Patents by Inventor Qun Song
Qun Song 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: 11684895Abstract: A composite reverse osmosis membrane having a semipermeable bilayer polyamide composition comprising a base layer containing a rigid crosslinked aromatic polyamide and a top layer containing a flexible aliphatic polyamide is disclosed, the two layers in combination providing reduced salt passage in reverse osmosis desalination of brackish waters and of seawater.Type: GrantFiled: September 3, 2020Date of Patent: June 27, 2023Assignee: NL Chemical Technology, Inc.Inventors: John F. Thompson, Lars Kohler, Qun Song, Jane C. Li
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Patent number: 11436122Abstract: Presented herein are embodiments for quickly identifying and recommending key performance indicators (KPIs) for network devices based on the type of network device and/or role of the device. The type or configuration of the network device may be obtained and compared to the capabilities of the network device. Operational or performance information of the network device, represented by strings, may be obtained based on the configuration information. Operational information that is not relevant to the configuration of the network device may be filtered out. The remaining operational information may be ranked as KPIs based on a relevance of the operational information with respect to the configuration information.Type: GrantFiled: May 12, 2020Date of Patent: September 6, 2022Assignee: CISCO TECHNOLOGY, INC.Inventors: Siva Sunil Kumar Matham, Ramanathan Lakshmikanthan, Selvakumaran N. Subramanian, Qun Song
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Patent number: 11278847Abstract: A reverse osmosis membrane is disclosed that has a hydrogel disposed on its surface, wherein the hydrogel is formed from a crosslinked polyvinylpyrrolidone or a copolymer of vinyl pyrrolidone. The hydrogel-coated membrane resists fouling by feed water contaminants. The permeate flux rate and salt rejection of the underlying membrane are not negatively affected by the hydrogel coating.Type: GrantFiled: July 30, 2019Date of Patent: March 22, 2022Inventors: Qun Song, Jane C. Li, Norman N. Li
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Publication number: 20220062830Abstract: A composite reverse osmosis membrane having a semipermeable bilayer polyamide composition comprising a base layer containing a rigid crosslinked aromatic polyamide and a top layer containing a flexible aliphatic polyamide is disclosed, the two layers in combination providing reduced salt passage in reverse osmosis desalination of brackish waters and of seawater.Type: ApplicationFiled: September 3, 2020Publication date: March 3, 2022Applicant: NL Chemical Technology, Inc.Inventors: John F. Thompson, Lars Kohler, Qun Song, Jane C. Li
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Publication number: 20220040643Abstract: Poly(amino acids) having hydrophilic side groups may be grafted onto active surfaces of polyamide composite membranes so as to confer fouling resistance. Polylysine, polyhistidine, polyarginine and their blends with polyglutamic acid may be grafted to membrane surfaces via amide linkages or via peroxide-induces bonding, modifying membrane surfaces behavior towards foulants.Type: ApplicationFiled: August 4, 2020Publication date: February 10, 2022Applicant: NL Chemical Technology, Inc.Inventors: Qun Song, Jane C. Li, Norman N. Li
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Publication number: 20210031149Abstract: A reverse osmosis membrane is disclosed that has a hydrogel disposed on its surface, wherein the hydrogel is formed from a crosslinked polyvinylpyrrolidone or a copolymer of vinyl pyrrolidone. The hydrogel-coated membrane resists fouling by feed water contaminants. The permeate flux rate and salt rejection of the underlying membrane are not negatively affected by the hydrogel coating.Type: ApplicationFiled: July 30, 2019Publication date: February 4, 2021Applicant: NL Chemical Technology, IncInventors: Qun Song, Jane C. Li, Norman N. Li
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Patent number: 7994455Abstract: Traditional temperature-control products have the problem that the temperature of the working surface reaches the setting temperature too slowly when heating up or recovering from a temperature drop. A traditional temperature control circuit and temperature-settings selector components are modified to solve this problem. When heating begins, the modified circuit increases the initial setting temperature to be above the target setting temperature. The modified circuit then adjusts the setting temperature by measuring the heating power consumption. Once the working surface of the temperature control product reaches the initial setting temperature, the heating power consumption drops and the modified circuit reduces the temperature setting to the target setting temperature. The temperature control product can rapidly achieve the target temperature. A positive-temperature-coefficient heating component is used in the temperature control product.Type: GrantFiled: October 10, 2007Date of Patent: August 9, 2011Assignee: Pericom Technology Inc.Inventors: Qun Song, Fang Xie, Qi Wu, Zeyu Huang
