M397609 五、新型說明: 【新型所屬之技術領域】 指一 構。 本創作係有關一種整合於環狀殼體之天緯社 種將錶形I置的環狀殼體做為天、線幸昌射二 構,特別 之天線結 【先前技術】 由於無線通訊技術的發展,電子產品對於 口口夤要求越來越重視,例如各種可攜式的带 〜、文 無線傳輸m滿足使用者隨時 '/均具備 求。 思了按收讯息之功能的需 主,嵩式電子產品以手機、PDA等產品為 :手錶亦為更夕數人所隨身攜帶的物品。為了使手錐 j接收無線訊號的功能,必須將天線裝設於手錶上,例 :傳::拉桿式天線,但由於產品尺寸與整體外觀的因 二路的拉桿天線已逐漸被内建式的隱藏式天線所取 以而’目前手錶上所設計的天線會有以下缺失: ^ f·錶的面積有一定的限制,故可供裝設天線的位 、㈣相當的舰,㈣小的天線面積造成天線 作:聿卜氏:’且由於組裝的結構相當複雜’故在成本、製 作效率上難以控管。 目則的天線大多聚設於錶帶、錯殼等殘餘的空間 _ =線設計者必_用線材等傳導件將天線所接收之 &、v至/T、統^ (反 < ’系統端之訊號亦必須透過上述 3/13 線材進行傳遞), 構,均相當複雜===路徑’_機 :妾,亦可能造成手錶本身的:能性降另::上述連 Γ可能因手錶外殼無法密封而下降,·換」防塵 體的设計會顯得十分複雜。 、D之,產品整 位,由於人體屬線位置可能會接觸使用者的身體部 收受到干優在接觸的同時會造成天線的接 ’软讯戒品質不佳等問題。 時的缺失,7料結構裝置於實際施用 驗,精心研;:=:事:=㈣發實務上多年之經 題之結構。、、u—種^合理且有収善上述問 【新型内容】 本㈣之主要目的,在於提供—種整合於環H 二陶,其係將天線與環狀殼體整合形成模组化機;, :構且二作利用輕合方式饋入訊號,故可大幅簡::: 、,.σ構,同日守可達到天線之良好阻抗匹配。 天線mr目的’在於提供—種整合於環狀殼體之 線、、、°構,其將天_射體整合於環狀殻體,當本創作應 用於連接有帶狀固定件之環狀殼體時(如手鎮等),可^ 免使用者的身體部轉觸上述之天軸射體,故可解決傳 統手錶裝置之天線触受到使用者影響的問題。 為了達到上述目的,本創作係提供—種整合於環狀殼 4/13 體之天線結構,係包含··—環狀殼體,其上形成 导射結構,且該環狀輻射結構具有至少一衣、 ^環狀殼體t的基板,該基板上設有—接地=至:設 ,輸線;以及至少一設於該基板上之晶片天線,該曰“ 互^接於該傳輸線,且該晶片天線與該環狀輻射』構相 如上述實施態樣,天線.可被整合於 :環::體的面積提高天線等效面積,以提升天is 的且裝上’即可不必考慮複雜之饋入結構 本:爾’故可間化產品組裝的結構、並降低製作的成 為使能更進-步瞭解本創作之特徵及技術内容、 有關本創作之詳細說明與附圖,然而所附 提 (、茶考錢日㈣,麟絲對補作加職財。 【實施方式】 本創作提出-種整合於環狀殼 環狀的產品外殼上f作夭邮 ^。構其係在 將, 拍㈣體,同時利用晶片天線 口 :j而之嘛入上述天線的輻射體,故可 的大等效面積之天線,使電磁波能量更可有效率 進二傳輸’以達到提升天線效率之目的。 作之二^及第一 B圖顯示本創作之第一實施例,本創 構體之天線結構包括形成有環狀輕射結 構^之电狀殼體1 1、基板1 2及晶片天幻m %狀心1 i至少包括導體材質的組件,例如環狀殼體1 5/13 Μ39Ί609 二=材型之金她殼體件,如手錯M397609 V. New description: [New technical field] refers to the structure. This creation is related to a kind of ring-shaped shell that is integrated into the annular shell and has the shape I set as the Tianhe line, the Xingchang shot two structure, especially the antenna junction [previous technology] due to the development of wireless communication technology Electronic products are paying more and more attention to the requirements of mouth and mouth. For example, various portable belts~, text wireless transmission m meet the needs of users at any time. Thinking about the function of receiving the message, the electronic products of the 嵩-type electronic products are made of mobile phones, PDAs, etc.: the watches are also the items that people carry with them. In order to enable the hand cone j to receive the function of the wireless signal, the antenna must be mounted on the watch, for example: pass:: pull rod antenna, but due to the size of the product and the overall appearance of the two-way rod antenna has gradually been built-in Concealed antennas are taken and 'the antennas currently designed on the watch have the following missing: ^ f · The area of the watch has a certain limit, so the antenna can be installed, (4) the equivalent ship, (4) the small antenna area The antenna is made: 聿b: 'and because the assembled structure is quite complicated', it is difficult to control the cost and production efficiency. Most of the antennas are concentrated in the residual space of the strap, the wrong shell, etc. _ = line designer _ using the conductors such as wires to receive the antenna &, v to /T, system ^ (reverse < 'system The signal of the end must also be transmitted through the above 3/13 wire). The structure is quite complicated. ===Path '_ Machine: 妾, may also cause the watch itself: the ability to drop another:: The above link may be due to the watch