Patents by Inventor Jing-Chyi Wang
Jing-Chyi Wang 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: 11099081Abstract: A current generating circuit includes a first circuit subunit, a second circuit subunit and a third circuit subunit. The first circuit subunit is configured to generate a first current having a first temperature coefficient. The first temperature coefficient is a negative temperature coefficient. The second circuit subunit is configured to generate a second current having a second temperature coefficient. The second temperature coefficient is a positive temperature coefficient. The third circuit subunit is configured to generate a third current having a third temperature coefficient according to a difference between the first current and the second current. An absolute value of a slope of the third temperature coefficient is greater than that of the first temperature coefficient or that of the second temperature coefficient.Type: GrantFiled: July 2, 2019Date of Patent: August 24, 2021Assignee: WINBOND ELECTRONICS CORP.Inventors: Ying-Ting Ma, Jing-Chyi Wang
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Publication number: 20200011742Abstract: A current generating circuit includes a first circuit subunit, a second circuit subunit and a third circuit subunit. The first circuit subunit is configured to generate a first current having a first temperature coefficient. The first temperature coefficient is a negative temperature coefficient. The second circuit subunit is configured to generate a second current having a second temperature coefficient. The second temperature coefficient is a positive temperature coefficient. The third circuit subunit is configured to generate a third current having a third temperature coefficient according to a difference between the first current and the second current. An absolute value of a slope of the third temperature coefficient is greater than that of the first temperature coefficient or that of the second temperature coefficient.Type: ApplicationFiled: July 2, 2019Publication date: January 9, 2020Inventors: Ying-Ting MA, Jing-Chyi WANG
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Patent number: 10503189Abstract: A dynamic bleeder-current circuit for use in a voltage regulator is provided. The dynamic bleeder-current circuit includes a first bleeder-current circuit and a second bleeder-current circuit. The first bleeder-current circuit includes an input stage, a current comparator, and a bleeder-current output stage. The input stage maps a bias current in an operational amplifier in the voltage regulator with a predetermined ratio to generate a mapped current. The current comparator compares a pull current and a sink current generated by the mapped current. The bleeder-current output stage determines whether to use a first current to discharge the load capacitor of the voltage regulator according to a comparison result from the current comparator. The second bleeder-current circuit is configured to provide a second bleeder current to discharge the load capacitor. The first current is greater than the second current, and the pull current is equal to the second current.Type: GrantFiled: April 23, 2019Date of Patent: December 10, 2019Assignee: WINBOND ELECTRONICS CORP.Inventor: Jing-Chyi Wang
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Patent number: 9794995Abstract: An LED lamp arrangement is disclosed to replace a fluorescent lamp in a luminaire with a ballast. The LED lamp arrangement has a rectifier, LEDs, a LED driver, an impedance balance circuit, a line-voltage controller. The rectifier has two inputs connected to the ballast to provide a rectified power line and a ground power line. The LEDs and a LED driver are connected in series between the rectified power line and the ground power line, and the LED driver regulates a LED driving current through the LEDs. The impedance balance circuit is coupled between the inputs. The line-voltage controller controls the impedance balance circuit in response to a line voltage at the rectified power line, so as to tune an impedance between the inputs and make the line voltage approach to a predetermined target voltage.Type: GrantFiled: September 9, 2016Date of Patent: October 17, 2017Assignee: Analog Integrations CorporationInventor: Jing-Chyi Wang
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Publication number: 20170156183Abstract: A LED lighting system efficiently provides an operating voltage powering integrated circuits. A LED string has LEDs segregated into LED groups connected in series. A LED controller has channel nodes connected to the cathodes of the LED groups respectively, and an output node connected to a capacitor providing the operating voltage. The LED controller drains a channel current from a selected channel node among the channel node. The LED controller regulates the channel current to a channel target value corresponding to the selected channel node, and provides a portion of the channel current as a charging current to power and regulate the operating voltage.Type: ApplicationFiled: November 30, 2015Publication date: June 1, 2017Inventors: Wei-Ming Chen, Jing-Chyi Wang
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Patent number: 9661696Abstract: A LED lighting system efficiently provides an operating voltage powering integrated circuits. A LED string has LEDs segregated into LED groups connected in series. A LED controller has channel nodes connected to the cathodes of the LED groups respectively, and an output node connected to a capacitor providing the operating voltage. The LED controller drains a channel current from a selected channel node among the channel node. The LED controller regulates the channel current to a channel target value corresponding to the selected channel node, and provides a portion of the channel current as a charging current to power and regulate the operating voltage.Type: GrantFiled: November 30, 2015Date of Patent: May 23, 2017Assignee: Analog Integrations CorporationInventors: Wei-Ming Chen, Jing-Chyi Wang
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Patent number: 9510415Abstract: A LED lighting system performs no flicking. A rectifier receives an AC input voltage to generate a rectified input voltage at an input power line and a ground voltage at a ground line. A LED string comprises LEDs connected in series to have a main anode and a main cathode. The main anode is coupled to the input power line. A power bank is connected to the input power line and the main cathode. The circuit conducts a first driving current from the main cathode to the ground line, and a second driving current from the power bank to the ground line. The second driving current increases electric energy stored in the power bank. Both the first and second driving currents flow through the LED string. The power bank releases the electric energy to make at least one of the LEDs illuminate when the AC input voltage is about 0V.Type: GrantFiled: November 30, 2015Date of Patent: November 29, 2016Assignee: Analog Integrations CorporationInventor: Jing-Chyi Wang
