Patents by Inventor Lih-Ren Shiue
Lih-Ren Shiue has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 6762926Abstract: The energy content of supercapacitor is determined by its capacitance value and working voltage. To attain a high capacitance and a high voltage, several pieces of electrodes and separators are spirally wound with edge sealing to form a bipolar supercapacitor in cylindrical, oval or square configuration. While the winding operation effectively provides a large surface area for high capacitance, the bipolar packaging instantly imparts a unitary roll a minimum working voltage of 5V on using an organic electrolyte. The bipolar roll is a powerful building block for facilitating the assembly of supercapacitor modules. Using containers with multiple compartments, as many bipolar rolls can be connected in series, in parallel or in a combination of the two connections to fabricate integrated supercapacitors with high energy density as required by applications.Type: GrantFiled: May 20, 2003Date of Patent: July 13, 2004Assignee: Luxon Energy Devices CorporationInventors: Lih-Ren Shiue, Chun-Shen Cheng, Jsung-His Chang, Li-Ping Li, Wan-Ting Lo, Kun-Fu Huang
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Patent number: 6753673Abstract: Using the combination of batteries and supercapacitors to provide impulse, various all-in-one power tools driven by the impulse are devised. The impulse may be utilized in three ways, namely, to launch an object, to create an impact force, and to form a peak current that can be greater than 100A. While the supercapacitors greatly enhance the power output of the power module, the supercapacitors are disposed in-parallel for charging and switched to series connection for discharging on depressing the triggers of the tools. Therefore, the batteries required to drive the portable power tools can be minimized & reduced, and the circuitry for conducting the parallel-to-series switch is simple and economical. Using interchangeable attachments or accessories, and power module of the invention, one tool body can be applied to many types of work and maintenance at homes and in the fields.Type: GrantFiled: March 27, 2003Date of Patent: June 22, 2004Assignee: Luxon Energy Devices CorporationInventors: Lih-Ren Shiue, Abel Sun, Hsing-Chen Chung, Jen-Chieh Cheng
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Publication number: 20040038087Abstract: An integrated battery by incorporating battery elements, supercapscitors elements, and miniaturized electronic controllers within a single housing is devised. The supercapacitors provide a load leveling for the battery elements at both charging and discharging. So long as the rated working voltage of supercapacitor is complied, the capacitor can be charged with charging currents of any magnitude. Then, the energy stored in the supercapacitors can be transferred from the capacitors to the batteries resulted in fast charging and energy conservation. With load leveling provided by the supercapacitors, the batteries are set to constantly discharge at 1C or lower rates and their residual energy near the end of discharge cycle can become useful as well. Therefore, the service run time, cycle life, and energy utilization of the batteries integrated are improved.Type: ApplicationFiled: August 21, 2002Publication date: February 26, 2004Applicant: LUXON ENERGY DEVICES CORPORATIONInventors: Lih-Ren Shiue, Abel Sun, Hsing-Chen Chung
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Patent number: 6678147Abstract: Iron oxide film directly grown on iron, steel, or other substrates by chemical or electrochemical oxidation is a promising material for energy storage through surface adsorption of static charges. As the electrode materials of energy-storage devices, the hydrated iron compound has a chemical composition of FexOyHz, where 1.0≦x≦3.0, 0.0≦y≦4.0, and 0.0≦z≦1.0. An aqueous or organic solution of a metallic salt including sulfates, sulfites, hydroxides, chlorides, phosphates and nitrates is used as electrolyte for the electrochemical devices. Cyclic voltammetry indicates that the iron-oxide electrodes in the electrolytes can store charges as high as 0.5 F/cm2 or 320 F/g of the electrode materials. Electrochemical capacitors using the iron oxide as the electrode material is an economical and viable power source for use in portable electronics, power tools, and electrical vehicles.Type: GrantFiled: August 19, 2002Date of Patent: January 13, 2004Assignee: Luxon Energy Devices CorporationInventors: Lih-Ren Shiue, Nae-Lih Wu, Dien-Shi Wu, Chieng-Wen Chao, Yi-Ping Lan
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Patent number: 6661643Abstract: Deionizers using the electrode configurations of electrochemical capacitors are described, wherein the deionizing process is called capacitive deionization (CDI). During deionization, a DC electric field is applied to the cells and ions are adsorbed on the electrodes with a potential being developed across the electrodes. As electrosorption reaches a maximum or the cell voltage is built up to the applied voltage, the CDI electrodes are regenerated quickly and quantitatively by energy discharge to storage devices such as supercapacitors. In conjunction with a carousel or Ferris wheel design, the CDI electrodes can simultaneously and continuously undergo deionization and regeneration. By the responsive regeneration, the CDI electrodes can perform direct purification on solutions with salt content higher than seawater. More importantly, electrodes are restored, energy is recovered and contaminants are retained at regeneration, while regeneration requires no chemicals and produces no pollution.Type: GrantFiled: October 18, 2002Date of Patent: December 9, 2003Assignee: Luxon Energy Devices CorporationInventors: Lih-Ren Shiue, Abel Sun, Chia-Chann Shiue, Fei-Chen Hsieh, Yu-His Hsieh, Jiung-Jau Jou