case It can't be sealed and lowered, and the design of the dust-proof body can be very complicated. , D, the product is fully positioned, because the human body position may contact the user's body part, and the dry contact will cause the antenna to be connected to the soft ring. The lack of time, the 7-material structure device in the actual application test, carefully researched;: =: things: = (four) the practice of the subject of many years of practice. , u - kind ^ reasonable and have the above questions [new content] The main purpose of this (four) is to provide - integrated in the ring H two ceramics, which integrates the antenna and the annular shell to form a modular machine; , : The structure and the second method use the light combination method to feed the signal, so it can be greatly simplified:::,,. σ structure, the same day can achieve good impedance matching of the antenna. The purpose of the antenna mr is to provide a line, and a structure integrated in the annular casing, which integrates the sky-body into the annular casing, and the present invention is applied to an annular casing to which a belt-shaped fixing member is attached. In the case of body time (such as hand town, etc.), the body part of the user can be prevented from touching the above-mentioned sun shaft projecting body, so that the problem that the antenna touch of the conventional watch device is affected by the user can be solved. In order to achieve the above object, the present invention provides an antenna structure integrated in an annular shell 4/13 body, which comprises an annular casing on which an inductive structure is formed, and the annular radiating structure has at least one a substrate of the ring-shaped housing t, the substrate is provided with a grounding-to-: designation, a transmission line; and at least one chip antenna disposed on the substrate, the "connecting" to the transmission line, and the The wafer antenna and the annular radiation are structured as described above, and the antenna can be integrated in: the area of the ring: the area of the body is increased to increase the equivalent area of the antenna, so as to improve the sky and install 'on the complicated Feeding structure: the structure of the assembly of the product, and the reduction of the production to become more in-depth understanding of the characteristics and technical content of the creation, detailed description and drawings of the creation, but attached (, tea test money day (four), Lin Si on the supplementary work plus wealth. [Embodiment] This creation proposes - a kind of product integrated on the outer shell of the ring-shaped shell as a ^ ^ ^. Constructed in the will, shoot (four) Body, while using the wafer antenna port: j and then into the antenna Body, so the large equivalent area of the antenna, so that the electromagnetic wave energy can be more efficient into the second transmission 'to achieve the purpose of improving the efficiency of the antenna. The second and first B diagram shows the first embodiment of the creation, this The antenna structure of the inventive body includes an electrical housing 1 1 formed with an annular light-emitting structure, a substrate 1 2 and a wafer-shaped component 1 at least comprising a conductor material, such as an annular housing 15 /13 Μ39Ί609 II=Material gold, her shell parts, such as the wrong hand
