DOUBLE INFINITY ENTERTAINMENT Las Vegas, NV Jul 2012 to Oct 2014 Character ActorAce Industrial Burbank, CA Aug 2014 to Aug 2014 Customer service repVector marketing Henderson, NV Jun 2013 to Jul 2013 Sales representativeSAINT JUDE'S RANCH FOR CHILDREN Boulder City, NV Jun 2009 to Aug 2009 maintenance
Education:
College of southern Nevada Las Vegas, NV Oct 2013 G.E.D.ITT technical Institute Henderson, NV Electrical Engineering Candidate
ALS Chemex Fairbanks, AK Feb 2010 to Jun 2010 Lab TechnicianBallaine Lake Apartments Fairbanks, AK Aug 2001 to Feb 2010 Assistant SuperintendentBallaine Lake Apartments Fairbanks, AK May 2004 to Nov 2004 Paint Crew Lead
Education:
Eastfield College Mesquite Mesquite, TX 1999 Associates in SciencesBryan Adams High School Dallas Dallas, TX 1995 Diploma
Name / Title
Company / Classification
Phones & Addresses
Jason Sanders Managing Director Technology
Hercules Technology Growth Capital, Inc. Investors
400 Hamilton Ave., Palo Alto, CA 94301
Jason Sanders Market Research Analyst
Marcus & Millichap Real Estate Investment Services Inc. Real Estate Agents and Managers
16830 Ventura Blvd # 352, Van Nuys, CA 91436
Jason Sanders President
Harold Jones Landscape Inc Construction · Landscape Services · Landscaper
1403 Kuehner Dr, Simi Valley, CA 93063 40 W Cochran St SUITE 206, Simi Valley, CA 93065 1031 Mellow Ln, Simi Valley, CA 93065 PO Box 746, Simi Valley, CA 93062 8055827443
Jason Sanders Managing
Sanders Royal Travel, LLC Internet-Based Travel and Accomodations · Travel Agency
111 N Ln Brea Ave, Inglewood, CA 90301
Jason Sanders Market Research Analyst
Marcus & Millichap Real Estate Investment Services Inc. Legal Services
16830 Ventura Blvd #352, Encino, CA 91436 16830 Ventura Blvd #352, Los Angeles, CA 91436 8189070600, 8189814556
Jason Sanders
New Apex Lp
111 N Ln Brea Ave, Inglewood, CA 90301
Jason Sanders
Advance Housing Solutions LLC Purchase Development, Management and Sal · Business Services
5907 S Citrus Ave, Los Angeles, CA 90043 375 N Stephanie St, Henderson, NV 89014 111 N Ln Brea Ave, Inglewood, CA 90301
Jason Sanders - Los Angeles CA, US Andras Kuthi - Thousand Oaks CA, US Martin A. Gundersen - San Gabriel CA, US William Henry Moore - Canoga Park CA, US
Assignee:
University of Southern California - Los Angeles CA
International Classification:
H03K 3/00
US Classification:
307108
Abstract:
This invention relates to a pulse generator circuit for delivering a short high current pulse to a load. This pulse generator comprises a junction recovery diode, a switch, a first resonant circuit and a second resonant circuit. The diode may be configured to store charges in its depletion layer when there is a forward flow of a current and to rapidly switch open after the depletion layer is discharged by a reverse flow of a current. After the diode rapidly switch opens, the pulse generator may provide a reverse current to the load. This pulse generator may be configured to generate at least one pulse that is having a length of no more than 100 nanoseconds at the full-width-at-half-maximum and an amplitude of at least 1 kilovolt. Electrodes may be connected to the pulse generator to deliver one pulse or plurality of pulses to biological cells such as tumor cells.
