200935275 九、發明說明: 【發明所屬之技術領域】 本發明是有關於一種無線滑鼠模組,且特別是有關於 一種經由共振器間之能量耦合,以達到對無線滑鼠模組進 行能量供應之無線滑鼠模組。 【先前技術】 在科技發展日新月異的現今時代中,電腦已成為現 ®代人生活中不可或缺之電子產品,而滑鼠更是操作電腦 時必備的硬體輸入介面。目前在市場上’無線滑鼠產品 係已存在,並已普遍取代早期的有線滑鼠。 傳統上,無線滑鼠中係設置有電池,來對無線滑鼠 進行供電。當電池中之電能耗盡時,使用者將無線滑鼠 與充電器電性連接,以對無線滑鼠中之電池進行充電。 舉例來說,充電器係與電腦系統電性連接,以接收電腦 系統提供之電能來對無線滑鼠進行充電。當無線滑鼠在 〇進行充電時,無線滑鼠需與充電器電性連接,如此,使 用者無法無線地操作無線滑鼠,使得傳統無線滑鼠之使 用便利性較低。 【發明内容】 本發明有關於一種無線滑鼠模組,其係經由共振器間 之能量耦合來對無線滑鼠進行充電。相較於傳統無線滑 鼠,本發明相關之無線滑鼠模組係可無線地對無線滑鼠進 行充電。如此,本發明相關之無線滑鼠模組具有較高之使 200935275 用便利性。 ❹ ❹ 根據本七明挺出一種無線滑鼠 組及滑鼠裝置。無線供電模組包括第^包括無線供電模 第一電能,第一共振器具有第一共 ''共振器,用以接收 滑鼠本體、第二共振器、偵測電路、xt頻率。滑鼠裝置包括 滑鼠本體係與電池電性連接,第二/示電路及充電電路。 性連接,第二共振器具有第二共振=器係與滑鼠本體電 頻率為實質上相同。第一共振器之^ ,第一及第二共振 共振器’使第-及第二共振器之間:電能係耦合至第二 (Non-radiative Energy Transfer),第 非,射能罝轉移 能。偵測電路用以根據第二電能來姜;^振器提供第二電 間之耦合量,並於第一及第二共振器第一及第二共振器 於臨界值時,觸發電路操作事件。^ σ量實質上高 路操作事件觸發指示充電事件電路用以回應於電 能,以對電池進行充電。 …路用以接收第二電 根據本發明提出-種無線滑鼠模組 組及滑鼠裝置。無線供電漁包括第…線供電模 第-電能,第-共振器具有第一共振頻;=鼠=收 滑鼠本體、殼體、第二共振器及充電;,置匕括 電池電性連接。第二共振器設置於殼體二鼠=係與 本::性連接。第二共振器具有第二共振頻率d ί:盗,使第一及第二共振器之間進行非輻射心 轉移。第二共振器提供第二電能。充電電路用=;! 7 200935275 電能,以對電池進行充電。 根據本發明提出一種無線滑鼠模組,包括無線供電模 組、無線電能接收模組及滑鼠裝置。無線供電模組包括第 一共振器,用以接收第一電能,第一共振器具有第一共振 頻率。無線電源接收模組包括第二共振器,具有第二共振 頻率,第一及第二共振頻率為實質上相同,第一共振器之 第一電能係耦合至第二共振器,使第一及第二共振器之間 進行非輻射能量轉移,第二共振器提供第二電能。滑鼠裝200935275 IX. Description of the Invention: [Technical Field] The present invention relates to a wireless mouse module, and more particularly to an energy coupling between resonators for energy supply to a wireless mouse module Wireless mouse module. [Prior Art] In today's fast-changing technology era, computers have become an indispensable electronic product in the life of the current generation, and the mouse is a necessary hardware input interface for operating a computer. Currently, the wireless mouse product line has existed in the market and has generally replaced the early wired mouse. Traditionally, wireless mice have batteries in place to power wireless mice. When the power in the battery is exhausted, the user electrically connects the wireless mouse to the charger to charge the battery in the wireless mouse. For example, the charger is electrically connected to the computer system to receive power from the computer system to charge the wireless mouse. When the wireless mouse is charging, the wireless mouse needs to be electrically connected to the charger. Thus, the user cannot wirelessly operate the wireless mouse, making the traditional wireless mouse less convenient to use. SUMMARY OF THE INVENTION The present invention is directed to a wireless mouse module that charges a wireless mouse via energy coupling between resonators. Compared to the conventional wireless mouse, the wireless mouse module of the present invention wirelessly charges the wireless mouse. Thus, the wireless mouse module associated with the present invention has a higher convenience for 200935275. ❹ ❹ According to Ben Qiming, a wireless mouse group and a mouse device have been developed. The wireless power supply module includes a first power including a wireless power supply mode, and the first resonator has a first common resonator for receiving the mouse body, the second resonator, the detecting circuit, and the xt frequency. The mouse device