IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0764120
(2010-04-21)
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등록번호 |
US-8465287
(2013-06-18)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
2 |
초록
▼
A method, system and an apparatus of alternative energy powered electronic reader having preloaded educational data is disclosed. In one embodiment, a method includes converting a solar energy, through a photovoltaic cell, into an electrical current to utilize the solar energy of the sun. In additio
A method, system and an apparatus of alternative energy powered electronic reader having preloaded educational data is disclosed. In one embodiment, a method includes converting a solar energy, through a photovoltaic cell, into an electrical current to utilize the solar energy of the sun. In addition, the method includes storing the electrical current in a battery to provide a power source to an electronic reader. The method also includes powering the electronic reader through the battery to provide an electronic content to a user. The method further includes storing the electronic content in a solid state drive in the electronic reader. The electronic content may be an educational lesson.
대표청구항
▼
1. A method for providing electronic content via an electronic reader, wherein the electronic reader comprises alternative energy to power the electronic reader, the method comprising: converting solar energy, through a photovoltaic cell of the electronic reader, into electrical current to utilize t
1. A method for providing electronic content via an electronic reader, wherein the electronic reader comprises alternative energy to power the electronic reader, the method comprising: converting solar energy, through a photovoltaic cell of the electronic reader, into electrical current to utilize the solar energy of the sun, wherein the photovoltaic cell is made into a thin film in order to obtain an efficiency of greater than fourteen percent in the conversion of the solar energy into electrical current, wherein the thin film of the photovoltaic cell comprises a silicon selected from one of an amorphous silicon, protocrystalline silicon, nanocrystalline silicon, and black silicon, and wherein the thin film of the photovoltaic cell comprises a photosensitive dye to generate a photoelectron to create the electrical current in order to reduce cost of the conversion of the solar energy into electrical current;generating electrical energy or current via a mechanical device, wherein the mechanical device comprises a dynamo with a hand crank electromechanically coupled to the electronic reader in order to convert mechanical energy into electrical energy;storing the electrical current into a battery to provide a power source to the electronic reader, wherein the electronic reader is encased in a bioplastic in order to reduce damage to an electrical component of the electronic reader, wherein the bioplastic is a plastic material derived from a biomass source comprising one of a vegetable oil, a corn starch, a pea starch, and a microbiota, wherein the bioplastic has a characteristic to absorb humidity;storing electronic content in a solid state drive in the electronic reader, wherein a writable storage capacity of the solid state drive is reduced in order to reduce power consumption and heat generation of the solid state drive, wherein a write performance is slower than a read performance, and wherein the electronic content comprises an educational lesson; andpowering the electronic reader through the battery to provide the electronic content to the user via a display of the electronic reader, wherein the display is either: a display comprising organic light emitting diode, wherein said organic light emitting diode is a light emitting diode comprising an emissive electroluminescent layer comprising a film of an organic compound, and wherein the organic light emitting diode is printed onto a substrate with one of an inkjet printer and a screen printing device; ora liquid crystal display, wherein said liquid crystal display is a bitstable display, wherein the bitstable display reduces power consumption of the display; andilluminating a room via a light source coupled to the electronic reader in order to provide light to the user, wherein the light source is separate from the display. 2. The method of claim 1, wherein the educational lesson comprises a subject, wherein the subject comprises one of a mathematics, a biology, a chemistry, a physics, an economics, a literature, and a history and wherein a medium of the educational lesson comprises one of a text, an image, an audio, and a video, and wherein a language of the educational lesson comprises English. 3. The method of claim 2 further comprising, providing light through the light source, wherein the light source comprises a light emitting diode to generate a white light, wherein the white light is generated comprising one of mixing a red light emitting diode, a green light emitting diode, and a blue light emitting diode and converting one of a blue light emitting diode and an ultraviolet light emitting diode to the white light through a phosphor material. 4. The method of claim 1 further comprising, reducing environmental waste by using a lithium iron phosphate battery, wherein the lithium iron phosphate battery is a rechargeable battery comprising a lithium iron phosphate, wherein the lithium iron phosphate is a cathode. 5. The method of claim 1 further comprising, reducing environmental waste by using a nickel metal hydride battery, wherein the nickel metal hydride battery is a rechargeable battery comprising hydrogen absorbing alloy, wherein the hydrogen absorbing alloy is an anode. 6. The method of claim 1 further comprising, reducing a cost of the electronic content to store on the electronic reader, wherein the electronic content comprises electronic content of a public domain. 7. The method of claim 1, wherein the plastic material has a resistance to water and dust, and wherein the plastic material comprises acrylonitrile butadiene styrene of at least two millimeters thick. 