Patents Assigned to System General Corp.
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Publication number: 20130063986Abstract: A control circuit of the power converter according to the present invention comprises a feedback circuit, an output circuit and an adaptive clamping circuit. The feedback circuit generates a feedback signal in accordance with an output of the power converter. The output circuit generates a switching signal in accordance with the feedback signal for regulating the output of the power converter. The adaptive clamping circuit limits the level of the feedback signal under a first level for a first load condition. The feedback circuit determines a slew rate of the feedback signal for increasing the level of the feedback signal from the first level to a second level. The adaptive clamping circuit is disabled and the level of the feedback signal can be increased to the second level for a second load condition.Type: ApplicationFiled: September 12, 2012Publication date: March 14, 2013Applicant: SYSTEM GENERAL CORP.Inventors: TA-YUNG YANG, LI LIN, YUE-HONG TANG, JUNG-SHENG CHEN
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Publication number: 20130051098Abstract: A method for controlling a power converter is provided. The method includes the following steps. A switching signal coupled to switch a transformer for regulating the output of the power converter is generated in accordance with a feedback signal and a ramp signal. The ramp signal is generated in accordance with a switching current signal and a slope compensation signal. The slope compensation signal is generated in response to an input voltage signal. The input voltage signal is generated in response to the level of the input voltage of the power converter. The feedback signal is generated in accordance with the output of the power converter, and the switching current signal is correlated with a switching current of the transformer.Type: ApplicationFiled: August 21, 2012Publication date: February 28, 2013Applicant: SYSTEM GENERAL CORP.Inventors: Ta-Yung Yang, Li Lin, Yue-Hong Tang
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Patent number: 8373399Abstract: A control circuit of an interleaved PFC power converter according to the present invention comprises a master switching control circuit, a slave switching control circuit, and a slave reference signal generator. The master switching control circuit generates a control signal and a first switching signal in response to an input voltage and a feedback signal. The first switching signal is utilized to control a first switch of the PFC power converter. The slave reference signal generator generates a slave control signal in response to a load condition of the PFC power converter and the control signal. The slave switching control circuit generates a second switching signal in response to the slave control signal. The slave control signal is utilized to control a second switch of the PFC power converter. The slave reference signal generator adjusts the control signal in response to the load condition for generating the slave control signal correspondingly.Type: GrantFiled: October 29, 2010Date of Patent: February 12, 2013Assignee: System General Corp.Inventors: Ta-Yung Yang, Cheng-Sung Chen, Rui-Hong Lu
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Patent number: 8373253Abstract: A semiconductor structure. The semiconductor comprises a substrate, a first deep well, a diode and a transistor. The first deep well is formed in the substrate. The diode is formed in the first deep well. The transistor is formed in the first deep well. The diode is connected to a first voltage, the transistor is connected to a second voltage, and the diode and the transistor are cascaded.Type: GrantFiled: September 3, 2010Date of Patent: February 12, 2013Assignee: System General Corp.Inventors: Han-Chung Tai, Hsin-Chih Chiang
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Publication number: 20130027987Abstract: A regulation circuit of a power converter for cable compensation according to the present invention comprises a signal generator generating a compensation signal in accordance with a synchronous rectifying signal. An error amplifier has a reference signal for generating a feedback signal in accordance with an output voltage of the power converter. The compensation signal is coupled to program the reference signal. The feedback signal is coupled to generate a switching signal for regulating an output of the power converter. The regulation circuit of the present invention compensates the output voltage without a shunt resistor to sense the output current of the power converter for reducing power loss.Type: ApplicationFiled: July 18, 2012Publication date: January 31, 2013Applicant: SYSTEM GENERAL CORP.Inventors: TA-YUNG YANG, CHOU-SHENG WANG
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Patent number: 8354698Abstract: A semiconductor device. The semiconductor comprises a substrate, a VDMOS, a JFET, a first electrode, a second electrode, a third electrode and a fourth electrode. The VDMOS is formed in the substrate. The JFET is formed in the substrate. The first electrode, the second electrode and a third electrode are connected to the VDMOS and used as a first gate electrode, a first drain electrode and a first source electrode of the VDMOS respectively. The second electrode, the third electrode and the fourth electrode are connected to the JFET and used as a second drain electrode, a second gate electrode and a second source electrode of the JFET respectively.Type: GrantFiled: July 1, 2010Date of Patent: January 15, 2013Assignee: System General Corp.Inventors: Hsin-Chih Chiang, Han-Chung Tai
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Patent number: 8351227Abstract: A switching controller for power converter comprises a current-sense circuit and a PWM circuit. The current-sense circuit receives high-voltage signal across a first switch to generate a current-sense signal. The PWM circuit generates a switching signal to control the first switch in response to the current-sense signal. The switching controller further comprises a delay circuit. The delay circuit receives the switching signal to generate a delayed switching signal. The current-sense signal and the high-voltage signal ramp up with the same slope during the delayed switching signal is enabled. The current-sense signal will be pulled down to a level of a ground reference during the delayed switching signal is disabled. A delay time provided by the delay circuit avoids the high-voltage signal at the instance which the first switch is being turned off being conducted to a first comparator and a second comparator via a second switch.Type: GrantFiled: March 9, 2010Date of Patent: January 8, 2013Assignee: System General Corp.Inventor: Wei-Hsuan Huang
