射部電性連接至該訊號饋入端。 The wideband antenna of claim 1, wherein the radiator includes a first radiating portion, and the radiating body is electrically connected to the signal feeding end through the first radiating portion. 如請求項4所述之寬頻天線,其中該輻射體包含有一第二輻射部,該輻射體透過該第二輻射部電性連接至該固定點,從而電性連接至該接地部,該第一輻射部與該第二輻射部間隔一第二距離,該第二距離使該第一輻射部與該第二輻射部產生耦合作用。 The broadband antenna of claim 4, wherein the radiator includes a second radiating portion, the radiating body is electrically connected to the fixed point through the second radiating portion, thereby being electrically connected to the ground portion, the first The radiation portion is spaced apart from the second radiation portion by a second distance, the second distance causing the first radiation portion to couple with the second radiation portion. 如請求項5所述之寬頻天線,其中該第二輻射部具有一第二長度,該第二長度係由該第二輻射部對應於該固定點處延伸至該第二輻射部之末端。 The broadband antenna of claim 5, wherein the second radiating portion has a second length, and the second length extends from the second radiating portion to the end of the second radiating portion corresponding to the fixed point. 如請求項6所述之寬頻天線,其中該第二輻射部用來接收一第一頻帶之射頻訊號,該第二長度大致等於該第一頻帶之射頻訊號之一四分之一波長。 The broadband antenna of claim 6, wherein the second radiating portion is configured to receive a radio frequency signal of a first frequency band, the second length being substantially equal to one quarter of a wavelength of the radio frequency signal of the first frequency band. 如請求項4所述之寬頻天線,其中該第一輻射部包含有:一第一支臂,由該訊號饋入端朝一第一方向延伸,用來收發一第二頻帶之射頻訊號;以及一第二支臂,由該訊號饋入端朝一第二方向延伸,用來收發一第三頻帶之射頻訊號; 其中該第一方向與該第二方向相反。 The broadband antenna of claim 4, wherein the first radiating portion comprises: a first arm extending from the signal feeding end in a first direction for transmitting and receiving a radio frequency signal of a second frequency band; a second arm extending from the signal feed end in a second direction for transmitting and receiving a third frequency band radio frequency signal; Wherein the first direction is opposite to the second direction. 一種無線通訊裝置,包含有:一金屬外框;以及至少一天線,每一天線包含有:一輻射體,用來收發一射頻訊號;一固定點,該輻射體經由該固定點耦接至一接地部;一訊號饋入端,電性連接於該輻射體與該接地部之間,用來饋入該射頻訊號至該輻射體;以及一寄生輻射體,電性連接於該接地部,該寄生輻射體與該輻射體間隔一第一距離,該寄生輻射體係為該金屬外框的一部分;其中,該第一距離使該寄生輻射體與該輻射體產生耦合作用,以形成一耦合天線,用來收發該射頻訊號;其中該金屬外框包含有一間距;該寄生輻射體具有一第一長度,該第一長度係由該寄生輻射體對應於該固定點處延伸至該間距的長度,該寄生輻射體用來收發一第一頻帶之射頻訊號;該第一長度大致等於該第一頻帶之射頻訊號之一四分之一波長。 A wireless communication device includes: a metal outer frame; and at least one antenna, each antenna includes: a radiator for transmitting and receiving an RF signal; and a fixed point, the radiator is coupled to the fixed point via the fixed point a grounding portion; a signal feeding end electrically connected between the radiator and the ground portion for feeding the RF signal to the radiator; and a parasitic radiator electrically connected to the ground portion, The parasitic radiator is spaced apart from the radiator by a first distance, the parasitic radiation system being part of the metal frame; wherein the first distance causes the parasitic radiator to couple with the radiator to form a coupled antenna, For transmitting and receiving the RF signal; wherein the metal frame includes a spacing; the parasitic radiator has a first length, and the first length is extended by the parasitic radiator to the length of the spacing corresponding to the fixed point, The parasitic radiator is configured to receive and receive a radio frequency signal of the first frequency band; the first length is substantially equal to one quarter wavelength of the radio frequency signal of the first frequency band. 如請求項9所述之無線通訊裝置,其另包含有一殼體,該金屬外框係為該殼體的一部分。 The wireless communication device of claim 9, further comprising a housing, the metal frame being part of the housing. 如請求項10所述之無線通訊裝置,其中該接地部係該殼體的一部分,用來提供接地。 The wireless communication device of claim 10, wherein the ground portion is part of the housing for providing grounding. 如請求項9所述之無線通訊裝置,其中該輻射體包含有一第一輻射部,該輻射體透過該第一輻射部電性連接至該訊號饋入端。 The wireless communication device of claim 9, wherein the radiator comprises a first radiating portion, and the radiating body is electrically connected to the signal feeding end through the first radiating portion. 如請求項12所述之無線通訊裝置,其中該輻射體包含有一第二輻射部,該輻射體透過該第二輻射部電性連接至該固定點,從而電性連接至該接地部,該第一輻射部與該第二輻射部間隔一第二距離,該第二距離使該第一輻射部與該第二輻射部產生耦合作用。 The wireless communication device of claim 12, wherein the radiator includes a second radiating portion, and the radiating body is electrically connected to the fixed point through the second radiating portion, thereby being electrically connected to the ground portion. A radiating portion is spaced apart from the second radiating portion by a second distance, the second distance causing the first radiating portion to couple with the second radiating portion. 如請求項13所述之無線通訊裝置,其中該第二輻射部具有一第二長度,該第二長度係由該第二輻射部對應於該固定點處延伸至該第二輻射部之末端。 The wireless communication device of claim 13, wherein the second radiating portion has a second length, the second length extending from the second radiating portion to the end of the second radiating portion corresponding to the fixed point. 如請求項14所述之無線通訊裝置,其中該第二輻射部用來接收一第一頻帶之射頻訊號,該第二長度大致等於該第一頻帶之射頻訊號之一四分之一波長。 The wireless communication device of claim 14, wherein the second radiating portion is configured to receive a radio frequency signal of a first frequency band, the second length being substantially equal to one quarter of a wavelength of the radio frequency signal of the first frequency band. 如請求項12所述之無線通訊裝置,其中該第一輻射部包含有:一第一支臂,由該訊號饋入端朝一第一方向延伸,用來收發一第二頻帶之射頻訊號;以及 一第二支臂,由該訊號饋入端朝一第二方向延伸,用來收發一第三頻帶之射頻訊號;其中該第一方向與該第二方向相反。 The wireless communication device of claim 12, wherein the first radiating portion comprises: a first arm extending from the signal feeding end in a first direction for transmitting and receiving a radio frequency signal of a second frequency band; a second arm extending from the signal feed end in a second direction for transmitting and receiving a third frequency band radio frequency signal; wherein the first direction is opposite to the second direction.
TW101123464A 2012-06-29 2012-06-29 Wideband antenna and wireless communication device TWI505554B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
TW101123464A TWI505554B (en) 2012-06-29 2012-06-29 Wideband antenna and wireless communication device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
TW101123464A TWI505554B (en) 2012-06-29 2012-06-29 Wideband antenna and wireless communication device

