Patents Assigned to iWatt, Inc.
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Publication number: 20130307425Abstract: A light emitting diode (LED) controller provides constant current regulation for a converter circuit providing current to an LED. The LED controller senses an inductor voltage and determines an inductor reset time from the sensed inductor voltage. Based on the determined inductor reset time, a switch on time and a switch period, the LED controller generates a control signal modifying the state of a switch coupling the converter circuit to an input voltage.Type: ApplicationFiled: May 9, 2013Publication date: November 21, 2013Applicant: iWatt Inc.Inventors: Liang Yan, Junjie Zheng, Gordon Chen
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Patent number: 8581568Abstract: A start-up circuit in a switch-mode power converter that employs a Zener diode to provide a reference voltage to reduce the power consumption and the size of the start-up circuit. The start-up circuit also includes a coarse current source and a coarse reference voltage signal generator for producing current and reference voltage for initial startup operation of a bandgap circuit. The reference signal and current from coarse current source and the reference voltage signal generator are subject to large process, voltage and temperature (PVT) variations or susceptible to noise from the power supply, and hence, these signals are used temporarily during start-up and replaced with signals from higher performance components. After bandgap circuit becomes operational, the start-up receives voltage reference signal from the bandgap circuit to more accurately detect undervoltage lockout conditions.Type: GrantFiled: October 19, 2010Date of Patent: November 12, 2013Assignee: iWatt Inc.Inventors: Enzhu Liang, Jiang Chen, Xuecheng Jin
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Patent number: 8582329Abstract: A switching power converter provides regulated voltage to a load according to a desired regulation voltage. The switching power converter includes a transformer coupled to a switch and a switch controller for generating a control signal to control switching. The switch controller monitors a sensed voltage representing the output voltage of the switching power converter. The switch controller controls switching of the switch to operate the switching power converter in a continuous conduction mode while the sensed output voltage indicates that the output voltage is less than a first threshold voltage. The switch controller controls switching of the switch to operate the switching power converter in a discontinuous conduction mode while the sensed output voltage is above the first threshold voltage.Type: GrantFiled: March 30, 2011Date of Patent: November 12, 2013Assignee: iWatt Inc.Inventors: Xiaolin Gao, Yong Li, Hien Huu Bui, Fuqiang Shi
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Patent number: 8576586Abstract: A switching power converter comprises a transformer (110), a switch (108) coupled to the transformer (110), and a switch controller (200) coupled to the switch (108) for generating a switch drive signal (207) to turn on or off the switch (108). The drive current of the switch drive signal (207) is adjusted dynamically according to line or load conditions within a switching cycle and/or over a plurality of switching cycles. The magnitude of the drive current can be dynamically adjusted within a switching cycle and/or over a plurality of switching cycles, in addition to the pulse widths or pulse frequencies of the drive current.Type: GrantFiled: September 28, 2007Date of Patent: November 5, 2013Assignee: iWatt Inc.Inventors: Junjie Zheng, Jun Zheng, Andrew Kwok-Cheung Lee, John William Kesterson, Allan Ming-Lun Lin, Hien Huu Bui, Carrie Seim, Yong Li
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Patent number: 8564270Abstract: An improved discontinuous current mode (DCM) switching power converter that compensates for the effect of dead time. The dead time of the switching power converter is measured during a switching cycle and a baseline on-time for a switch of the switching power converter is determined. The dead time and baseline on-time are used in calculating the desired on-time of the switch during a subsequent switching cycle of the power converter. The desired switch on-time regulates the output voltage to a desired voltage level. The desired switch on-time also maintains the average input current to the power converter in proportion to the input voltage, thereby improving the power factor of the switching power.Type: GrantFiled: February 5, 2013Date of Patent: October 22, 2013Assignee: iWatt Inc.Inventors: John William Kesterson, Liang Yan
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Patent number: 8553431Abstract: In a switching power converter, no-load condition is detected based on a variety of parameters including the output current, primary current, transformer reset time, and switching period. Once the no-load condition is detected, the switching power converter enters stand-by mode, in which the reference voltage corresponding to the target regulated output voltage of the switching power converter is lowered to a low stand-by value or the switching power converter is shut down for a predetermined duration. As a result, power loss during the stand-by mode of the switching power converter can be reduced significantly.Type: GrantFiled: February 1, 2010Date of Patent: October 8, 2013Assignee: iWatt Inc.Inventor: Junjie Zheng
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Publication number: 20130257280Abstract: A LED lamp that includes a LED lamp controller with delayed startup after a fault condition is detected. The type of the fault condition is used in determining a length of the startup delay, such as a number of power cycles during which the LED lamp controller is prevented from completing its configuration. Examples of different types of fault conditions include faults in a supply voltage or faults in a feedback voltage to the LED lamp controller. Fault type information can also be stored in circuitry that retains data and is not reset across the power cycles.Type: ApplicationFiled: February 22, 2013Publication date: October 3, 2013Applicant: IWATT INC.Inventors: Richard M. Myers, Clarita C. Poon, Liang Yan