includes a mouse system electrically connected to the battery, a second/display circuit and a charging circuit. The second resonator has a second resonance = the system and the body frequency of the mouse are substantially the same. The first resonator and the first and second resonant resonators are configured to couple between the first and second resonators: a non-radiative energy transfer, a second, and an energy transfer energy. The detecting circuit is configured to supply the ginger according to the second electric energy; the vibrator provides a coupling amount of the second electric power, and triggers the circuit operation event when the first and second resonators of the first and second resonators are at a critical value. ^ The σ amount is substantially high. The road operation event triggers the charging event circuit to respond to the power to charge the battery. The road is used to receive the second power. According to the present invention, a wireless mouse module set and a mouse device are proposed. The wireless power supply includes a first line power supply mode, the first power frequency, and a first resonance frequency; the mouse = the mouse body, the housing, the second resonator, and the charging; and the battery is electrically connected. The second resonator is disposed in the housing two mouse = system and the :: sexual connection. The second resonator has a second resonant frequency, thief, for non-radiative cardiac transfer between the first and second resonators. The second resonator provides a second electrical energy. The charging circuit uses =;! 7 200935275 power to charge the battery. According to the present invention, a wireless mouse module is provided, including a wireless power supply module, a wireless power receiving module, and a mouse device. The wireless power supply module includes a first resonator for receiving the first electrical energy, and the first resonator has a first resonant frequency. The wireless power receiving module includes a second resonator having a second resonant frequency, the first and second resonant frequencies being substantially the same, and the first electrical energy of the first resonator is coupled to the second resonator to enable the first and the first Non-radiative energy transfer is performed between the two resonators, and the second resonator provides the second electrical energy. Mouse
A μ 置係以可與無線電能接收模組分離的方式,耦接至無線電 能接收模組。滑鼠裝置包括滑鼠本體及充電電路。滑鼠本 體係與電池電性連接,充電電路用以接收第二電能,以對 電池進行充電。 為讓本發明之上述内容能更明顯易懂,下文特舉一較 佳實施例,並配合所附圖式,作詳細說明如下: ^ 【實施方式】 ❹ 本實施例之無線滑鼠模組係透過共振器(Resonator) 間之能量耦合來對無線滑鼠進行充電,使得本實施例之無 線滑鼠模組具有較高之使用便利性。 第一實施例 本實施例之無線滑鼠模組係透過無線供電模組來無 線地提供電能至滑鼠模組,以對滑鼠模組進行充電。請參 照第1圖,其繪示依照本發明第一實施例之無線滑鼠模組 8 200935275 的方塊圖。無線滑鼠模組1 〇包括無線供電模組12及滑鼠 模組14。無線供電模組12包括共振器(Resonat〇r)Rsi, 其用以接收電能Enl ’共振器RS1具有共振頻率f〇i。 滑鼠裝置14包括滑鼠本體14a、共振器RS2、偵測電 路14b、指示電路14c、充電電路14d及電池l4e。滑鼠本 體14a與電池14e電性連接。共振器rS2與滑鼠本體14a 電性連接,共振器RS2具有共振頻率f〇2。共振頻率fol 與fo2為實質上相同’共振器RS1之電能Enl係耦合至共 振器RS2 ’使共振器RS1與RS2之間進行非韓射能量轉移 (Non-radiative Energy Transfer)。共振器 RS2提供電能 Eh2〇 在本實施例中’共振器RS1與RS2間之耦合對應至輕 合常數(Coupling Coefficient)K。耦合常數K係與共振器 RS1與RS2間之能量轉移轉移之比例相關。舉例來說,耦 合常數K係滿足: π- Μ ~ y/LI xL2 其中M為共振器RSI與RS2間之互感值,LI與L2分 別為共振器RS1及RS2的自感值。 