A,由於在本JLg^: 1 1可具有—環狀賴射結構C 環狀殼體1!本身即可為所述件,故 之,金屬材質之環狀H结構CA,換言 體,·另外,為了達到且 p可視為輻射訊號的天線 A (即該環狀殼體工該環狀輻射输 在本且俨麻f Μ + ,、有至乂 一間隙結構1 1 1,而 在才财, 環狀輻射結構c A,故在,士 」才身即了為所述之 應之-頭端’義該導體件具有相對 妒1 1 P”… 該頭端1 1 A與該末 真設有一絕緣件’該絕緣件相對於該金屬 W哝狀钗筋丄丄即可視為一種間隙結構丄]丄 a射結構CA形成區隔,以調整天線輻射之等效共= 位’而達到輻射訊號之功能。 再者,基板1 2係設於上述環狀殼體中]_J中,該基 板1 2上設有接地面2 2 1及傳輸線丄2 2,接 = 1及傳輸線1 2 2可使用印刷、钱刻等方式成型於基板工 2。該晶片天線1 3亦設於該基板丄2上,晶片天線工3 實質上係連接於該傳輸線1 22,且該晶片天線丄3與該 環狀輻射結構CA係相互耦合,藉此,訊號可由傳輸線工 2 2傳遞至该晶片天線1 3,再利用晶片天線1 3與環狀 輻射結構C A的耦合效應,即可使用電磁耦合的方式將訊 號傳導至上述的環狀輻射結構CA,以進行訊號的發送/ 接收。 請復參考第一 A圊,該天線結構僅包括一組傳輸線1 6/13 M397609 2 2.與晶片天線1 3,其用於接收單頻之訊號;而在本I 體實施例中,該晶片天線13包括基材131以及設於該 基材1 3 1上之傳導金屬面1 3 2 (如第- B圖所示), 其中’基材1 3 1可為陶曼材料或FR4等等,其具有高& 值及良好的咼頻特性,而傳導金屬面工3 2則可利用塗 佈、印刷方式成型於該基材1 3 !上,且該傳導金屬面工 具有一饋入點1 3 3 ’因此,晶片天線1 3對應於該 則線1 2 2而A性連接於該基板i 2上,該傳導金屬面 3 2之馈入點1 3 3則連接於該傳輸線1 2 2。換t ^晶片天線1 3之傳導金屬面丄3 2並不直接接觸該^ 、羯射結構CA,而利用電磁_合的方式將訊號傳導至環 狀輪射結構C A,以達成料/接㈣號的效果。 f外’ 二a目’其顯示本創作之第二實施 j ’其與第—實施例不同之處在於’該環狀殼體u係為 該絕緣材質之環狀殼體11上設有-環狀金屬 1 1 〇㈣成所述之環狀輻射結構CA。如圖所示,第 ;;實施例主要在絕緣材質的環狀殼體1工的頂面上余 創伟印射屬層等導體以形成一天線幸畐射面,進以構成本 之王衣狀輪射結構CA ;且該環狀轄射結構c A且有一 封閉之開口’以形成所述的間隙結構丄丄上環 而結構CA形成區隔,以調整天線輻射之等效共振路^ 而達到輻射訊號之功能。 、二 清參考第二B圖,其為上述第-奋^ χ 上之玉衣狀金屬面11〇更可士夕去1/ 更了由多數個金屬面所構 7/13 M397609 成,例如在本實施態樣中,環狀金屬面i丄〇包括兩個金 屬面:第一金屬面1 1 ◦Α及第二金屬面1 1 〇 Β ;換言 之,環狀金屬面1 1 〇上可利用兩個間隙結構工丄丄,而 區分成第一金屬面1 1 〇A及第二金屬面i ] 〇B,以用 於接收不同頻率的訊號,例如一為GSM頻段訊號,另一 則為Bluetooth/WiF丨頻段訊號。 第三A圖顯示本創作之第三實施例,其與第二實施例 不同之處在於,本具體實施例係在絕緣材質的環狀殼體] 1的側面上塗佈、印刷金屬層等導體以形成一天線輻射籲 面’進以構成本創作之環狀輻射結構C a。 請參考第三B圖,其為上述第三實施例之變化實施態 沐,六典弟二實施例不同之處在於:設於絕緣材質之環狀 殼體1 1之側面上的環狀金屬面i丄〇更可由多數個金 屬面所構成,例如在本實施態樣中’環狀金屬面丄1 〇包 括兩個金屬面:第一金屬面丄丄〇A及第二金屬面丄、〇 B ;換言之,環狀金屬面i i q上可利用兩個間隙結構^ p 11 ’而區分成第-金屬面110A及第二金屬面11()爭 B,以用於接收不同頻率的訊號,例如一為gsm頻段訊 -號,另一則為Bluetooth/WiFi頻段訊號。 請參考第四圖,其顯示本創作之第四實施例,本創作· 之第四實施齡要絲时雙饋人的系統上,其中環狀殼 體1 1上具有第-金屬面1 1 〇 A及第二金屬面丄丄〇 B,且基板1 2上設有兩組傳輸線i 2 2與晶片天線丄 3,时別對應第—金屬面1 1 ◦ A及第二金屬面丄工〇 B,藉此,可利用其中—組傳輸線1 2 2與晶片天線i 3 8/13 /ouy 以電㈣合方式傳導至第—金屬面iiqa,並利 磁無人f、、且傳輸線1 2 2與晶片天線1 3將訊號以電 的夺二$傳導至第二金屬面1 1 0B,即可形成雙馈入 的天線結構。 另μ方面’本創作之晶片天線1 3可具有多種變化態 ★弟五Α圖所不’該晶片天線1 3更包括-設於該基 f1 3 1上之接地電極1 3 4,換言之,基材丄3工上設 導㈣面13 2及接地電極1 3 4,該傳導金屬面! ^係糟由該饋人點1 3 3連接於該傳輸線丄2 2,而接 :电極1 3 4則藉由接地點丄3 5連接該接地面上2 同義地’㈣可利用晶片天線丄3之傳導金屬面工3 2耗合至,狀輻射結構CA,以達成訊號的發送。 另如第五B圖所示’該傳導金屬面工3 2更延伸出一 土點1 3 5,故傳導金屬面丄3 2藉由該饋人點丄3 3 =^該傳輸線122 ’並藉由接地點135連接該接地 =121,其同樣可利用晶片天線13之傳導金屬面13 2輕合至環純射結構CA,達成訊號的發送。 因此’本㈣之天線結構主要储環妹射結構ca 正合於一锿狀殼體上,例如具有帶狀固定件2 〇之手錶妒 =是懷錶等物件’’再-方面,利用晶片天線13與該環 電磁轉合效應’直接將訊號㈣ 口的方式傳遞,以大幅簡化天線的結構。 綜上所述,本創作具有下列諸項優點: 1、本創作可將天線(即;裒狀輻射結構)整合於環狀殼體, 故可利用環狀殼體的面積提高天線等效面積,使天線 9/13 2 性、面積不又產a尺寸的限制’而達到良好的賴射特 =作利用耦合的方式傳輸訊號,故不需傳統的導線 :舞件,故可大幅簡化饋入結構;另外,由於電磁耦 二之饋人可提高天線之等效電容性,故可用於補償天 f本身之電抗性,使天線具有良好的阻抗匹配,更可 提升天線之特性。 片天%之陶£基材的高κ値特性可運用於控制晶片 〇線之電容值,進而靜其共振頻率,使天線的結構 吏佳簡化且易於調整。 丄2上所述僅為本創作之較佳可行實施例,非因此侷限 切利範圍 > 敁舉凡❹本創作說明f及圖示内容 汁為之寺效技術變化,均包含於本創作之範圍内。 【圖式簡單說明】 A圖料本創作第—實施例的立體示意圖。 第一 B圖係為本創作第一實施例的部分放大圖。 第^ A圖係為本創作第二實_之環狀輻射結構的立體 射結構的變化 弟二B圖係為本創作第二實施例之環狀輕 態樣之立體示意圖。 第三A 示意圖 圖係為本創作第三實施例之環狀幸昌 射結構的立體 射結構的變_化 第二B圖係為本創作第三實施例之環狀幸昌 態樣之立體示意圖。 10/13 M397609 第四圖係為本創作第四實施例之雙饋入結構的示意圖。 第五A圖係為本創作之晶片天線的另一變化態樣之示意 圖。 第五B圖係為本創作之晶片天線的再一變化態樣之示意 圖。 