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Publication number: 20130249437Abstract: A dimming controller for an LED lamp controls dimming using an adaptive filter to reduce or eliminate perceivable flickering and to provide smooth transitions during active dimming. During stable conditions, the adaptive filter operates with a relatively narrow bandwidth to filter noise that may lead to perceivable flickering. During active or startup conditions, the adaptive mapping filter operates with a high bandwidth to provide a quick response to the dimmer switch.Type: ApplicationFiled: February 8, 2013Publication date: September 26, 2013Applicant: iWatt Inc.Inventors: Xiaoyan Wang, John William Kesterson, Clarita Poon, Liang Yan
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Publication number: 20130241427Abstract: The embodiments disclosed herein describe a method of a power controller for monitoring for unsafe operating conditions of a drive transistor in a switching power converter of a LED lamp system by predicting the power dissipation of the drive transistor based on knowledge of the current through the drive transistor and a continuous observation of the voltage across the drive transistor. When the drive transistor approaches unsafe operating conditions, the power controller turns off the drive transistor.Type: ApplicationFiled: January 10, 2013Publication date: September 19, 2013Applicant: IWatt Inc.Inventors: John William Kesterson, Richard M. Myers
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Publication number: 20130241441Abstract: A dimmable light emitting lamp configured to interface with cat-ear dimmer switches. The lamp includes one or more light emitting devices. The lamp also includes circuitry configured to receive an input voltage and provide regulated current to the one or more light emitting devices. The input voltage has a first voltage pulse that does not represent a dimming level of a dimmer switch and a second voltage pulse that represents the dimming level of the dimmer switch. The circuitry determines a first duration corresponding to a length of the first voltage pulse and a second duration corresponding to a length of the second voltage pulse responsive to first duration. The circuitry adjusts the regulated current to the light emitting devices according to the second duration to adjust output light intensity of the light emitting devices.Type: ApplicationFiled: March 5, 2013Publication date: September 19, 2013Applicant: IWATT INC.Inventors: Richard M. Myers, Clarita C. Poon, Liang Yan
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Publication number: 20130242629Abstract: An improved discontinuous current mode (DCM) switching power converter that compensates for the effect of dead time. The dead time of the switching power converter is measured during a switching cycle and a baseline on-time for a switch of the switching power converter is determined. The dead time and baseline on-time are used in calculating the desired on-time of the switch during a subsequent switching cycle of the power converter. The desired switch on-time regulates the output voltage to a desired voltage level. The desired switch on-time also maintains the average input current to the power converter in proportion to the input voltage, thereby improving the power factor of the switching power.Type: ApplicationFiled: February 5, 2013Publication date: September 19, 2013Applicant: IWATT INC.Inventors: John William Kesterson, Liang Yan
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Publication number: 20130242625Abstract: A power converter that controls a collector current of a bipolar junction transistor (BJT) by controlling the base current to the BJT after having determined the gain of the BJT. A gain detection block determines a gain of the BJT during a first mode. A current calculation block generates a current setting for the base current based on the gain of the BJT determined by the gain detection block during a second mode distinct from the first mode. In some embodiments, the power converter may be included in a LED lamp system.Type: ApplicationFiled: March 13, 2012Publication date: September 19, 2013Applicant: IWATT INC.Inventors: Liang Yan, Clarita C. Poon, Hien Huu Bui, Chuanyang Wang, Andrew Kwok-Cheung Lee, John William Kesterson
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Publication number: 20130241430Abstract: The embodiments disclosed herein describe the dynamic control of a switching power converter between different operation modes of the switching power converter. In one embodiment, the operation modes of the switching power converter include a switching mode and a linear mode. The switching power converter may be included in a LED lamp system according to one embodiment.Type: ApplicationFiled: March 13, 2012Publication date: September 19, 2013Applicant: IWATT, INC.Inventors: Andrew Kwok-Cheung Lee, Chuanyang Wang, Jiang Chen, Liang Yan
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Publication number: 20130235621Abstract: A switching power converter includes a controller configured to transition from a first operating mode to a second operating mode by determining the operating conditions at the transition point between the operation modes. The controller uses a point where a switch included in the power converter would have been turned on if operating under the first operating mode as a reference point to determine when to turn on the switch under the second operating mode. Using the reference point, the switching power converter determines a control period for regulating the switching period of the switch in a second operating mode.Type: ApplicationFiled: February 20, 2013Publication date: September 12, 2013Applicant: IWATT INC.Inventors: Liang Yan, John William Kesterson, Xiaoyan Wang
