Lindsay O'Brien Quarrie, Ph.D.

Chief Executive and Technology Officer (CETO) at Space Sciences Corporation
  • Claim this Profile
Contact Information
us****@****om
(386) 825-5501
Location
Lemitar, New Mexico, United States, MX
Languages
  • English Native or bilingual proficiency
  • Spanish Limited working proficiency
  • French Limited working proficiency
Skills

Topline Score

Topline score feature will be out soon.

Bio

Generated by
Topline AI

You need to have a working account to view this content.
Join now
You need to have a working account to view this content.
Join now

Credentials

  • Radiation Worker
    Brookhaven National Laboratory
    Aug, 2021
    - Nov, 2024
  • Radiation Worker
    Brookhaven National Laboratory
    Jun, 2014
    - Nov, 2024
  • Radiation Worker
    Brookhaven National Laboratory
    Jan, 2014
    - Nov, 2024
  • Los Alamos Neutron Science (LANSCE) Neutron School
    Los Alamos National Laboratory
    Jul, 2009
    - Nov, 2024
  • Facility Security Officer (FSO)
    Defense Security Service
    Jan, 2009
    - Nov, 2024
  • Small Business Management Leadership Institute
    Small Business Development Center (SBDC) El Paso, Texas
    Jan, 2007
    - Nov, 2024
  • Radiation Worker
    White Sands Missile Range
    Jan, 2005
    - Nov, 2024
  • Radiation Worker Level II
    Los Alamos National Laboratory
    Jan, 2004
    - Nov, 2024
  • Senior Member
    IEEE
    Jan, 2004
    - Nov, 2024
  • Competent Toastmaster (CTM)
    Toastmasters International
    Jan, 1996
    - Nov, 2024
  • EIT
    Maryland Board of Professional Engineers
    Jan, 1996
    - Nov, 2024
  • Dale Carnegie Course in Leadership and Communication
    Dale Carnegie Training
    Jul, 1995
    - Nov, 2024
  • First Responder
    Maryland Institute for Emergency Medical Services Systems
    Jan, 1996
    - Nov, 2024

Experience

  • Space Sciences Corporation
    • United States
    • Aviation & Aerospace
    • 1 - 100 Employee
    • Chief Executive and Technology Officer (CETO)
      • Oct 2006 - Present

      Plan, capture and execute new business for small business innovation research (SBIR) and Broad Agency Announcements (BAAs) for scientific research, design, product development, testing, analysis, engineering and management requested by DoD and other federal agencies as well as commercial clients. Partner with other multidisciplinary organizations to capture funding and execute innovative research and development projects. Track and Lead Engineering projects to successful completion and… Show more Plan, capture and execute new business for small business innovation research (SBIR) and Broad Agency Announcements (BAAs) for scientific research, design, product development, testing, analysis, engineering and management requested by DoD and other federal agencies as well as commercial clients. Partner with other multidisciplinary organizations to capture funding and execute innovative research and development projects. Track and Lead Engineering projects to successful completion and delivery. Technical Lead and Principal Investigator on programs in Unmanned Air Systems, Spacecraft and Satellite Development, Nuclear and Radiation Effects, Lasers and Optics and other technology fields advancing the state of the art. Show less Plan, capture and execute new business for small business innovation research (SBIR) and Broad Agency Announcements (BAAs) for scientific research, design, product development, testing, analysis, engineering and management requested by DoD and other federal agencies as well as commercial clients. Partner with other multidisciplinary organizations to capture funding and execute innovative research and development projects. Track and Lead Engineering projects to successful completion and… Show more Plan, capture and execute new business for small business innovation research (SBIR) and Broad Agency Announcements (BAAs) for scientific research, design, product development, testing, analysis, engineering and management requested by DoD and other federal agencies as well as commercial clients. Partner with other multidisciplinary organizations to capture funding and execute innovative research and development projects. Track and Lead Engineering projects to successful completion and delivery. Technical Lead and Principal Investigator on programs in Unmanned Air Systems, Spacecraft and Satellite Development, Nuclear and Radiation Effects, Lasers and Optics and other technology fields advancing the state of the art. Show less

  • FRAISOS
    • United States
    • Computer and Network Security
    • Chief Executive and Technology Officer (CETO)
      • 2016 - Present

      Finite Resources Allocator Intrinsically Subordinated Cyberdefense (FRAISOS). Embedded Systems. Finite Resources Allocator Intrinsically Subordinated Cyberdefense (FRAISOS). Embedded Systems.

  • National University
    • United States
    • Higher Education
    • 700 & Above Employee
    • Adjunct Professor, School Of Engineering and Computing, Applied Engineering & Computing
      • May 2015 - Present

      Adjunct Professor, School of Engineering and Computing, National University, San Diego, CA. Microelectronics, CMOS VLSI Design, Reliability Engineering, Electronics Circuits and Systems, Electromagnetic Theory, Digital Logic Design, Design of Experiments, Embedded Systems, Cybersecurity Technologies, Red Teaming, Concurrent Design Engineering, Design Capstone Projects Sequence, Embedded Systems. Adjunct Professor, School of Engineering and Computing, National University, San Diego, CA. Microelectronics, CMOS VLSI Design, Reliability Engineering, Electronics Circuits and Systems, Electromagnetic Theory, Digital Logic Design, Design of Experiments, Embedded Systems, Cybersecurity Technologies, Red Teaming, Concurrent Design Engineering, Design Capstone Projects Sequence, Embedded Systems.