Publications (2)

Publication Number Publication Date
TW201401644A TW201401644A (en) 2014-01-01
TWI505554B true TWI505554B (en) 2015-10-21

Family

ID=50345198

Family Applications (1)

Application Number Title Priority Date Filing Date
TW101123464A TWI505554B (en) 2012-06-29 2012-06-29 Wideband antenna and wireless communication device

Country Status (1)

Country Link
TW (1) TWI505554B (en)

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI617088B (en) * 2016-05-23 2018-03-01 宏碁股份有限公司 Communication device with metal-frame half-loop antenna element
CN106654518A (en) * 2016-12-02 2017-05-10 西安易朴通讯技术有限公司 Terminal and manufacturing method therefor
CN107492708B (en) * 2017-07-26 2020-09-25 北京小米移动软件有限公司 Double-antenna structure applied to terminal, terminal shell and terminal
CN109390693B (en) 2017-08-05 2021-12-07 深圳富泰宏精密工业有限公司 Antenna structure and wireless communication device with same
CN114552170B (en) * 2020-11-25 2024-10-11 瑞昱半导体股份有限公司 Wireless communication device and printed dual-frequency antenna thereof

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001177314A (en) * 1999-12-17 2001-06-29 Tdk Corp Patch antenna
CN202172117U (en) * 2011-07-18 2012-03-21 广州市立伟电子有限公司 Metal casing Bluetooth antenna and Bluetooth apparatus
TW201225420A (en) * 2010-12-13 2012-06-16 Quanta Comp Inc Multi-frequency antenna module

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001177314A (en) * 1999-12-17 2001-06-29 Tdk Corp Patch antenna
TW201225420A (en) * 2010-12-13 2012-06-16 Quanta Comp Inc Multi-frequency antenna module
CN202172117U (en) * 2011-07-18 2012-03-21 广州市立伟电子有限公司 Metal casing Bluetooth antenna and Bluetooth apparatus

Also Published As

Publication number Publication date
TW201401644A (en) 2014-01-01

Similar Documents

Publication Publication Date Title
US7385556B2 (en) Planar antenna
US8711043B2 (en) Wideband antenna
US9590304B2 (en) Broadband antenna
JP5288638B2 (en) Small multiband antenna for wireless devices
US7843390B2 (en) Antenna
US8537054B2 (en) Antenna with multiple resonating conditions
US10069199B2 (en) Antenna and radio frequency signal transceiving device
TWI540789B (en) Wideband antenna and wireless communication device
TWI727498B (en) Dual-band antenna
US9013358B2 (en) Antenna assembly and wireless communication device provided with the same
TWI599095B (en) Antenna structure and wireless communication device using the same
US20130113671A1 (en) Slot antenna
US10490902B2 (en) Mobile device
JP2012120191A (en) Modified inverted-f antenna for wireless communication
CN103545610A (en) Broadband antenna and wireless communication device
US10096889B2 (en) Mobile device
US10439269B2 (en) Mobile device and antenna structure
TWI505554B (en) Wideband antenna and wireless communication device
CN112864609B (en) antenna structure
US7362286B2 (en) Dual band antenna device, wireless communication device and radio frequency chip using the same
US8902109B2 (en) Communication device
US7598912B2 (en) Planar antenna structure
TWI553962B (en) Multimode monopole antenna
CN107293843B (en) WIFI antenna device
US12062857B2 (en) Three-dimensional antenna module