偵測電路14b用以根據電能En2來判斷共振器RS1與 RS2間之耦合量,並於共振器RS1與RS2間之耦合量實質 上尚於臨界值時,觸發電路操作事件Ee。指示電路14c用 以回應於電路操作事件Ee來觸發指示充電事件Ec。充電 電路14d用以接收電能En2,並據以對電池14e進行充電。 如此,無線滑鼠模組10中之無線供電模組12可無線地對 9 200935275 滑鼠裝置14中之電池I4e進行充電。 更詳細的說’無線供電模組12更包括電源電路12a、 阻抗匹配電路12b及耦合電路12c,如第2圖所示,其繪 示乃第1圖之無線供電模組12的詳細方塊圖。電源電路 12a用以提供電源Ens。在本實施例中,電源電路i2a例 如為傳輸介面電路’用以與電腦系統連接並接收電腦系統 提供之電源Ps。舉例來說,電源電路12a為萬用序列匯流 ©排(Universal Serial Bus,USB)裝置端控制器(DeviceThe A μ is coupled to the radio receiving module in a manner that is separate from the radio receiving module. The mouse device includes a mouse body and a charging circuit. The mouse system is electrically connected to the battery, and the charging circuit is configured to receive the second power to charge the battery. In order to make the above description of the present invention more comprehensible, a preferred embodiment will be described below with reference to the accompanying drawings, which are described in detail below: ^ Embodiments ❹ Wireless mouse module of this embodiment The wireless mouse is charged by the energy coupling between the resonators, so that the wireless mouse module of the embodiment has high convenience. The first embodiment of the wireless mouse module of the present embodiment wirelessly supplies power to the mouse module through the wireless power supply module to charge the mouse module. Referring to Figure 1, a block diagram of a wireless mouse module 8 200935275 in accordance with a first embodiment of the present invention is shown. The wireless mouse module 1 includes a wireless power supply module 12 and a mouse module 14. The wireless power supply module 12 includes a resonator (Resonat) Rsi for receiving the electrical energy En1' resonator RS1 having a resonant frequency f〇i. The mouse device 14 includes a mouse body 14a, a resonator RS2, a detecting circuit 14b, an indicating circuit 14c, a charging circuit 14d, and a battery 14e. The mouse body 14a is electrically connected to the battery 14e. The resonator rS2 is electrically connected to the mouse body 14a, and the resonator RS2 has a resonance frequency f〇2. The resonance frequencies fol and fo2 are substantially the same. The electric energy En1 of the resonator RS1 is coupled to the resonator RS2' to make a non-radiative energy transfer between the resonators RS1 and RS2. The resonator RS2 supplies electric energy Eh2 〇 In the present embodiment, the coupling between the resonators RS1 and RS2 corresponds to a coupling coefficient K. The coupling constant K is related to the ratio of the energy transfer transfer between the resonators RS1 and RS2. For example, the coupling constant K satisfies: π- Μ ~ y/LI xL2 where M is the mutual inductance between the resonators RSI and RS2, and LI and L2 are the self-inductance values of the resonators RS1 and RS2, respectively. The detecting circuit 14b is configured to determine the coupling amount between the resonators RS1 and RS2 according to the electric energy En2, and trigger the circuit operation event Ee when the coupling amount between the resonators RS1 and RS2 is substantially at a critical value. The indicating circuit 14c is operative to trigger the indicating charging event Ec in response to the circuit