8. The method of claim 1 further comprising, preloading a curriculum of a student, wherein the curriculum comprises the educational content comprising educational lesson of a kindergarten study material through a twelfth grade study material, wherein the kindergarten study material through the twelfth grade study material is developed by a nonprofit organization approved by a government organization to provide the curriculum to educate the student, wherein the curriculum conforms to an international standard of an education; andstoring the curriculum on the storage drive, wherein the storage drive consists only of a read only memory to allow the user of the electronic reader to read the educational lesson. 9. An electronic reader apparatus comprising, a photovoltaic cell to convert solar energy into electrical current to utilize the solar energy of the sun, wherein the photovoltaic cell is made into a thin film in order to obtain an efficiency of greater that fourteen percent when converting solar energy into electrical current, said thin film comprises a silicon, wherein the silicon is one of an amorphous silicon, protocrystalline silicon, nanocrystalline silicon, and black silicon, and wherein the thin film of the photovoltaic cell comprises a photosensitive dye to generate a photoelectron to create the electrical current;a battery to store the electrical current generated by the photovoltaic cell;an electronic content to provide one of a text, an image, an audio, and a video to a user of the electronic reader;a solid state drive to store the electronic content of the electronic reader, wherein a writable storage capacity of the solid state drive is reduced in order to reduce power consumption and heat generation of the solid state drive, and wherein a write performance is slower than a read performance;a bioplastic casing to encase the electronic reader, wherein the bioplastic is a plastic derived from a biomass source comprising one of a vegetable oil, a corn starch, a pea starch, and a microbiota, wherein the bioplastic has a characteristic to absorb humidity;a display to display one of the text, image, and video of the electronic content, wherein the display comprising an organic light emitting diode, wherein the organic light emitting diode is a light emitting diode comprising an emissive electroluminescent layer comprising a film of an organic compound and wherein the organic light emitting diode is printed onto a substrate with one of an inkjet printer and a screen printing device;a light source coupled to the electronic reader, wherein the light source is utilized to illuminate a room, and wherein the light source is separate from the display;a hand crank device electromechanically coupled with the electronic reader through a dynamo in order to convert mechanical energy into electrical energy, and to power the electronic reader through the battery to provide the electronic content to the user. 10. The apparatus of claim 9 further comprising, a communication port to enable the electronic reader to transfer the electronic content to an electronic device, wherein the communication port is one of a wireless port and a universal serial bus port. 11. An electronic educational system comprising, a photovoltaic cell to convert solar energy into electrical current to utilize the solar energy of the sun, wherein the photovoltaic cell is made into a thin film, said thin film comprises a silicon, wherein the silicon is one of an amorphous silicon, protocrystalline silicon, nanocrystalline silicon, and black silicon;a battery to store the electrical current generated by the photovoltaic cell;an electronic content to provide one of a text, an image, an audio, and a video to a user of the electronic reader;a solid state drive to store the electronic content of the electronic reader, wherein a writable storage capacity of the solid state drive is reduced in order to reduce power consumption and heat generation of the solid state drive, and wherein a write performance is slower than a read performance;a display to display one of the text, image, and video of the electronic content, wherein the display comprises an organic light emitting diode, wherein the organic light emitting diode is a light emitting diode comprising an emissive electroluminescent layer comprising a film of an organic compound, and wherein the organic light emitting diode is printed onto a substrate with one of an inkjet printer and a screen printing device;a plastic material to encase the electronic reader, wherein the plastic material has a resistance to water and dust, and wherein the plastic material comprises acrylonitrile butadiene styrene of at least two millimeters thick;a hand crank device electromechanically coupled with the electronic reader through a dynamo in order to convert mechanical energy into electrical energy, and to power the electronic reader through the battery to provide the electronic content to the user; anda hub device to transfer electronic content of the hub device to the electronic reader, wherein the hub device is preconfigured to interact with the electronic reader and wherein the electronic reader is preconfigured to interact with the hub device. 12. The system of claim 11 wherein, the hub device distributes the electronic content to the electronic reader, wherein the electronic content comprises an educational lesson and feedback of the educational lesson, and wherein the hub device is accessible to a teacher; andthe electronic reader distributes electronic content comprising a homework to the hub device, wherein the electronic reader is accessible to a student. 13. The system of claim 11 further comprising, a communication port to enable the electronic reader to transfer the electronic content to the hub device, wherein the communication port is one of a wireless port and a universal serial bus port.
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