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Publication number: 20030214270Abstract: Using the combination of batteries and supercapacitors to provide impulse, various all-in-one power tools driven by the impulse are devised. The impulse may be utilized in three ways, namely, to launch an object, to create an impact force, and to form a peak current that can be greater than 100A. While the supercapacitors greatly enhance the power output of the power module, the supercapacitors are disposed in-parallel for charging and switched to series connection for discharging on depressing the triggers of the tools. Therefore, the batteries required to drive the portable power tools can be minimized & reduced, and the circuitry for conducting the parallel-to-series switch is simple and economical. Using interchangeable attachments or accessories, and power module of the invention, one tool body can be applied to many types of work and maintenance at homes and in the fields.Type: ApplicationFiled: March 27, 2003Publication date: November 20, 2003Inventors: Lih-Ren Shiue, Abel Sun, Hsing-Chen Chung, Jen-Chieh Cheng
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Publication number: 20030214269Abstract: The present invention provides a high current pulse generator for DC powered devices. The generator includes batteries as the power source that charges supercapacitors as well as provides power to the loads as required. During charging, the supercapacitors are connected in parallel, but they are switched to series connection by relays at the moment that the loads demand large currents. No other controlling means except for relays in the circuit is employed, so that the electric arrangement is simple, reliable, and cost-effective. As the batteries are designed to deliver currents at low discharge rates, the effective use-time of batteries is prolonged. Furthermore, due to the high power densities of supercapacitors, the readily available alkaline batteries can be utilized in the power unit for electric power tools.Type: ApplicationFiled: May 14, 2002Publication date: November 20, 2003Inventors: Lih-Ren Shiue, Abel Sun, Hsing-Chen Chung
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Patent number: 6650091Abstract: The present invention provides a high current pulse generator for DC powered devices. The generator includes batteries as the power source that charges supercapacitors as well as provides power to the loads as required. During charging, the supercapacitors are connected in parallel, but they are switched to series connection by relays at the moment that the loads demand large currents. No other controlling means except for relays in the circuit is employed, so that the electric arrangement is simple, reliable, and cost-effective. As the batteries are designed to deliver currents at low discharge rates, the effective use-time of batteries is prolonged. Furthermore, due to the high power densities of supercapacitors, the readily available alkaline batteries can be utilized in the power unit for electric power tools.Type: GrantFiled: May 14, 2002Date of Patent: November 18, 2003Assignee: Luxon Energy Devices CorporationInventors: Lih-Ren Shiue, Abel Sun, Hsing-Chen Chung
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Patent number: 6579327Abstract: A method of manufacturing a cylindrical high voltage supercapacitor. An anode and a cathode are provided. At least one bipolar electrode is interposed between the anode and the cathode, and a separator is intervened in each pair of the above electrodes. The anode, the cathode, the bipolar electrode and the separator, as placed in the above order, are wound concentrically into a roll, so as to form the cylindrical high voltage supercapacitor.Type: GrantFiled: September 6, 2002Date of Patent: June 17, 2003Assignee: Luxon Energy Devices CorporationInventors: Lih-Ren Shiue, Li-Ping Li, Hsing-Chen Chung, Wan-Ting Lo
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Patent number: 6580598Abstract: Deionizers using the electrode configurations of electrochemical capacitors are described, wherein the deionizing process is called capacitive deionization (CDI). During deionization, a DC electric field is applied to the cells and ions are adsorbed on the electrodes with a potential being developed across the electrodes. As electrosorption reaches a maximum or the cell voltage is built up to the applied voltage, the CDI electrodes are regenerated quickly and quantitatively by energy discharge to storage devices such as supercapacitors. In conjunction with a carousel or Ferris wheel design, the CDI electrodes can simultaneously and continuously undergo deionization and regeneration. By the responsive regeneration, the CDI electrodes can perform direct purification on solutions with salt content higher than seawater. More importantly, electrodes are restored, energy is recovered and contaminants are retained at regeneration, while regeneration requires no chemicals and produces no pollution.Type: GrantFiled: March 27, 2002Date of Patent: June 17, 2003Assignee: Luxon Energy Devices CorporationInventors: Lih-Ren Shiue, Abel Sun, Chia-Chann Shiue, Fei-Chen Hsieh, Yu-His Hsieh, Jiung-Jau Jou
