Patents by Inventor Deepakraj M. Divan
Deepakraj M. Divan 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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Publication number: 20140241019Abstract: Multi-level rectifiers are provided. A multi-level rectifier may convert a medium AC voltage to a medium DC voltage. A multi-level rectifier may comprise an input inductor, a set of diodes, a set of switches, and a DC link comprising a set of capacitors. One end of the input inductor is coupled to the input AC voltage and the other end of the input inductor is coupled to a pair of diodes that are series connected. The set of switches may be regulated such that the inductor may be coupled to a DC voltage point of the DC link. A multi-level rectifier may operate under a set of operation modes. Each operation mode may be determined from the input voltage and the inductor current. Accordingly, a sinusoidal voltage at the fundamental frequency of the input voltage may be synthesized by selectively switching between adjacent operation modes of the set of operation modes.Type: ApplicationFiled: February 27, 2014Publication date: August 28, 2014Applicant: VARENTEC, INC.Inventors: DEEPAKRAJ M. DIVAN, ROHIT MOGHE, ANISH PRASAI
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Publication number: 20140103888Abstract: Methods and systems of network voltage regulating transformers are provided. A network voltage regulating transformer (NVRT) may provide voltage transformation, isolation, and regulation. A NVRT may further provide power factor corrections. Multiple NVRTs may operate autonomously and collectively thereby achieving an edge of network voltage control when installed to a power system. A NVRT comprises a transformer, a VAR source, and a control module. The input current (i.e., the current through the primary side of the transformer), the output current (i.e., the current through the secondary side of the transformer), and/or the output voltage (i.e., the voltage across the secondary side of the transformer) may be monitored.Type: ApplicationFiled: October 16, 2013Publication date: April 17, 2014Applicant: VARENTEC, INC.Inventors: Deepakraj M Divan, Anish Prasai
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Publication number: 20140055895Abstract: Disclosed are various embodiments of voltage protectors that include a first voltage clamping device configured to clamp a voltage of an input power applied to an electrical load, and a second voltage clamping device configured to clamp the voltage applied to the electrical load. A series inductance separates the first and second voltage clamping devices. Also, a switching element is employed to selectively establish a direct coupling of the input power to the electrical load, where a circuit is employed to control the operation of the switching element.Type: ApplicationFiled: November 5, 2013Publication date: February 27, 2014Applicant: Georgia Tech Research CorporationInventor: Deepakraj M. Divan
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Publication number: 20140039711Abstract: Dynamic source balancing methods and systems are provided. Power may be provided to a user from one or multiple energy sources. At any time point, the multiple energy sources may have different LMPs and power flow among the energy sources may be controlled such that a user's energy costs are reduced or minimized. Energy arbitrage may be realized for a user by taking into account of various factors related to the energy sources, the power grid, the power market, and/or the user.Type: ApplicationFiled: August 2, 2013Publication date: February 6, 2014Applicant: Varentec, Inc.Inventors: DEEPAKRAJ M. DIVAN, FRANK KREIKEBAUM
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Publication number: 20140009980Abstract: A power flow controller with a fractionally rated back-to-back (BTB) converter is provided. The power flow controller provide dynamic control of both active and reactive power of a power system. The power flow controller inserts a voltage with controllable magnitude and phase between two AC sources at the same frequency; thereby effecting control of active and reactive power flows between the two AC sources. A transformer may be augmented with a fractionally rated bi-directional Back to Back (BTB) converter. The fractionally rated BTB converter comprises a transformer side converter (TSC), a direct-current (DC) link, and a line side converter (LSC). By controlling the switches of the BTB converter, the effective phase angle between the two AC source voltages may be regulated, and the amplitude of the voltage inserted by the power flow controller may be adjusted with respect to the AC source voltages.Type: ApplicationFiled: November 9, 2012Publication date: January 9, 2014Applicant: VARENTEC, INC.Inventors: Deepakraj M. Divan, Rajendra Prasad Kandula, Anish Prasai
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Patent number: 8593776Abstract: Disclosed are various embodiments of voltage protectors that include a first voltage clamping device configured to clamp a voltage of an input power applied to an electrical load, and a second voltage clamping device configured to clamp the voltage applied to the electrical load. A series inductance separates the first and second voltage clamping devices. Also, a switching element is employed to selectively establish a direct coupling of the input power to the electrical load, where a circuit is employed to control the operation of the switching element.Type: GrantFiled: November 16, 2012Date of Patent: November 26, 2013Assignee: Georgia Tech Research CorporationInventor: Deepakraj M. Divan
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Publication number: 20130308346Abstract: Active AC snubbers for AC/AC converters are provided. The active snubbers are actively-controlled AC snubbers that may be used in AC/AC power converters including direct AC converters. The active snubbers provide a free-wheeling path for AC/AC converters, ensuring that the converters are tolerant of errors in measurements and timings and of faults. The desired safe commutation of the switching devices when accurate measurements of voltage and current polarities become difficult or under fault contingencies when trapped energy needs to be dispatched safely is ensured. In addition, the active AC snubber may provide equal voltage sharing among the series-connected devices and clamp output voltages.Type: ApplicationFiled: March 15, 2013Publication date: November 21, 2013Applicant: GEORGIA TECH RESEARCH CORPORATIONInventors: Deepakraj M. Divan, Anish Prasai
