Patents by Inventor Ahmed Elasser
Ahmed Elasser 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: 20150341028Abstract: A gate drive unit includes a charging device, a switch, and a timing module. The charging device is conductively coupled with an electrical energy source and a power switch between the electric energy source and the charging device. The switch closes to transfer electrical energy from the energy source to the charging device. The timing module is configured to close the switch to direct the electrical energy from the electrical energy source to the charging device for a designated charging time period in order to charge the charging device with the electrical energy while the power switch is in an OFF state. The timing module opens the switch to cause the electrical energy stored in the charging device to be transferred out of the charging device in the form of a trigger current that is conducted to a gate terminal of the power switch to activate the power switch to an ON state from the OFF state.Type: ApplicationFiled: May 20, 2014Publication date: November 26, 2015Applicant: General Electric CompanyInventors: Fengfeng Tao, Ahmed Elasser, Mohammed Agamy, Patrick Kirlew
-
Publication number: 20150330195Abstract: Power systems and methods are disclosed herein. The systems and methods use a switching system coupled with a power source and subterranean pumps for pumping a resource from beneath a surface of earth. A first capacitor is between a first switching device and a first transformer, and stores electric energy received from the first transformer to activate the first switching device. A bias capacitor is between the first capacitor and the first switching device, and receives a bias voltage via a second transformer. The bias capacitor applies the bias voltage to the first switching device to prevent the first switching device from activating unless a combination of the voltage received by the first switching device via the first transformer and the bias voltage is at least as large as the activation voltage of the first switching device.Type: ApplicationFiled: July 24, 2015Publication date: November 19, 2015Inventors: Dong Dong, Antonio Caiafa, Mohammed Agamy, Ahmed Elasser
-
Publication number: 20150311708Abstract: A system and method for conditioning DC power received from hybrid DC power sources is disclosed. A power conversion circuit is coupled to a respective DC power source to selectively condition the output power generated thereby to a DC bus voltage. The power conversion circuit includes a switch arrangement and capacitors arranged to provide a charge balancing in the power conversion circuit. A controller in operable communication with the switch arrangement receives inputs on a DC bus voltage and at least one parameter related to operation of the DC power source, and determines an adjustable voltage to be output from the conversion circuit to the DC bus based on the received inputs. The controller then selectively controls operation of the switch arrangement in order to generate the determined adjustable voltage.Type: ApplicationFiled: April 25, 2014Publication date: October 29, 2015Applicant: General Electric CompanyInventors: Fengfeng Tao, Ahmed Elasser, Song Chi, Maja Harfman Todorovic
-
Methods for locating ground faults and insulation degradation condition in energy conversion systems
Patent number: 9103865Abstract: Methods for determining a ground fault or insulation degradation condition within energy conversion systems are described. A method for determining a ground fault within an energy conversion system may include, in part, a comparison of baseline waveform of differential current to a waveform of differential current during operation for a plurality of DC current carrying conductors in an energy conversion system. A method for determining insulation degradation within an energy conversion system may include, in part, a comparison of baseline frequency spectra of differential current to a frequency spectra of differential current transient at start-up for a plurality of DC current carrying conductors in an energy conversion system. In one embodiment, the energy conversion system may be a photovoltaic system.Type: GrantFiled: December 26, 2012Date of Patent: August 11, 2015Assignee: General Electric CompanyInventors: Mohamed Agamy, Ahmed Elasser, Anthony William Galbraith, Maja Harfman Todorovic -
Patent number: 9006027Abstract: An electrical device includes a blocking layer disposed on top of a substrate layer, wherein the blocking layer and the substrate layer each are wide bandgap semiconductors, and the blocking layer and the substrate layer form a buried junction in the electrical device. The device comprises a termination feature disposed at a surface of the blocking layer and a filled trench disposed proximate to the termination feature. The filled trench extends through the blocking layer to reach the substrate layer and is configured to direct an electrical potential associated with the buried junction toward the termination feature disposed near the surface of the blocking layer to terminate the buried junction.Type: GrantFiled: September 11, 2012Date of Patent: April 14, 2015Assignee: General Electric CompanyInventors: Zachary Matthew Stum, Ahmed Elasser, Stephen Daley Arthur, Stanislav I. Soloviev, Peter Almern Losee