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Publication number: 20030098266Abstract: A fully automatic deionizer comprising five sub-systems for removing ionic contaminants from various liquids at low energy consumption is devised. Based on the charging-discharging principle of capacitors, the deionizer conducts deionization through applying a low DC voltage to its electrodes for adsorbing ions, while more than 30% of the process energy is recovered and stored by discharging the electrodes. At the mean time of discharge, surface of the electrodes is regenerated on site and reset for performing many more cycles of deionization-regeneration till the desirable purification is attained. In one moment, both deionization and regeneration proceed simultaneously on different groups of electrode modules, and in the next moment the electrode modules quickly switch the two processes. Such swift reciprocating actions are engaged in synchronized coordination of sub-systems of electrode modules, energy management, fluid flow, and automatic control.Type: ApplicationFiled: October 25, 2002Publication date: May 29, 2003Inventors: Lih-Ren Shiue, Abel Sun, Hsing-Chen Chung, Fei-Chen Hsieh, Yu-His Hsieh, Ming-Liang Chiu, Ying-Jen Lai
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Publication number: 20030094858Abstract: A concise electronic timer is composed of an adjustable resistor, a supercapacitor and an electromagnetic relay. After a main power is turned off, electricity supplied from the capacitor to the relay will extend or actuate the operation of a load until the discharge of the capacitor is over. Incorporating the resistor with the other two elements, the discharge time of the capacitor can be altered linearly by the resistor, therefore, a linear arrangement of delay extension and time of activation is attained. The simple, compact and economical timer can be used for indoor and outdoor illumination, monitoring security systems, as well as actuating systems.Type: ApplicationFiled: November 20, 2001Publication date: May 22, 2003Inventors: LIH-REN Shiue, Dien-Shi Wu, Ching-Wen Chao, Li-Ping Li, Ming-Fang Hsieh, Hsing-Chen Chung, Wan-Ting Lo
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Publication number: 20030063430Abstract: Deionizers using the electrode configurations of electrochemical capacitors are described, wherein the deionizing process is called capacitive deionization (CDI). During deionization, a DC electric field is applied to the cells and ions are adsorbed on the electrodes with a potential being developed across the electrodes. As electrosorption reaches a maximum or the cell voltage is built up to the applied voltage, the CDI electrodes are regenerated quickly and quantitatively by energy discharge to storage devices such as supercapacitors. In conjunction with a carousel or Ferris wheel design, the CDI electrodes can simultaneously and continuously undergo deionization and regeneration. By the responsive regeneration, the CDI electrodes can perform direct purification on solutions with salt content higher than seawater. More importantly, electrodes are restored, energy is recovered and contaminants are retained at regeneration, while regeneration requires no chemicals and produces no pollution.Type: ApplicationFiled: October 18, 2002Publication date: April 3, 2003Inventors: Lih-Ren Shiue, Abel Sun, Chia-Chann Shiue, Fei-Chen Hsieh, Yu-His Hsieh, Jiung-Jau Jou
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Patent number: 6512667Abstract: Using thin-films of iron oxide as the active material of electrodes, supercapacitors are fabricated on various substrates in different shapes. By chemical oxidation the iron-oxide film is formed directly and conformably on the substrates in a short period of cooking. The iron oxide has a chemical composition of FexOyHz, where 1.0≦x≦3.0, 0.0≦y≦4.0, and 0.0≦z≦1.0. Substrates, as the current collector, tested includes Al, Ti, Fe, Cu and Ni. Measurements by cyclic voltammetry indicates that the iron-oxide electrodes in a selected electrolyte can store charges as high as 0.5 F/cm2 or 417 F/g of the electrode materials. Supercapacitors as prepared are economical and can be used as enclosure housings for portable electronics, power tools, and batteries. The supercapacitors can also be integrated with the frames and chassis of electric vehicles.Type: GrantFiled: February 15, 2001Date of Patent: January 28, 2003Assignee: Luxon Energy Devices CorporationInventors: Lih-Ren Shiue, Dien-Shi Wu, Ching-Wen Chao, Jiung-Jau Jou