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Publication number: 20130278235Abstract: Systems and methods for dynamic AC line voltage regulation are provided. A simple and cost-effective method for achieving AC line voltage regulation in AC systems including split-phase systems, of which the voltage for each voltage line may be regulated over a specified range, is provided. Buck and boost regulation is achieved for lowering or increasing the line voltage, respectively, with reference to the incoming grid voltage. Systems for dynamic AC line voltage regulation may comprise an AC/AC converter which uses fractionally rated switches and magnetics that handle only a fraction of the load current, resulting in lower costs. The use of an AC snubber further provides safe and robust switching of the main switching devices by eliminating failure prone switching sequences that are dependent on accurate assessment of voltage and/or current polarity for AC or bi-directional switches.Type: ApplicationFiled: April 19, 2013Publication date: October 24, 2013Applicant: VARENTEC, INC.Inventors: Deepakraj M. Divan, Anish Prasai
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Publication number: 20130207471Abstract: Power flow controllers based on Imputed DC Link (IDCL) cells are provided. The IDCL cell is a self-contained power electronic building block (PEBB). The IDCL cell may be stacked in series and parallel to achieve power flow control at higher voltage and current levels. Each IDCL cell may comprise a gate drive, a voltage sharing module, and a thermal management component in order to facilitate easy integration of the cell into a variety of applications. By providing direct AC conversion, the IDCL cell based AC/AC converters reduce device count, eliminate the use of electrolytic capacitors that have life and reliability issues, and improve system efficiency compared with similarly rated back-to-back inverter system.Type: ApplicationFiled: February 1, 2013Publication date: August 15, 2013Inventors: DEEPAKRAJ M. DIVAN, ANISH PRASAI, JORGE HERNENDEZ, ROHIT MOGHE, AMRIT LYER, RAJENDRA PRASAD KANDULA
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Publication number: 20130201733Abstract: Isolated Dynamic-Current (“Dyna-C”) converters are converters that convert incoming 3-phase AC or DC power to a mix of DC and AC power via an isolation link. In various embodiments, the isolation link is a high-frequency isolation transformer. Isolated Dyna-C converters may provide a high-frequency galvanic isolation and are able to convert three-phase AC power to three-phase AC power, or three-phase AC power to DC and vice versa. The topology is minimal and the costs are low. Isolated Dyna-C converters provide fast current responses and keep the losses low by using a simplified two-stage conversion and providing a magnetizing current that is dynamically controllable and tailored to the load. An isolated Dyna-C converter may synthesize currents at its input or output ports with an arbitrary phase that is relative to the grid or load voltages, thereby enabling a full independent control over the active and reactive power at its ports.Type: ApplicationFiled: December 24, 2012Publication date: August 8, 2013Inventors: DEEPAKRAJ M. DIVAN, ANISH PRASAI, HAO CHEN
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Publication number: 20130170264Abstract: The present invention describes systems and methods for harvesting energy from an alternating magnetic field. An exemplary embodiment can include a flux concentrator having an open core coil wherein a first current with a first voltage is induced in the flux concentrator when placed proximate an alternating magnetic field. Additionally, the system can include a transformer, having a first and second winding, connected to the flux concentrator and inducing a second current in the second winding, wherein the second current has a second voltage higher than the first voltage and a threshold voltage of a first and second diode. Furthermore, the system can include a converter, connected to the secondary winding for charging the leakage inductance of the secondary winding by creating a short circuit between the secondary winding and the converter; and the diodes connected to the secondary winding and the converter for discharging the leakage inductance.Type: ApplicationFiled: July 27, 2011Publication date: July 4, 2013Applicant: GEORGIA TECH RESEARCH CORPORATIONInventors: Deepakraj M. Divan, Rohit Moghe, Franklin C. Lambert
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Publication number: 20130151187Abstract: The present invention describes systems and methods for determining current flow through a current-carrying utility asset. An exemplary embodiment can include measuring a first magnetic induction value at a first location near a targeted current-carrying utility asset and a second magnetic induction value at a second location near the targeted asset where the first location is a known distance from the second location; determining a correlation between a spatial angle and an electrical phase angle between the targeted asset and a second asset where the second asset contributes a first and second error component to the first and second magnetic induction values respectively; estimating error values for the first and second error components using the correlation between the spatial angle and the electrical phase angle; and estimating a current flowing through the targeted asset using the first and second magnetic induction values, the known distance, and the error values.Type: ApplicationFiled: July 27, 2011Publication date: June 13, 2013Applicant: GEORGIA TECH RESEARCH CORPORATIONInventors: Deepakraj M. Divan, Rohit Moghe, Franklin Lambert
