TWI843973B - Portable electronic device and antenna module having light-emitting function - Google Patents

Abstract

The present invention provides a portable electronic device and an antenna module having light-emitting function. The antenna module includes an RF and DC signal shunt circuit structure, an antenna structure, and a light-emitting structure. The RF and DC signal shunt circuit structure includes a current-shunting capacitor element and a current-shunting inductor element. The antenna structure is electrically connected to the current-shunting capacitor element of the RF and DC signal shunt circuit structure. The light-emitting structure is electrically connected to the current-shunting inductor element of the RF and DC signal shunt circuit structure. Therefore, when an RF signal and a DC signal are transmitted to the RF and DC signal shunt circuit structure through a same signal transmission cable, the RF signal can be transmitted to the antenna structure through the current-shunting capacitor element, and the DC signal can be transmitted to the light-emitting structure through the current-shunting inductor element.

Description

可攜式電子裝置及其具有發光功能的天線模組Portable electronic device and antenna module with light-emitting function

本發明涉及一種電子裝置及其天線模組，特別是涉及一種可攜式電子裝置及其具有發光功能的天線模組。 The present invention relates to an electronic device and an antenna module thereof, and in particular to a portable electronic device and an antenna module thereof with a light-emitting function.

現有技術中，發光結構與天線結構是彼此分離設置，並且發光結構需要使用一直流訊號傳輸線來接收直接訊號，而天線結構則需要使用一射頻訊號傳輸線來接收射頻訊號，所以現有技術中的發光結構與天線結構的整合仍然具有可改善空間。 In the prior art, the light-emitting structure and the antenna structure are separated from each other, and the light-emitting structure needs to use a DC signal transmission line to receive direct signals, while the antenna structure needs to use an RF signal transmission line to receive RF signals. Therefore, the integration of the light-emitting structure and the antenna structure in the prior art still has room for improvement.

本發明所要解決的技術問題在於，針對現有技術的不足提供一種可攜式電子裝置及其具有發光功能的天線模組。 The technical problem to be solved by the present invention is to provide a portable electronic device and an antenna module with a light-emitting function to address the deficiencies of the existing technology.

為了解決上述的技術問題，本發明所採用的其中一技術方案是提供一種具有發光功能的天線模組，其包括：一射頻與直流訊號分流電路結構、一天線結構以及一發光結構。射頻與直流訊號分流電路結構包括一電路基板、設置在電路基板上的一分流用電容元件以及設置在電路基板上的一分流用電感元件。天線結構電性連接於射頻與直流訊號分流電路結構的分流用電容元件。發光結構電性連接於射頻與直流訊號分流電路結構的分流用電感 元件。 In order to solve the above technical problems, one of the technical solutions adopted by the present invention is to provide an antenna module with a light-emitting function, which includes: an RF and DC signal shunt circuit structure, an antenna structure and a light-emitting structure. The RF and DC signal shunt circuit structure includes a circuit substrate, a shunt capacitor element disposed on the circuit substrate, and a shunt inductor element disposed on the circuit substrate. The antenna structure is electrically connected to the shunt capacitor element of the RF and DC signal shunt circuit structure. The light-emitting structure is electrically connected to the shunt inductor element of the RF and DC signal shunt circuit structure.

為了解決上述的技術問題，本發明所採用的另外一技術方案是提供一種可攜式電子裝置，可攜式電子裝置使用一具有發光功能的天線模組，其特徵在於，天線模組包括：一射頻與直流訊號分流電路結構、一天線結構以及一發光結構。射頻與直流訊號分流電路結構包括一電路基板、設置在電路基板上的一分流用電容元件以及設置在電路基板上的一分流用電感元件。天線結構電性連接於射頻與直流訊號分流電路結構的分流用電容元件。發光結構電性連接於射頻與直流訊號分流電路結構的分流用電感元件。 In order to solve the above technical problems, another technical solution adopted by the present invention is to provide a portable electronic device, which uses an antenna module with a light-emitting function, and is characterized in that the antenna module includes: an RF and DC signal shunt circuit structure, an antenna structure and a light-emitting structure. The RF and DC signal shunt circuit structure includes a circuit substrate, a shunt capacitor element disposed on the circuit substrate, and a shunt inductor element disposed on the circuit substrate. The antenna structure is electrically connected to the shunt capacitor element of the RF and DC signal shunt circuit structure. The light-emitting structure is electrically connected to the shunt inductor element of the RF and DC signal shunt circuit structure.

本發明的其中一有益效果在於，本發明所提供的一種可攜式電子裝置及其具有發光功能的天線模組，其能通過“射頻與直流訊號分流電路結構包括一電路基板、設置在電路基板上的一分流用電容元件以及設置在電路基板上的一分流用電感元件”、“天線結構電性連接於射頻與直流訊號分流電路結構的分流用電容元件”以及“發光結構電性連接於射頻與直流訊號分流電路結構的分流用電感元件”的技術方案，以使得當一射頻訊號以及一直流訊號透過同一個訊號傳輸線而輸入到射頻與直流訊號分流電路結構時，射頻訊號可以通過分流用電容元件而傳送到天線結構，並且直流訊號可以通過分流用電感元件而傳送到發光結構。 One of the beneficial effects of the present invention is that the portable electronic device and the antenna module with light-emitting function provided by the present invention can realize the RF and DC signal shunt circuit structure by "the shunt capacitor element disposed on the circuit substrate and the shunt inductor element disposed on the circuit substrate", "the antenna structure is electrically connected to the shunt capacitor element of the RF and DC signal shunt circuit structure The invention discloses a technical solution of "a luminous structure electrically connected to a shunt inductor element of a shunt circuit structure of RF and DC signals", so that when an RF signal and a DC signal are input into the shunt circuit structure of RF and DC signals through the same signal transmission line, the RF signal can be transmitted to the antenna structure through the shunt capacitor element, and the DC signal can be transmitted to the luminous structure through the shunt inductor element.

為使能進一步瞭解本發明的特徵及技術內容，請參閱以下有關本發明的詳細說明與圖式，然而所提供的圖式僅用於提供參考與說明，並非用來對本發明加以限制。 To further understand the features and technical contents of the present invention, please refer to the following detailed description and drawings of the present invention. However, the drawings provided are only for reference and description and are not used to limit the present invention.

P:可攜式電子裝置 P: Portable electronic devices

M:天線模組 M: Antenna module

1:射頻與直流訊號分流電路結構 1:RF and DC signal shunt circuit structure

10:電路基板 10: Circuit board

101:第一導電路徑 101: First conductive path

102:第二導電路徑 102: Second conductive path

103:第三導電路徑 103: The third conductive path

11:分流用電容元件 11: Shunt capacitor element

11A:匹配用電感元件 11A: Matching inductor components

12:分流用電感元件 12: Shunt inductor components

12A:匹配用電容元件 12A: Matching capacitor element

13:第一電連接器 13: First electrical connector

14:第二電連接器 14: Second electrical connector

15:第三電連接器 15: Third electrical connector

16:第一導電焊墊 16: First conductive pad

17:第二導電焊墊 17: Second conductive pad

18:第三導電焊墊 18: The third conductive pad

2:天線結構 2: Antenna structure

3:發光結構 3: Luminous structure

30:發光晶片 30: Light-emitting chip

RF:射頻訊號 RF: Radio frequency signal

DC:直流訊號 DC: Direct current signal

L:訊號傳輸線 L:Signal transmission line

圖1為本發明第一實施例所提供的具有發光功能的天線模組的第一實施態樣的功能方塊圖。 FIG1 is a functional block diagram of the first embodiment of the antenna module with light-emitting function provided by the first embodiment of the present invention.