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Publication number: 20030011965Abstract: Iron oxide film directly grown on iron, steel, or other substrates by chemical or electrochemical oxidation is a promising material for energy storage through surface adsorption of static charges. As the electrode materials of energy-storage devices, the iron oxide has a chemical composition of FexOyHz, where 1.0≦x≦3.0, 0.0≦y≦4.0, and 0 0≦z≦1.0. An aqueous or organic solution of a metallic salt including sulfates, sulfites, hydroxides, chlorides, phosphates and nitrates is used as electrolyte for the electrochemical devices. Cyclic voltammetry indicates that the iron-oxide electrodes in the electrolytes can store charges as high as 0.5 F/cm2 or 320 F/g of the electrode materials. Electrochemical capacitors using the iron oxide as the electrode material is an economical and viable power source for use in portable electronics, power tools, and electrical vehicles.Type: ApplicationFiled: August 19, 2002Publication date: January 16, 2003Inventors: Lih-Ren Shiue, Nae-Lih Wu, Dien-Shi Wu, Ching-Wen Chao, Yi-Ping Lan
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Patent number: 6500575Abstract: A method for fabricating cylindrical and prismatic rechargeable metal-air batteries is devised. The method includes using micro fans to control air flowing through the batteries via air pathways between the packs of electrodes and separator sheet. The air pathways are created by protrusions printed or molded on plastic spacer film. The air is used by the positive electrode for generating electricity when the metal-air battery is discharged. By conjunction of a second positive electrode and an energy storage device, the micro fans can be actuated as soon as the metal-air battery is demanded by a load. The in-cell air management can not only supply air for reactions but also shut the system to preserve materials when they are not in service.Type: GrantFiled: December 27, 1999Date of Patent: December 31, 2002Assignee: Industrial Technology Research InstituteInventors: Lih-Ren Shiue, Shinn-Horng Yeh, Wen-Jin Lee, Pei-Jen Wang, Chum-Sam Hong, Shu-Chin Chou, Horng-Jee Wang
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Publication number: 20020163770Abstract: Using thin-films of iron oxide as the active material of electrodes, supercapacitors are fabricated on various substrates in different shapes. By chemical oxidation the iron-oxide film is formed directly and conformably on the substrates in a short period of cooking. The iron oxide has a chemical composition of FexOyHz, where 1.0≦x≦3.0, 0.0 ≦y≦4.0, and 0.0≦z≦1.0. Substrates, as the current collector, tested includes Al, Ti, Fe, Cu and Ni. Measurements by cyclic voltammetry indicates that the iron-oxide electrodes in a selected electrolyte can store charges as high as 0.5 F/cm2 or 417 F/g of the electrode materials. Supercapacitors as prepared are economical and can be used as enclosure housings for portable electronics, power tools, and batteries. The supercapacitors can also be integrated with the frames and chassis of electric vehicles.Type: ApplicationFiled: February 15, 2001Publication date: November 7, 2002Inventors: Lih-Ren Shiue, Dien-Shi Wu, Ching-Wen Chao, Jiung-Jau Jou
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Publication number: 20020154469Abstract: Deionizers using the electrode configurations of electrochemical capacitors are described, wherein the deionizing process is called capacitive deionization (CDI). During deionization, a DC electric field is applied to the cells and ions are adsorbed on the electrodes with a potential being developed across the electrodes. As electrosorption reaches a maximum or the cell voltage is built up to the applied voltage, the CDI electrodes are regenerated quickly and quantitatively by energy discharge to storage devices such as supercapacitors. In conjunction with a carousel or Ferris wheel design, the CDI electrodes can simultaneously and continuously undergo deionization and regeneration. By the responsive regeneration, the CDI electrodes can perform direct purification on solutions with salt content higher than seawater. More importantly, electrodes are restored, energy is recovered and contaminants are retained at regeneration, while regeneration requires no chemicals and produces no pollution.Type: ApplicationFiled: March 27, 2002Publication date: October 24, 2002Inventors: Lih-Ren Shiue, Abel Sun, Chia-Chann Shiue, Fei-Chen Hsieh, Yu-His Hsieh, Jiung-Jau Jou
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Patent number: 6462935Abstract: A free-standing flow-through capacitor (FTC) is constructed by concentrically winding two electrodes and two dividers into a hollow-center roll. A liquid-feeding pipe is inserted to the central opening for delivering fluids to the FTC. Nanoparticles of hydrated iron compound with Fe3O4 as the main component or its composite powders are used as the active materials for the electrodes. With channels crated by the dividers assembled in the roll, fluids injected from the feed pipe are confined inside the FTC, and flow outwardly and transversely through the entire length of the electrodes. Under an application of a low DC voltage to the electrodes, charged species are adsorbed and removed from the treated liquids as soon as they are in contact with the electrodes. Capacitive deionization using FTC of the present invention is applicable to waste-streams reduction, water purification and desalination at low costs and easy operation.Type: GrantFiled: September 7, 2001Date of Patent: October 8, 2002Assignee: Lih-Ren ShiueInventors: Lih-Ren Shiue, Chia-Chann Shiue, S-Yen Wang, Fei-Chen Hsieh, Chin-Hui Lee, Wan-Ting Lo, Yu-His Hsieh