TW201707391A - Multifunction electronic apparatus and switching method thereof - Google Patents

Multifunction electronic apparatus and switching method thereof Download PDF

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Publication number
TW201707391A
TW201707391A TW104126284A TW104126284A TW201707391A TW 201707391 A TW201707391 A TW 201707391A TW 104126284 A TW104126284 A TW 104126284A TW 104126284 A TW104126284 A TW 104126284A TW 201707391 A TW201707391 A TW 201707391A
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circuit
antenna unit
touch
electronic device
wireless transceiver
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TW104126284A
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Chinese (zh)
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TWI573406B (en
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翁瑞興
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業成光電(深圳)有限公司
英特盛科技股份有限公司
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B40/00Technologies aiming at improving the efficiency of home appliances, e.g. induction cooking or efficient technologies for refrigerators, freezers or dish washers

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  • Charge And Discharge Circuits For Batteries Or The Like (AREA)
  • Telephone Function (AREA)
  • Details Of Aerials (AREA)

Abstract

A multifunction electronic apparatus and a switching method are disclosed. The multifunction electronic apparatus includes an antenna unit, a wireless transceiver unit, a touch control circuit and a switching circuit. The switching circuit is coupled between the antenna unit and the wireless transceiver circuit or coupled between the antenna unit and the touch control circuit. While the switching circuit is switched to couple the antenna unit with the wireless transceiver circuit, the wireless transceiver circuit is configured for charging a battery unit wirelessly. While the switching circuit is switched to couple the antenna unit with the touch control circuit, the touch control circuit is configured for detecting a touch motion of a charged object.

Description

多功能電子裝置及其切換方法 Multifunctional electronic device and switching method thereof

本揭示內容是有關於一種多功能電子裝置及其切換方法,且特別是有關於一種結合無線充電功能及觸控功能的多功能電子裝置及其切換方法。 The present disclosure relates to a multifunctional electronic device and a switching method thereof, and more particularly to a multifunctional electronic device combining a wireless charging function and a touch function, and a switching method thereof.

一般來說,電子裝置例如手機、筆電、平板以及相機皆透過有線連接的方式充電,像是透過電性耦接適配器(adapter)或是電源供應器(power supply)充電。然而,當同一時間需要充電多個電子裝置時(例如同時充兩支或多支手機,又或同時充手機以及平板),不同電子裝置的電源線將佔據許多空間且容易彼此纏繞而雜亂。 In general, electronic devices such as cell phones, laptops, tablets, and cameras are all charged by wired connections, such as through an electrical coupling adapter or a power supply. However, when it is necessary to charge a plurality of electronic devices at the same time (for example, charging two or more mobile phones at the same time, or simultaneously charging a mobile phone and a tablet), power cables of different electronic devices occupy a lot of space and are easily entangled with each other and become messy.

因此,無線充電技術逐漸蓬勃發展,透過電磁共振或電磁感應的方式將能量傳送至電子裝置,電子裝置接收能量後進一步對其中的電池充電。一般來說,無線充電裝置可同時對多個電子裝置充電,藉此取代了適配器、電源供應器以及省去了許多電源線的空間。然而,目前的無線充電裝置在不需充電時,並無其他功能,而其內部的大面積天線 也因此閒置。 Therefore, the wireless charging technology is gradually developing, and the energy is transmitted to the electronic device through electromagnetic resonance or electromagnetic induction, and the electronic device further charges the battery after receiving the energy. In general, a wireless charging device can simultaneously charge multiple electronic devices, thereby replacing the adapter, the power supply, and the space for many power lines. However, current wireless charging devices have no other functions when charging is not required, and their internal large-area antennas It is therefore idle.

本揭示內容之一態樣是在提供一種多功能電子裝置。多功能電子裝置包含天線單元、無線收發電路、觸控電路以及切換電路。切換電路耦接於天線單元以及無線收發電路之間或耦接於天線單元以及觸控電路之間。其中,當切換電路切換為耦接天線單元以及無線收發電路時無線收發電路藉由天線單元無線充電電池單元,當切換電路切換為耦接天線單元以及觸控電路時觸控電路藉由天線單元偵測帶電物體之觸控動作。 One aspect of the present disclosure is to provide a multifunctional electronic device. The multifunctional electronic device includes an antenna unit, a wireless transceiver circuit, a touch circuit, and a switching circuit. The switching circuit is coupled between the antenna unit and the wireless transceiver circuit or coupled between the antenna unit and the touch circuit. The wireless transceiver circuit wirelessly charges the battery unit by the antenna unit when the switching circuit is switched to be coupled to the antenna unit and the wireless transceiver circuit. When the switching circuit is switched to be coupled to the antenna unit and the touch circuit, the touch circuit is detected by the antenna unit. Measure the touch action of a charged object.