圖2為本發明第一實施例所提供的具有發光功能的天線模組的第二實施態樣的功能方塊圖。 FIG2 is a functional block diagram of the second embodiment of the antenna module with light-emitting function provided in the first embodiment of the present invention.

圖3為本發明第一實施例所提供的具有發光功能的天線模組的第三實施態樣的功能方塊圖。 FIG3 is a functional block diagram of the third embodiment of the antenna module with light-emitting function provided in the first embodiment of the present invention.

圖4為本發明第一實施例所提供的具有發光功能的天線模組的第四實施態樣的功能方塊圖。 FIG4 is a functional block diagram of the fourth embodiment of the antenna module with light-emitting function provided in the first embodiment of the present invention.

圖5為本發明第二實施例所提供的具有發光功能的天線模組的其中一實施態樣的功能方塊圖。 FIG5 is a functional block diagram of one implementation of the antenna module with light-emitting function provided in the second embodiment of the present invention.

圖6為本發明第三實施例所提供的具有發光功能的天線模組的其中一實施態樣的功能方塊圖。 FIG6 is a functional block diagram of one implementation of the antenna module with light-emitting function provided in the third embodiment of the present invention.

圖7為本發明第四實施例所提供的可攜式電子裝置使用一具有發光功能的天線模組的功能方塊圖。 FIG7 is a functional block diagram of a portable electronic device provided in the fourth embodiment of the present invention using an antenna module with a light-emitting function.

以下是通過特定的具體實施例來說明本發明所公開有關“可攜式電子裝置及其具有發光功能的天線模組”的實施方式，本領域技術人員可由本說明書所公開的內容瞭解本發明的優點與效果。本發明可通過其他不同的具體實施例加以實行或應用，本說明書中的各項細節也可基於不同觀點與應用，在不背離本發明的構思下進行各種修改與變更。另外，需事先聲明的是，本發明的圖式僅為簡單示意說明，並非依實際尺寸的描繪。以下的實施方式將進一步詳細說明本發明的相關技術內容，但所公開的內容並非用以限制本發明的保護範圍。另外，本文中所使用的術語“或”，應視實際情況可能包括相關聯的列出項目中的任一個或者多個的組合。 The following is an explanation of the implementation of the "portable electronic device and antenna module with light-emitting function" disclosed in the present invention through specific concrete embodiments. The technical personnel in this field can understand the advantages and effects of the present invention from the contents disclosed in this specification. The present invention can be implemented or applied through other different specific embodiments, and the details in this specification can also be modified and changed in various ways based on different viewpoints and applications without departing from the concept of the present invention. In addition, it should be stated in advance that the drawings of the present invention are only simple schematic illustrations and are not depicted according to actual sizes. The following implementation will further explain the relevant technical contents of the present invention in detail, but the disclosed contents are not intended to limit the scope of protection of the present invention. In addition, the term "or" used in this document may include any one or more combinations of the associated listed items as the case may be.

[第一實施例] [First embodiment]

參閱圖1至圖4所示，本發明第一實施例提供一種具有發光功能的天線模組M，其包括：一射頻與直流訊號分流電路結構1、一天線結構2以及一發光結構3。 Referring to Figures 1 to 4, the first embodiment of the present invention provides an antenna module M with a light-emitting function, which includes: a radio frequency and DC signal shunt circuit structure 1, an antenna structure 2, and a light-emitting structure 3.

首先，如圖1所示，射頻與直流訊號分流電路結構1包括一電路基板10、設置在電路基板10上的一分流用電容元件11以及設置在電路基板10上的一分流用電感元件12。另外，天線結構2電性連接於射頻與直流訊號分流電路結構1的分流用電容元件11，並且發光結構3電性連接於射頻與直流訊號分流電路結構1的分流用電感元件12。藉此，當都是從射頻與直流訊號分流電路結構1的外部傳送而來的一射頻訊號RF以及一直流訊號DC透過“同一個訊號傳輸線L”而輸入到射頻與直流訊號分流電路結構1時，射頻訊號RF可以通過分流用電容元件11而傳送到天線結構2(此時，射頻訊號RF不會通過分流用電感元件12)，並且直流訊號DC可以通過分流用電感元件12而傳送到發光結構3(此時，直流訊號DC不會通過分流用電容元件11)。 First, as shown in FIG1 , the RF and DC signal shunt circuit structure 1 includes a circuit substrate 10, a shunt capacitor 11 disposed on the circuit substrate 10, and a shunt inductor 12 disposed on the circuit substrate 10. In addition, the antenna structure 2 is electrically connected to the shunt capacitor 11 of the RF and DC signal shunt circuit structure 1, and the light-emitting structure 3 is electrically connected to the shunt inductor 12 of the RF and DC signal shunt circuit structure 1. Thus, when an RF signal RF and a DC signal DC transmitted from the outside of the RF and DC signal shunt circuit structure 1 are input into the RF and DC signal shunt circuit structure 1 through the "same signal transmission line L", the RF signal RF can be transmitted to the antenna structure 2 through the shunt capacitor element 11 (at this time, the RF signal RF will not pass through the shunt inductor element 12), and the DC signal DC can be transmitted to the light-emitting structure 3 through the shunt inductor element 12 (at this time, the DC signal DC will not pass through the shunt capacitor element 11).

再者，如圖1所示，射頻與直流訊號分流電路結構1包括一第一電連接器13、一第二電連接器14以及一第三電連接器15，天線結構2與電路基板10彼此分離，並且發光結構3與電路基板10彼此分離。更進一步來說，第一電連接器13設置在電路基板10上且電性連接於訊號傳輸線L，以用於接收射頻訊號RF以及直流訊號DC。第二電連接器14設置在電路基板10上且電性連接於天線結構2，以用於輸出射頻訊號RF到天線結構2，以使得射頻訊號RF可以透過天線結構2進行收發。第三電連接器15設置在電路基板10上且電性連接於發光結構3，以用於輸出直流訊號DC到發光結構3，以使得發光結構3可以透過直流訊號DC所提供的電源(直流電源)而產生光源。 Furthermore, as shown in FIG1 , the RF and DC signal shunt circuit structure 1 includes a first electrical connector 13, a second electrical connector 14, and a third electrical connector 15, the antenna structure 2 and the circuit substrate 10 are separated from each other, and the light-emitting structure 3 and the circuit substrate 10 are separated from each other. Further, the first electrical connector 13 is disposed on the circuit substrate 10 and electrically connected to the signal transmission line L to receive the RF signal RF and the DC signal DC. The second electrical connector 14 is disposed on the circuit substrate 10 and electrically connected to the antenna structure 2 to output the RF signal RF to the antenna structure 2, so that the RF signal RF can be transmitted and received through the antenna structure 2. The third electrical connector 15 is disposed on the circuit substrate 10 and electrically connected to the light-emitting structure 3 for outputting a DC signal DC to the light-emitting structure 3, so that the light-emitting structure 3 can generate a light source through the power (DC power supply) provided by the DC signal DC.

