201232365 [0001] [0002] [0003] 100103188 發明說明: 【發明所屬之技術領域】 本發明涉及一種資訊於 徑負’入模組及資訊處理 及—種利用光能發電進行資訊輸入的資尤其涉 用該資訊輸入模組的資訊處理裝置。。模組和應 【先前技術】 人們在電子裝置上裝f 電模組,用於接收自然2j電材枓製成的太陽能發 子裝置的充電電池中。長兄光此轉換成電能並存儲於電 表面時,其相_發^時’ 4敗太陽能發電模組的 等電參數)發生變化一數(如電壓、電流或發電功率 發電模組的電參數的^卩電參數糊下降'基於太陽能 的電訊號。將太陽能聲可用作電子裝置資訊輸入 觸摸功能的資訊輪ΛA t ^組改進成為電子裝置的類似 Ά具有很大應用 切能發電模組包括多個太 …'、 陽能發電單元由—個Μ妗 月^电單几,而每一個太 結内的電子運動而產^構成’每—㈣接收光能使其 值約0.5V。每 a電電壓,每-PN結的發電電麗 U八陽能黎φ抑一 能發電區域的面積無關,4早4發電電壓大小與光 區域面積成正比。 ’、發%電流大小與光能發電 °在發電I^ 電單元的發電電泣 —疋的情況下,太陽能發 越大越有利於快速收集^利於收集太陽能,即其面積 作的輸人介面,則希望每°而對於_似手指觸摸操 指觸摸面積相當,/<a 7太陽能發電單元的面積與手 驗表明:若每〜個^準確的輸人電參數訊號。實 個輪發電單元的面積設置過大,即 表單編號A0101 第4頁/共2〇頁 201232365 手指觸摸面積小於太陽能發電單元的面積1/4時,該太陽 能發電單元相關的發電參數變化不明顯,從而使電子裝 置基於變化不明顯的電參數而產生錯誤判斷,從而無法 實現電子裝置相應的功能操作。 【發明内容】 [0004] 有鑒於此,有必要提供一種光能發電資訊輸入模組,以 解決電子裝置上的太陽能發電單元的面積較大時,手指 觸摸操作輸入資訊的靈敏度和準確度不高的問題。 Ο ❹ [0005] 還有必要提供一種應用該光能發電資訊輸入模組的資訊 處理裝置。 [0006] [0007] 一種光能發電資訊輸入模組包括透光基板、第一電極層 、光能發電層及第二電極層。所述透光基板用於承載光 能發電層且在光能發電層的兩側分別設置第一電極層和 第二電極層。所述光能發電層包括多個相互獨立設置的 光能發電單元;所述第一電極層和第二電極層分別與光 能發電單元的兩端電連接;所述光能發電單元包括至少 兩個串聯電連接的子光能發電單元;當用戶遮蔽或遮擋 操作所述子光能發電單元時,所述子光能發電單元的電 參數發生變化而用作所述光能發電資訊模組的輸入電訊 號。 一種包含上述光能發電資訊輸入模組的資訊處理裝置, 資訊處理裝置還包括掃描檢測模組及處理模組。所述掃 描檢測模組用於掃描檢測所述子光能發電單元的電參數 ;處理器用於判斷電參數發生變化的子光能發電單元所 屬的光能發電單元,並產生該光能發電單元所對應的輸 100103188 表單編號Α0101 第5頁/共20頁 1002005647-0 201232365 命令 [0008] [0009] [0010] [0011] 100103188 與現有技術減’將光能«單元進1設置若干個相 互分隔的且㈣連接料総發電單元,使得子光能發 電單元的面積與手指_面積相當。因此用戶輪入操: 過程中,只制戶錢缝發電單元巾衫—個 發電單元’資訊處理農置輸出該光能發電此 制命令,進而提高遮蔽操作的靈敏度和準確度/、的控 【實施方式】 下麵結合實施卿_,對本發明進料細說明。 請參哪,資訊處理裝置⑽包括光能 組丨〇、充/供電管理模組19、掃綱入模 30。其中充/供電管理模組19包括充電單元9 /理模紅 92,所述光能發電資訊輪人模組1()將以ϋ電電沖 通過充電單元91將已轉換 、為-电能並 的電此存儲於充電電池92中 請同時參_2,所述⑼發電資㈣ 。 個相互獨立設置的光能發電單元6,a 、.、、 0包括若干 用於響應用戶的遮蔽或遮擋操::;光能發電單元6 其相關發電電參數產生變彳 日觸減作)而使 測每-光能發電單元6發電產掃梅並檢 3〇接收掃描檢測結果確定〜號’處埋模組 參數訊號發生變化時,產生:…t⑦軍706發電產生的電 輪入操作命令。所述電光能發電單元6對應的資訊 等。在本實關t,每—/括Μ 1紗發電功率 光能發雷留— 裝置100 —個資訊輪入操作功处…几6對應该資訊處理 輪入模組1 〇將光能轉換為^b〜%使該光能發電資訊 表軍編號麵 第6頁施的同時’又可代替傳统的201232365 [0001] [0002] [0003] 10033188 Description of the Invention: [Technical Field] The present invention relates to information on the negative input module and information processing, and the use of light energy for information input, especially Use this information to input the information processing device of the module. . Module and application [Prior Art] An electric module is mounted on an electronic device for receiving a rechargeable battery of a solar hair device made of natural 2j electric material. When the elder brother converts it into electric energy and stores it on the electric surface, the phase of the electric power module of the solar power module changes (such as voltage, current or electric parameters of the power generation module). ^ 卩 参数 参数 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' A too...', the yang power generation unit consists of a Μ妗 ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ The voltage, the power generation per PN junction, the U-Yangyang energy, the area of the power generation area is irrelevant, and the power generation voltage of the 4th and 4th generations is proportional to the area of the light area. In the case of electric power generation, the larger the solar energy is, the more favorable the rapid collection is. The better the collection of solar energy, that is, the input interface of its area, it is hoped that every ρ is like a finger touch. The area is quite, /&l t; a 7 solar power unit area and manual test shows: if each ~ accurate ^ input power parameter signal. The area of the real wheel power unit is set too large, that is, form number A0101 page 4 / total 2 page 201232365 When the touch area of the finger is less than 1/4 of the area of the solar power