Nanosecond Pulse Generator With A Protector Circuit
Jason Sanders - Los Angeles CA, US Andras Kuthi - Thousand Oaks CA, US Martin A. Gundersen - San Gabriel CA, US William Henry Moore - Canoga Park CA, US
Assignee:
University of Southern California - Los Angeles CA
International Classification:
H03K 3/00
US Classification:
307108
Abstract:
This invention relates to a pulse generator circuit for delivering a short high current pulse to a load. This pulse generator comprises a junction recovery diode, a switch, a first resonant circuit and a second resonant circuit. The diode may be configured to store charges in its depletion layer when there is a forward flow of a current and to rapidly switch open after the depletion layer is discharged by a reverse flow of a current. After the diode rapidly switch opens, the pulse generator may provide a reverse current to the load. This pulse generator may be configured to generate at least one pulse that is having a length of no more than 100 nanoseconds at the full-width-at-half-maximum and an amplitude of at least 1 kilovolt. Electrodes may be connected to the pulse generator to deliver one pulse or plurality of pulses to biological cells such as tumor cells.
Treatment Of Food Must With Low Energy, Short Pulsed Electric Field
Dan Singleton - El Segundo CA, US Jason Sanders - Los Angeles CA, US Martin Gundersen - San Gabriel CA, US
Assignee:
UNIVERSITY OF SOUTHERN CALIFORNIA - Los Angeles CA
International Classification:
A23L 3/32
US Classification:
99451
Abstract:
An apparatus for treating food must, such as grape must, may include a food must chamber configured to apply an electric pulse to the food must in a manner that causes an electric field to be generated within the food must. A pulse generator may be configured to deliver an electric pulse to the chamber that has a pulse width of between 10 and 100 nanoseconds. The chamber and the pulse generator may be configured such that they cause the electric field that is generated within the food must to be at least 1 kV/cm.
Treatment Of Food Must With Low Energy, Short Pulsed Electric Field
Dan Singleton - El Segundo CA, US Jason Sanders - Los Angeles CA, US Martin Gundersen - San Gabriel CA, US
Assignee:
UNIVERSITY OF SOUTHERN CALIFORNIA - Los Angeles CA
International Classification:
C12G 1/02
US Classification:
426237
Abstract:
An apparatus for treating food must, such as grape must, may include a food must chamber configured to apply an electric pulse to the food must in a manner that causes an electric field to be generated within the food must. A pulse generator may be configured to deliver an electric pulse to the chamber that has a pulse width of between 10 and 100 nanoseconds. The chamber and the pulse generator may be configured such that they cause the electric field that is generated within the food must to be at least 1 kV/cm.
Plasma Assisted Spark Ignition Systems And Methods
- Torrance CA, US Mark A. Thomas - Redondo Beach CA, US Alonzo Gomez - Los Angeles CA, US Jason M. Sanders - La Crescenta CA, US
International Classification:
H01T 15/00
Abstract:
A plasma assisted spark ignition system includes an ignitor and a power supply. The first ignitor includes: a casing having a first end, a second end that forms a first electrode, and a longitudinally extending passage, a second electrode which protrudes longitudinally outward from an opening at the second end of the casing and laterally spaced inwardly to form a spark gap, and an electrical insulator (dielectric) surrounding a portion of the second electrode, and which has a terminus that is at least closely spaced to an interior surface of the end of the casing. The power supply supplies a plurality of voltage pulses to the ignitor per ignition event to generate a flash over on the dielectric. Subsequent pulses in an ignition event may be at lower amplitude than an initial pulse in the ignition event. Pulses may, for example, have a duration on the order of a nanosecond.