此外，如圖1所示，電路基板10具有一第一導電路徑101、一第二導電路徑102以及一第三導電路徑103。更進一步來說，第一導電路徑101電 性連接於第一電連接器13、分流用電容元件11以及分流用電感元件12之間，以用於將射頻訊號RF以及直流訊號DC分別傳送到分流用電容元件11以及分流用電感元件12。第二導電路徑102電性連接於分流用電容元件11以及第二電連接器14之間，以用於將射頻訊號RF從分流用電容元件11傳送到第二電連接器14。第三導電路徑103電性連接於分流用電感元件12以及第三電連接器15之間，以用於將直流訊號DC從分流用電感元件12傳送到第三電連接器15。 In addition, as shown in FIG. 1 , the circuit substrate 10 has a first conductive path 101, a second conductive path 102, and a third conductive path 103. More specifically, the first conductive path 101 is electrically connected between the first electrical connector 13, the shunt capacitor 11, and the shunt inductor 12, so as to transmit the radio frequency signal RF and the direct current signal DC to the shunt capacitor 11 and the shunt inductor 12, respectively. The second conductive path 102 is electrically connected between the shunt capacitor 11 and the second electrical connector 14, so as to transmit the radio frequency signal RF from the shunt capacitor 11 to the second electrical connector 14. The third conductive path 103 is electrically connected between the shunt inductor element 12 and the third electrical connector 15 to transmit the DC signal DC from the shunt inductor element 12 to the third electrical connector 15.

舉例來說，分流用電容元件11可以是陶瓷電容器，或者是任何可以用於過濾直流訊號DC的被動元件(或者是，也可以不採用此種被動元件)，並且分流用電感元件12可以是陶瓷電感器，或者是任何可以用於過濾射頻訊號RF的被動元件(或者是，也可以不採用此種被動元件)。由於分流用電容元件11與分流用電感元件12可以分別採用陶瓷電容器與陶瓷電感器，所以本發明可以用於承受高功率傳輸，此特性適用於小型基地站。另外，天線結構2可以是應用於Wi-Fi 6E或者適用於5G的Frequency Range 1(包括6G赫茲以下的全頻段，例如410MHz至7125MHz之間)的天線結構，或者是任何可以用於收發射頻訊號RF的天線結構，並且各頻段範圍都具有“低介入損耗”以及“高隔離度(也就是可以達到共用線路而不互相干擾的特性，能夠同時收發射頻訊號RF以及產生發光效果的功能)”的特性。此外，發光結構3可以包括至少一發光二極體晶片，或者是任何可以用於產生光源的至少一發光元件。然而，上述所舉的例子只是其中一可行的實施例而並非用以限定本發明。 For example, the shunt capacitor 11 may be a ceramic capacitor or any passive element that can be used to filter a DC signal (or, such a passive element may not be used), and the shunt inductor 12 may be a ceramic inductor or any passive element that can be used to filter a RF signal (or, such a passive element may not be used). Since the shunt capacitor 11 and the shunt inductor 12 may be ceramic capacitors and ceramic inductors, respectively, the present invention can be used to withstand high power transmission, and this feature is suitable for small base stations. In addition, the antenna structure 2 can be an antenna structure applied to Wi-Fi 6E or Frequency Range 1 (including the full frequency band below 6 GHz, such as between 410 MHz and 7125 MHz) for 5G, or any antenna structure that can be used to transmit and receive radio frequency signals RF, and each frequency band has the characteristics of "low insertion loss" and "high isolation (that is, the characteristics of being able to share a line without mutual interference, and being able to simultaneously transmit and receive radio frequency signals RF and generate luminous effects)". In addition, the light-emitting structure 3 can include at least one light-emitting diode chip, or any at least one light-emitting element that can be used to generate a light source. However, the above example is only one of the feasible embodiments and is not intended to limit the present invention.

舉例來說，配合圖2至圖4所示，射頻與直流訊號分流電路結構1包括多個匹配用電感元件11A以及多個匹配用電容元件12A。更進一步來說，多個匹配用電感元件11A以及多個匹配用電容元件12A之中的其中一個可以設置在電路基板的第二導電路徑102上，以並聯或者串聯的方式電性連接於分 流用電容元件11與第二電連接器14之間，藉此以使得本發明能夠提供較佳的天線阻抗匹配(例如，如圖2或者圖4所示，可以採用1個匹配用電感元件11A)。再者，多個匹配用電感元件11A以及多個匹配用電容元件12A之中的另外一個設置在電路基板的第三導電路徑103上，以並聯或者串聯的方式電性連接於分流用電感元件12與第三電連接器15之間，藉此以使得本發明能夠提供較佳的天線阻抗匹配(例如，如圖3或者圖4所示，可以採用1個匹配用電容元件12A)。也就是說，本發明可以透過匹配用電感元件11A以及/或者匹配用電容元件12A的選用(也就是說，在第二導電路徑102以及第三導電路徑103上，不限定是使用匹配用電感元件11A或者是使用匹配用電容元件12A，也不限定匹配用電感元件11A以及匹配用電容元件12A所使用的數量)，以及透過並聯或者串聯的電性連接方式的調整，以使得本發明能夠提供較佳的天線阻抗匹配。然而，上述所舉的例子只是其中一可行的實施例而並非用以限定本發明。 For example, as shown in FIGS. 2 to 4, the RF and DC signal shunt circuit structure 1 includes a plurality of matching inductance elements 11A and a plurality of matching capacitance elements 12A. Further, one of the plurality of matching inductance elements 11A and the plurality of matching capacitance elements 12A can be disposed on the second conductive path 102 of the circuit substrate, and electrically connected in parallel or in series between the shunt capacitance element 11 and the second electrical connector 14, so that the present invention can provide better antenna impedance matching (for example, as shown in FIG. 2 or FIG. 4, one matching inductance element 11A can be used). Furthermore, another one of the multiple matching inductance elements 11A and the multiple matching capacitance elements 12A is arranged on the third conductive path 103 of the circuit substrate, and is electrically connected between the shunt inductance element 12 and the third electrical connector 15 in parallel or series, so that the present invention can provide better antenna impedance matching (for example, as shown in Figure 3 or Figure 4, one matching capacitance element 12A can be used). That is, the present invention can provide better antenna impedance matching by selecting the matching inductor 11A and/or the matching capacitor 12A (that is, in the second conductive path 102 and the third conductive path 103, it is not limited to use the matching inductor 11A or the matching capacitor 12A, and the number of the matching inductor 11A and the matching capacitor 12A used is not limited), and by adjusting the parallel or series electrical connection mode. However, the above example is only one feasible embodiment and is not used to limit the present invention.