本揭示內容之次一態樣是在提供一種切換方法適用於多功能電子裝置。多功能電子裝置包含天線單元、無線收發電路、觸控電路以及切換電路。其中切換電路耦接於天線單元以及無線收發電路之間或耦接於天線單元以及觸控電路之間。切換方法包含:當切換電路切換為耦接天線單元以及無線收發電路時無線收發電路藉由天線單元無線充電電池單元;以及當切換電路切換為耦接天線單元以及觸控電路時觸控電路藉由天線單元偵測帶電物體之觸控動作。 A second aspect of the present disclosure is to provide a switching method suitable for use in a multi-function electronic device. The multifunctional electronic device includes an antenna unit, a wireless transceiver circuit, a touch circuit, and a switching circuit. The switching circuit is coupled between the antenna unit and the wireless transceiver circuit or coupled between the antenna unit and the touch circuit. The switching method includes: when the switching circuit is switched to be coupled to the antenna unit and the wireless transceiver circuit, the wireless transceiver circuit wirelessly charges the battery unit by the antenna unit; and when the switching circuit is switched to couple the antenna unit and the touch circuit, the touch circuit is used The antenna unit detects the touch action of the charged object.

綜上所述,多功能電子裝置透過切換電路結合無線收發電路及觸控電路,在需要充電時天線單元提供無線收發電路使用,而在不需充電時天線單元則提供觸控電路使用,因此多功能電子裝置中的天線單元可以被充分地利用而不閒置。 In summary, the multi-function electronic device combines the wireless transceiver circuit and the touch circuit through the switching circuit, and the antenna unit provides the wireless transceiver circuit when the charging is needed, and the antenna unit provides the touch circuit when the charging is not required, so The antenna unit in the functional electronic device can be fully utilized without being idle.

100‧‧‧多功能電子裝置 100‧‧‧Multifunctional electronic device

110‧‧‧天線單元 110‧‧‧Antenna unit

120‧‧‧無線收發電路 120‧‧‧Wireless transceiver circuit

130‧‧‧觸控電路 130‧‧‧Touch circuit

140‧‧‧切換電路 140‧‧‧Switching circuit

150‧‧‧電子裝置 150‧‧‧Electronic devices

152‧‧‧電池單元 152‧‧‧ battery unit

154‧‧‧無線收發電路 154‧‧‧Wireless transceiver circuit

160‧‧‧帶電物體 160‧‧‧Powered objects

A,B,A’,B’,A”,B”‧‧‧端點 A, B, A’, B’, A”, B” ‧ ‧ endpoints

D‧‧‧感應距離 D‧‧‧ sensing distance

500‧‧‧切換方法 500‧‧‧Switching method

S510,S520‧‧‧步驟 S510, S520‧‧‧ steps

為讓本發明之上述和其他目的、特徵、優點與實施例能更明顯易懂,所附圖式之說明如下。然而,應瞭解到,為符合在產業中實務利用的情況,許多的特徵並未符合比例繪示。實際上,為了闡述以下的討論,許多特徵的尺寸可能被任意地增加或縮減。 The above and other objects, features, advantages and embodiments of the present invention will become more apparent. However, it should be understood that many features are not shown to scale in order to comply with the actual use of the industry. In fact, the dimensions of many of the features may be arbitrarily increased or decreased in order to clarify the following discussion.

〔第1圖〕繪示根據本揭示內容之一實施例中一種多功能電子裝置之示意圖;〔第2圖〕繪示根據第1圖中切換電路之示意圖;〔第3圖〕繪示根據第2圖中多功能電子裝置之等效電路之示意圖;〔第4圖〕繪示根據本揭示內容之一實施例中切換電路之示意圖;以及〔第5圖〕繪示根據本揭示內容之一實施例中切換方法之示意圖。 [FIG. 1] A schematic diagram of a multifunctional electronic device according to an embodiment of the present disclosure; [Fig. 2] is a schematic view showing a switching circuit according to Fig. 1; [Fig. 3] 2 is a schematic diagram of an equivalent circuit of the multi-function electronic device; FIG. 4 is a schematic diagram showing a switching circuit according to an embodiment of the present disclosure; and FIG. 5 is a diagram showing implementation according to one of the disclosures. A schematic diagram of the switching method in the example.