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Patent number: 9374863Abstract: A LED lamp has LED groups, a path controller, a power bank, and a bank controller. The LED groups are arranged in series between a rectified input voltage and a ground voltage. The path controller controls path switches, each path switch for coupling a corresponding LED group to the ground voltage. The power bank is coupled between the rectified input voltage and the ground voltage, having a capacitor and a discharge switch. The capacitor is configured to be charged when the rectified input voltage exceeds a capacitor voltage of the capacitor. The discharge switch is connected between the capacitor and the rectified input voltage. The bank controller determines a connection period and controls the discharge switch in response to a signal turning ON one of path switches, in order to make the capacitor capable of being discharged to the rectified input voltage during the connection period.Type: GrantFiled: September 15, 2014Date of Patent: June 21, 2016Assignee: Analog Integrations CorporationInventor: Jing-Chyi Wang
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Publication number: 20160081143Abstract: A LED lamp has LED groups, a path controller, a power bank, and a bank controller. The LED groups are arranged in series between a rectified input voltage and a ground voltage. The path controller controls path switches, each path switch for coupling a corresponding LED group to the ground voltage. The power bank is coupled between the rectified input voltage and the ground voltage, having a capacitor and a discharge switch. The capacitor is configured to be charged when the rectified input voltage exceeds a capacitor voltage of the capacitor. The discharge switch is connected between the capacitor and the rectified input voltage. The bank controller determines a connection period and controls the discharge switch in response to a signal turning ON one of path switches, in order to make the capacitor capable of being discharged to the rectified input voltage during the connection period.Type: ApplicationFiled: September 15, 2014Publication date: March 17, 2016Inventor: Jing-Chyi Wang
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Patent number: 8937433Abstract: LED controllers, LED lighting systems and control methods capable of providing an average luminance intensity independent from the variation of an AC voltage. A string of LEDs are divided into LED groups electrically connected in series between a power source and a ground. A LED controller has path switches, each for coupling a corresponding LED group to the ground. A management center controls the path switches, for making an input current from the power source to the string substantially approach a target value. A line waveform sensor coupled to the power source holds a representative signal during a cycle time of the power source. The representative signal is in response to an attribute of the power source, and substantially determines the target value.Type: GrantFiled: September 10, 2013Date of Patent: January 20, 2015Assignee: Analog Integrations CorporationInventors: Jing-Chyi Wang, Chang-Yu Wang, Wei-Ming Chen
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Patent number: 8901835Abstract: LED controllers, LED lighting systems and control methods capable of providing an average luminance intensity independent from the variation of an AC voltage. LEDs are divided into LED groups electrically connected in series between a power source and a ground. A disclosed LED controller has path switches, a management center and a line waveform sensor. Each path switch is for coupling a corresponding LED group to the ground. The management center controls the path switches. When turning off an upstream path switch, the management center controls a downstream path switch for a downstream LED group to make the driving current passing the upstream LED group substantially approach a target value. The line waveform sensor is coupled to the power source, sensing the waveform of the input voltage of the power source. The line waveform sensor is configured to decrease the target value when the input voltage increases.Type: GrantFiled: May 8, 2012Date of Patent: December 2, 2014Assignee: Analog Integrations CorporationInventors: Chin-Feng Kang, Jing-Chyi Wang
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Patent number: 8742682Abstract: Disclosed are methods and lighting system with LEDs. An exemplified system comprises series-coupled light-emitting diodes, an integrated circuit, and an energy storage apparatus. The series-coupled light-emitting diodes are divided into several LED groups coupled in series. The integrated circuit comprises nodes respectively coupled to the LED groups, for providing a driving current to selectively flow through at least one of the LED groups. The energy storage apparatus has two ends coupled to a predetermined LED in a predetermined LED group. When the driving current flows through the predetermined LED group the energy storage apparatus energizes; and when the driving current does not flow through the predetermined LED group the energy storage apparatus de-energizes to illuminate the predetermined LED.Type: GrantFiled: November 28, 2012Date of Patent: June 3, 2014Assignee: Analog Integrations CorporationInventors: Chang-Yu Wang, Jing-Chyi Wang
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Publication number: 20140145628Abstract: Disclosed are methods and lighting system with LEDs. An exemplified system comprises series-coupled light-emitting diodes, an integrated circuit, and an energy storage apparatus. The series-coupled light-emitting diodes are divided into several LED groups coupled in series. The integrated circuit comprises nodes respectively coupled to the LED groups, for providing a driving current to selectively flow through at least one of the LED groups. The energy storage apparatus has two ends coupled to a predetermined LED in a predetermined LED group. When the driving current flows through the predetermined LED group the energy storage apparatus energizes; and when the driving current does not flow through the predetermined LED group the energy storage apparatus de-energizes to illuminate the predetermined LED.Type: ApplicationFiled: November 28, 2012Publication date: May 29, 2014Applicant: ANALOG INTEGRATIONS CORPORATIONInventors: Chang-Yu Wang, Jing-Chyi Wang