[第二實施例] [Second embodiment]

參閱圖5所示，本發明第二實施例提供一種具有發光功能的天線模組M，其包括：一射頻與直流訊號分流電路結構1、一天線結構2以及一發光結構3。由圖5與圖1的比較可知，本發明第二實施例與第一實施例最主要的差異在於：在第二實施例中，射頻與直流訊號分流電路結構1包括一第一電連接器13以及一第二電連接器14(省略第一實施中的第三電連接器)，並且發光結構3包括直接設置在電路基板10上的多個發光晶片30。另外，第三導電路徑103電性連接於分流用電感元件12以及發光結構3之間，以用於將直流訊號DC從分流用電感元件12傳送到多個發光晶片30。 Referring to FIG. 5 , the second embodiment of the present invention provides an antenna module M with a light-emitting function, which includes: an RF and DC signal shunt circuit structure 1, an antenna structure 2, and a light-emitting structure 3. As can be seen from the comparison between FIG. 5 and FIG. 1 , the main difference between the second embodiment of the present invention and the first embodiment is that: in the second embodiment, the RF and DC signal shunt circuit structure 1 includes a first electrical connector 13 and a second electrical connector 14 (the third electrical connector in the first embodiment is omitted), and the light-emitting structure 3 includes a plurality of light-emitting chips 30 directly disposed on the circuit substrate 10. In addition, the third conductive path 103 is electrically connected between the shunt inductor element 12 and the light-emitting structure 3 to transmit the DC signal DC from the shunt inductor element 12 to the plurality of light-emitting chips 30.

值得注意的是，舉例來說，與第一實施例的圖2、圖3與圖4相同的是，在第二實施例中，多個匹配用電感元件(圖未示)以及多個匹配用電容元件(圖未示)之中的其中一個可以設置在電路基板的第二導電路徑102 上，以並聯或者串聯的方式電性連接於分流用電容元件11與第二電連接器14之間，藉此以使得本發明能夠提供較佳的天線阻抗匹配。另外，多個匹配用電感元件(圖未示)以及多個匹配用電容元件(圖未示)之中的另外一個可以設置在電路基板的第三導電路徑103上，以並聯或者串聯的方式電性連接於分流用電感元件12與發光結構3之間。然而，上述所舉的例子只是其中一可行的實施例而並非用以限定本發明。 It is worth noting that, for example, similar to FIG. 2, FIG. 3 and FIG. 4 of the first embodiment, in the second embodiment, one of the multiple matching inductance elements (not shown) and the multiple matching capacitance elements (not shown) can be arranged on the second conductive path 102 of the circuit substrate, and electrically connected in parallel or in series between the shunt capacitance element 11 and the second electrical connector 14, so that the present invention can provide better antenna impedance matching. In addition, another one of the multiple matching inductance elements (not shown) and the multiple matching capacitance elements (not shown) can be arranged on the third conductive path 103 of the circuit substrate, and electrically connected in parallel or in series between the shunt capacitance element 12 and the light-emitting structure 3. However, the above example is only one feasible embodiment and is not intended to limit the present invention.

[第三實施例] [Third embodiment]

參閱圖6所示，本發明第三實施例提供一種具有發光功能的天線模組M，其包括：一射頻與直流訊號分流電路結構1、一天線結構2以及一發光結構3。由圖6與圖1的比較可知，本發明第三實施例與第一實施例最主要的差異在於：在第三實施例中，射頻與直流訊號分流電路結構1包括一第一導電焊墊16、一第二導電焊墊17以及一第三導電焊墊18。 Referring to FIG6 , the third embodiment of the present invention provides an antenna module M with a light-emitting function, which includes: an RF and DC signal shunt circuit structure 1, an antenna structure 2, and a light-emitting structure 3. From the comparison between FIG6 and FIG1 , it can be seen that the main difference between the third embodiment of the present invention and the first embodiment is that: in the third embodiment, the RF and DC signal shunt circuit structure 1 includes a first conductive pad 16, a second conductive pad 17, and a third conductive pad 18.

更進一步來說，如圖6所示，第一導電焊墊16設置在電路基板10上且電性連接於訊號傳輸線L，以用於接收射頻訊號RF以及直流訊號DC。其中，第二導電焊墊17設置在電路基板10上且電性連接於天線結構2，以用於輸出射頻訊號RF到天線結構2，以使得射頻訊號RF可以透過天線結構2進行收發。其中，第三導電焊墊18設置在電路基板10上且電性連接於發光結構3，以用於輸出直流訊號DC到發光結構3，以使得發光結構3可以透過直流訊號DC所提供的電源(直流電源)而產生光源。 Furthermore, as shown in FIG6 , the first conductive pad 16 is disposed on the circuit substrate 10 and electrically connected to the signal transmission line L for receiving the radio frequency signal RF and the direct current signal DC. The second conductive pad 17 is disposed on the circuit substrate 10 and electrically connected to the antenna structure 2 for outputting the radio frequency signal RF to the antenna structure 2, so that the radio frequency signal RF can be transmitted and received through the antenna structure 2. The third conductive pad 18 is disposed on the circuit substrate 10 and electrically connected to the light-emitting structure 3 for outputting the direct current signal DC to the light-emitting structure 3, so that the light-emitting structure 3 can generate a light source through the power (direct current power source) provided by the direct current signal DC.

更進一步來說，如圖6所示，電路基板10具有一第一導電路徑101、一第二導電路徑102以及一第三導電路徑103。其中，第一導電路徑101電性連接於第一導電焊墊16、分流用電容元件11以及分流用電感元件12之間，以用於將射頻訊號RF以及直流訊號DC分別傳送到分流用電容元件11以及分流用電感元件12。其中，第二導電路徑102電性連接於分流用電容元件11以 及第二導電焊墊17之間，以用於將射頻訊號RF從分流用電容元件11傳送到第二導電焊墊17。其中，第三導電路徑103電性連接於分流用電感元件12以及第三導電焊墊18之間，以用於將直流訊號DC從分流用電感元件12傳送到第三導電焊墊18。 Specifically, as shown in FIG6 , the circuit substrate 10 has a first conductive path 101, a second conductive path 102, and a third conductive path 103. The first conductive path 101 is electrically connected between the first conductive pad 16, the shunt capacitor 11, and the shunt inductor 12, so as to transmit the radio frequency signal RF and the direct current signal DC to the shunt capacitor 11 and the shunt inductor 12, respectively. The second conductive path 102 is electrically connected between the shunt capacitor 11 and the second conductive pad 17, so as to transmit the radio frequency signal RF from the shunt capacitor 11 to the second conductive pad 17. The third conductive path 103 is electrically connected between the shunt inductor element 12 and the third conductive pad 18 to transmit the DC signal DC from the shunt inductor element 12 to the third conductive pad 18.