以下揭示提供許多不同實施例或例證用以實施本發明的不同特徵。特殊例證中的元件及配置在以下討論中被用來簡化本揭示。所討論的任何例證只用來作解說的用途,並不會以任何方式限制本發明或其例證之範圍和意義。此外,本揭示在不同例證中可能重複引用數字符號且/或字母,這些重複皆為了簡化及闡述,其本身並未指定以下討論 中不同實施例且/或配置之間的關係。 The following disclosure provides many different embodiments or illustrations for implementing different features of the invention. The elements and configurations of the specific illustrations are used in the following discussion to simplify the disclosure. Any examples discussed are for illustrative purposes only and are not intended to limit the scope and meaning of the invention or its examples. In addition, the present disclosure may repeatedly recite numerical symbols and/or letters in different examples, and these repetitions are for simplicity and elaboration, and the following discussion is not specified by itself. Relationship between different embodiments and/or configurations.

在全篇說明書與申請專利範圍所使用之用詞(terms),除有特別註明外,通常具有每個用詞使用在此領域中、在此揭露之內容中與特殊內容中的平常意義。某些用以描述本揭露之用詞將於下或在此說明書的別處討論,以提供本領域技術人員在有關本揭露之描述上額外的引導。 The terms used in the entire specification and the scope of the patent application, unless otherwise specified, generally have the ordinary meaning of each term used in the field, the content disclosed herein, and the particular content. Certain terms used to describe the disclosure are discussed below or elsewhere in this specification to provide additional guidance to those skilled in the art in the description of the disclosure.

關於本文中所使用之『耦接』或『連接』,均可指二或多個元件相互直接作實體或電性接觸,或是相互間接作實體或電性接觸,而『耦接』或『連接』還可指二或多個元件元件相互操作或動作。在本文中,使用第一、第二與第三等等之詞彙,是用於描述各種元件、組件、區域、層與/或區塊是可以被理解的。但是這些元件、組件、區域、層與/或區塊不應該被這些術語所限制。這些詞彙只限於用來辨別單一元件、組件、區域、層與/或區塊。因此,在下文中的一第一元件、組件、區域、層與/或區塊也可被稱為第二元件、組件、區域、層與/或區塊,而不脫離本發明的本意。如本文所用,詞彙『與/或』包含了列出的關聯項目中的一個或多個的任何組合。 "Coupling" or "connecting" as used herein may mean that two or more elements are in direct physical or electrical contact with each other, or indirectly in physical or electrical contact with each other, and "coupled" or " Connections may also mean that two or more component elements operate or interact with each other. The use of the terms first, second, and third, etc., is used to describe various elements, components, regions, layers and/or blocks. However, these elements, components, regions, layers and/or blocks should not be limited by these terms. These terms are only used to identify a single element, component, region, layer, and/or block. Thus, a singular element, component, region, layer and/or block may be referred to as a second element, component, region, layer and/or block, without departing from the spirit of the invention. As used herein, the term "and/or" encompasses any combination of one or more of the listed associated items.

請參閱第1圖,第1圖繪示根據本揭示內容之一實施例中一種多功能電子裝置100之示意圖。多功能電子裝置100包含天線單元110、無線收發電路120、觸控電路130以及切換電路140。多功能電子裝置100可以是手持裝置、遙控器、平板電腦、無線充電器或任何具有天線模組的電子裝置,本揭示並不以此為限。切換電路140耦接於天線單元 110以及無線收發電路120之間或耦接於天線單元110以及觸控電路之間130。切換電路140可以是多工器或任何具多組開關切換之邏輯電路,本揭示並不以此為限。 Please refer to FIG. 1 . FIG. 1 is a schematic diagram of a multi-function electronic device 100 according to an embodiment of the present disclosure. The multifunctional electronic device 100 includes an antenna unit 110, a wireless transceiver circuit 120, a touch circuit 130, and a switching circuit 140. The multi-function electronic device 100 can be a handheld device, a remote controller, a tablet computer, a wireless charger, or any electronic device having an antenna module. The disclosure is not limited thereto. The switching circuit 140 is coupled to the antenna unit 110 and the wireless transceiver circuit 120 are coupled between the antenna unit 110 and the touch circuit 130. The switching circuit 140 can be a multiplexer or any logic circuit having multiple sets of switching, and the disclosure is not limited thereto.

