Patents by Inventor Steven Huynh
Steven Huynh 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).
-
Publication number: 20130151875Abstract: A Multi-Tile Power Management Integrated Circuit (MTPMIC) includes tiles including an MCU/ADC tile and a power manager tile. The power manager tile includes a set of Configurable Switching Power Supply Pulse Width Modulator (CSPSPWM) components. These components, in combination with other circuitry external to the integrated circuit, are configurable to form a selected one of a number of different switching power supply circuits. Upon power up, an internal regulator supplies power to the CSPSPWM. The CSPSPWM then controls the power supply to begin switching in a low frequency start-up mode. The CSPSPWM determines during start-up the current sensing method based on circuitry external to the integrated circuit. A supply voltage generated is then supplied via a conductor of a standardized bus to a processor in the MCU/ADC tile. The processor begins executing instructions, and as a result writes across the standardized bus to configure the various tiles of the MTPMIC.Type: ApplicationFiled: December 8, 2011Publication date: June 13, 2013Applicant: Active-Semi, Inc.Inventor: Steven Huynh
-
Patent number: 8456095Abstract: An LED lamp with an integrated circuit, a rectifier, and a string of series-connected LEDs rectifies an incoming AC signal. The integrated circuit includes power switches that can separately and selectably short out a corresponding one of several groups of LEDs in an LED string across which the rectified AC signal is present. As the voltage across the string increases, the integrated circuit controls the power switches to increase the number of LEDs through which current flows, whereas as the voltage across the string decreases the integrated circuit controls the power switches to decrease the number of LEDs through which current flows. The flow of LED string current is broken to reduce flicker. Alternatively, a valley fill capacitor peaks LED current during the valleys of the incoming AC signal to reduce flicker. LED current is regulated to provide superior efficiency, reliability, power-factor correction, and lamp over-voltage, -current, and -temperature protection.Type: GrantFiled: May 4, 2010Date of Patent: June 4, 2013Assignee: Active-Semi, Inc.Inventor: Steven Huynh
-
Patent number: 8441213Abstract: A system includes a controller and line units. The controller receives AC power from a power source and supplies an AC power signal via two conductors to the units. In one example, the controller is a dimmer switch and the units are intelligent LED lamps. The controller uses phase cut modulation to communicate information (for example, lighting control commands) to the units. The units receive the AC power signal, demodulate and recover the phase cut modulated information, and optionally communicate information back to the controller using load modulation. An addressed unit changes loading on the two conductors from phase cut time to phase cut time, thereby modulating information onto the AC power signal. The controller monitors the AC power signal, and demodulates and recovers the information. The overall bidirectional communication is referred to as bidirectional phase cut modulation over AC power conductors. Units can be controlled individually or in groups.Type: GrantFiled: June 29, 2010Date of Patent: May 14, 2013Assignee: Active-Semi, Inc.Inventor: Steven Huynh
-
Patent number: 8341582Abstract: A programmable analog tile integrated circuit configuration tool communicates a power management control characteristic query soliciting control requirement information for a novel Power Management Integrated Circuit (PMIC) tile in a Multi-Tile Power Management Integrated Circuit (MTPMIC). The configuration tool receives a user response to the query indicating control requirements across a network. The PMIC tile includes configuration registers. Configuration information bit values stored in the configuration registers control the operational characteristics of the functional circuitry of the tile. The configuration registers of each novel PMIC tile are accessible at pre-defined addresses on a standardized bus of the MTPMIC. In response to the user response, the configuration tool generates appropriate tile configuration information for loading the configuration registers such that the PMIC tile within the MTPMIC is programmed to satisfy the user's control requirements.Type: GrantFiled: January 30, 2009Date of Patent: December 25, 2012Assignee: Active-Semi, Inc.Inventors: Steven Huynh, Matthew A. Grant, Gary M. Hurtz, David J. Kunst, Trey A. Roessig
-
Patent number: 8299724Abstract: An LED lamp includes a rectifier, an integrated circuit and a string of series-connected LEDs. The lamp receives an incoming AC signal such that a rectified version of the signal is present across the LED string. The integrated circuit includes a plurality of power switches. Each power switch is coupled so that it can separately and selectably short out a corresponding one of several groups of LEDs in the string. As the voltage across the string increases the integrated circuit controls the power switches such that the number of LEDs through which current flows increases, whereas as the voltage across the string decreases the integrated circuit controls the power switches such that the number of LEDs through which current flows decreases. LED string current flow is controlled and regulated to provide superior efficiency, reliability, anti-flicker, regulation against line voltage variations, power factor correction, and lamp over-voltage, over-current, and over-temperature protection.Type: GrantFiled: March 19, 2010Date of Patent: October 30, 2012Assignee: Active-Semi, Inc.Inventor: Steven Huynh