operating event Ee. The charging circuit 14d is for receiving the electric energy En2 and charging the battery 14e accordingly. As such, the wireless power module 12 in the wireless mouse module 10 can wirelessly charge the battery I4e in the 200935275 mouse device 14. More specifically, the wireless power supply module 12 further includes a power supply circuit 12a, an impedance matching circuit 12b, and a coupling circuit 12c. As shown in Fig. 2, a detailed block diagram of the wireless power supply module 12 of Fig. 1 is shown. The power supply circuit 12a is for supplying a power source Ens. In the present embodiment, the power supply circuit i2a is, for example, a transmission interface circuit ’ for connecting to a computer system and receiving a power source Ps provided by the computer system. For example, the power supply circuit 12a is a universal serial bus. (Universal Serial Bus (USB) device-side controller (Device)
Controller),其用以經由USB與電腦系統連接,並接收 電腦系統提供之電源ps。 阻抗匹配電路12b用以接收並輸出電源Ens。耦合電 路14c用以接收阻抗匹配電路14b輸出之電源Ens,而耦 合電路14c上之能量更耦合至共振器R1 ’如此,提供電能 Enl至共振ri。 更詳細的說’滑鼠裝置14更包括耦合電路i4f、阻抗 ❹匹配電路14g及整流電路I4h,如第3圖所示,其繪示乃 第1圖之滑鼠裝置14的詳細方塊圖。共振器R2上之能量 耦合至耦合電路14f,使耦合電路i4f係接收電能En2。 阻抗匹配電路14g用以接收並輸出電能En2至偵測電路 14b。整流電路i4h用以接收並對阻抗匹配電路14g提供 之電能En2進行整流,以提供整流後之電能Εη2^。充電 電路14d用以回應於整流後之電能En2ree來對電池14e進 行充電。 舉例來說,指示電路14c包括控制電路(未繪示)及發 200935275 路操作事件EeController), which is used to connect to the computer system via USB and receive the power ps provided by the computer system. The impedance matching circuit 12b is for receiving and outputting the power source Ens. The coupling circuit 14c is for receiving the power source Ens output from the impedance matching circuit 14b, and the energy on the coupling circuit 14c is further coupled to the resonator R1' to provide the electric energy En1 to the resonance ri. More specifically, the 'mouse device 14' further includes a coupling circuit i4f, an impedance ❹ matching circuit 14g, and a rectifying circuit I4h. As shown in Fig. 3, a detailed block diagram of the mouse device 14 of Fig. 1 is shown. The energy on resonator R2 is coupled to coupling circuit 14f, which causes coupling circuit i4f to receive electrical energy En2. The impedance matching circuit 14g is for receiving and outputting the electric energy En2 to the detecting circuit 14b. The rectifying circuit i4h is configured to receive and rectify the electric energy En2 supplied from the impedance matching circuit 14g to provide the rectified electric energy Εη2. The charging circuit 14d is for charging the battery 14e in response to the rectified electric energy En2ree. For example, the indication circuit 14c includes a control circuit (not shown) and sends a 200935275 road operation event Ee.