進一步來說,請一併參閱第2圖。第2圖繪示第1圖中切換電路140之示意圖。如第2圖左側所示,天線單元110具有第一端A以及第二端B,無線收發電路120具有第一端A’以及第二端B’,當切換電路140切換為耦接天線單元110以及無線收發電路120時,天線單元110之第一端A耦接至無線收發電路120之第一端A’,天線單元110之第二端B耦接至無線收發電路之第二端B’。其中,天線單元110可以是金屬線圈、印刷電路板上的金屬線或是任何具磁場感應功能的天線模組,本揭示並不以此為限。在本實施例中,當切換電路140切換為耦接天線單元110以及無線收發電路120時,無線收發電路120可以藉由天線單元110無線充電電池單元152。 Further, please refer to Figure 2 together. FIG. 2 is a schematic diagram of the switching circuit 140 in FIG. 1. As shown in the left side of FIG. 2, the antenna unit 110 has a first end A and a second end B. The wireless transceiver circuit 120 has a first end A' and a second end B'. When the switching circuit 140 is switched to be coupled to the antenna unit 110, The first end A of the antenna unit 110 is coupled to the first end A' of the wireless transceiver circuit 120, and the second end B of the antenna unit 110 is coupled to the second end B' of the wireless transceiver circuit. The antenna unit 110 can be a metal coil, a metal wire on a printed circuit board, or any antenna module with a magnetic field sensing function. The disclosure is not limited thereto. In the embodiment, when the switching circuit 140 is switched to couple the antenna unit 110 and the wireless transceiver circuit 120, the wireless transceiver circuit 120 can wirelessly charge the battery unit 152 by the antenna unit 110.

如第1圖所示,電池單元152設置於電子裝置150中,電子裝置150可以是手持裝置、平板電腦、相機或任何具有電池的電子裝置,本揭示並不以此為限。電池單元152可以例如是鋰離子電池、水銀電池、鎳鎘電池或任何能夠儲存電能的儲電器。需注意的是,第1圖中僅繪示單一個電子裝置150,在實際應用中電子裝置150可以為一個亦或是多個,也就是說無線收發電路120可以藉由天線單元110同時無線充電一個或多個電子裝置150中的電池單元152。 As shown in FIG. 1 , the battery unit 152 is disposed in the electronic device 150 . The electronic device 150 can be a handheld device, a tablet computer, a camera, or any electronic device having a battery. The disclosure is not limited thereto. The battery unit 152 can be, for example, a lithium ion battery, a mercury battery, a nickel cadmium battery, or any storage device capable of storing electrical energy. It should be noted that only one electronic device 150 is shown in FIG. 1 . In actual applications, the electronic device 150 may be one or more, that is, the wireless transceiver circuit 120 can be wirelessly charged by the antenna unit 110 at the same time. A battery unit 152 in one or more electronic devices 150.

在一些實施例中,無線收發電路120用以產生 電流傳遞至天線單元110,天線單元110再將電流轉換成無線訊號傳遞至待充電的電子裝置150,接著透過電子裝置150中的無線收發電路154接收無線訊號並再度將其轉換為電能供應至電池單元152。需補充的是,由於天線單元110發送出的無線訊號傳遞皆在感應距離D以內,因此電池單元150需設置與天線單元110之間的距離小於感應距離D。 In some embodiments, the wireless transceiver circuit 120 is configured to generate The current is transmitted to the antenna unit 110, and the antenna unit 110 converts the current into a wireless signal to be transmitted to the electronic device 150 to be charged, and then receives the wireless signal through the wireless transceiver circuit 154 in the electronic device 150 and converts it into a power supply to the battery. Unit 152. It should be added that since the wireless signal transmission sent by the antenna unit 110 is within the sensing distance D, the distance between the battery unit 150 and the antenna unit 110 is smaller than the sensing distance D.

另外,如第2圖右側所示,當切換電路140切換為耦接天線單元110以及觸控電路130時,天線單元110之第一端A耦接至觸控電路(於端點A”),天線單元110之第二端B浮接。此時,觸控電路130可以藉由天線單元110偵測帶電物體160之觸控動作。觸控電路130可以是例如是電容式觸控電路或是任何偵測帶電物體軌跡的電路,本揭示並不以此為限。帶電物體160可以例如是手掌、手指、金屬球或任意可帶電荷的物體。舉例來說,帶電物體160靠近天線單元110並落於感應距離D以內時,電電物體160本身的電荷會影響天線單元110中電荷的分布進而改變天線單元110之等效電容,因此觸控電路130可以藉由量測天線單元110之等效電容的變化來偵測帶電物體160之觸控動作,在此實施例中觸控動作可以是帶電物體160在感應距離D以內的任意移動、滑動,本揭示並不以此為限。 In addition, as shown in the right side of FIG. 2, when the switching circuit 140 is switched to couple the antenna unit 110 and the touch circuit 130, the first end A of the antenna unit 110 is coupled to the touch circuit (at the end point A). The second end B of the antenna unit 110 is floated. At this time, the touch circuit 130 can detect the touch action of the charged object 160 by the antenna unit 110. The touch circuit 130 can be, for example, a capacitive touch circuit or any The circuit for detecting the trajectory of a charged object is not limited thereto. The charged object 160 can be, for example, a palm, a finger, a metal ball or any chargeable object. For example, the charged object 160 is close to the antenna unit 110 and falls. When the sensing distance D is within, the electric charge of the electric object 160 itself affects the distribution of the electric charge in the antenna unit 110 and changes the equivalent capacitance of the antenna unit 110. Therefore, the touch circuit 130 can measure the equivalent capacitance of the antenna unit 110. The change is to detect the touch action of the charged object 160. In this embodiment, the touch action may be any movement or sliding of the charged object 160 within the sensing distance D. The disclosure is not limited thereto.