-
Patent number: 8225260Abstract: A programmable analog tile integrated circuit placement tool allows a user to manipulate a graphical representation of a first power management integrated circuit (PMIC) tile with respect to a graphical representation of a second PMIC tile in a proposed Multi-Tile Power Management Integrated Circuit (MTPMIC). The novel PMIC tiles have pre-defined physical structures including a bus portion and a memory structure for storing configuration information for configuring the tile. When appropriately placed in a MTPMIC, the bus portions of the selected tiles automatically form a standardized bus that accommodates all signal communication required for a functioning MTPMIC. A remote user with minimal training in analog circuit design may command the placement of individual tiles in a proposed MTPMIC layout. Upon receiving a user response indicating satisfaction with the placement of PMIC tiles, the tool quickly and automatically generates physical layout data suitable for fabrication of the MTPMIC.Type: GrantFiled: January 30, 2009Date of Patent: July 17, 2012Assignee: Active-Semi, Inc.Inventors: Steven Huynh, Matthew A. Grant, Gary M. Hurtz, David J. Kunst, Trey A. Roessig
-
Patent number: 8225264Abstract: An integrated circuit (IC) and fabrication method thereof is provided that include the steps of specifying a plurality of required tile modules suitable for a particular end application, each of the modular tiles being configured to perform a predetermined function and constructed to have approximately the same length and width dimensions. The modular tiles are used to form the IC in a standard IC fabrication process. In many implementations, physical layout of the IC does not include the step of routing. Capabilities also include configuring the modular tiles to have programmable performance parameters and configuring the modular tiles to cooperate usefully with one another based on a programmable parameter.Type: GrantFiled: August 21, 2009Date of Patent: July 17, 2012Assignee: Active-Semi, Inc.Inventors: Steven Huynh, David Kunst
-
Patent number: 8219956Abstract: An Analog Tile Selection, Placement, Configuration and Programming (ATSPCP) tool communicates a power management characteristic query over a network. The query is displayed to a user on a webpage. The query is a solicitation for desired characteristics of a Power Management Integrated Circuit (PMIC). After receiving user requirements in a response to the query, the tool selects a number of power management integrated circuit tiles having pre-defined physical structures. The pre-defined structure of each tile includes a bus portion and a memory structure for storing configuring information for the tile. When combined in a Multi-Tile Power Management Integrated Circuit (MTPMIC), the bus portions of the selected tiles automatically form a standardized bus that accommodates all signal communication required for a functioning MTPMIC that meets the user requirements. The ATSPCP tool combines the physical layout data of each selected PMIC tile to form composite physical layout data for the overall MTPMIC.Type: GrantFiled: January 30, 2009Date of Patent: July 10, 2012Assignee: Active-Semi, Inc.Inventors: Steven Huynh, Matthew A. Grant, Gary M. Hurtz, David J. Kunst, Trey A. Roessig
-
Patent number: 8196079Abstract: An integrated circuit (IC) and fabrication method thereof is provided that include the steps of specifying a plurality of required tile modules suitable for a particular end application, each of the modular tiles being configured to perform a predetermined function and constructed to have approximately the same length and width dimensions. The modular tiles are used to form the IC in a standard IC fabrication process. In many implementations, physical layout of the IC does not include the step of routing. Capabilities also include configuring the modular tiles to have programmable performance parameters and configuring the modular tiles to cooperate usefully with one another based on a programmable parameter.Type: GrantFiled: August 25, 2009Date of Patent: June 5, 2012Assignee: Active-Semi, Inc.Inventors: Steven Huynh, David Kunst
-
Patent number: 8164391Abstract: A phase locked loop is used to synchronize the switching frequency of a high frequency switching power converter to a clock signal. A switching power converter integrated circuit is a tile-based power management unit and includes an oscillator and multiple tiles of switching power converters. The oscillator generates a clock signal having a clock frequency. A first switching power converter includes a switch and a phase locked loop and switches at a first frequency. The switch has a gate that receives a gate signal. The phase locked loop synchronizes the first frequency to a first integer multiple of the clock frequency. A second switching power converter switches at a second frequency that is a second integer multiple of the clock frequency. The first frequency is synchronized to a multiple of the clock frequency when a second edge of the gate signal coincides with a first edge of the clock signal.Type: GrantFiled: July 28, 2010Date of Patent: April 24, 2012Assignee: Active-Semi, Inc.Inventor: Steven Huynh