【主要元件符號說明】 1 1 環狀殼體A, since the JLg^: 1 1 may have a ring-shaped reflecting structure C, the annular casing 1 itself may be the piece, and therefore, the ring-shaped H structure CA of the metal material, in other words, another In order to achieve and p can be regarded as the antenna A of the radiation signal (that is, the annular casing is the ring-shaped radiation and the ramie f Μ +, and there is a gap structure 1 1 1, but in the wealth, The annular radiating structure c A, so in the case, the syllabus is the one mentioned above - the head end 'the conductor piece has a relative 妒 1 1 P"... The head end 1 1 A and the end really have a The insulating member 'the insulating member can be regarded as a kind of gap structure 相对 丄 射 结构 结构 , , , , , , , , , , , , , , , , , , , , , , , CA CA CA CA CA CA CA CA CA CA CA CA CA Further, the substrate 12 is disposed in the above-mentioned annular casing]_J, and the substrate 12 is provided with a ground plane 2 2 1 and a transmission line 2 2, and the connection 1 = 1 and the transmission line 1 2 2 can be used for printing. Forming on the substrate 2, the chip antenna 13 is also disposed on the substrate 2, and the wafer antenna 3 is substantially connected to the transmission line 1 22, and the The chip antenna 丄3 is coupled to the ring-shaped radiating structure CA, whereby the signal can be transmitted from the transmission line 2 to the chip antenna 13 and then the coupling effect of the chip antenna 13 and the annular radiating structure CA can be used. The signal is transmitted to the above-mentioned annular radiating structure CA by means of electromagnetic coupling for signal transmission/reception. Please refer to the first A圊, the antenna structure includes only one set of transmission lines 1 6/13 M397609 2 2. a chip antenna 13 for receiving a signal of a single frequency; and in the embodiment of the present invention, the chip antenna 13 includes a substrate 131 and a conductive metal surface 13 2 2 disposed on the substrate 133 (eg Figure BB), where 'substrate 133 can be a Tauman material or FR4, etc., which has a high & value and good 咼 frequency characteristics, while a conductive metal surface 32 can be coated And printing on the substrate 1 3 !, and the conductive metal surface tool has a feeding point 1 3 3 '. Therefore, the wafer antenna 13 corresponds to the line 1 2 2 and is A-connected to the substrate i 2 The feed point 1 3 3 of the conductive metal surface 3 2 is connected to the transmission line 1 2 2 . The conductive metal surface 丄3 2 of the line 1 3 does not directly contact the ^ and the radiant structure CA, but conducts the signal to the annular wheel structure CA by means of electromagnetic _ _ _ to achieve the effect of the material / connection (four). f outside 'two a mesh' which shows the second implementation of the present invention j 'which differs from the first embodiment in that the annular casing u is provided with a ring on the annular casing 11 of the insulating material The metal 1 1 〇 (4) is formed into the annular radiation structure CA as shown in the figure; the embodiment is mainly formed on the top surface of the annular casing 1 of the insulating material to form a conductor such as a smectic layer to form An antenna is fortunately launched to form the king's garment-like structure CA; and the annular structure c A has a closed opening 'to form the gap structure 丄丄 upper ring and the structure CA forming region Separate, to adjust the equivalent resonance path of the antenna radiation to achieve the function of the