值得注意的是，舉例來說，與第一實施例的圖2、圖3與圖4相同的是，在第三實施例中，多個匹配用電感元件(圖未示)以及多個匹配用電容元件(圖未示)之中的其中一個設置在電路基板的第二導電路徑102上，以並聯或者串聯的方式電性連接於分流用電容元件11與第二導電焊墊17之間。另外，多個匹配用電感元件(圖未示)以及多個匹配用電容元件(圖未示)之中的另外一個設置在電路基板的第三導電路徑103上，以並聯或者串聯的方式電性連接於分流用電感元件12與第三導電焊墊18之間。然而，上述所舉的例子只是其中一可行的實施例而並非用以限定本發明。 It is worth noting that, for example, similar to FIG. 2, FIG. 3 and FIG. 4 of the first embodiment, in the third embodiment, one of the multiple matching inductance elements (not shown) and the multiple matching capacitance elements (not shown) is arranged on the second conductive path 102 of the circuit substrate, and is electrically connected in parallel or in series between the shunt capacitance element 11 and the second conductive pad 17. In addition, another one of the multiple matching inductance elements (not shown) and the multiple matching capacitance elements (not shown) is arranged on the third conductive path 103 of the circuit substrate, and is electrically connected in parallel or in series between the shunt inductance element 12 and the third conductive pad 18. However, the above example is only one feasible embodiment and is not intended to limit the present invention.

[第四實施例] [Fourth embodiment]

參閱圖7所示，本發明第四實施例提供一種可攜式電子裝置P，可攜式電子裝置P使用一具有發光功能的天線模組M，並且天線模組M可以是第一實施例至第三實施例中的任一種天線模組。 Referring to FIG. 7 , the fourth embodiment of the present invention provides a portable electronic device P, which uses an antenna module M with a light-emitting function, and the antenna module M can be any antenna module in the first to third embodiments.

[實施例的有益效果] [Beneficial effects of the embodiment]

本發明的其中一有益效果在於，本發明所提供的一種可攜式電子裝置P及其具有發光功能的天線模組M，其能通過“射頻與直流訊號分流電路結構1包括一電路基板10、設置在電路基板10上的一分流用電容元件11以及設置在電路基板10上的一分流用電感元件12”、“天線結構2電性連接於射頻與直流訊號分流電路結構1的分流用電容元件11”以及“發光結構3電性連接於射頻與直流訊號分流電路結構1的分流用電感元件12”的技術方案，以使得當都是從射頻與直流訊號分流電路結構1的外部傳送而來的一射頻訊號RF以 及一直流訊號DC透過同一個訊號傳輸線L而輸入到射頻與直流訊號分流電路結構1時，射頻訊號RF可以通過分流用電容元件11而傳送到天線結構2，並且直流訊號DC可以通過分流用電感元件12而傳送到發光結構3。 One of the beneficial effects of the present invention is that the portable electronic device P and the antenna module M with light-emitting function provided by the present invention can realize the RF and DC signal shunt circuit structure 1 including a circuit substrate 10, a shunt capacitor element 11 disposed on the circuit substrate 10, and a shunt inductor element 12 disposed on the circuit substrate 10, the antenna structure 2 being electrically connected to the shunt capacitor element 11 of the RF and DC signal shunt circuit structure 1, and the light-emitting structure 3 being electrically connected to the shunt capacitor element 11 of the RF and DC signal shunt circuit structure 1. The invention discloses a technical solution of a shunt inductor element 12" in a RF and DC signal shunt circuit structure 1, so that when a RF signal RF and a DC signal DC transmitted from the outside of the RF and DC signal shunt circuit structure 1 are input into the RF and DC signal shunt circuit structure 1 through the same signal transmission line L, the RF signal RF can be transmitted to the antenna structure 2 through the shunt capacitor element 11, and the DC signal DC can be transmitted to the light-emitting structure 3 through the shunt inductor element 12.

以上所公開的內容僅為本發明的優選可行實施例，並非因此侷限本發明的申請專利範圍，所以凡是運用本發明說明書及圖式內容所做的等效技術變化，均包含於本發明的申請專利範圍內。 The above disclosed contents are only the preferred feasible embodiments of the present invention, and do not limit the scope of the patent application of the present invention. Therefore, all equivalent technical changes made by using the contents of the description and drawings of the present invention are included in the scope of the patent application of the present invention.

M:天線模組 M: Antenna module

1:射頻與直流訊號分流電路結構 1:RF and DC signal shunt circuit structure

10:電路基板 10: Circuit board

101:第一導電路徑 101: First conductive path

102:第二導電路徑 102: Second conductive path

103:第三導電路徑 103: The third conductive path

11:分流用電容元件 11: Capacitor element for shunt

12:分流用電感元件 12: Shunt inductor components

13:第一電連接器 13: First electrical connector

14:第二電連接器 14: Second electrical connector

15:第三電連接器 15: Third electrical connector

2:天線結構 2: Antenna structure

3:發光結構 3: Luminous structure

RF:射頻訊號 RF: Radio frequency signal

DC:直流訊號 DC: Direct current signal

L:訊號傳輸線 L:Signal transmission line

Claims (10)