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Patent number: 7746087Abstract: A semiconductor integrated circuit (IC) acts as a controller of a heating-controlled device or appliance. A heating body has a positive temperature coefficient and acts as both a heating element and a temperature sensor. A Silicon-Controlled Rectifier (SCR) switches AC current to the heating body to increase its temperature. When the SCR switches off, temperature sensing is performed using a sampling resistor, isolation diode, voltage comparator, and switch for a low-voltage DC supply are formed on an integrated circuit that has a first circuit branch and a second circuit branch. A compensation diode and a compensation resistor can be added in parallel to reference resistors. The compensation diode compensates for the forward voltage drop of the isolation diode that would otherwise create an inaccurate temperature measurement. The diodes have the same temperature response, allowing for a more accurate temperature measurement over a full temperature range of the sensorless appliance.Type: GrantFiled: July 13, 2007Date of Patent: June 29, 2010Assignee: Pericom Technology Inc.Inventors: Qun Song, Qi Wang, Fang Xie, De-Song Huang, Qi Xu
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Publication number: 20100133172Abstract: A coating that exhibits resistance to fouling by waterborne contaminants, and permselective membranes having this type of coating, are disclosed. For example, a reverse osmosis membrane is coated with a hydrogel-like composition comprising a combination of a hydrophilic polymer, a polyphenolic compound, and a surfactant, whereby the membrane is made more resistant to fouling by organic contaminants. Particularly beneficial are coating compositions containing amine-based surfactants, these being retained in the hydrophilic coating by polar or ionic binding forces.Type: ApplicationFiled: December 1, 2008Publication date: June 3, 2010Inventors: Qun Song, Jane Chiao Li
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Publication number: 20090095726Abstract: Traditional temperature-control products have the problem that the temperature of the working surface reaches the setting temperature too slowly when heating up or recovering from a temperature drop. A traditional temperature control circuit and temperature-settings selector components are modified to solve this problem. When heating begins, the modified circuit increases the initial setting temperature to be above the target setting temperature. The modified circuit then adjusts the setting temperature by measuring the heating power consumption. Once the working surface of the temperature control product reaches the initial setting temperature, the heating power consumption drops and the modified circuit reduces the temperature setting to the target setting temperature. The temperature control product can rapidly achieve the target temperature. A positive-temperature-coefficient heating component is used in the temperature control product.Type: ApplicationFiled: October 10, 2007Publication date: April 16, 2009Applicant: PERICOM TECHNOLOGY (SHANGHAI) CO. LTD.Inventors: Qun Song, Fang Xie, Qi Wu, Zeyu Huang
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Publication number: 20090015316Abstract: A semiconductor integrated circuit (IC) acts as a controller of a heating-controlled device or appliance. A heating body has a positive temperature coefficient and acts as both a heating element and a temperature sensor. A Silicon-Controlled Rectifier (SCR) switches AC current to the heating body to increase its temperature. When the SCR switches off, temperature sensing is performed using a sampling resistor, isolation diode, voltage comparator, and switch for a low-voltage DC supply are formed on an integrated circuit that has a first circuit branch and a second circuit branch. A compensation diode and a compensation resistor can be added in parallel to reference resistors. The compensation diode compensates for the forward voltage drop of the isolation diode that would otherwise create an inaccurate temperature measurement. The diodes have the same temperature response, allowing for a more accurate temperature measurement over a full temperature range of the sensorless appliance.Type: ApplicationFiled: July 13, 2007Publication date: January 15, 2009Applicant: PERICOM TECHNOLOGY (SHANGHAI) CO. LTD.Inventors: Qun Song, Qi Wang, Fang Xie, De-Song Huang, Qi Xu