radiation signal. Refer to the second B diagram, which is the jade-like metal surface on the first-following χ 〇 〇 〇 〇 1/ 1/ 1/ 1/ 1/ 1/ 1/ 1/ 1/ 1/ 1/ 1/ 1/ 1/ 1/ 1/ 1/ 1/ , , , , , , , , , In this embodiment, the annular metal surface i丄〇 includes two metal faces: a first metal face 1 1 ◦Α and a second metal face 1 1 〇Β; in other words, the annular metal face 1 1 〇 can be utilized on two The gap structure is divided into a first metal surface 1 1 〇A and a second metal surface i ] 〇B for receiving signals of different frequencies, for example, one is a GSM frequency band signal, and the other is a Bluetooth/WiF丨band signal. The third embodiment shows a third embodiment of the present invention, which is different from the second embodiment in that the present embodiment applies a conductor such as a metal layer on the side of the annular casing 1 of the insulating material. To form an antenna radiation surface" to form the annular radiation structure C a of the present invention. Please refer to FIG. 3B, which is a variation of the third embodiment, and the sixth embodiment is different in that the annular metal surface is disposed on the side of the annular casing 11 of the insulating material. i丄〇 can be composed of a plurality of metal faces. For example, in the embodiment, the 'annular metal face 丄1 〇 includes two metal faces: the first metal face 丄丄〇A and the second metal face 丄, 〇B In other words, the annular metal surface iiq can be divided into a first metal surface 110A and a second metal surface 11 by using two gap structures ^ p 11 ' for receiving signals of different frequencies, for example, The gsm band is the signal-number and the other is the Bluetooth/WiFi band signal. Please refer to the fourth figure, which shows a fourth embodiment of the present invention, in the system of the fourth implementation age of the present invention, wherein the annular casing 1 1 has a first metal surface 1 1 〇 A and the second metal surface 丄丄〇B, and the two sets of transmission lines i 2 2 and the wafer antenna 丄3 are disposed on the substrate 12, and the first metal surface 1 1 ◦ A and the second metal surface 丄 B Thereby, the transmission line 1 2 2 and the wafer antenna i 3 8/13 /ouy can be electrically connected to the first metal surface iiqa, and the magnetic line is unmanned, and the transmission line 12 2 and the wafer The antenna 13 conducts the signal to the second metal surface 1 10B by electric power to form a double-fed antenna structure. In addition, the chip antenna 13 of the present invention can have a plurality of variations. The chip antenna 13 further includes a ground electrode 1 3 4 disposed on the base f1 3 1 , in other words, the base. The material 3 is provided with a guide (four) surface 13 2 and a ground electrode 1 3 4, the conductive metal surface! ^The system is connected to the transmission line 丄2 2 by the feed point 1 3 3, and the electrode 1 3 4 is connected to the ground plane 2 by the ground point 53 5 Synonymously ((4) Available wafer antenna 丄The conductive metal surface 3 of 3 is consuming the radiation structure CA to achieve the transmission of the signal. In addition, as shown in FIG. 5B, the conductive metal surface 3 2 extends a soil point 1 3 5 , so the conductive metal surface 丄 3 2 is borrowed by the donor point 3 3 = ^ the transmission line 122 'and The grounding = 121 is connected by a grounding point 135, which can also be used to transmit the signal by using the conductive metal surface 13 2 of the wafer antenna 13 to be coupled to the ring-only pure structure CA. Therefore, the antenna structure of the present (4) is mainly a ring-shaped casing, for example, a watch having a belt-shaped fixing member 2, a watch such as a pocket watch, and the like, using a wafer antenna 13 The electromagnetic coupling effect with the ring is transmitted directly to the signal (4) port to greatly simplify the structure of the antenna. In summary, the creation has the following advantages: 1. This creation can integrate the antenna (ie, the braided radiation structure) into the annular casing, so the area of the annular casing can be used to increase the equivalent area of the antenna. So that the antenna 9/13 2, the area does not produce a size limit 'to achieve a good ray ray = to use the coupling to transmit signals, so no need for traditional wires: dance pieces, it can greatly simplify the feed structure In addition, since the donor of the electromagnetic coupling can improve the equivalent capacitance of the antenna, it can be used to compensate for the electrical resistance of the sky f itself, so that the antenna has good impedance matching, and the characteristics of the antenna can be improved. The high κ値 characteristics of the substrate can be used to control the capacitance of the wafer and thus the resonant frequency, so that the structure of the antenna is simplified and easy to adjust. The above description is only a preferred and feasible embodiment of the present invention, and thus the limitation of the scope of the invention is not limited to the scope of the present invention. Inside. BRIEF DESCRIPTION OF THE DRAWINGS A schematic view of a first embodiment of the present invention. The first B diagram is a partial enlarged view of the first embodiment of the creation. The Fig. A is a three-dimensional schematic diagram of the circular light structure of the second embodiment of the present invention. The third A diagram is a perspective view of the three-dimensional structure of the ring-shaped structure of the ring-shaped structure of the third embodiment of the present invention. The second figure B is a three-dimensional diagram of the ring-shaped image of the third embodiment. 10/13 M397609 The fourth figure is a schematic diagram of the dual feed structure of the fourth embodiment of the present invention. Figure 5A is a schematic illustration of another variation of the wafer antenna of the present invention. Fig. 5B is a schematic view of still another variation of the wafer antenna of the present invention. [Main component symbol description] 1 1 annular housing
110 環狀金屬面 1 1 0 A 第一金屬面 1 1 0 B 第二金屬面 111 間隙結構 1 1 A 頭端 1 1 B 末端 1 2 基板110 Annular metal surface 1 1 0 A First metal surface 1 1 0 B Second metal surface 111 Gap structure 1 1 A Head end 1 1 B End 1 2 Substrate
晶片天線Chip antenna
121 接地面 1 2 2 傳輸線 13 1 基材 132 傳導金屬面 133 饋入點 134 接地電極 135 接地點 2〇 帶狀固定件 C A 環狀輻射結構 11/13121 Ground plane 1 2 2 Transmission line 13 1 Substrate 132 Conductive metal surface 133 Feed point 134 Ground electrode 135 Ground point 2〇 Ribbon holder C A Annular radiation structure 11/13