-
Patent number: 8829715Abstract: A distributed photovoltaic (PV) power plant includes a plurality of distributed dc-dc converters. The dc-dc converters are configured to switch in coordination with one another such that at least one dc-dc converter transfers power to a common dc-bus based upon the total system power available from one or more corresponding strings of PV modules. Due to the coordinated switching of the dc-dc converters, each dc-dc converter transferring power to the common dc-bus continues to operate within its optimal efficiency range as well as to optimize the maximum power point tracking in order to increase the energy yield of the PV power plant.Type: GrantFiled: April 29, 2011Date of Patent: September 9, 2014Assignee: General Electric CompanyInventors: Mohammed Agamy, Ahmed Elasser, Juan Antonio Sabate, Anthony William Galbraith, Maja Harfman Todorovic
-
METHODS FOR LOCATING GROUND FAULTS AND INSULATION DEGRADATION CONDITION IN ENERGY CONVERSION SYSTEMS
Publication number: 20140176151Abstract: Methods for determining a ground fault or insulation degradation condition within energy conversion systems are described. A method for determining a ground fault within an energy conversion system may include, in part, a comparison of baseline waveform of differential current to a waveform of differential current during operation for a plurality of DC current carrying conductors in an energy conversion system. A method for determining insulation degradation within an energy conversion system may include, in part, a comparison of baseline frequency spectra of differential current to a frequency spectra of differential current transient at start-up for a plurality of DC current carrying conductors in an energy conversion system. In one embodiment, the energy conversion system may be a photovoltaic system.Type: ApplicationFiled: December 26, 2012Publication date: June 26, 2014Applicant: GENERAL ELECTRIC COMPANYInventors: Mohamed AGAMY, Ahmed ELASSER, Anthony William GALBRAITH, Maja HARFMAN TODOROVIC -
Patent number: 8691634Abstract: A thyristor device includes a semiconductor body and a conductive anode. The semiconductor body has a plurality of doped layers forming a plurality of dopant junctions and includes an optical thyristor, a first amplifying thyristor, and a switching thyristor. The conductive anode is disposed on a first side of the semiconductor body. The optical thyristor is configured to receive incident radiation to generate a first electric current, and the first amplifying thyristor is configured to increase the first electric current from the optical thyristor to at least a threshold current. The switching thyristor switches to the conducting state in order to conduct a second electric current from the anode and through the semiconductor body.Type: GrantFiled: August 7, 2013Date of Patent: April 8, 2014Assignee: General Electric CompanyInventors: Ahmed Elasser, Stephen Daley Arthur, Alexey Vert, Stanislav Ivanovich Soloviev, Peter Almern Losee
-
Publication number: 20140070231Abstract: A semiconductor device is provided. The semiconductor device includes an avalanche photodiode unit and a thyristor unit. The avalanche photodiode unit is configured to receive incident light to generate a trigger current and comprises a wide band-gap semiconductor. The thyristor unit is configured to be activated by the trigger current to an electrically conductive state. A semiconductor device and a method for making a semiconductor device are also presented.Type: ApplicationFiled: September 13, 2012Publication date: March 13, 2014Applicant: GENERAL ELECTRIC COMPANYInventors: Stanislav Ivanovich Soloviev, Ahmed Elasser, Alexander Viktorovich Bolotnikov, Alexey Vert, Peter Almern Losee
-
Publication number: 20140070229Abstract: An electrical device includes a blocking layer disposed on top of a substrate layer, wherein the blocking layer and the substrate layer each are wide bandgap semiconductors, and the blocking layer and the substrate layer form a buried junction in the electrical device. The device comprises a termination feature disposed at a surface of the blocking layer and a filled trench disposed proximate to the termination feature. The filled trench extends through the blocking layer to reach the substrate layer and is configured to direct an electrical potential associated with the buried junction toward the termination feature disposed near the surface of the blocking layer to terminate the buried junction.Type: ApplicationFiled: September 11, 2012Publication date: March 13, 2014Applicant: GENERAL ELECTRIC COMPANYInventors: Zachary Matthew Stum, Ahmed Elasser, Stephen Daley Arthur, Stanislav I. Soloviev, Peter Almern Losee