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Publication number: 20080100310Abstract: A linear heater control circuit has a more linear relationship between sensed temperature and a variable resistance. As the user adjusts the variable resistance, the temperature increases linearly rather than abruptly. The linear control circuit has a parallel resistor that is in parallel with the variable resistor and one or two series resistors that are in series with the variable resistor. The tap of the variable resistor is input to a comparator that compares the tap voltage to a reference voltage and adjusts a trigger to a Silicon-Controlled Rectifier (SCR). The SCR switches AC current to a heating element to increase its temperature. When the SCR switches off, temperature sensing is performed using a voltage network that includes the parallel resistor and the variable resistor. A switch or diode isolates the voltage network from the heating element during heating to protect the comparator.Type: ApplicationFiled: October 11, 2007Publication date: May 1, 2008Applicant: PERICOM TECHNOLOGY (SHANGHAI) CO. LTD.Inventors: Qun Song, Qi Wang, Zeyu Huang, Qi Xu
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Publication number: 20060263906Abstract: Trifunctional nanoparticles have excellent fluorescence, magnetism, and cell recognition, which can be easily manipulated, tracked, and conveniently used to capture target cells. The surface-immobilized molecules of the TFNs might be optionally changed on demand for the purposes of bioanalysis, biomedical imaging, diagnosis, and the combinatorial screening of drugs. The nanoparticle is formed from a mesoporous polymer; a magnetic material adhering to the mesoporous polymer; a fluorescent dye adhering to the mesoporous polymer; and a biomaterial coupled to the mesoporous polymer, where the mesoporous polymer has been treated with hydrazine, and the biomaterial has been treated with an oxidizing agent.Type: ApplicationFiled: May 24, 2005Publication date: November 23, 2006Inventors: Dai-Wen Pang, Hai-Yan Xie, Guo-Ping Wang, Zhi-Ling Zhang, Er-Qun Song, Yun-Bo Shi
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Patent number: 6369517Abstract: An electronic switch can replace a standard mechanical light switch for 110-240 volt alternating-current (A.C.) devices. A triac switches the A.C. current to an A.C. device such as a light. A rectifier bridge generates a direct-current (D.C.) voltage that is applied to a special current limiter. The special current limiter generates a large current peak at low voltages, but limits current at high voltages. The large current peak from the special current limiter charges a capacitor when voltage is low at the beginning of each A.C. half-cycle, before the triac turns on. The capacitor has enough charge to supply D.C. current to an Infrared detector and trigger control logic for the rest of the A.C. half-cycle. When the detector detects a person nearby, it signals the trigger control logic. The D.C. voltage from the rectifier bridge is filtered to generate a sync pulse to the trigger control logic when adds a phase delay to the sync pulse which triggers the triac.Type: GrantFiled: March 12, 2001Date of Patent: April 9, 2002Assignee: Pericom Technology (Shanghai) Co., Ltd.Inventors: Qun Song, Jian Li, Fang Xie
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Publication number: 20020000758Abstract: An electronic switch can replace a standard mechanical light switch for 110-240 volt alternating-current (A.C.) devices. A triac switches the A.C. current to an A.C. device such as a light. A rectifier bridge generates a direct-current (D.C.) voltage that is applied to a special current limiter. The special current limiter generates a large current peak at low voltages, but limits current at high voltages. The large current peak from the special current limiter charges a capacitor when voltage is low at the beginning of each A.C. half-cycle, before the triac turns on. The capacitor has enough charge to supply D.C. current to an Infrared detector and trigger control logic for the rest of the A.C. half-cycle. When the detector detects a person nearby, it signals the trigger control logic. The D.C. voltage from the rectifier bridge is filtered to generate a sync pulse to the trigger control logic when adds a phase delay to the sync pulse which triggers the triac.Type: ApplicationFiled: March 12, 2001Publication date: January 3, 2002Inventors: Qun Song, Jian Li, Fang Xie