請參閱第3圖,其繪示根據第2圖中多功能電子裝置100之等效電路之示意圖,多功能電子裝置100透過切換電路140結合無線收發電路120及觸控電路130,在需要充電時天線單元110提供無線收發電路120使用(如第3圖左 側所示),而在不需充電時天線單元110則提供觸控電路130使用(如第3圖右側所示),因此多功能電子裝置100中的天線單元110可以被充分地利用而不閒置。 Please refer to FIG. 3 , which is a schematic diagram of an equivalent circuit of the multi-function electronic device 100 according to FIG. 2 . The multi-function electronic device 100 is coupled to the wireless transceiver circuit 120 and the touch control circuit 130 through the switching circuit 140. The antenna unit 110 is provided for use by the wireless transceiver circuit 120 (as shown in FIG. 3) The antenna unit 110 provides the touch circuit 130 for use (as shown on the right side of FIG. 3), so that the antenna unit 110 in the multifunctional electronic device 100 can be fully utilized without being idle. .

需補充的是,在一些實施例中多功能電子裝置100更包含功能電路(未繪示),功能電路可以例如是音效電路、發光電路以及遙控電路,觸控電路130根據帶電物體160之觸控動作控制上述功能電路。在一些實施例中,上述功能電路為音效電路用以輸出聲波,觸控電路130根據帶電物體160之觸控動作控制音效電路調整聲波之音量,舉例來說多功能電子裝置100可以是手機,當多功能電子裝置100來電鈴響時,使用者可以透過將手掌(手指)靠近多功能電子裝置100使得多功能電子裝置100中的觸控電路130可以藉由天線單元110偵測手掌(手指)在感應距離D內之任意移動、滑動,並進一步控制音效電路升高或降低來電鈴響之音量。在一些實施例中,上述功能電路為發光電路用以輸出光波,觸控電路130根據帶電物體160之觸控動作控制發光電路調整光波之亮度,舉例來說發光電路可以是具有多組LED燈泡的發光模組,使用者可以透過將手掌(手指)靠近多功能電子裝置100使得多功能電子裝置100中的觸控電路130可以藉由天線單元110偵測手掌(手指)在感應距離D內之任意移動、滑動,並進一步控制流過多組LED燈泡之電流或選擇性地關閉多組LED燈泡,藉此調整光波之亮度。在一些實施例中,上述功能電路為遙控電路用以遙控電子裝置,觸控電路130根據帶電物體160之觸控動作藉由遙控電路遙控電 子裝置,舉例來說多功能電子裝置100可以是遙控器用以遙控電視螢幕,使用者可以透過將手掌(手指)靠近多功能電子裝置100使得多功能電子裝置100中的觸控電路130可以藉由天線單元110偵測手掌(手指)在感應距離D內之任意移動、滑動,並進一步控制遙控器發送無線訊號遙控電視螢幕。 It should be noted that, in some embodiments, the multifunctional electronic device 100 further includes a functional circuit (not shown). The functional circuit may be, for example, a sound effect circuit, a light emitting circuit, and a remote control circuit. The touch circuit 130 is based on the touch of the charged object 160. The action controls the above functional circuit. In some embodiments, the function circuit is a sound effect circuit for outputting sound waves, and the touch circuit 130 controls the sound effect circuit according to the touch action of the charged object 160. For example, the multifunctional electronic device 100 can be a mobile phone. When the multi-function electronic device 100 rings, the user can move the palm (finger) to the multi-function electronic device 100 so that the touch circuit 130 in the multi-function electronic device 100 can detect the palm (finger) by the antenna unit 110. Any movement, sliding within the sensing distance D, and further control the sound circuit to raise or lower the volume of the incoming call ring. In some embodiments, the function circuit is a light-emitting circuit for outputting light waves, and the touch control circuit 130 controls the light-emitting circuit to adjust the brightness of the light wave according to the touch action of the charged object 160. For example, the light-emitting circuit may be a plurality of LED light bulbs. The light-emitting module can be used by the user to detect the palm (finger) of the palm (finger) in the sensing distance D by the antenna unit 110 by moving the palm (finger) close to the multi-function electronic device 100. Move, slide, and further control the flow of multiple sets of LED bulbs or selectively turn off multiple sets of LED bulbs to adjust the brightness of the light. In some embodiments, the function circuit is a remote control circuit for remotely controlling the electronic device, and the touch circuit 130 is remotely controlled by the remote control circuit according to the touch action of the charged object 160. For example, the multi-function electronic device 100 can be a remote controller for remotely controlling the television screen. The user can move the palm (finger) to the multi-function electronic device 100 so that the touch circuit 130 in the multi-function electronic device 100 can be used. The antenna unit 110 detects any movement and sliding of the palm (finger) within the sensing distance D, and further controls the remote controller to send a wireless signal remote control television screen.