一種具有發光功能的天線模組，其包括：一射頻與直流訊號分流電路結構，所述射頻與直流訊號分流電路結構包括一電路基板、設置在所述電路基板上的一分流用電容元件以及設置在所述電路基板上的一分流用電感元件；一天線結構，所述天線結構電性連接於所述射頻與直流訊號分流電路結構的所述分流用電容元件之一端；以及一發光結構，所述發光結構電性連接於所述射頻與直流訊號分流電路結構的所述分流用電感元件之一端；其中，所述天線模組被配置以用於透過同一個訊號傳輸線接收都是從所述射頻與直流訊號分流電路結構的外部傳送而來的一射頻訊號以及一直流訊號，並且所述發光結構不會直接接收所述直流訊號；其中，所述分流用電感元件之另一端電性連接於所述發光結構、所述分流用電容元件之另一端以及所述訊號傳輸線之間；其中，所述射頻與直流訊號分流電路結構包括多個匹配用電感元件以及多個匹配用電容元件；其中，多個所述匹配用電感元件以及多個所述匹配用電容元件之中的其中一個設置在所述電路基板上，以並聯或者串聯的方式電性連接於所述分流用電容元件；其中，多個所述匹配用電感元件以及多個所述匹配用電容元件之中的另外一個設置在所述電路基板上，以並聯或者串聯的方式電性連接於所述分流用電感元件。 An antenna module with a light-emitting function comprises: a radio frequency and direct current signal shunt circuit structure, the radio frequency and direct current signal shunt circuit structure comprising a circuit substrate, a shunt capacitor element disposed on the circuit substrate, and a shunt inductor element disposed on the circuit substrate; an antenna structure, the antenna structure being electrically connected to one end of the shunt capacitor element of the radio frequency and direct current signal shunt circuit structure; and a light-emitting structure, the light-emitting structure being electrically connected to one end of the shunt inductor element of the radio frequency and direct current signal shunt circuit structure; wherein the antenna module is configured to receive a radio frequency signal and a direct current signal both transmitted from the outside of the radio frequency and direct current signal shunt circuit structure through the same signal transmission line. , and the light-emitting structure will not directly receive the DC signal; wherein the other end of the shunt inductor element is electrically connected to the light-emitting structure, the other end of the shunt capacitor element and the signal transmission line; wherein the RF and DC signal shunt circuit structure includes a plurality of matching inductors and a plurality of matching capacitors; wherein one of the plurality of matching inductors and the plurality of matching capacitors is disposed on the circuit substrate and is electrically connected to the shunt capacitor element in parallel or in series; wherein another one of the plurality of matching inductors and the plurality of matching capacitors is disposed on the circuit substrate and is electrically connected to the shunt inductor element in parallel or in series. 如請求項1所述的具有發光功能的天線模組， 其中，當所述射頻訊號以及所述直流訊號透過同一個所述訊號傳輸線而輸入到所述射頻與直流訊號分流電路結構時，所述射頻訊號通過所述分流用電容元件而傳送到所述天線結構，且所述直流訊號通過所述分流用電感元件而傳送到所述發光結構。 The antenna module with light-emitting function as described in claim 1, wherein, when the RF signal and the DC signal are input into the RF and DC signal shunt circuit structure through the same signal transmission line, the RF signal is transmitted to the antenna structure through the shunt capacitor element, and the DC signal is transmitted to the light-emitting structure through the shunt inductor element. 如請求項1所述的具有發光功能的天線模組，其中，所述天線結構與所述電路基板彼此分離，且所述發光結構與所述電路基板彼此分離；其中，所述射頻與直流訊號分流電路結構包括一第一電連接器、一第二電連接器以及一第三電連接器；其中，所述第一電連接器設置在所述電路基板上且電性連接於同一個所述訊號傳輸線，以用於接收所述射頻訊號以及所述直流訊號；其中，所述第二電連接器設置在所述電路基板上且電性連接於所述天線結構，以用於輸出所述射頻訊號到所述天線結構；其中，所述第三電連接器設置在所述電路基板上且電性連接於所述發光結構，以用於輸出所述直流訊號到所述發光結構；其中，所述電路基板具有一第一導電路徑、一第二導電路徑以及一第三導電路徑；其中，所述第一導電路徑電性連接於所述第一電連接器、所述分流用電容元件以及所述分流用電感元件之間，以用於將所述射頻訊號以及所述直流訊號分別傳送到所述分流用電容元件以及所述分流用電感元件；其中，所述第二導電路徑電性連接於所述分流用電容元件以及所述第二電連接器之間，以用於將所述射頻訊號從所述分流用電容元件傳送到所述第二電連接器；其中，所述第三導電路徑電性連接於所述分流用電感元件以及所 述第三電連接器之間，以用於將所述直流訊號從所述分流用電感元件傳送到所述第三電連接器。 The antenna module with light-emitting function as claimed in claim 1, wherein the antenna structure and the circuit substrate are separated from each other, and the light-emitting structure and the circuit substrate are separated from each other; wherein the RF and DC signal shunt circuit structure comprises a first electrical connector, a second electrical connector and a third electrical connector; wherein the first electrical connector is arranged on the circuit substrate and electrically connected to the same signal transmission line to receive the RF signal and the DC signal; wherein the second electrical connector is arranged on the circuit substrate and electrically connected to the antenna structure to output the RF signal to the antenna structure; wherein the third electrical connector is arranged on the circuit substrate and electrically connected to the light-emitting structure to output the DC signal to the light-emitting structure; The circuit substrate has a first conductive path, a second conductive path and a third conductive path; the first conductive path is electrically connected between the first electrical connector, the shunt capacitor and the shunt inductor to transmit the radio frequency signal and the direct current signal to the shunt capacitor and the shunt inductor respectively; the second conductive path is electrically connected between the shunt capacitor and the second electrical connector to transmit the radio frequency signal from the shunt capacitor to the second electrical connector; the third conductive path is electrically connected between the shunt inductor and the third electrical connector to transmit the direct current signal from the shunt inductor to the third electrical connector. 如請求項1所述的具有發光功能的天線模組，其中，所述天線結構與所述電路基板彼此分離，且所述發光結構包括直接設置在所述電路基板上的多個發光晶片；其中，所述射頻與直流訊號分流電路結構包括一第一電連接器以及一第二電連接器；其中，所述第一電連接器設置在所述電路基板上且電性連接於同一個所述訊號傳輸線，以用於接收所述射頻訊號以及所述直流訊號；其中，所述第二電連接器設置在所述電路基板上且電性連接於所述天線結構，以用於輸出所述射頻訊號到所述天線結構；其中，所述電路基板具有一第一導電路徑、一第二導電路徑以及一第三導電路徑；其中，所述第一導電路徑電性連接於所述第一電連接器、所述分流用電容元件以及所述分流用電感元件之間，以用於將所述射頻訊號以及所述直流訊號分別傳送到所述分流用電容元件以及所述分流用電感元件；其中，所述第二導電路徑電性連接於所述分流用電容元件以及所述第二電連接器之間，以用於將所述射頻訊號從所述分流用電容元件傳送到所述第二電連接器；其中，所述第三導電路徑電性連接於所述分流用電感元件以及所述發光結構之間，以用於將所述直流訊號從所述分流用電感元件傳送到多個所述發光晶片。 