Ec。如此, ’使用 電模組12是否 光元件(未繪示)。控制電路用以回應於電 來使發光元件發光’以產生指示充電事件Ec 者可根據發光元件發光與否來得知無線供 可有效地對電池14e進行充電。 在本實施例中,雖僅以指示電路l4e包括發光元件, 並以其用以發光以產生充電事件Ec的情形為例作說明, 然,本實施例之指示電路14c並不侷限於包括發光元件。 ❹舉例來說,本實施例之指示電路14c更可包括發聲元件或 震動元件,用以分別地發聲或震動,以產生指示充電事件 Ec ° 本實施例之無線滑鼠模組之無線供電模組與滑鼠裝 置分別具有第一及第二共振器❶第一及第二共振器間之能 量係相互耦合,使得無線供電模組可提供能量來對滑鼠裝 置中之電池進行充電。如此,相較於傳統無線滑鼠,本實 施例之無線滑鼠模組係可無線地對無線滑鼠進行充電,使 ❹得本實施例之無線滑鼠模組之使用便利性較高。 第一實施例 本實施例之無線滑鼠模組中之滑鼠裝置係包括殼 體’而滑鼠裝置端之共振器係設置於殼體之内壁上。請參 照第4A及第4B圖,第4A圖繪示依照本發明第二實施例 之滑鼠裝置的示意圖,第4B圖繪示乃沿著剖面線AA’的剖 面圖。本實施例之滑鼠裝置24與第一實施例之滑鼠裝置 14不同之處在於本實施例之滑鼠裝置24更具有殼體24s, 11 200935275 而設置於滑鼠裝置24内之共振器例如為螺旋管(Solnoid) 導體線圈。 其中,螺旋管導體線圈中之線圈係以環繞殼體24s之 内壁的方式設置於殼體24s之内壁上。更詳細的說,螺旋 管導體線圈包括多個圈體。殼體24s之内壁具有最大面積 之剖面,此些圈體之一係以環繞最大面積之剖面之外緣的 方式設置於内壁上。 β第三實施例 本實施例之無線滑鼠模組係更具有無線電源接收模 組,用以接收無線供電模組提供之電能,並將此電能提供 至滑鼠裝置。請參照第5圖,其繪示依照本發明第三實施 例之無線滑鼠模組的方塊圖。本實施例之無線滑鼠模組30 與第一實施例之無線滑鼠模組10不同之處在於本實施例 之無線滑鼠模組30更具有無線電源接收模組36,其中具 办有共振器RS2’。 〇 其中,共振器RS1’上之能量ΕηΓ係耦合至共振器 RS2’,使得共振器RS1’與RS2’係進行非輻射能量轉移。 如此,共振器RS2’係提供能量En2’。無線電源接收模組 36更與滑鼠裝置34電性連接,用以提供能量En2’至滑鼠 裝置34中之充電電路34d,並透過充電電路34d來對滑鼠 裝置34中之電池34e進行充電。 請參照第6圖,其繪示乃第5圖之滑鼠裝置34的示 意阖。本實施例之滑鼠裝置34更例如具有殼體34s與傳 12 200935275 輸線L’其中充電電路34d及電池34e係設置於殼體34s 中。殼體34s之外表面更具有容置空間sp,用以選擇性地 容置無線電源接收模組36。該充電電路34d係經由傳輸線 L與無線電源接收模組36電性連接,以接收能量En2,。Ec. Thus, the electrical module 12 is used as an optical component (not shown). The control circuit is operative to illuminate the illuminating element in response to the electric power to generate an indication of the charging event Ec. The illuminating element illuminates or not to know that the wireless supply can effectively charge the battery 14e. In the present embodiment, the indication circuit 14c of the present embodiment is not limited to including the light-emitting element, although the indication circuit 14e includes the light-emitting element and is used for illuminating to generate the charging event Ec. . For example, the indicating circuit 14c of the embodiment may further include a sounding component or a vibration component for respectively sounding or vibrating to generate a wireless power supply module indicating the charging event Ec ° of the wireless mouse module of the embodiment. The energy between the first and second resonators, the first and second resonators, and the mouse device are coupled to each other such that the wireless power supply module can provide energy to charge the battery in the mouse device. In this way, the wireless mouse module of the embodiment can wirelessly charge the wireless mouse compared with the conventional wireless mouse, so that the wireless mouse module of the embodiment is more convenient to use. First Embodiment The mouse device in the wireless mouse module of this embodiment includes a housing body and the resonator device of the mouse device end is disposed on the inner wall of the housing. Referring to Figures 4A and 4B, Figure 4A is a schematic view of a mouse device in accordance with a second embodiment of the present invention, and Figure 4B is a cross-sectional view taken along line AA'. The mouse device 24 of the present embodiment is different from the mouse device 14 of the first embodiment in that the mouse device 24 of the present embodiment further has a housing 24s, 11 200935275 and a resonator disposed in the mouse device 24, for example. It is a coil of Solnoid conductor. The coil in the coiled-conductor coil is disposed on the inner wall of the casing 24s so as to surround the inner wall of the casing 24s. In more detail, the spiral conductor coil includes a plurality of ring bodies. The inner wall of the casing 24s has a cross section of the largest area, and one of the ring bodies is disposed on the inner wall in such a manner as to surround