在一些實施例中,上述觸控電路130透過切換電路140耦接天線單元110的方式並不限於第2圖中右側所繪示的情況,在此請一併參閱第4圖,其繪示根據本揭示內容之一實施例中切換電路140之示意圖。在一些實施例中如第4圖左側所示,天線單元110具有第一端A以及第二端B,當切換電路140切換為耦接天線單元110以及觸控電路130時,天線單元110之第一端A以及天線單元110之第二端B短路並耦接至觸控電路130(於端點A”)。或是在一些實施例中如第4圖右側所示,天線單元110具有第一端A以及第二端B,觸控電路130具有第一端A”以及第二端B”,切換電路140切換為耦接天線單元110以及觸控電路130時,天線單元110之第一端A耦接至觸控電路130之第一端A”,天線單元110之第二端B耦接至觸控電路130之第二端B”。如同上述說明,觸控電路130是藉由量測天線單元110之等效電容的變化來偵測帶電物體160之觸控動作,因此觸控電路130僅需具有至少一端點耦接至天線單元110即可,故可將天線單元110之兩端短路(如第4圖左側)耦接至觸控電路130之單一端點或是當觸控電路130具有兩端點亦可將兩端點各自耦接至天線單元之兩端點(如第4圖右側)。 In some embodiments, the manner in which the touch control circuit 130 is coupled to the antenna unit 110 through the switching circuit 140 is not limited to the case shown in the right side of FIG. 2, and please refer to FIG. 4 together. A schematic diagram of switching circuit 140 in one embodiment of the present disclosure. In some embodiments, as shown in the left side of FIG. 4, the antenna unit 110 has a first end A and a second end B. When the switching circuit 140 is switched to couple the antenna unit 110 and the touch circuit 130, the antenna unit 110 The one end A and the second end B of the antenna unit 110 are short-circuited and coupled to the touch circuit 130 (at the end point A). Or, in some embodiments, as shown on the right side of FIG. 4, the antenna unit 110 has the first The first end A and the second end B of the touch circuit 130 have a first end A" and a second end B". When the switching circuit 140 is coupled to the antenna unit 110 and the touch circuit 130, the first end A of the antenna unit 110 The first end A of the antenna unit 110 is coupled to the second end B of the touch circuit 130. As described above, the touch circuit 130 is measured by the antenna. The change of the equivalent capacitance of the unit 110 is used to detect the touch action of the charged object 160. Therefore, the touch circuit 130 only needs to have at least one end coupled to the antenna unit 110, so that both ends of the antenna unit 110 can be short-circuited ( The left end of the touch circuit 130 is coupled to the single end of the touch circuit 130 or when the touch circuit 130 has two The point is also coupled to the two ends of each two terminals (e.g., the right side of FIG. 4) of the antenna unit.

接著,請參閱第5圖,其繪示根據本揭示內容之一實施例中切換方法500之示意圖。於此實施例中的切換方法500可配合用於先前實施例中的多功能電子裝置100上,但不僅以此為限,亦可用於具相等性的其他電子裝置上。 Next, please refer to FIG. 5, which illustrates a schematic diagram of a handover method 500 in accordance with an embodiment of the present disclosure. The switching method 500 in this embodiment can be used in the multi-function electronic device 100 in the previous embodiment, but not limited thereto, and can also be used on other electronic devices having the same.