Apparatus And Methods Of Detecting Transient Discharge Modes And/Or Closed Loop Control Of Pulsed Systems And Method Employing Same
- Torrance CA, US Mark A. Thomas - Redondo Beach CA, US Alonzo Gomez - Los Angeles CA, US Jason M. Sanders - La Crescenta CA, US
International Classification:
H01T 15/00 H03H 7/06 H03K 3/017
Abstract:
A system and method for differentiating between different modes of pulsed electrical discharges via of an amplitude to time (ATC) conversion circuit is described. A bipolar ATC circuit is used to add together the positive and negative portions of an attenuated and filtered signal derived either from the voltage or current of a pulse. Alternatively, a unipolar ATC circuit may be employed. The resulting processed signal is compared against a reference voltage to generate an output signal that is active for the amount of time that the processed signal exceeds the reference voltage. Discharge mode is determined based on three factors: did a pulse occur, if a pulse occurred when did the pulse start relative to the original pulse event, and what is the duty cycle of the pulse. Subsequent pulse generated may be controlled accordingly
Pulsed Non-Thermal Atmospheric Pressure Plasma Processing System
- Torrance CA, US Jason M. Sanders - Los Angeles CA, US Mark Thomas - Torrance CA, US Patrick Ford - Torrance CA, US Daniel Singleton - Hermosa Beach CA, US
International Classification:
H05H 1/48
Abstract:
A system for generating and delivering a low temperature, wide, partially ionized tunable plasma stream is described. The system employs a fast rising, repetitive high voltage pulse generator, flowing gas, and a plasma head to produce the described atmospheric pressure plasma stream and its associated active species. The plasma head may have an exit slit with a relatively wide dimension to produce a relative wide plasma stream. Electrodes may be located proximate the exit slit, for example one in an interior of the plasma head via with gas flows toward the exit slit, and the other exterior to the plasma head and offset from the exit slit. The plasma may include baffle material to enhance a uniformity of flow through and across the exit slit. Plasma heads with having exit slit with different widths may be provided as a kit.
Method And System For Treating Emissions Using A Transient Pulsed Plasma
- Torrance CA, US William P. Schroeder - La Habra Heights CA, US Jason M. Sanders - Los Angeles CA, US Daniel Singleton - El Segundo CA, US Mark Thomas - Redondo Beach CA, US Patrick Ford - Redondo Beach CA, US Martin Adolph Gundersen - San Gabriel CA, US
International Classification:
B01D 53/34 F24C 15/20
Abstract:
A method and system to treat cooking emissions (e.g., smoke) employs a nanosecond high voltage pulse generator and a transient pulsed plasma reactor. The system is used in a scheme that substantially reduces particulate matter produced in commercial charbroiling processes (e.g., cooking of hamburger meat). Both a reduction in the size distribution and total particulate mass is achieved using the method and system described herein.
Dr. Sanders graduated from the Medical University of South Carolina College of Medicine in 1999. He works in Greensboro, NC and specializes in Ophthalmology. Dr. Sanders is affiliated with Moses H Cone Memorial Hospital.
OU PhysiciansOklahoma University Physicians Internal Medicine 825 NE 10 St STE 4E, Oklahoma City, OK 73104 4052713445 (phone), 4052715878 (fax)
Education:
Medical School Harvard Medical School Graduated: 2008
Languages:
English Spanish
Description:
Dr. Sanders graduated from the Harvard Medical School in 2008. He works in Oklahoma City, OK and specializes in Internal Medicine. Dr. Sanders is affiliated with OU Medical Center.
Sanders Center For Orthopedic Excellence 3702 Washington St STE 404, Hollywood, FL 33021 9544047440 (phone), 9544047402 (fax)
Education:
Medical School University of Miami, Miller School of Medicine Graduated: 2002
Languages:
English French Spanish
Description:
Dr. Sanders graduated from the University of Miami, Miller School of Medicine in 2002. He works in Hollywood, FL and specializes in Orthopaedic Surgery and Hand Surgery. Dr. Sanders is affiliated with Memorial Regional Hospital.
Owensboro Medical Practice 1200 Breckenridge St STE 103, Owensboro, KY 42303 2706837553 (phone), 2706858226 (fax)
Languages:
English
Description:
Mr. Sanders works in Owensboro, KY and specializes in Family Medicine and Urgent Care Medicine. Mr. Sanders is affiliated with Owensboro Health Regional Hospital.