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Publication number: 20130140903Abstract: Compact dynamic Phase Angle Regulators (CD-PARs) are provided. A Compact Dynamic Phase Angle Regulator (CD-PAR) is a stand-alone device that regulates phase angle through a single transformer. A CD-PAR has no external energy source, uses low-rating devices, and can be isolated from a fault in the grid. A CD-PAR may be implemented in a single-phase or in a three-phase configuration, but the operation of a CD-PAR cross-couples all three phases. A CD-PAR controls both the real and the reactive power flow between two AC sources having the same frequency by inserting a voltage with controllable magnitude and phase. A CD-PAR may be implemented in either a buck configuration or a boost configuration.Type: ApplicationFiled: December 6, 2012Publication date: June 6, 2013Inventors: Deepakraj M. Divan, Anish Prasai
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Patent number: 8335067Abstract: Disclosed are various embodiments of voltage protectors that include a first voltage clamping device configured to clamp a voltage of an input power applied to an electrical load, and a second voltage clamping device configured to clamp the voltage applied to the electrical load. A series inductance separates the first and second voltage clamping devices. Also, a switching element is employed to selectively establish a direct coupling of the input power to the electrical load, where a circuit is employed to control the operation of the switching element.Type: GrantFiled: April 29, 2011Date of Patent: December 18, 2012Assignee: Georgia Tech Research CorporationInventor: Deepakraj M. Divan
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Patent number: 8179702Abstract: Voltage synthesis using virtual quadrature sources may be provided. First, a quadrature wave form may be created. The quadrature wave form may have the same frequency as an input voltage and may be ninety degrees out of phase with the input voltage. Next, a harmonic wave form may be created. The harmonic wave form may be based upon an even harmonic of the input voltage and may comprise a triplen wave form. Then, the quadrature wave form and the harmonic wave form may be added to create a resultant wave form. The resultant wave form may be contained within an envelope defined by the input voltage. Next, duty cycle control may be applied to the resultant wave form to create an output voltage. The duty cycle control may be applied without using an energy storage device.Type: GrantFiled: May 3, 2007Date of Patent: May 15, 2012Assignee: Georgia Tech Research CorporationInventors: Deepakraj M. Divan, Jyoti Sastry
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Publication number: 20110216457Abstract: Disclosed are various embodiments of voltage protectors that include a first voltage clamping device configured to clamp a voltage of an input power applied to an electrical load, and a second voltage clamping device configured to clamp the voltage applied to the electrical load. A series inductance separates the first and second voltage clamping devices. Also, a switching element is employed to selectively establish a direct coupling of the input power to the electrical load, where a circuit is employed to control the operation of the switching element.Type: ApplicationFiled: April 29, 2011Publication date: September 8, 2011Applicant: GEORGIA TECH RESEARCH CORPORATIONInventor: Deepakraj M. Divan
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Publication number: 20110205675Abstract: Disclosed are various embodiments of voltage protectors that include a first voltage clamping device configured to clamp a voltage of an input power applied to an electrical load, and a second voltage clamping device configured to clamp the voltage applied to the electrical load. A series inductance separates the first and second voltage clamping devices. Also, a switching element is employed to selectively establish a direct coupling of the input power to the electrical load, where a circuit is employed to control the operation of the switching element.Type: ApplicationFiled: April 29, 2011Publication date: August 25, 2011Applicant: GEORGIA TECH RESEARCH CORPORATIONInventor: Deepakraj M. Divan
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Publication number: 20110205676Abstract: Disclosed are various embodiments of voltage protectors that include a first voltage clamping device configured to clamp a voltage of an input power applied to an electrical load, and a second voltage clamping device configured to clamp the voltage applied to the electrical load. A series inductance separates the first and second voltage clamping devices. Also, a switching element is employed to selectively establish a direct coupling of the input power to the electrical load, where a circuit is employed to control the operation of the switching element.Type: ApplicationFiled: April 29, 2011Publication date: August 25, 2011Applicant: GEORGIA TECH RESEARCH CORPORATIONInventor: Deepakraj M. Divan
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Publication number: 20110205674Abstract: Disclosed are various embodiments of voltage protectors that include a first voltage clamping device configured to clamp a voltage of an input power applied to an electrical load, and a second voltage clamping device configured to clamp the voltage applied to the electrical load. A series inductance separates the first and second voltage clamping devices. Also, a switching element is employed to selectively establish a direct coupling of the input power to the electrical load, where a circuit is employed to control the operation of the switching element.Type: ApplicationFiled: April 29, 2011Publication date: August 25, 2011Applicant: GEORGIA TECH RESEARCH CORPORATIONInventor: Deepakraj M. Divan
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Patent number: 7957117Abstract: Disclosed are various embodiments of voltage protectors that include a first voltage clamping device configured to clamp a voltage of an input power applied to an electrical load, and a second voltage clamping device configured to clamp the voltage applied to the electrical load. A series inductance separates the first and second voltage clamping devices. Also, a switching element is employed to selectively establish a direct coupling of the input power to the electrical load, where a circuit is employed to control the operation of the switching element.Type: GrantFiled: April 4, 2008Date of Patent: June 7, 2011Assignee: Georgia Tech Research CorporationInventor: Deepakraj M. Divan