-
Patent number: 8161450Abstract: An integrated circuit includes a buck converter controller, a PFET, an NFET that is coupled in common drain configuration to the PFET, a first microbump that is connected to the source of the PFET, a second microbump that is connected to the source of the NFET, a third microbump that is connected to the common drain node, a fourth microbump that is connected to a feedback input lead of the controller, and a plurality of other microbumps. The other microbumps are utilized to supply signals to and/or to conduct signals from the controller. A respective one of the four microbumps is disposed to occupy a respective one of the four corners of a square pattern. The other microbumps are disposed in a regular grid along with the four microbumps, but none of the other microbumps is disposed between any two of the four microbumps.Type: GrantFiled: July 2, 2009Date of Patent: April 17, 2012Assignee: Active-Semi, Inc.Inventors: Steven Huynh, David J. Kunst
-
Patent number: 8159269Abstract: A single terminal is used to configure an integrated circuit into one of three states. A circuit within the integrated circuit is coupled to the terminal and determines whether the terminal: 1) is coupled by a low impedance to a voltage source, or 2) is coupled by a medium impedance to the voltage source, or 3) is floating or substantially floating. The circuit asserts a first digital logic signal when the circuit determines that the terminal is coupled by the low impedance to the voltage source. The circuit asserts a second digital logic signal when the circuit determines that the terminal is coupled by the medium impedance to the voltage source. The circuit asserts a third digital logic signal when the circuit determines that the terminal is floating or substantially floating. The terminal and circuit are particular suited for use in a Power Management Unit (PMU) Integrated Circuit.Type: GrantFiled: July 2, 2008Date of Patent: April 17, 2012Assignee: Active-Semi, Inc.Inventors: Quang Khanh Dinh, Gary M. Hurtz, Steven Huynh
-
Patent number: 8149191Abstract: A system involves LED strings and programmable current source circuits (CSC). An LED current flows through each LED string. Each LED current is controlled by an associated programmable CSC. In one embodiment, the CSCs form a chain. A first CSC uses a reference current for calibration, and thereafter supplies the reference current to the next CSC. When the next CSC detects the reference current, it uses the reference current for calibration. CSCs are calibrated one by one down the chain. In a second embodiment, each CSC can receive the reference current from a common conductor. If the common conductor is detected to be available, then the CSC uses the reference current for calibration. When the conductor is in use, the other CSCs detect the conductor as unavailable and do not attempt to self-calibrate. The CSCs use the reference current one by one, but in an order that changes over time.Type: GrantFiled: June 29, 2007Date of Patent: April 3, 2012Assignee: Active-Semi, Inc.Inventors: David J. Kunst, Steven Huynh, Richard L. Gray
-
Constant current and voltage controller in a three-pin package operating in critical conduction mode
Patent number: 8125798Abstract: A self-oscillating flyback converter includes a controller integrated circuit housed in a 3-pin package. A switch control terminal is coupled to the base of an inductor switch that controls the current through a primary inductor of the converter. The controller IC adjusts the on time of the switch such that output current remains constant in constant current mode and output voltage remains constant in constant voltage mode. A signal received on a switch control terminal turns the switch off and provides an indication of the output current when the switch is on. A signal received on a feedback terminal powers the controller IC and provides an indication of the output voltage when the switch is off. The controller IC is grounded through a ground terminal. The flyback converter transitions from critical conduction mode to discontinuous conduction mode at light loads to prevent its efficiency from deteriorating at high switching frequencies.Type: GrantFiled: July 1, 2008Date of Patent: February 28, 2012Assignee: Active-Semi, Inc.Inventors: Steven Huynh, Jian Yang, Mingliang Chen -
Publication number: 20120043912Abstract: A single inductor multiple LED string driver comprises a switch control circuit and a current-sensing control circuit. The switch control circuit generates a plurality of digital control signals that are used to control a plurality of switches coupled to a plurality of strings of LEDs. Each switch is selectively turned on and off by each corresponding digital control signal. The current-sensing control circuit determines an integrated charge amount provided by each current that flows from an input voltage through each LED string, through each switch, through a common inductor, and through a main switch to ground. In response to the determined integrated charge amount, the current-sensing control circuit generates an on-time control signal that controls the on-time of each switch such that the average current flowing across each LED string is equal to each other. Furthermore, the total current flowing across each LED string is regulated to a predefined value.Type: ApplicationFiled: October 12, 2010Publication date: February 23, 2012Inventors: Steven Huynh, Cuong Van Pham
