PHOTOVOLTAIC PACKAGE

A photovoltaic package includes a substrate, a photovoltaic cell, an electric device, a cover, and an encapsulating material. The photovoltaic cell is disposed on the substrate. The electric device is disposed on the substrate and is electrically connected to the photovoltaic cell. The cover covers the substrate, the photovoltaic cell, and the electric device. The cover has a first depression formed therein. The first depression receives at least a portion of the electric device. The encapsulating material is located between the substrate and the cover. The encapsulating material at least partially encapsulates the photovoltaic cell and the electric device. 1. A photovoltaic package comprising:a substrate;a photovoltaic cell disposed on the substrate;an electric device disposed on the substrate and electrically connected to the photovoltaic cell;a cover covering the substrate, the photovoltaic cell, and the electric device, wherein the cover comprises a first depression for receiving at least a portion of the electric device; andan encapsulating material located between the substrate and the cover and at least partially encapsulating the photovoltaic cell and the electric device.2. The photovoltaic package of claim 1 , wherein the electric device comprises a diode.3. The photovoltaic package of claim 1 , wherein the cover comprises:a photovoltaic cell cover covering the photovoltaic cell; andan electric device cover extending from a side edge of the photovoltaic cell cover and covering the electric device, wherein the photovoltaic cell cover is thicker than the electric device cover, and the first depression is formed by a side surface of the photovoltaic cell cover next to the electric device cover and an inner surface of the electric device cover facing the electric device.4. The photovoltaic package of claim 3 , further comprising:a frame, wherein the assembly of the substrate, the photovoltaic cell, the electric device, the cover, and the encapsulating material ...

THREE-DIMENSIONAL DISPLAY DEVICE

A three-dimensional display device includes a display panel and a barrier structure. The barrier structure is located at one side of the display panel. Besides, the barrier structure includes a plurality of barrier patterns and a plurality of transparent slits. The barrier patterns and the transparent slits are arranged alternately. In particular, the barrier patterns include a photoelectric conversion structure. 1. A three-dimensional display device comprising:a display panel; anda barrier structure located at one side of the display panel, the barrier structure comprising a plurality of barrier patterns and a plurality of transparent slits, the barrier patterns and the transparent slits being arranged alternatively, the barrier patterns comprising a first photoelectric conversion structure.2. The three-dimensional display device as recited in claim 1 , further comprising a light source module located below the display panel claim 1 , the barrier structure being located between the display panel and the light source module.3. The three-dimensional display device as recited in claim 2 , wherein the barrier structure further comprises a reflective layer located on a surface of the barrier patterns.4. The three-dimensional display device as recited in claim 3 , wherein the reflective layer is located between the display panel and the barrier patterns.5. The three-dimensional display device as recited in claim 3 , wherein the barrier structure further comprises a second photoelectric conversion structure claim 3 , and the reflective layer is sandwiched between the first photoelectric conversion structure and the second photoelectric conversion structure.6. The three-dimensional display device as recited in claim 5 , wherein the second photoelectric conversion structure comprises a semiconductor photoelectric conversion material or an organic dye photoelectric conversion material.7. The three-dimensional display device as recited in claim 5 , wherein the second ...

Solar cell module, electronic device having the same, and manufacturing method for solar cell

A solar cell module is provided and includes a first solar cell and a second solar cell. The first solar cell includes a first metal substrate, a first photoelectric conversion layer, a first top electrode layer, a first P-N junction semiconductor, and a first bottom electrode layer. The second solar cell includes a second metal substrate, a second photoelectric conversion layer, a second top electrode layer, a second P-N junction semiconductor, and a second bottom electrode layer. The first photoelectric conversion layer and the first P-N junction semiconductor are respectively located on two opposite sides of the first metal substrate. The second photoelectric conversion layer and the second P-N junction semiconductor are respectively located on two opposite sides of the second metal substrate. The second bottom electrode layer is located on the second P-N junction semiconductor, and is electrically coupled to the first metal substrate.

POWER TRACKING DEVICE AND POWER TRACKING METHOD

A power tracking device and a power tracking method is disclosed herein. The power tracking device includes a power voltage setting circuit, a switch, a switching signal circuit, and a voltage memory circuit. The switching signal circuit is configured for sending a first control signal to the switch. When the switch receives the first control signal and electrically isolates the power source and the power voltage setting circuit, the voltage memory circuit stores an open circuit voltage of the power source and sends a setting voltage relative to the open circuit voltage, and when the switch receives the first control signal and electrically connects the power source and the power voltage setting circuit, the power voltage setting circuit sets an output voltage of the power source to correspond with the setting voltage. 1. A power tracking device , comprising:a power voltage setting circuit,a switch, wherein a first terminal of the switch is connected to a power source, and a second terminal of the switch is connected to the power voltage setting circuit;a switching signal circuit for sending a first control signal to the switch; anda voltage memory circuit, wherein when the switch receives the first control signal and electrically isolates the power source and the power voltage setting circuit, the voltage memory circuit stores an open circuit voltage of the power source and sends a setting voltage relative to the open circuit voltage, and when the switch receives the first control signal and electrically connects the power source and the power voltage setting circuit, the power voltage setting circuit sets an output voltage of the power source to correspond with the setting voltage.2. The power tracking device of claim 1 , wherein the voltage memory circuit comprises:a capacitor;an anti-backflow device for keeping the open circuit voltage inside the capacitor; anda voltage dividing circuit connected to the capacitor, the voltage dividing circuit dividing the open ...