generation unit, the power generation parameter related to the solar power generation unit does not change significantly, so that the electronic device generates an erroneous judgment based on the electrical parameter whose change is not obvious, thereby failing to implement the corresponding function of the electronic device. [0004] In view of the above, it is necessary to provide a light energy power generation information input module to solve the sensitivity and accuracy of finger touch operation input information when the area of the solar power generation unit on the electronic device is large. The problem is not high. Ο ❹ [0005] It is also necessary to provide an information processing device using the light energy power generation information input module. [0006] [0007] A light energy power generation information input module includes a light transmissive substrate, first An electrode layer, a photovoltaic power generation layer, and a second electrode layer. The light transmissive substrate is used to carry the photovoltaic power generation layer and the two in the light energy generation layer The first electrode layer and the second electrode layer are respectively disposed on the side. The photovoltaic power generation layer includes a plurality of light energy power generation units disposed independently of each other; the first electrode layer and the second electrode layer are respectively combined with the light energy power generation unit The light energy generating unit includes at least two sub-light energy generating units electrically connected in series; when the user shields or blocks the sub-light energy generating unit, the electrical parameters of the sub-light generating unit occur The information processing device includes the above-mentioned information processing device for the light energy power generation information input module, and the information processing device further includes a scan detection module and a processing module. The module is configured to scan and detect electrical parameters of the sub-light energy generating unit; the processor is configured to determine a light energy generating unit to which the sub-light energy generating unit with the change of the electrical parameter belongs, and generate the input corresponding to the light energy generating unit 100103188 Form number Α 0101 Page 5 / Total 20 pages 1002005647-0 201232365 Command [0008] [0009] [0011] [10011] 100103188 With the prior art minus 'the light energy « unit into 1 Opposing a plurality of mutually spaced and (iv) binder Cong power generation unit, such that the sub-light power generation unit area comparable to the area of the finger _. Therefore, the user enters the operation: In the process, only the household money is used to sew the power generation unit towel--a power generation unit' information processing agricultural output to output the light energy generation command, thereby improving the sensitivity and accuracy of the shielding operation. BEST MODE FOR CARRYING OUT THE INVENTION The following is a detailed description of the feed of the present invention in conjunction with the implementation. Please refer to the information processing device (10) including a light energy group, a charging/powering management module 19, and a sweeping mold 30. The charging/powering management module 19 includes a charging unit 9 / a red module 92, and the light energy generating information wheel module 1 () will be converted into electricity by the charging unit 91. Stored in the rechargeable battery 92, please refer to _2, the (9) power generation (4). The mutually independent photovoltaic power generation units 6, a, ., and 0 include a plurality of shielding or shielding operations for responding to the user:: the photovoltaic power generation unit 6 has a related power generation parameter that is changed to a dimming day) The measurement of each-light energy power generation unit 6 generates electricity and sweeps the plum and checks 3 〇 receiving scan detection results to determine the number ~ when the buried module parameter signal changes, generating: ... t7 military 706 power generation electric wheeling operation command. The information corresponding to the electro-optical power generation unit 6 and the like. In this real customs t, each - / brackets 1 yarn power generation light energy Lei Lei - device 100 - an information wheel into the operation of the work ... a few 6 pairs of information processing wheel module 1 〇 convert light energy to ^ b~% makes the light energy generation information table military number face page 6 at the same time 'can replace the traditional
頁 J 10020的 201232365 機械輸入按鍵或觸摸板、觸摸屏等供用戶進行資訊輸入 操作。 [0012] 請參閱圖3a,在本實施方式中,所述光能發電資訊輸入 模組10包括透光基板101、光能發電層103、第一電極層 102、第二電極層104及保護層105。在本實施方式中, 所述透光基板101、光能發電層103、第一電極層102、 第二電極層104及保護層105通過粘膠依次相互疊加固定 〇 Ο [0013] [0014] 透光基板101選用透光率良好的玻璃材料或塑膠材質。 多個光能發電單元6彼此相互獨立設置於透光基板101和 保護層105之間以形成所述光能發電層1〇3。所述光能發 電層10 3還包括用於將光能發電草元6相互分隔的隔離單 元7。在本實施例中,隔離單元7採用絕緣材料;光能發 電單元6採用非晶石夕、單晶石夕、多晶梦、有機石夕等一種或 多種太陽能發電材料且塗敷於透光基板1〇1上。 Q [0015] [0016] 第一電極層102和第二電極層1〇4均與光能發電單元6電連 接。在本實施方式中,所述第一電極層1〇2和第二電極層 104均呈平面結構,所述光能發電層1〇3設置於第—電極 層102和第二電極層1〇4之間,並分別與之電連接。 其中’第-電極層102設置於所述透光基板⑻與光能發 電層103之間並顧透日㈣導電材料,如銦錫氧化物"( no)薄膜等製成。第-電極層1〇2與多個光能發電單元6 -端均電連接以形成接地的公共電桎。第二電極層叫勺 括多個相絲緣設置料電電極8,且每—料^ 100103188 表單編號AOI01 第7頁/共20頁 1002005647-0 201232365 與—光能發電單元6的另〜 導電電極8相互絕緣隔離二接其中絕緣區域9將 極8還通過至少_個導電 $極層1G4的各個導電電 電電路91相連接,以便牌=㈣料檢戦級20和充 電電路91存儲於充電電==元6產生電能通過充 輸出至掃描檢測模組2〇。 將其各電電參數 組20採用一單刀多擲聞 ",知描檢測模 曰曰片(如CD^osi笪、 早刀多擲開關輪流高速接通—— U51荨),即所述 3輪流進行採集光能 _母料電柱3,從而導電柱 模組30。 ’凡6相關電參數並傳送給處理 [0017] [0018] [0019] 100103188 在另—實施方式令,請隨 包括多個相互絕緣的透光_電極^第—電極層1〇2, 。其中每-個透光導電I,和透光絕緣區域9 —端電連接且通過 與—個光能發電單元6 夕~食1霉蕾J:士 <3, 級2 0和充電電路& 1相連接 分別與掃描檢測模 多個先能發電單元所述第二電極層104’與所述 千另一端 。 連接以形成接地的公共電極 保護層105用於將第—電極屬 二電極層1〇4固定^ ㈢102、光能發電層103及第 。又置於透先基板1 01上。 /每-光能發電單元6包括 電單元61。當光乾發電單個串聯電連接的子光能發 蔽或遮擋時,所诚2 ^早7的一子光能發電單元61被遮 砵子光能發Φ m 專相關電參數發味@ 2 兒早兀61的電流及發電效率 、 疋隻化,掃扣j入 剛每—子光能發電。。 田私測模組2 〇用於掃描並檢 、„ 兒早元61的知Ba 迸給處理模組3〇 . 關電參數並將檢測結果傳 處理模% q 表單編號細01 ^ 一 0根據檢測結果判斷雷夂數 第8頁/共20頁 I々取 201232365 發生變化的子光能發電單元61所屬的光能發電單元6並生 成所述光能發電單元6對應的功能操作的資訊輸入操作命 令。當用戶遮蔽或遮擋操作所述子光能發電單元61時, 所述子光能發電單元61的電參數發生變化而用作所述光 能發電資訊輸入模組10的輸入電訊號。在本實施方式中 ,每一子光能發電單元61由單獨一個光敏二極體的ΡΝ結 構成,即所述光敏二極體的ΡΝ結接收光能使ΡΝ結内的電 子運動,從而使該ΡΝ結產生的電壓約0. 5V,其發電電流 與該子光能發電單元61的面積成正比。 Ο [0020] 請同時參閱圖5,每一光能發電單元6包含8個電串聯連接 的子光能發電單元61。因此每一光能發電單元6產生約4V 電壓訊號,可直接用於充電電壓為4V的電池充電,不需 要額外變壓電路或變壓設備。 [0021] ❹ 請參閱圖4所示,在圖4所示的實施方式中,資訊處理裝 置100還包括命令指示單元16和輸入指示單元18,用戶根 據命令指示單元16提示的資訊輸入操作命令以遮蔽相應 的光能發電單元6或子光能發電單元61 ;輸入指示單元18 採用多個發光二極體並列設置,且每一個發光二極體對 應連接一個操作功能,用於提示用戶遮蔽操作已經產生 對應的資訊輸入操作命令。例如,當用戶需要啟動資訊 處理裝置100 “主功能表”功能時,遮蔽輸入指示單元 18上顯示“主功能表”對應下方的光能發電單元6或其中 之一的子光能發電單元61。此時,若輸入指示單元18中 的對應的一光二極體被點亮,則表明用戶遮蔽操作已經 啟動“主功能表”功能操作。 100103188 表單編號Α0101 第9頁/共20頁 1002005647-0 201232365 [0022] 為了滿足資訊處理裝置1 0 0的充電電池的充電電流要求, 每一光能發電單元6的面積一般設置為大於人手指的面積 ,每一光能發電單元6對應資訊處理裝置100—個功能操 作。所以光能發電單元6進一步設置成包含若干個相互分 隔且串聯連接的子光能發電單元61,每一子光能發電單 元61的面積與人手指觸摸面積相當。因此用戶輸入操作 過程中,只要用戶遮蔽光能發電單元6中任意一個子光能 發電單元61,資訊處理裝置100輸出該光能發電單元6對 應的控制命令,從而可提高遮蔽操作的靈敏度和準確度 [0023] 本技術領域的普通技術人員應當認識到,以上的實施方 式僅是用來說明本發明,而並非用作為對本發明的限定 ,只要在本發明的實質精神範圍之内,對以上實施方式 所作的適當改變和變化都落在本發明要求保護的範圍之 内。 【圖式簡單說明】 [0024] 圖1為本發明一實施方式中資訊處理裝置的模組圖。 [0025] 圖2為圖1所示資訊處理裝置的示意圖。 [0026] 圖3a為圖2所示光能發電資訊輸入模組沿A-A’方向剖面 圖。 [0027] 圖3b為圖2所示光能發電資訊輸入模組另一實施方式的剖 面圖。 [0028] 圖4為另一實施方式中的資訊處理裝置的示意圖。 [0029] 圖5為圖4所示資訊處理裝置的電路示意圖。 100103188 表單編號A0101 第10頁/共20頁 1002005647-0 201232365 【主要元件符號說明】 [0030] 資訊處理裝置:100 [0031] 光能發電資訊輸入模組:10、10’ [0032] 命令指示單元:16 [0033] 輸入指示單元:18 [0034] 充/供電管理模組:19 [0035] 掃描檢測模組:2 0 〇 [0036] 處理模組:30 [0037] 充電單元:91 [0038] 充電電池:92 [0039] 導電柱:3、3’ [0040] 光能發電單元:6 [0041] 子光能發電單元:61 、61’ 〇 W [0042] 隔離單元:7 [0043] 導電電極:8、8’ [0044] 絕緣區域:9、9’ [0045] 透光基板:101 [0046] 第一電極層:102、102’ [0047] 光能發電層:103 [0048] 第二電極層:104、104’ 100103188 表單編號A0101 第Π頁/共20頁 1002005647-0 105 201232365 [0049] 保護層 100103188 表單編號A0101 第12頁/共20頁 1002005647-0Page J 10020 201232365 Mechanical input button or touch pad, touch screen, etc. for user input operation. [0012] Referring to FIG. 3a, in the embodiment, the light energy generation information input module 10 includes a transparent substrate 101, a photovoltaic power generation layer 103, a first electrode layer 102, a second electrode layer 104, and a protective layer. 105. In the present embodiment, the transparent substrate 101, the photovoltaic power generation layer 103, the first electrode layer 102, the second electrode layer 104, and the protective layer 105 are sequentially fixed to each other by an adhesive layer. [0014] The light substrate 101 is made of a glass material or a plastic material having a good light transmittance. The plurality of photovoltaic power generation units 6 are disposed between the light-transmitting substrate 101 and the protective layer 105 independently of each other to form the light energy generating layer 1〇3. The light energy generating layer 103 further includes a spacer unit 7 for separating the photovoltaic power generation cells 6 from each other. In this embodiment, the isolation unit 7 is made of an insulating material; the light energy power generation unit 6 is made of one or more kinds of solar power generation materials such as amorphous stone eve, single crystal stone, polycrystalline dream, organic stone eve, and coated on the transparent substrate. 1〇1. [0016] [0016] The first electrode layer 102 and the second electrode layer 1〇4 are both electrically connected to the photovoltaic power generation unit 6. In the present embodiment, the first electrode layer 1〇2 and the second electrode layer 104 each have a planar structure, and the photovoltaic power generation layer 1〇3 is disposed on the first electrode layer 102 and the second electrode layer 1〇4. Between and separately connected to it. The 'electrode layer 102 is disposed between the transparent substrate (8) and the light energy generating layer 103 and is made of a conductive material such as an indium tin oxide <(no) film. The first electrode layer 1〇2 is electrically connected to the plurality of light energy generating units 6-ends to form a grounded common power. The second electrode layer is called a plurality of phase filament edge setting material electric electrodes 8, and each material ^ 100103188 form number AOI01 page 7 / total 20 pages 1002005647-0 201232365 and - the other conductive electrode of the light energy generating unit 6 8 is insulated from each other by two, wherein the insulating region 9 connects the poles 8 through the respective conductive electric circuits 91 of at least one conductive layer 1G4, so that the card = (four) material inspection stage 20 and the charging circuit 91 are stored in the charging electric = = element 6 generates electrical energy through the charge output to the scan detection module 2〇. Each of the electric parameter sets 20 adopts a single-knife and multi-throwing sound, and the scanning and