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Patent number: 8331070Abstract: A power supply with an open-loop protection according to the present invention comprises a transformer, a switch, a signal generation circuit, a feedback detection circuit, a brown-out detection circuit, and a delay circuit. The transformer receives an input voltage. The switch is coupled to the transformer for switching the transformer. The signal generation circuit generates a switching signal to control the switch. The feedback detection circuit generates a pull-high signal in response to a feedback signal of the power supply. The brown-out detection circuit generates a delay signal in response to the pull-high signal and the input voltage. The delay circuit counts a delay time in response to the delay signal for generating a disabling signal coupled to the signal generation circuit to latch the switching signal. The brown-out detection circuit is utilized to detect whether the input voltage is in the brown-out condition for determining whether the open-loop protection is executed.Type: GrantFiled: June 23, 2010Date of Patent: December 11, 2012Assignee: System General Corp.Inventors: Wei-Hsuan Huang, Meng-Jen Tsai, Chien-Yuan Lin, Chuan-Chang Li
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Publication number: 20120300503Abstract: A control circuit for a resonant power converter and a control method thereof are disclosed. The control circuit comprises a first transistor and a second transistor switching a transformer through a resonant tank. A controller receives a feedback signal for generating a first switching signal and a second switching signal coupled to drive the first transistor and the second transistor respectively. The feedback signal is correlated to an output of the resonant power converter. A diode is coupled to the second transistor for detecting the state of the second transistor for the controller. The first switching signal and the second switching signal are modulated to achieve a zero voltage switching (ZVS) for the second transistor.Type: ApplicationFiled: May 23, 2012Publication date: November 29, 2012Applicant: SYSTEM GENERAL CORP.Inventors: TA-YUNG YANG, TIEN-CHI LIN
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Publication number: 20120281434Abstract: A control circuit of a resonant power converter is disclosed. The control circuit comprises a first transistor and a second transistor for switching a transformer and a resonant tank comprising a capacitor and an inductor. A controller is configured to receive a feedback signal correlated to the output of the power converter for generating a first switching signal and a second switching signal to drive the first transistor and the second transistor, respectively. A diode coupled to the first transistor and the resonant tank for detecting the state of the first transistor and generating a detection signal for the controller. The detection signal indicates if the transistors are in a zero voltage switching (ZVS) state. If the transistors are not in the ZVS state, the switching frequency of the transistors will be increased.Type: ApplicationFiled: March 21, 2012Publication date: November 8, 2012Applicant: SYSTEM GENERAL CORP.Inventors: Tien-Chi Lin, Hang-Seok Choi, Ta-Yung Yang
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Publication number: 20120249220Abstract: A trim circuit for a power supply controller includes: a control circuit; at least a capacitance type programmable circuit connection; and a switching circuit, under control of the control circuit, the switching circuit selectively coupling the capacitance type programmable circuit connection to anyone of an operation voltage and a programming voltage, for determining a programming state of the capacitance type programmable circuit connection.Type: ApplicationFiled: March 28, 2011Publication date: October 4, 2012Applicant: SYSTEM GENERAL CORP.Inventors: Rui-Hong Lu, Han-Chung Tai, Hsin-Chih Chiang
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Patent number: 8279638Abstract: An output regulation circuit of a power converter without current sensing loss includes a transforming circuit to receive a proportional voltage from the primary winding of the power converter during the on-time period of the power switch. The first proportional voltage is transformed to a charging current signal to charge an energy storage device. Thus, the circuit controls the power switch according to a voltage limited signal of the energy storage device.Type: GrantFiled: July 26, 2007Date of Patent: October 2, 2012Assignee: System General Corp.Inventor: Chein-Kuo Hsu
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Patent number: 8242754Abstract: A resonant power converter with half bridge and full bridge operations and a method for control thereof are provided. The resonant power converter includes a full bridge circuit, a control circuit and a PFC circuit. The full bridge circuit switches a power transformer in response to switching signals. The control circuit coupled to receive a feedback signal and an input signal generates switching signals. The feedback signal is correlated to the output of the power converter and the input signal is correlated to the input voltage of the full bridge circuit, where the full bridge circuit is operated as a full bridge switching when the input signal is lower than a threshold, and the full bridge circuit is operated as a half bridge switching when the input signal is higher than the threshold. The PFC circuit generates the input voltage of the full bridge circuit.Type: GrantFiled: November 16, 2009Date of Patent: August 14, 2012Assignee: System General Corp.Inventor: Ta-Yung Yang