Solar power system, solar cell module and power providing method thereof

A solar power system includes a solar cell module, a main system and at least one sub system. The solar cell module includes at least one first solar cell unit and one second solar cell unit coupled in series. The first solar cell unit is configured to have an available maximum output current greater than that of the second solar cell unit. The main system is electrically coupled to the solar cell module and simultaneously supplied with electrical power by the first solar cell unit and the second solar cell unit both. The at least one sub system is electrically coupled to the solar cell module and supplied with electrical power by the first solar cell unit only. A solar cell module and a power providing method thereof are also provided.

THIN FILM TRANSISTOR

A method for manufacturing a patterned layer includes the steps of: providing a substrate having a first surface and a second surface opposite to the first surface; providing a material source for supplying a plurality of charged particles, in which the first surface faces the material source; providing a magnetic element, in which the second surface is arranged between the magnetic element and the first surface; and depositing the charged particles on the first surface through using the magnetic element so as to form a patterned layer. A method for manufacturing an electrochromic device is disclosed as well. 1. A method for manufacturing a patterned layer , comprising:providing a substrate having a first surface and a second surface opposite to the first surface;providing a material source for supplying a plurality of charged particles, wherein the first surface of the substrate faces the material source;providing a magnetic element, wherein the second surface is arranged between the magnetic element and the first surface; anddepositing the charged particles on the first surface by utilizing the magnetic element, and thereby forming a patterned layer.2. The method according to claim 1 , wherein the step of depositing the charged particles on the first surface comprises depositing the charged particles to form a layer having different thicknesses on at least two regions of the first surface so as to form the patterned layer.3. The method according to claim 1 , wherein the magnetic element comprises a first magnetic element and a second magnetic element claim 1 , and a direction of the magnetic moment of the first magnetic element is different form a direction of the magnetic moment of the second magnetic element.4. The method according to claim 3 , wherein the direction of the magnetic moment of the first magnetic element is opposite to the direction of the magnetic moment of the second magnetic element.5. The method according to claim 1 , wherein the magnetic ...

Power tracking device and power tracking method

一種功率追蹤裝置與功率追蹤方法在此揭露，其中之功率追蹤裝置包括功率電壓設定電路、開關與記憶電壓電路。開關之第一端連接能源端而第二端連接該功率電壓設定電路，並根據一控制訊號開啟或關閉。記憶電壓電路用以記錄該能源端的開路電壓並基於該開路電壓而輸出設定電壓至該功率電壓設定電路。

Display apparatus and operation method thereof

Performance Finder and Performance Finder

Eine Leistungssucheinrichtung (100) und ein Leistungssuchverfahren. Die Einrichtung umfasst eine Netzspannungseinstellschaltung (110), einen Schalter (120) und eine Spannungsspeicherschaltung (130). Ein erster Anschluss (121) des Schalters (120) ist mit einer Energieversorgungseinrichtung (200) verbunden, während ein zweiter Anschluss (122) desselben mit der Netzspannungseinstellschaltung (110) verbunden ist, welche in Abhängigkeit eines Steuersignals an- und ausgeschaltet werden. Die Spannungsspeicherschaltung (130) speichert die Leerlaufspannung der Energieversorgungseinrichtung (200) und gibt eine auf der Leerlaufspannung basierende Stellspannung an die Netzspannungseinstellschaltung (110) aus. Die Einrichtung kann das Leistungssuchen vereinfachen und Kosten reduzieren. A performance searcher (100) and a performance search method. The device comprises a mains voltage setting circuit (110), a switch (120) and a voltage storage circuit (130). A first terminal (121) of the switch (120) is connected to a power supply (200), while a second terminal (122) thereof is connected to the mains voltage setting circuit (110) which is turned on and off in response to a control signal. The voltage storage circuit (130) stores the open circuit voltage of the power supply device (200) and outputs an open circuit voltage-based adjustment voltage to the line voltage setting circuit (110). The facility can simplify service search and reduce costs.

Display apparatus and operation method thereof

Photovoltaic package

A photovoltaic package includes a substrate, a photovoltaic cell, an electric device, a cover, and an encapsulating material. The photovoltaic cell is disposed on the substrate. The electric device is disposed on the substrate and is electrically connected to the photovoltaic cell. The cover covers the substrate, the photovoltaic cell, and the electric device. The cover has a first depression formed therein. The first depression receives at least a portion of the electric device. The encapsulating material is located between the substrate and the cover. The encapsulating material at least partially encapsulates the photovoltaic cell and the electric device.