An antenna module with a light-emitting function as described in claim 1, wherein the antenna structure and the circuit substrate are separated from each other, and the light-emitting structure includes a plurality of light-emitting chips directly arranged on the circuit substrate; wherein the RF and DC signal shunt circuit structure includes a first electrical connector and a second electrical connector; wherein the first electrical connector is arranged on the circuit substrate and electrically connected to the same signal transmission line to receive the RF signal and the DC signal; wherein the second electrical connector is arranged on the circuit substrate and electrically connected to the antenna structure to output the RF signal to the antenna structure; wherein the circuit substrate has a first conductive path, a second conductive path, and a second conductive path. path and a third conductive path; wherein the first conductive path is electrically connected between the first electrical connector, the shunt capacitor and the shunt inductor to transmit the RF signal and the DC signal to the shunt capacitor and the shunt inductor respectively; wherein the second conductive path is electrically connected between the shunt capacitor and the second electrical connector to transmit the RF signal from the shunt capacitor to the second electrical connector; wherein the third conductive path is electrically connected between the shunt inductor and the light-emitting structure to transmit the DC signal from the shunt inductor to the plurality of light-emitting chips. 如請求項1所述的具有發光功能的天線模組，其中，所述天線結構與所述電路基板彼此分離，且所述發光結構與所述電路基板彼此分離； 其中，所述射頻與直流訊號分流電路結構包括一第一導電焊墊、一第二導電焊墊以及一第三導電焊墊；其中，所述第一導電焊墊設置在所述電路基板上且電性連接於同一個所述訊號傳輸線，以用於接收所述射頻訊號以及所述直流訊號；其中，所述第二導電焊墊設置在所述電路基板上且電性連接於所述天線結構，以用於輸出所述射頻訊號到所述天線結構；其中，所述第三導電焊墊設置在所述電路基板上且電性連接於所述發光結構，以用於輸出所述直流訊號到所述發光結構；其中，所述電路基板具有一第一導電路徑、一第二導電路徑以及一第三導電路徑；其中，所述第一導電路徑電性連接於所述第一導電焊墊、所述分流用電容元件以及所述分流用電感元件之間，以用於將所述射頻訊號以及所述直流訊號分別傳送到所述分流用電容元件以及所述分流用電感元件；其中，所述第二導電路徑電性連接於所述分流用電容元件以及所述第二導電焊墊之間，以用於將所述射頻訊號從所述分流用電容元件傳送到所述第二導電焊墊；其中，所述第三導電路徑電性連接於所述分流用電感元件以及所述第三導電焊墊之間，以用於將所述直流訊號從所述分流用電感元件傳送到所述第三導電焊墊。 The antenna module with light-emitting function as described in claim 1, wherein the antenna structure and the circuit substrate are separated from each other, and the light-emitting structure and the circuit substrate are separated from each other; Wherein, the RF and DC signal shunt circuit structure includes a first conductive pad, a second conductive pad and a third conductive pad; wherein the first conductive pad is arranged on the circuit substrate and electrically connected to the same signal transmission line to receive the RF signal and the DC signal; wherein the second conductive pad is arranged on the circuit substrate and electrically connected to the antenna structure to output the RF signal to the antenna structure; wherein the third conductive pad is arranged on the circuit substrate and electrically connected to the light-emitting structure to output the DC signal to the light-emitting structure ; wherein the circuit substrate has a first conductive path, a second conductive path and a third conductive path; wherein the first conductive path is electrically connected between the first conductive pad, the shunt capacitor element and the shunt inductor element, so as to transmit the RF signal and the DC signal to the shunt capacitor element and the shunt inductor element respectively; wherein the second conductive path is electrically connected between the shunt capacitor element and the second conductive pad, so as to transmit the RF signal from the shunt capacitor element to the second conductive pad; wherein the third conductive path is electrically connected between the shunt inductor element and the third conductive pad, so as to transmit the DC signal from the shunt inductor element to the third conductive pad. 一種可攜式電子裝置，所述可攜式電子裝置使用一具有發光功能的天線模組，其特徵在於，所述天線模組包括：一射頻與直流訊號分流電路結構，所述射頻與直流訊號分流電路結構包括一電路基板、設置在所述電路基板上的一分流用電容元件以及設置在所述電路基板上的一分流用電感元件； 一天線結構，所述天線結構電性連接於所述射頻與直流訊號分流電路結構的所述分流用電容元件之一端；以及一發光結構，所述發光結構電性連接於所述射頻與直流訊號分流電路結構的所述分流用電感元件之一端；其中，所述天線模組被配置以用於透過同一個訊號傳輸線接收都是從所述射頻與直流訊號分流電路結構的外部傳送而來的一射頻訊號以及一直流訊號，並且所述發光結構不會直接接收所述直流訊號；其中，所述分流用電感元件之另一端電性連接於所述發光結構、所述分流用電容元件之另一端以及所述訊號傳輸線之間；其中，所述射頻與直流訊號分流電路結構包括多個匹配用電感元件以及多個匹配用電容元件；其中，多個所述匹配用電感元件以及多個所述匹配用電容元件之中的其中一個設置在所述電路基板上，以並聯或者串聯的方式電性連接於所述分流用電容元件；其中，多個所述匹配用電感元件以及多個所述匹配用電容元件之中的另外一個設置在所述電路基板上，以並聯或者串聯的方式電性連接於所述分流用電感元件。 A portable electronic device uses an antenna module with a light-emitting function, wherein the antenna module comprises: a radio frequency and direct current signal shunt circuit structure, the radio frequency and direct current signal shunt circuit structure comprising a circuit substrate, a shunt capacitor element disposed on the circuit substrate, and a shunt inductor element disposed on the circuit substrate; an antenna structure, the antenna structure being electrically connected to one end of the shunt capacitor element of the radio frequency and direct current signal shunt circuit structure; and a light-emitting structure, the light-emitting structure being electrically connected to one end of the shunt inductor element of the radio frequency and direct current signal shunt circuit structure; wherein the antenna module is configured to receive signals transmitted from an external source of the radio frequency and direct current signal shunt circuit structure through the same signal transmission line. A radio frequency signal and a direct current signal are sent, and the light-emitting structure does not directly receive the direct current signal; wherein the other end of the shunt inductor element is electrically connected to the light-emitting structure, the other end of the shunt capacitor element and the signal transmission line; wherein the radio frequency and direct current signal shunt circuit structure includes a plurality of matching inductors and a plurality of matching capacitor elements; wherein one of the plurality of matching inductors and the plurality of matching capacitor elements is disposed on the circuit substrate and is electrically connected to the shunt capacitor element in parallel or in series; wherein another one of the plurality of matching inductors and the plurality of matching capacitor elements is disposed on the circuit substrate and is electrically connected to the shunt inductor element in parallel or in series. 如請求項6所述的可攜式電子裝置，其中，當所述射頻訊號以及所述直流訊號透過同一個所述訊號傳輸線而輸入到所述射頻與直流訊號分流電路結構時，所述射頻訊號通過所述分流用電容元件而傳送到所述天線結構，且所述直流訊號通過所述分流用電感元件而傳送到所述發光結構。 The portable electronic device as described in claim 6, wherein when the RF signal and the DC signal are input into the RF and DC signal shunt circuit structure through the same signal transmission line, the RF signal is transmitted to the antenna structure through the shunt capacitor element, and the DC signal is transmitted to the light-emitting structure through the shunt inductor element. 