-
Publication number: 20140001856Abstract: A partial power converter includes a converter leg including an upper portion comprising at least one diode connected to a positive output node of an output terminal of the partial power converter and a lower portion comprising at least two switches connected in series with each other and with the at least one diode and to a negative output node of the output terminal of the partial power The partial power converter also includes at least one flying capacitor connected between the at least two switches at a first end and to either of the upper portion of the converter leg or the positive output node of the partial power converter at a second end.Type: ApplicationFiled: June 29, 2012Publication date: January 2, 2014Applicant: GENERAL ELECTRIC COMPANYInventors: Mohammed Agamy, Ahmed Elasser, Maja Harfman Todorovic
-
Publication number: 20140005845Abstract: A system and method of using one or more DC-DC/DC-AC converters and/or alternative devices allows strings of multiple module technologies to coexist within the same PV power plant. A computing (optimization) framework estimates the percentage allocation of PV power plant capacity to selected PV module technologies. The framework and its supporting components considers irradiation, temperature, spectral profiles, cost and other practical constraints to achieve the lowest levelized cost of electricity, maximum output and minimum system cost. The system and method can function using any device enabling distributed maximum power point tracking at the module, string or combiner level.Type: ApplicationFiled: June 28, 2012Publication date: January 2, 2014Applicant: GENERAL ELECTRIC COMPANYInventors: Bex George Thomas, Ahmed Elasser, Srinivas Bollapragada, Anthony William Galbraith, Mohammed Agamy, Maxim Valeryevich Garifullin
-
Publication number: 20130323873Abstract: A thyristor device includes a semiconductor body and a conductive anode. The semiconductor body has a plurality of doped layers forming a plurality of dopant junctions and includes an optical thyristor, a first amplifying thyristor, and a switching thyristor. The conductive anode is disposed on a first side of the semiconductor body. The optical thyristor is configured to receive incident radiation to generate a first electric current, and the first amplifying thyristor is configured to increase the first electric current from the optical thyristor to at least a threshold current. The switching thyristor switches to the conducting state in order to conduct a second electric current from the anode and through the semiconductor body.Type: ApplicationFiled: August 7, 2013Publication date: December 5, 2013Applicant: GENERAL ELECTRIC COMPANYInventors: AHMED ELASSER, STEPHEN DALEY ARTHUR, ALEXEY VERT, STANISLAV IVANOVICH SOLOVIEV, PETER ALMERN LOSEE
-
Patent number: 8536617Abstract: A thyristor device includes a semiconductor body and a conductive anode. The semiconductor body has a plurality of doped layers forming a plurality of dopant junctions and includes an optical thyristor, a first amplifying thyristor, and a switching thyristor. The conductive anode is disposed on a first side of the semiconductor body. The optical thyristor is configured to receive incident radiation to generate a first electric current, and the first amplifying thyristor is configured to increase the first electric current from the optical thyristor to at least a threshold current. The switching thyristor switches to the conducting state in order to conduct a second electric current from the anode and through the semiconductor body.Type: GrantFiled: December 16, 2011Date of Patent: September 17, 2013Assignee: General Electric CompanyInventors: Alexey Vert, Ahmed Elasser, Arthur Stephen Daley, Stanislav I Soloviev, Peter Almern Losee
-
Patent number: 8531027Abstract: Systems and methods for utilizing power overlay (POL) technology and semiconductor press-pack technology to produce semiconductor packages with higher reliability and power density are provided. A POL structure may interconnect semiconductor devices within a semiconductor package, and certain embodiments may be implemented to reduce the probability of damaging the semiconductor devices during the pressing of the conductive plates. In one embodiment, springs and/or spacers may be used to reduce or control the force applied by an emitter plate onto the semiconductor devices in the package. In another embodiment, the emitter plate may be recessed to exert force on the POL structure, rather than directly against the semiconductor devices. Further, in some embodiments, the conductive layer of the POL structure may be grown to function as an emitter plate, and regions of the conductive layer may be made porous to provide compliance.Type: GrantFiled: April 30, 2010Date of Patent: September 10, 2013Assignee: General Electric CompanyInventors: Arun Virupaksha Gowda, Ahmed Elasser, Satish Sivarama Gunturi