the outer edge of the largest area. The third embodiment of the wireless mouse module of the present embodiment further has a wireless power receiving module for receiving the power provided by the wireless power supply module and supplying the power to the mouse device. Referring to FIG. 5, a block diagram of a wireless mouse module in accordance with a third embodiment of the present invention is shown. The wireless mouse module 30 of the present embodiment is different from the wireless mouse module 10 of the first embodiment in that the wireless mouse module 30 of the embodiment further has a wireless power receiving module 36, in which a resonance is provided. RS2'. Wherein, the energy Ε n on the resonator RS1' is coupled to the resonator RS2' such that the resonators RS1' and RS2' are subjected to non-radiative energy transfer. Thus, the resonator RS2' provides energy En2'. The wireless power receiving module 36 is further electrically connected to the mouse device 34 for supplying the energy En2' to the charging circuit 34d in the mouse device 34, and charging the battery 34e in the mouse device 34 through the charging circuit 34d. . Referring to Figure 6, there is shown a schematic representation of the mouse device 34 of Figure 5. The mouse device 34 of this embodiment further has, for example, a housing 34s and a transmission line 12 200935275, wherein the charging circuit 34d and the battery 34e are disposed in the housing 34s. The outer surface of the casing 34s further has an accommodation space sp for selectively accommodating the wireless power receiving module 36. The charging circuit 34d is electrically connected to the wireless power receiving module 36 via the transmission line L to receive the energy En2.
更詳細的說,請參照第7圖,其繪示乃第5圖之滑鼠 裝置34與無線電源接收模組36的詳細方塊圖。無線電源 接收模組36更包括偵測電路36b及指示電路36c。偵測電 路36b與指示電路36c分別執行與無線滑鼠模組1 〇中之 偵測電路14b與指示電路14c相近之操作,以分別判斷能 量En2’是否超過臨界值,及回應於偵測電路3扑觸發之電 路操作事件Ee’來產生指示充電事件ec,。 無線電源接收模組36更包括麵合電路36f及阻抗匹 配電路36g’其分別執行與無線滑鼠模級1〇中之耦合電路 14f及阻抗匹配電路14g相近之操作。 滑鼠裝置34更包括整流電路34h。整流電路3让執子 與無線滑鼠模組10中之整流電路14h相近之操作以 能量En2’進行整流以產生整流後之崎Enn 34d例如根據整流後之能量En2, ree來對電池34e充電。 本實施例之無線滑鼠模組之無線供電模組與無線電 能接收模組分別具有第一及第二共振器。第一及第二共系 器間之能量係相互耦合,使得無線供電模組可提供能量^ 無線電能接㈣組,滑鼠裝置雜據鱗钱接收1 收到之能量對電池進行充電。如此,相較於傳統無線滑: 鼠’本實施例之無線滑鼠模組係可無線地對無線滑鼠進子 13 200935275 充電,使得本實施例之無線滑鼠模組之使用便利性較高。 綜上所述,雖然本發明已以一較佳實施例揭露如上, 然其並非用以限定本發明。本發明所屬技術領域中具有通 常知識者,在不脫離本發明之精神和範圍内,當可作各種 之更動與潤飾。因此,本發明之保護範圍當視後附之申請 專利範圍所界定者為準。 200935275 【圖式簡單說明】 第1圖繪示依照本發明第一實施例之無線滑鼠模組的 方塊圖。 第2圖繪示乃第1圖之無線供電模組12的詳細方塊 圖。 第3圖繪示乃第1圖之滑鼠裝置14的詳細方塊圖。 第4A及第4B圖分別繪示依照本發明第二實施例之滑 鼠裝置的示意圖及乃沿著剖面線AA’的剖面圖。 ® 第5圖繪示依照本發明第三實施例之無線滑鼠模組的 方塊圖。 第6圖繪示乃第5圖之滑鼠裝置36的示意圖。 第7圖繪示乃第5圖之滑鼠裝置34與無線電源接收 模組3 6的詳細方塊圖。 【主要元件符號說明】 10、30 :無線滑鼠模組 12、32 :無線供電模組 14、24、34 :滑鼠裝置 14a :滑鼠本體 14b、36b :偵測電路 14c、36c :指示電路 14d、34d :充電電路 14e、34e :電池 RSI、RS2、RS2’ :共振器 15 200935275 12a :電源電路 12b、14g、36g :阻抗匹配電路 12c、14f、36f :耦合電路 14h、34h :整流電路 24s、34s :殼體 36 :無線電能接收模組 SP :容置空間 L :傳輸線In more detail, please refer to FIG. 7, which is a detailed block diagram of the mouse device 34 and the wireless power receiving module 36 of FIG. The wireless power receiving module 36 further includes a detecting circuit 36b and an indicating circuit 36c. The detecting circuit 36b and the