如請求項6所述的可攜式電子裝置，其中，所述天線結構與所述電路基板彼此分離，且所述發光結構與所述電路基板彼此分離；其中，所述射頻與直流訊號分流電路結構包括一第一電連接器、一第二電連接器以及一第三電連接器；其中，所述第一電連接器設置在所述電路基板上且電性連接於同一個所述訊號傳輸線，以用於接收所述射頻訊號以及所述直流訊號；其中，所述第二電連接器設置在所述電路基板上且電性連接於所述天線結構，以用於輸出所述射頻訊號到所述天線結構；其中，所述第三電連接器設置在所述電路基板上且電性連接於所述發光結構，以用於輸出所述直流訊號到所述發光結構；其中，所述電路基板具有一第一導電路徑、一第二導電路徑以及一第三導電路徑；其中，所述第一導電路徑電性連接於所述第一電連接器、所述分流用電容元件以及所述分流用電感元件之間，以用於將所述射頻訊號以及所述直流訊號分別傳送到所述分流用電容元件以及所述分流用電感元件；其中，所述第二導電路徑電性連接於所述分流用電容元件以及所述第二電連接器之間，以用於將所述射頻訊號從所述分流用電容元件傳送到所述第二電連接器；其中，所述第三導電路徑電性連接於所述分流用電感元件以及所述第三電連接器之間，以用於將所述直流訊號從所述分流用電感元件傳送到所述第三電連接器。 A portable electronic device as described in claim 6, wherein the antenna structure and the circuit substrate are separated from each other, and the light-emitting structure and the circuit substrate are separated from each other; wherein the RF and DC signal shunt circuit structure includes a first electrical connector, a second electrical connector and a third electrical connector; wherein the first electrical connector is arranged on the circuit substrate and electrically connected to the same signal transmission line to receive the RF signal and the DC signal; wherein the second electrical connector is arranged on the circuit substrate and electrically connected to the antenna structure to output the RF signal to the antenna structure; wherein the third electrical connector is arranged on the circuit substrate and electrically connected to the light-emitting structure to output the DC signal to the light-emitting structure; wherein , the circuit substrate has a first conductive path, a second conductive path and a third conductive path; wherein the first conductive path is electrically connected between the first electrical connector, the shunt capacitor and the shunt inductor to transmit the RF signal and the DC signal to the shunt capacitor and the shunt inductor respectively; wherein the second conductive path is electrically connected between the shunt capacitor and the second electrical connector to transmit the RF signal from the shunt capacitor to the second electrical connector; wherein the third conductive path is electrically connected between the shunt inductor and the third electrical connector to transmit the DC signal from the shunt inductor to the third electrical connector. 如請求項6所述的可攜式電子裝置，其中，所述天線結構與所述電路基板彼此分離，且所述發光結構包括直接設置在所述電路基板上的多個發光晶片； 其中，所述射頻與直流訊號分流電路結構包括一第一電連接器以及一第二電連接器；其中，所述第一電連接器設置在所述電路基板上且電性連接於同一個所述訊號傳輸線，以用於接收所述射頻訊號以及所述直流訊號；其中，所述第二電連接器設置在所述電路基板上且電性連接於所述天線結構，以用於輸出所述射頻訊號到所述天線結構；其中，所述電路基板具有一第一導電路徑、一第二導電路徑以及一第三導電路徑；其中，所述第一導電路徑電性連接於所述第一電連接器、所述分流用電容元件以及所述分流用電感元件之間，以用於將所述射頻訊號以及所述直流訊號分別傳送到所述分流用電容元件以及所述分流用電感元件；其中，所述第二導電路徑電性連接於所述分流用電容元件以及所述第二電連接器之間，以用於將所述射頻訊號從所述分流用電容元件傳送到所述第二電連接器；其中，所述第三導電路徑電性連接於所述分流用電感元件以及所述發光結構之間，以用於將所述直流訊號從所述分流用電感元件傳送到多個所述發光晶片。 A portable electronic device as described in claim 6, wherein the antenna structure and the circuit substrate are separated from each other, and the light-emitting structure includes a plurality of light-emitting chips directly disposed on the circuit substrate; wherein the RF and DC signal shunt circuit structure includes a first electrical connector and a second electrical connector; wherein the first electrical connector is disposed on the circuit substrate and electrically connected to the same signal transmission line for receiving the RF signal and the DC signal; wherein the second electrical connector is disposed on the circuit substrate and electrically connected to the antenna structure for outputting the RF signal to the antenna structure; wherein the circuit substrate has a first conductive path, a second conductive path, and a second conductive path. and a third conductive path; wherein the first conductive path is electrically connected between the first electrical connector, the shunt capacitor and the shunt inductor to transmit the RF signal and the DC signal to the shunt capacitor and the shunt inductor respectively; wherein the second conductive path is electrically connected between the shunt capacitor and the second electrical connector to transmit the RF signal from the shunt capacitor to the second electrical connector; wherein the third conductive path is electrically connected between the shunt inductor and the light-emitting structure to transmit the DC signal from the shunt inductor to the plurality of light-emitting chips. 如請求項6所述的可攜式電子裝置，其中，所述天線結構與所述電路基板彼此分離，且所述發光結構與所述電路基板彼此分離；其中，所述射頻與直流訊號分流電路結構包括一第一導電焊墊、一第二導電焊墊以及一第三導電焊墊；其中，所述第一導電焊墊設置在所述電路基板上且電性連接於同一個所述訊號傳輸線，以用於接收所述射頻訊號以及所述直流訊號；其中，所述第二導電焊墊設置在所述電路基板上且電性連接於所述天線結構，以用於輸出所述射頻訊號到所述 天線結構；其中，所述第三導電焊墊設置在所述電路基板上且電性連接於所述發光結構，以用於輸出所述直流訊號到所述發光結構；其中，所述電路基板具有一第一導電路徑、一第二導電路徑以及一第三導電路徑；其中，所述第一導電路徑電性連接於所述第一導電焊墊、所述分流用電容元件以及所述分流用電感元件之間，以用於將所述射頻訊號以及所述直流訊號分別傳送到所述分流用電容元件以及所述分流用電感元件；其中，所述第二導電路徑電性連接於所述分流用電容元件以及所述第二導電焊墊之間，以用於將所述射頻訊號從所述分流用電容元件傳送到所述第二導電焊墊；其中，所述第三導電路徑電性連接於所述分流用電感元件以及所述第三導電焊墊之間，以用於將所述直流訊號從所述分流用電感元件傳送到所述第三導電焊墊。 A portable electronic device as described in claim 6, wherein the antenna structure and the circuit substrate are separated from each other, and the light-emitting structure and the circuit substrate are separated from each other; wherein the RF and DC signal shunt circuit structure includes a first conductive pad, a second conductive pad and a third conductive pad; wherein the first conductive pad is disposed on the circuit substrate and electrically connected to the same signal transmission line to receive the RF signal and the DC signal; wherein the second conductive pad is disposed on the circuit substrate and electrically connected to the antenna structure to output the RF signal to the antenna structure; wherein the third conductive pad is disposed on the circuit substrate and electrically connected to the light-emitting structure to output the DC signal to the light-emitting structure; wherein In the invention, the circuit substrate has a first conductive path, a second conductive path and a third conductive path; wherein the first conductive path is electrically connected between the first conductive pad, the shunt capacitor element and the shunt inductor element, so as to transmit the radio frequency signal and the direct current signal to the shunt capacitor element and the shunt inductor element respectively; wherein the second conductive path is electrically connected between the shunt capacitor element and the second conductive pad, so as to transmit the radio frequency signal from the shunt capacitor element to the second conductive pad; wherein the third conductive path is electrically connected between the shunt inductor element and the third conductive pad, so as to transmit the direct current signal from the shunt inductor element to the third conductive pad.

Images