System and method for power management

感測顯示裝置及其觸控偵測方法

太陽能電池模組、具有太陽能電池模組的電子裝置及太陽能電池的製造方法

一種太陽能電池模組包含第一太陽能電池與第二太陽能電池。第一太陽能電池包含第一金屬基板、第一光電轉換層、第一上電極層、第一P-N接合半導體與第一下電極層。第二太陽能電池包含第二金屬基板、第二光電轉換層、第二上電極層、第二P-N接合半導體與第二下電極層。第一光電轉換層與第一P-N接合半導體分別位於第一金屬基板之第一表面與第二表面上。第二光電轉換層與第二P-N接合半導體分別位於第二金屬基板之第一表面與第二表面上。第二下電極層位於第二P-N接合半導體相對於第二金屬基板的對側，且電性耦接第一金屬基板。

感測顯示裝置及其觸控偵測方法

一種感測顯示裝置及其觸控偵測方法。感測顯示裝置，包括一光電轉換模組、一電池、一顯示單元、一控制單元及一驅動單元。光電轉換模組具有陣列排列的多個感測單元，且將光能轉換為電能。電池電性耦接至光電轉換模組，且將電能儲存於電池並提供一電壓源至感測顯示裝置。顯示單元配置於光電轉換模組的一感光面，控制單元電性連接這些感測單元，且依據流經這些感測單元的電量變化，判斷這些感測單元是否處於一遮罩狀態。驅動單元電性連接控制單元以及顯示單元之間。

顯示面板及其製作方法

一種顯示面板包括陣列基板、複數個開關元件、對向基板、太陽能電池以及顯示介質層。開關元件設置於陣列基板上。對向基板具有溝槽，位於對向基板面對陣列基板之表面。太陽能電池包括第一電極設置於對向基板之溝槽內、光電轉換堆疊結構設置於對向基板之溝槽內並與第一電極電性連接，以及第二電極設置於對向基板之表面上並與光電轉換堆疊結構電性連接。顯示介質層設置於陣列基板與對向基板之間。

電子裝置及其顯示裝置

本發明揭露一種電子裝置及其顯示裝置。顯示裝置包含背板、光電轉換模組及顯示模組。背板具有內面並形成有開口。背板具有圍繞開口之內緣。內緣係朝背向內面之方向凹陷以形成托部。光電轉換模組設置於托部上且不突出於內面。光電轉換模組具有曝露於開口之受光面。顯示模組設置於背板之內面上，並覆蓋光電轉換模組。顯示模組具有背向光電轉換模組之顯示面。

圖案化膜層的製造方法以及電致變色裝置的製造方法

一種圖案化膜層的製造方法，包含以下步驟：提供基材，基材具有第一面以及相對於第一面的第二面；提供材料源，基材的第一面朝向材料源，且材料源用以提供複數個帶電粒子；提供磁性元件，第二面設置於磁性元件與第一面之間；以及藉由磁性元件，將帶電粒子沉積於第一面上，而形成一圖案化膜層。在此亦揭露一種電致變色裝置的製造方法。

可攜式電子裝置

一種可攜式電子裝置包括裝置本體、第一樞轉單元、支撐架以及第一光電轉換元件。第一樞轉單元設置於裝置本體。支撐架以第一樞轉單元樞接於裝置本體，用以支撐裝置本體。第一樞轉單元使得支撐架可沿著第一樞轉單元相對於裝置本體進行轉動。第一光電轉換元件設置於支撐架並電性連接於裝置本體。第一光電轉換元件包括第一光電轉換部與第二光電轉換部。第一光電轉換部與第二光電轉換部分別設置於支撐架的不同面。

顯示器

一種顯示器包括穿透式顯示面板、第一太陽電池陣列以及控制單元。第一太陽電池陣列包括多個彼此平行之第一條狀太陽電池單元。這些第一條狀太陽電池單元彼此間隔排列，以吸收至少部分照射於穿透式顯示面板的外界光線，並將外界光線轉換為電能。控制單元與穿透式顯示面板及第一太陽電池陣列電性連接。

太陽能系統、太陽能模組及供電方法

本案提及一種太陽能系統、太陽能模組及供電方法。此太陽能系統具有太陽能模組、主系統以及至少一個副系統。在太陽能模組中至少有串接的第一太陽能單元與第二太陽能單元，且第一太陽能單元所能提供的最大電流高於第二太陽能單元所能提供的最大電流。主系統電性耦接至太陽能模組以同時由第一太陽能單元及第二太陽能單元供應電力，而副系統則同樣電性耦接至太陽能模組，但僅以第一太陽能單元來供應所需電力。