indicating circuit 36c respectively perform operations similar to the detecting circuit 14b and the indicating circuit 14c in the wireless mouse module 1 to determine whether the energy En2' exceeds a critical value, and in response to the detecting circuit 3 The triggered circuit operation event Ee' is generated to indicate the charging event ec. The wireless power receiving module 36 further includes a face-to-face circuit 36f and an impedance matching circuit 36g' which respectively perform operations similar to those of the coupling circuit 14f and the impedance matching circuit 14g in the wireless mouse mode. The mouse device 34 further includes a rectifier circuit 34h. The rectifier circuit 3 rectifies the operation similar to the rectifier circuit 14h in the wireless mouse module 10 by the energy En2' to generate a rectified singular Enn 34d for charging the battery 34e, for example, based on the rectified energy En2, ree. The wireless power supply module and the wireless power receiving module of the wireless mouse module of the embodiment respectively have first and second resonators. The energy between the first and second co-systems are coupled to each other such that the wireless power supply module can provide energy (radio energy) (four) groups, and the mouse device receives the received energy to charge the battery. In this way, compared with the conventional wireless sliding: the wireless mouse module of the present embodiment can wirelessly charge the wireless mouse input 13 200935275, so that the wireless mouse module of the embodiment is more convenient to use. . In view of the above, the present invention has been disclosed in a preferred embodiment, and is not intended to limit the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit and scope of the invention. Therefore, the scope of the invention is defined by the scope of the appended claims. 200935275 [Simplified Schematic Description] Fig. 1 is a block diagram showing a wireless mouse module according to a first embodiment of the present invention. FIG. 2 is a detailed block diagram of the wireless power supply module 12 of FIG. FIG. 3 is a detailed block diagram of the mouse device 14 of FIG. 4A and 4B are respectively a schematic view of a squirrel device according to a second embodiment of the present invention and a cross-sectional view taken along line AA'. ® Fig. 5 is a block diagram showing a wireless mouse module in accordance with a third embodiment of the present invention. Figure 6 is a schematic view of the mouse device 36 of Figure 5. Figure 7 is a detailed block diagram of the mouse device 34 and the wireless power receiving module 36 of Figure 5; [Main component symbol description] 10, 30: Wireless mouse module 12, 32: Wireless power supply module 14, 24, 34: Mouse device 14a: Mouse body 14b, 36b: Detection circuit 14c, 36c: Indication circuit 14d, 34d: charging circuits 14e, 34e: batteries RSI, RS2, RS2': resonator 15 200935275 12a: power supply circuits 12b, 14g, 36g: impedance matching circuits 12c, 14f, 36f: coupling circuits 14h, 34h: rectifier circuit 24s , 34s : Housing 36 : Radio energy receiving module SP : accommodating space L : transmission line