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Publication number: 20130169172Abstract: A system controls a switching power converter to power LED strings using a predictive feedforward control mechanism. An LED controller determines programmed current levels and duty cycles for driving LED strings. The LED controller determines a predicted load for a subsequent cycle of a switching power converter driving the LED strings based on the programmed current levels and duty cycles. A power conversion controller uses the predicted load information to control switching of the switching power converter. This improves the dynamic response of the switching converter to changing load conditions, thereby improving overall power efficiency and performance of the system.Type: ApplicationFiled: December 28, 2011Publication date: July 4, 2013Applicant: IWATT INC,Inventors: John William Kesterson, Xiaoyan Wang, Xuecheng Jin, Enzhu Liang, Selcuk Sen
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Publication number: 20130147374Abstract: An LED driver controls current through an LED string. The LED driver generates a boosted PWM signal to drive a PWM transistor in the LED current path such that the PWM transistor maintains a substantially constant VGS, thus minimizing turn-on impedance of the PWM transistor. A current mirror circuit controls peak LED current when the PWM transistor is on. A trimming circuit includes a set of programmable switches to couple or decouple trimming transistor from the LED current path, and allowing for fine calibration of the LED current. By maintaining a low resistance and compensating for current mismatch in the LED current path, the LED driver provides efficient power performance and robustness that is particularly beneficial in high current applications.Type: ApplicationFiled: December 7, 2011Publication date: June 13, 2013Applicant: IWATT INC.Inventors: Minjong Kim, Enzhu Liang, Xuecheng Jin
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Publication number: 20130119954Abstract: A low-dropout (LDO) voltage regulator includes a switch to generate an output current, and a first sensing module that increases the speed at which the switch is turned off and the output current is decreased in response to detecting a decreasing load current. The LDO regulator further includes a second sensing module that increases the speed at which the switch is turned on and the output current is increased in response to detecting an increasing load current.Type: ApplicationFiled: November 13, 2012Publication date: May 16, 2013Applicant: IWATT INC.Inventor: iWatt Inc.
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Publication number: 20130121032Abstract: A controller of a switching power converter employs a dynamically adaptive power supply regulation approach that improves low-load and no-load regulation to achieve ultra-low standby power in a switching power converter. Under ultra-low load conditions when a deep-deep pulse width modulation (DDPWM) is applied, the controller decreases the actual on-time of the power switch of the switching power converter by decreasing the “on” duration of the control signal used to turn on or off the power switch, until the “on” duration of the control signal reaches a minimum value. To further reduce the on-time of the power switch, the controller reduces the power applied to the power switch to turn on the switch more slowly, while maintaining the “on” duration of the control signal at a minimum value. The minimum value of the “on” duration of the control signal and the minimum power applied to the switch are dynamically controlled.Type: ApplicationFiled: October 25, 2012Publication date: May 16, 2013Applicant: iWatt Inc.Inventor: iWatt Inc.
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Publication number: 20130121049Abstract: A controller of a switching power converter sets an actual turn-on time of a switch in the switching power converter in each switching cycle by selecting one of a plurality of valley points of the output voltage of the switching power converter occurring subsequent to the desired turn-on time of the switch. The desired turn-on time of the switch may be calculated according to the regulation scheme employed by the switching power converter. The controller selects one of the plurality of valley points randomly from switching cycle to switching cycle. The controller generates a control signal to turn on the switching power converter at the selected one of the plurality of valley points of the output voltage occurring subsequent to the desired turn-on time.Type: ApplicationFiled: October 22, 2012Publication date: May 16, 2013Applicant: IWATT INC.Inventor: IWATT INC.
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Publication number: 20130121044Abstract: A controller integrated circuit (IC) for controlling a power converter uses one or more IC pins having plurality of functions such as configuration of a parameter supported by the controller IC and shutdown protection. Several different functions may be supported by a single IC pin, thereby reducing the number of pins required in the controller IC and also reducing the cost of manufacturing the controller IC. The controller IC may also share a comparison circuit among different pins and the different functions provided by those pins. Use of a shared comparison circuit further reduces the cost of manufacturing the controller IC without sacrificing the performance of the IC.Type: ApplicationFiled: September 12, 2012Publication date: May 16, 2013Applicant: IWATT INC.Inventors: Xiaolin Gao, Yong Li, Qiu Sha, Fuqiang Shi, John William Kesterson, Jiang Chen