-
Patent number: 8122415Abstract: An integrated circuit (IC) and fabrication method thereof is provided that include the steps of specifying a plurality of required tile modules suitable for a particular end application, each of the modular tiles being configured to perform a predetermined function and constructed to have approximately the same length and width dimensions. The modular tiles are used to form the IC in a standard IC fabrication process. In many implementations, physical layout of the IC does not include the step of routing. Capabilities also include configuring the modular tiles to have programmable performance parameters and configuring the modular tiles to cooperate usefully with one another based on a programmable parameter.Type: GrantFiled: January 3, 2009Date of Patent: February 21, 2012Assignee: Active-Semi, Inc.Inventors: Steven Huynh, David Kunst
-
Patent number: 8122417Abstract: An integrated circuit (IC) and fabrication method thereof is provided that include the steps of specifying a plurality of required tile modules suitable for a particular end application, each of the modular tiles being configured to perform a predetermined function and constructed to have approximately the same length and width dimensions. The modular tiles are used to form the IC in a standard IC fabrication process. In many implementations, physical layout of the IC does not include the step of routing. Capabilities also include configuring the modular tiles to have programmable performance parameters and configuring the modular tiles to cooperate usefully with one another based on a programmable parameter.Type: GrantFiled: May 19, 2009Date of Patent: February 21, 2012Assignee: Active-Semi, Inc.Inventors: Steven Huynh, David Kunst
-
Publication number: 20120025919Abstract: A phase locked loop is used to synchronize the switching frequency of a high frequency switching power converter to a clock signal. A switching power converter integrated circuit is a tile-based power management unit and includes an oscillator and multiple tiles of switching power converters. The oscillator generates a clock signal having a clock frequency. A first switching power converter includes a switch and a phase locked loop and switches at a first frequency. The switch has a gate that receives a gate signal. The phase locked loop synchronizes the first frequency to a first integer multiple of the clock frequency. A second switching power converter switches at a second frequency that is a second integer multiple of the clock frequency. The first frequency is synchronized to a multiple of the clock frequency when a second edge of the gate signal coincides with a first edge of the clock signal.Type: ApplicationFiled: July 28, 2010Publication date: February 2, 2012Inventor: Steven Huynh
-
Patent number: 8102676Abstract: A cord correction circuit in a primary-side-controlled flyback converter compensates for the loss of output voltage caused by the resistance of the charger cord. In one embodiment, a correction voltage is subtracted from a feedback voltage received from a primary-side auxiliary inductor. A pre-amplifier then compares a reference voltage to the corrected feedback voltage. In another embodiment, the correction voltage is summed with the reference voltage, and the pre-amplifier compares the feedback voltage to the corrected reference voltage. The difference between the voltages on the input leads of the pre-amplifier is used to increase the output voltage to compensate for the voltage lost through the charger cord. The flyback converter also has a comparing circuit and a control loop that maintain the peak level of current flowing through the primary inductor of the converter. Adjusting the frequency and pulse width of an inductor switch signal controls the converter output current.Type: GrantFiled: November 29, 2010Date of Patent: January 24, 2012Assignee: Active-Semi, Inc.Inventors: Steven Huynh, Matthew Grant, David Kunst, Zhibo Tao
-
Publication number: 20110316441Abstract: A system includes a controller and line units. The controller receives AC power from a power source and supplies an AC power signal via two conductors to the units. In one example, the controller is a dimmer switch and the units are intelligent LED lamps. The controller uses phase cut modulation to communicate information (for example, lighting control commands) to the units. The units receive the AC power signal, demodulate and recover the phase cut modulated information, and optionally communicate information back to the controller using load modulation. An addressed unit changes loading on the two conductors from phase cut time to phase cut time, thereby modulating information onto the AC power signal. The controller monitors the AC power signal, and demodulates and recovers the information. The overall bidirectional communication is referred to as bidirectional phase cut modulation over AC power conductors. Units can be controlled individually or in groups.Type: ApplicationFiled: June 29, 2010Publication date: December 29, 2011Inventor: Steven Huynh