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Patent number: 8664930Abstract: While an electronic product including passive elements is connected to an AC input voltage source, corresponding decreased currents are calculated according to a constant input/output work and a voltage curve of the input voltage source. Therefore, while the electronic product is activated under voltage sources having different scales or being unstable, the calculated decreased currents are applied so as to stabilize the input work or the output work.Type: GrantFiled: November 9, 2010Date of Patent: March 4, 2014Assignee: Analog Integrations CorporationInventors: Chin-Feng Kang, Jing-Chyi Wang
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Patent number: 8519630Abstract: A driving circuit includes a switch, a detecting unit, a current supply unit, and an energy storage unit. The current supply unit is used for providing a driving current for at least one series of light emitting diodes. The detecting unit is used for comparing a voltage of a first terminal of the detecting unit with a reference voltage to generate a switch control signal. When the switch is turned on according the switch control signal, a first voltage drives the series of light emitting diodes through the switch and the energy storage unit is charged according a charge current. When the switch is turned off according the switch control signal, the energy storage unit drives the series of light emitting diodes according to a discharge current.Type: GrantFiled: April 28, 2011Date of Patent: August 27, 2013Assignee: Analog Integrations CorporationInventors: Jing-Chyi Wang, Chi-Ming Chen
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Patent number: 8456105Abstract: A driving circuit includes a switch, a detecting unit, and a current supply unit. A first terminal of the switch is used for coupling to a first terminal of a first LED group of a plurality of LED groups and receiving a first voltage, and a third terminal of the switch is used for coupling to a first terminal of a last LED group of the plurality of LED groups. The detecting unit is used for outputting a switch control signal to a second terminal of the switch for controlling turning-on and turning-off of the switch. The current supply unit has a plurality of input current terminals, and a ground terminal coupled to ground, where each input current terminal of the plurality of input current terminals is used for coupling to a second terminal of a corresponding LED group of the plurality of LED groups.Type: GrantFiled: May 24, 2011Date of Patent: June 4, 2013Assignee: Analog Integrations CorporationInventors: Jing-Chyi Wang, Chi-Ming Chen
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Publication number: 20120217887Abstract: LED controllers, LED lighting systems and control methods capable of providing an average luminance intensity independent from the variation of an AC voltage. LEDs are divided into LED groups electrically connected in series between a power source and a ground. A disclosed LED controller has path switches, a management center and a line waveform sensor. Each path switch is for coupling a corresponding LED group to the ground. The management center controls the path switches. When turning off an upstream path switch, the management center controls a downstream path switch for a downstream LED group to make the driving current passing the upstream LED group substantially approach a target value. The line waveform sensor is coupled to the power source, sensing the waveform of the input voltage of the power source. The line waveform sensor is configured to decrease the target value when the input voltage increases.Type: ApplicationFiled: May 8, 2012Publication date: August 30, 2012Inventors: Chin-Feng Kang, Jing-Chyi Wang
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Publication number: 20120194073Abstract: A driving circuit includes a switch, a detecting unit, a current supply unit, and an energy storage unit. The current supply unit is used for providing a driving current for at least one series of light emitting diodes. The detecting unit is used for comparing a voltage of a first terminal of the detecting unit with a reference voltage to generate a switch control signal. When the switch is turned on according the switch control signal, a first voltage drives the series of light emitting diodes through the switch and the energy storage unit is charged according a charge current. When the switch is turned off according the switch control signal, the energy storage unit drives the series of light emitting diodes according to a discharge current.Type: ApplicationFiled: April 28, 2011Publication date: August 2, 2012Inventors: Jing-Chyi Wang, Chi-Ming Chen
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Publication number: 20120194096Abstract: A driving circuit includes a switch, a detecting unit, and a current supply unit. A first terminal of the switch is used for coupling to a first terminal of a first LED group of a plurality of LED groups and receiving a first voltage, and a third terminal of the switch is used for coupling to a first terminal of a last LED group of the plurality of LED groups. The detecting unit is used for outputting a switch control signal to a second terminal of the switch for controlling turning-on and turning-off of the switch. The current supply unit has a plurality of input current terminals, and a ground terminal coupled to ground, where each input current terminal of the plurality of input current terminals is used for coupling to a second terminal of a corresponding LED group of the plurality of LED groups.Type: ApplicationFiled: May 24, 2011Publication date: August 2, 2012Inventors: Jing-Chyi Wang, Chi-Ming Chen
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Publication number: 20120062142Abstract: While an electronic product including passive elements is connected to an AC input voltage source, corresponding decreased currents are calculated according to a constant input/output work and a voltage curve of the input voltage source. Therefore, while the electronic product is activated under voltage sources having different scales or being unstable, the calculated decreased currents are applied so as to stabilize the input work or the output work.Type: ApplicationFiled: November 9, 2010Publication date: March 15, 2012Inventors: Chin-Feng Kang, Jing-Chyi Wang