-
Publication number: 20130153953Abstract: A thyristor device includes a semiconductor body and a conductive anode. The semiconductor body has a plurality of doped layers forming a plurality of dopant junctions and includes an optical thyristor, a first amplifying thyristor, and a switching thyristor. The conductive anode is disposed on a first side of the semiconductor body. The optical thyristor is configured to receive incident radiation to generate a first electric current, and the first amplifying thyristor is configured to increase the first electric current from the optical thyristor to at least a threshold current. The switching thyristor switches to the conducting state in order to conduct a second electric current from the anode and through the semiconductor body.Type: ApplicationFiled: December 16, 2011Publication date: June 20, 2013Applicant: GENERAL ELECTRIC COMPANYInventors: Ahmed Elasser, Arthur Stephen Daley, Alexey Vert, Stanislav I. Soloviev, Peter Almern Losee
-
Publication number: 20130076144Abstract: A system and method are provided for enabling a PV inverter to be connected to a string of series connected PV modules without exposing the inverter to elevated voltage stresses. The input voltage to the inverter is gradually built up by sequentially switching in more series PV modules. This system and method are simple to implement in both centralized and distributed PV power plants and in either case, it significantly increases the utilization of the PV inverter. The input switching elements can be implemented using a wide variety of parts including electro-mechanical switches, semiconductor switches (IGBTs, MOSFETs . . . , etc.) as well as MEMS devices depending on the current level and target cost. A mix of switches can also be used to assist in minimizing impedance of the final switching stage that remains connected during normal operation.Type: ApplicationFiled: September 28, 2011Publication date: March 28, 2013Applicant: GENERAL ELECTRIC COMPANYInventors: Mohammed Agamy, Ahmed Elasser, Anthony William Galbraith, Maja Harfman-Todorovic
-
Patent number: 8330299Abstract: A power generation system configured to provide direct current (DC) power to a DC link is described. The system includes a first power generation unit configured to output DC power. The system also includes a first DC to DC converter comprising an input section and an output section. The output section of the first DC to DC converter is coupled in series with the first power generation unit. The first DC to DC converter is configured to process a first portion of the DC power output by the first power generation unit and to provide an unprocessed second portion of the DC power output of the first power generation unit to the output section.Type: GrantFiled: June 29, 2011Date of Patent: December 11, 2012Assignee: General Electric CompanyInventors: Robert Louis Steigerwald, Ahmed Elasser, Juan Antonio Sabate, Maja Harfman Todorovic, Mohammed Agamy
-
Publication number: 20120274139Abstract: A distributed photovoltaic (PV) power plant includes a plurality of distributed dc-dc converters. The dc-dc converters are configured to switch in coordination with one another such that at least one dc-dc converter transfers power to a common dc-bus based upon the total system power available from one or more corresponding strings of PV modules. Due to the coordinated switching of the dc-dc converters, each dc-dc converter transferring power to the common dc-bus continues to operate within its optimal efficiency range as well as to optimize the maximum power point tracking in order to increase the energy yield of the PV power plant.Type: ApplicationFiled: April 29, 2011Publication date: November 1, 2012Applicant: GENERAL ELECTRIC COMPANYInventors: Mohammed Agamy, Ahmed Elasser, Juan Antonio Sabate, Anthony William Galbraith, Maja Harfman Todorovic
-
Publication number: 20120051095Abstract: A power generation system configured to provide direct current (DC) power to a DC link is described. The system includes a first power generation unit configured to output DC power. The system also includes a first DC to DC converter comprising an input section and an output section. The output section of the first DC to DC converter is coupled in series with the first power generation unit. The first DC to DC converter is configured to process a first portion of the DC power output by the first power generation unit and to provide an unprocessed second portion of the DC power output of the first power generation unit to the output section.Type: ApplicationFiled: June 29, 2011Publication date: March 1, 2012Inventors: Robert Louis Steigerwald, Ahmed Elasser, Juan Antonio Sabate, Maja Harfman Todorovic, Mohammed Agamy