detecting module (such as CD^osi笪, early-knife multi-throw switch turns on at high speed - U51荨), that is, the three-turn The light energy_masterbatch electric column 3 is collected, thereby electrically conducting the column module 30. </ RTI> </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; Each of the light-transmissive conductive I, and the light-transmitting insulating region 9 is electrically connected and passed through a light energy generating unit 6 夕~食1 蕾 J J:士<3, level 20 and charging circuit & The 1-phase connection and the scanning detection mode of the plurality of first power generation units of the second electrode layer 104' and the other end of the thousand. The common electrode protective layer 105 connected to form a ground is used to fix the first electrode to the second electrode layer 1〇4, the photovoltaic power generation layer 103, and the first. It is placed on the transparent substrate 101 again. The /per-light energy generating unit 6 includes an electric unit 61. When the sub-light energy of the single-series electrical connection of the light-drying power generation is blocked or blocked, the sub-photovoltaic power generation unit 61 of the Cheng 2 ^ 7 is concealed by the light energy Φ m with a specific electrical parameter odor @ 2 儿The current and power generation efficiency of the early 兀61 is only changed, and the sweeping j is just inserted into the energy of each sub-light. . The field test module 2 〇 is used for scanning and checking, „ 早 早 61 的 的 迸 迸 迸 迸 处理 处理 处理 处理 处理 关 关 关 关 关 关 关 关 关 关 关 关 关 关 关 关 关 关 关 关 关 关 关 关 关 关 关 关As a result, it is judged that the thunder number is 8th page/total 20 pages I, and the light energy power generation unit 6 to which the sub-light energy generation unit 61 that has changed is changed, and the information input operation command corresponding to the function operation of the light energy power generation unit 6 is generated. When the user blocks or occludes the sub-light energy generating unit 61, the electrical parameters of the sub-light energy generating unit 61 are changed to be used as the input electrical signals of the light energy generating information input module 10. In an embodiment, each of the sub-photovoltaic power generation units 61 is formed by a single photodiode structure, that is, the junction of the photodiode receives light to cause electrons in the crucible to move, thereby causing the knot The generated voltage is about 0.5 V, and the generated current is proportional to the area of the sub-light energy generating unit 61. [0020] Referring also to FIG. 5, each of the solar power generating units 6 includes eight sub-lights electrically connected in series. Power generation unit 61. Therefore each light energy The electric unit 6 generates a voltage signal of about 4V, which can be directly used for charging a battery with a charging voltage of 4V, and does not require an additional transformer circuit or a transformer device. [0021] ❹ Refer to FIG. 4, the implementation shown in FIG. In the mode, the information processing apparatus 100 further includes a command instructing unit 16 and an input instructing unit 18, and the user inputs an operation command according to the information prompted by the command instructing unit 16 to shield the corresponding light energy generating unit 6 or the sub-light energy generating unit 61; The unit 18 is arranged in parallel with a plurality of light-emitting diodes, and each of the light-emitting diodes is connected with an operation function for prompting the user to perform a corresponding information input operation