如第5圖所示,此實施例中的切換方法500首先執行步驟S510,當切換電路切換為耦接天線單元以及無線收發電路時無線收發電路藉由天線單元無線充電電池單元。 As shown in FIG. 5, the switching method 500 in this embodiment first performs step S510. When the switching circuit is switched to couple the antenna unit and the wireless transceiver circuit, the wireless transceiver circuit wirelessly charges the battery unit by the antenna unit.

接著,執行步驟S520,當切換電路切換為耦接天線單元以及觸控電路時觸控電路藉由天線單元偵測帶電物體之觸控動作。 Then, in step S520, when the switching circuit is switched to couple the antenna unit and the touch circuit, the touch circuit detects the touch action of the charged object by the antenna unit.

綜上所述,本揭示文件提供一種多功能電子裝置及其切換方法,且特別是有關於一種結合無線充電功能及觸控功能的多功能電子裝置及其切換方法。多功能電子裝置透過切換電路結合無線收發電路及觸控電路,在需要充電時天線單元提供無線收發電路使用,而在不需充電時天線單元則提供觸控電路使用,因此多功能電子裝置中的天線單元可以被充分地利用而不閒置。 In summary, the present disclosure provides a multifunctional electronic device and a switching method thereof, and more particularly to a multifunctional electronic device incorporating a wireless charging function and a touch function, and a switching method thereof. The multi-function electronic device combines the wireless transceiver circuit and the touch circuit through the switching circuit, and the antenna unit provides the wireless transceiver circuit when the charging is needed, and the antenna unit provides the touch circuit when the charging is not needed, so the multi-function electronic device The antenna unit can be fully utilized without being idle.

雖然本揭示內容已以實施方式揭露如上,然其並非用以限定本揭示內容,任何熟習此技藝者,在不脫離本揭示內容之精神和範圍內,當可作各種之更動與潤飾,因此本揭示內容之保護範圍當視後附之申請專利範圍所界定者為準。 The present disclosure has been disclosed in the above embodiments, but it is not intended to limit the disclosure, and any person skilled in the art can make various changes and refinements without departing from the spirit and scope of the disclosure. The scope of protection of the disclosure is subject to the definition of the scope of the patent application.

100‧‧‧多功能電子裝置 100‧‧‧Multifunctional electronic device

110‧‧‧天線單元 110‧‧‧Antenna unit

120‧‧‧無線收發電路 120‧‧‧Wireless transceiver circuit

130‧‧‧觸控電路 130‧‧‧Touch circuit

140‧‧‧切換電路 140‧‧‧Switching circuit

150‧‧‧電子裝置 150‧‧‧Electronic devices

152‧‧‧電池單元 152‧‧‧ battery unit

154‧‧‧無線收發電路 154‧‧‧Wireless transceiver circuit

160‧‧‧帶電物體 160‧‧‧Powered objects

A,B,A’,B’,A”‧‧‧端點 A, B, A’, B’, A” ‧ ‧ endpoints

D‧‧‧感應距離 D‧‧‧ sensing distance

Claims (11)