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Publication number: 20120170321Abstract: A feedback circuit of power supply according to the present invention comprises a switching controller, an optocoupler, an error amplifier and a timer. The switching controller generates a switching signal in accordance with a feedback signal for regulating an output voltage of the power supply. The optocoupler generates the feedback signal. The error amplifier is coupled to the output voltage of the power supply for generating an amplified signal. The amplified signal is connected to an input of the optocoupler. A remote on/off signal is further coupled to the input of the optocoupler. The timer generates a control signal to disable the switching signal in response to the feedback signal. The control signal is generated after a delay time when the feedback signal is lower than a threshold.Type: ApplicationFiled: November 10, 2011Publication date: July 5, 2012Applicant: SYSTEM GENERAL CORP.Inventors: TA-YUNG YANG, CHIEN-TSUN HSU
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Patent number: 8199541Abstract: A bridgeless PFC power converter comprises a first inductor and a second inductor coupled from a first input-terminal and a second input-terminal to a first transistor and a second transistor. A first diode and a second diode are coupled from the first transistor and the second transistor to an output capacitor. A first capacitor and a second capacitor are coupled from the input-terminals to the ground terminal through a third transistor and a fourth transistor. A control circuit generates a first-switching signal and a second-switching signal to control the first transistor and the second transistor. The second-switching signal will turn on the second transistor when the first-switching signal switches the first transistor. The first-switching signal will turn on the first transistor when the second-switching signal switches the second transistor. The control circuit turns off the third transistor and the fourth transistor during the light-load of the PFC power converter.Type: GrantFiled: April 2, 2009Date of Patent: June 12, 2012
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Patent number: 8179700Abstract: A control circuit includes a switch coupled to a transformer of a power converter for switching the transformer. A sampling circuit is coupled to the transformer to sample a reflected voltage of the transformer to generate a voltage signal. A switching circuit generates a switching signal to control the switch in response to the voltage signal. The minimum on time of the switching signal is changed in response to the change of an input voltage of the power converter. Because the pulse width of the reflected voltage is narrower at light load, the minimum on time of the switching signal helps the reflected voltage detection.Type: GrantFiled: November 29, 2006Date of Patent: May 15, 2012Assignee: Systems General Corp.Inventor: Ta-yung Yang
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Publication number: 20120106205Abstract: The power supply according to the present invention comprises a transformer, a power switch, a signal generating circuit, an on-time detection circuit, and a delay circuit. The transformer receives an input voltage and generates an output voltage. The power switch switches the transformer for regulating the output voltage. The signal generating circuit generates a switching signal for controlling switching of the power switch. The on-time detection circuit detects an on-time of the power switch and generates a short-circuit signal. The delay circuit counts to a first delay time or to a second delay time in response to a feedback signal of the power supply and the short-circuit signal to generate a turn off signal for controlling the signal generating circuit to latch the switching signal.Type: ApplicationFiled: October 28, 2011Publication date: May 3, 2012Applicant: SYSTEM GENERAL CORP.Inventors: MENG-JEN TSAI, HO-TZU CHUEH, CHENG-CHI HSUEH, CHIEN-YUAN LIN
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Method and apparatus for providing a communication channel through an output cable of a power supply
Patent number: 8154153Abstract: A power supply system is introduced herein. The power supply system includes a power converter to supply a power source to an electronic circuit through an output cable of the power supply. A communication unit is coupled to the output cable of the power supply to develop a communication channel between the power converter and the electronic circuit in order to report the status of the power converter to the electronic circuit.Type: GrantFiled: January 25, 2007Date of Patent: April 10, 2012Assignee: Systems General Corp.Inventors: Ta-yung Yang, Jenn-Yu G. Lin -
Publication number: 20120081039Abstract: A control circuit of a LED driver according to the present invention comprises an output circuit, an input circuit and an input-voltage detection circuit. The output circuit generates a switching signal to produce an output current for driving at least one LED in response to a feedback signal. The switching signal is coupled to switch a transformer. The input circuit samples an input signal for generating the feedback signal. The input signal is correlated to the output current of the LED driver. The input-voltage detection circuit generates an input-voltage signal in response to an input voltage of the LED driver. The input circuit will not sample the input signal when the input-voltage signal is lower than a threshold. The control circuit can eliminate the need of the input capacitor for improving the reliability of the LED driver.Type: ApplicationFiled: March 28, 2011Publication date: April 5, 2012Applicant: SYSTEM GENERAL CORP.Inventors: TA-YUNG YANG, LI LIN, CHIH-HSIEN HSIEH, CHUH-CHING LI, CHI-YIN LO, KUO-HSIEM HUANG
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Publication number: 20120057375Abstract: A control circuit of a power converter according to the present invention comprises an output circuit, at least one input circuit and an input-voltage detection circuit. The output circuit generates a switching signal for regulating an output of the power converter in response to at least one feedback signal. The switching signal is coupled to switch a transformer of the power converter. The input circuit samples at least one input signal for generating the feedback signal. The input signal is correlated to the output of the power converter. The input-voltage detection circuit generates an input-voltage signal in response to the level of the an input voltage of the power converter. The input circuit will not sample the input signal when the input-voltage signal is lower than a threshold. The control circuit can eliminate the need of the input capacitor for improving the reliability of the power converter.Type: ApplicationFiled: January 25, 2011Publication date: March 8, 2012Applicant: SYSTEM GENERAL CORP.Inventors: TA-YUNG YANG, LI LIN