command for the masking operation. For example, when the user needs to activate the information processing device 100. In the "main function table" function, the sub-light energy generating unit 61 of the light energy generating unit 6 corresponding to the "main function table" corresponding to the "main function table" is displayed on the occlusion input indicating unit 18. At this time, if input into the indicating unit 18 If the corresponding photodiode is lit, it indicates that the user shading operation has started the "main menu" function operation. 100103188 Α0101 Page 9/20 pages 1002005647-0 201232365 [0022] In order to satisfy the charging current requirement of the rechargeable battery of the information processing device 100, the area of each of the light energy generating units 6 is generally set to be larger than the area of the human finger, A light energy generating unit 6 corresponds to the functional operation of the information processing device 100. Therefore, the light energy generating unit 6 is further provided to include a plurality of sub-light energy generating units 61 which are separated from each other and connected in series, and each of the sub-light generating units 61 The area is equivalent to the touch area of the human finger. Therefore, as long as the user shields any one of the sub-light energy generating units 61 of the light energy generating unit 6 during the user input operation, the information processing apparatus 100 outputs a control command corresponding to the light energy generating unit 6, thereby The sensitivity and accuracy of the masking operation can be improved. [0023] Those skilled in the art will recognize that the above embodiments are merely illustrative of the invention and are not intended to limit the invention as long as the invention is Within the scope of the spirit, appropriate changes and variations to the above embodiments fall within the scope of the invention as claimed. Within the scope. BRIEF DESCRIPTION OF THE DRAWINGS [0024] FIG. 1 is a block diagram of an information processing apparatus according to an embodiment of the present invention. 2 is a schematic diagram of the information processing apparatus shown in FIG. 1. 3a is a cross-sectional view of the light energy generation information input module of FIG. 2 taken along the A-A' direction. 3b is a cross-sectional view showing another embodiment of the photovoltaic power generation information input module shown in FIG. 2. 4 is a schematic diagram of an information processing apparatus in another embodiment. 5 is a circuit diagram of the information processing apparatus shown in FIG. 4. 100103188 Form No. A0101 Page 10/Total 20 Page 1002005647-0 201232365 [Key Component Symbol Description] [0030] Information Processing Device: 100 [0031] Light Energy Generation Information Input Module: 10, 10' [0032] Command Indication Unit :16 [0033] Input indication unit: 18 [0034] Charge/power management module: 19 [0035] Scan detection module: 2 0 〇 [0036] Processing module: 30 [0037] Charging unit: 91 [0038] Rechargeable battery: 92 [0039] Conductive column: 3, 3' [0040] Solar power generation unit: 6 [0041] Sub-light energy generation unit: 61, 61' 〇 W [0042] Isolation unit: 7 [0043] Conductive electrode : 8, 8 ' [0044] Insulating region: 9, 9 ' [0045] Transmissive substrate: 101 [0046] First electrode layer: 102, 102' [0047] Photovoltaic power generation layer: 103 [0048] Second electrode Layer: 104, 104' 100103188 Form No. A0101 Page/Total 20 Page 1002005647-0 105 201232365 [0049] Protective Layer 100103188 Form Number A0101 Page 12 of 20 1002005647-0