一種多功能電子裝置,包含:一天線單元;一無線收發電路;一觸控電路;以及一切換電路,耦接於該天線單元以及該無線收發電路之間或耦接於該天線單元以及該觸控電路之間,其中,當該切換電路切換為耦接該天線單元以及該無線收發電路時該無線收發電路藉由該天線單元無線充電至少一電池單元,當該切換電路切換為耦接該天線單元以及該觸控電路時該觸控電路藉由該天線單元偵測至少一帶電物體之觸控動作。 A multi-function electronic device comprising: an antenna unit; a wireless transceiver circuit; a touch circuit; and a switching circuit coupled between the antenna unit and the wireless transceiver circuit or coupled to the antenna unit and the touch The control circuit is configured to: when the switching circuit is switched to couple the antenna unit and the wireless transceiver circuit, the wireless transceiver circuit wirelessly charges at least one battery unit by the antenna unit, when the switching circuit is switched to be coupled to the antenna When the unit and the touch circuit are used, the touch circuit detects a touch action of at least one charged object by the antenna unit. 如請求項1所述的多功能電子裝置,其中該天線單元以及該無線收發電路各自具有一第一端以及一第二端,當該切換電路切換為耦接該天線單元以及該無線收發電路時,該天線單元之該第一端耦接至該無線收發電路之該第一端,該天線單元之該第二端耦接至該無線收發電路之該第二端。 The multi-function electronic device of claim 1, wherein the antenna unit and the wireless transceiver circuit each have a first end and a second end, when the switching circuit is switched to couple the antenna unit and the wireless transceiver circuit The first end of the antenna unit is coupled to the first end of the wireless transceiver circuit, and the second end of the antenna unit is coupled to the second end of the wireless transceiver circuit. 如請求項1所述的多功能電子裝置,其中該天線單元具有一第一端以及一第二端,當該切換電路切換為耦接該天線單元以及該觸控電路時,該天線單元之該第一端耦接至該觸控電路,該天線單元之該第二端浮接。 The multi-function electronic device of claim 1, wherein the antenna unit has a first end and a second end, and when the switching circuit is switched to couple the antenna unit and the touch circuit, the antenna unit The first end is coupled to the touch circuit, and the second end of the antenna unit is floating. 如請求項1所述的多功能電子裝置,該天線單元具有一第一端以及一第二端,當該切換電路切換為耦接該天線單元以及該觸控電路時,該天線單元之該第一端以及該天線單元之該第二端短路並耦接至該觸控電路。 The multi-function electronic device of claim 1, the antenna unit has a first end and a second end, and when the switching circuit is switched to couple the antenna unit and the touch circuit, the antenna unit One end and the second end of the antenna unit are short-circuited and coupled to the touch circuit. 如請求項1所述的多功能電子裝置,其中該天線單元以及該觸控電路各自具有一第一端以及一第二端,該切換電路切換為耦接該天線單元以及該觸控電路時,該天線單元之該第一端耦接至該觸控電路之該第一端,該天線單元之該第二端耦接至該觸控電路之該第二端。 The multi-function electronic device of claim 1, wherein the antenna unit and the touch circuit each have a first end and a second end, and when the switching circuit is switched to couple the antenna unit and the touch circuit, The first end of the antenna unit is coupled to the first end of the touch circuit, and the second end of the antenna unit is coupled to the second end of the touch circuit. 如請求項1所述的多功能電子裝置,其中該天線單元與該些電池單元之間的距離小於一感應距離,以及該天線單元與該些帶電物體之間的距離小於該感應距離。 The multi-function electronic device of claim 1, wherein a distance between the antenna unit and the battery cells is less than a sensing distance, and a distance between the antenna unit and the charged objects is less than the sensing distance. 如請求項1所述的多功能電子裝置,更包含一功能電路,該觸控電路根據該帶電物體之觸控動作控制該功能電路。 The multi-function electronic device of claim 1, further comprising a function circuit, wherein the touch circuit controls the function circuit according to a touch action of the charged object. 如請求項7所述的多功能電子裝置,該功能電路為一音效電路用以輸出一聲波,該觸控電路根據該帶電物體之觸控動作控制該音效電路調整該聲波之音量。 The multi-function electronic device of claim 7, wherein the function circuit is an audio circuit for outputting an acoustic wave, and the touch circuit controls the sound effect circuit to adjust the volume of the sound wave according to the touch action of the charged object. 如請求項7所述的多功能電子裝置,該功 能電路為一發光電路用以輸出一光波,該觸控電路根據該帶電物體之觸控動作控制該發光電路調整該光波之亮度。 The multifunctional electronic device according to claim 7, the work The energy circuit is a light-emitting circuit for outputting a light wave, and the touch circuit controls the light-emitting circuit to adjust the brightness of the light wave according to the touch action of the charged object. 如請求項7所述的多功能電子裝置,該功能電路為一遙控電路用以遙控一電子裝置,該觸控電路根據該帶電物體之觸控動作藉由該遙控電路遙控該電子裝置。 The multi-function electronic device of claim 7, wherein the function circuit is a remote control circuit for remotely controlling an electronic device, and the touch circuit remotely controls the electronic device by the remote control circuit according to the touch action of the charged object. 一種切換方法,適用於一多功能電子裝置,該多功能電子裝置包含一天線單元、一無線收發電路、一觸控電路以及一切換電路,其中該切換電路耦接於該天線單元以及該無線收發電路之間或耦接於該天線單元以及該觸控電路之間,該切換方法包含:當該切換電路切換為耦接該天線單元以及該無線收發電路時該無線收發電路藉由該天線單元無線充電至少一電池單元;以及當該切換電路切換為耦接該天線單元以及該觸控電路時該觸控電路藉由該天線單元偵測至少一帶電物體之觸控動作。 A switching method is applicable to a multi-function electronic device, comprising: an antenna unit, a wireless transceiver circuit, a touch circuit, and a switching circuit, wherein the switching circuit is coupled to the antenna unit and the wireless transceiver The switching method includes: when the switching circuit is switched to couple the antenna unit and the wireless transceiver circuit, the wireless transceiver circuit is wirelessly connected by the antenna unit Charging at least one battery unit; and when the switching circuit is switched to couple the antenna unit and the touch circuit, the touch circuit detects a touch action of the at least one charged object by the antenna unit.
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