  • L3 Technologies
    • United States
    • Defense and Space Manufacturing
    • 700 & Above Employee
    • Principal Electrical Engineer (Radiation, Reliability & Components)
      • Mar 2011 - Oct 2014

      http://www.storm.com/ High Reliability Electrical design of RF and Microwave devices in the development of more reliable products for Space and Airborne applications including spacecraft and satellite telemetry on many existing and new space programs. • Determine the most effective selection, application, and parts screening for various high reliability part programs, for military and aerospace programs as required by Company standard and/or contract. Perform research, design and testing… Show more http://www.storm.com/ High Reliability Electrical design of RF and Microwave devices in the development of more reliable products for Space and Airborne applications including spacecraft and satellite telemetry on many existing and new space programs. • Determine the most effective selection, application, and parts screening for various high reliability part programs, for military and aerospace programs as required by Company standard and/or contract. Perform research, design and testing to reduce cost of radiation qualification of component (including radiation lot acceptance testing (RLAT) and device characterization), board and box or chassis level. Address spacecraft charging issues, displacement damage and all radiation effects including heavy ions and protons on multiple space programs. • Monitor ongoing programs as required; resolve EEE component procurement and screening problems in a timely fashion. Review screening and test data received from manufacturers and test laboratories for compliance to specifications. • Failure analysis, shielding analysis, derating and reliability predictions for Total ionizing Dose (TID), pulsed gamma radiation, Flash X-ray, Enhanced Low Dose Radiation Susceptibility (ELDRS) and Single Event Effects (SEE) including Single Event Latchup (SEL) and Single Event Upsets (SEU), Bill of Materials (BOM) Analysis and evaluations to verify and to improve the reliability on a growing list of space and military communications systems. Analyze radiation use of product and calculate the cumulative effect upon the reliability of the complete system produced by the individual reliability built into components and sub-assemblies. • Evaluate defective components and failure analysis reports as required. • Interface internally and externally with multiple disciplines to solve and achieve effective performance and reliability. • Circuit level simulation and Fault Tree failure analysis capability using multiple tools and modeling capabilities. Show less http://www.storm.com/ High Reliability Electrical design of RF and Microwave devices in the development of more reliable products for Space and Airborne applications including spacecraft and satellite telemetry on many existing and new space programs. • Determine the most effective selection, application, and parts screening for various high reliability part programs, for military and aerospace programs as required by Company standard and/or contract. Perform research, design and testing… Show more http://www.storm.com/ High Reliability Electrical design of RF and Microwave devices in the development of more reliable products for Space and Airborne applications including spacecraft and satellite telemetry on many existing and new space programs. • Determine the most effective selection, application, and parts screening for various high reliability part programs, for military and aerospace programs as required by Company standard and/or contract. Perform research, design and testing to reduce cost of radiation qualification of component (including radiation lot acceptance testing (RLAT) and device characterization), board and box or chassis level. Address spacecraft charging issues, displacement damage and all radiation effects including heavy ions and protons on multiple space programs. • Monitor ongoing programs as required; resolve EEE component procurement and screening problems in a timely fashion. Review screening and test data received from manufacturers and test laboratories for compliance to specifications. • Failure analysis, shielding analysis, derating and reliability predictions for Total ionizing Dose (TID), pulsed gamma radiation, Flash X-ray, Enhanced Low Dose Radiation Susceptibility (ELDRS) and Single Event Effects (SEE) including Single Event Latchup (SEL) and Single Event Upsets (SEU), Bill of Materials (BOM) Analysis and evaluations to verify and to improve the reliability on a growing list of space and military communications systems. Analyze radiation use of product and calculate the cumulative effect upon the reliability of the complete system produced by the individual reliability built into components and sub-assemblies. • Evaluate defective components and failure analysis reports as required. • Interface internally and externally with multiple disciplines to solve and achieve effective performance and reliability. • Circuit level simulation and Fault Tree failure analysis capability using multiple tools and modeling capabilities. Show less

  • Air Force Research Laboratory
    • United States
    • Armed Forces
    • 700 & Above Employee
    • Doctoral Researcher (Multi-Disciplinary)
      • May 2009 - May 2012

      Multi-Disciplinary (EE, Materials Engineering, Physics) Research on Optical Materials for Diode Pumped Alkali Lasers (DPAL) improving atomic alkali laser survivability and transmission efficiency approaching 100%. Multi-Disciplinary (EE, Materials Engineering, Physics) Research on Optical Materials for Diode Pumped Alkali Lasers (DPAL) improving atomic alkali laser survivability and transmission efficiency approaching 100%.

  • New Mexico Institute of Mining and Technology
    • United States
    • Research
    • 700 & Above Employee
    • Doctoral Researcher (Multi-Disciplinary)
      • May 2009 - May 2012

      Dissertation: Damage Resistant High Transmission Optical Thin Film Coating for Diode Pumped Alkali Lasers (DPALs)

    • Adjunct Professor, Department of Electrical Engineering
      • Feb 2004 - May 2009

      Provided training and test opportunities in semiconductors and materials to students at both undergraduate and graduate level as Technical Program Manager and Lead Researcher at New Mexico Tech METTOP Semiconductor Design & Test Laboratory and Adjunct Professor in the Department of Electrical Engineering.

  • Syndetix Incorporated
    • United States
    • Defense & Space
    • 1 - 100 Employee
    • Technical Program Manager
      • 2004 - 2009

      http://mettop.emrtc.nmt.edu Designed & implemented the Semiconductor & Microelectronics Testing and Design Center at New Mexico Tech on behalf of the Defense Logistics Agency (DLA) to study nuclear radiation effects on semiconductor devices and microelectronics functional and parametric performance per MIL-STD 883, JEDEC 57 and JEDEC 89. • Alpha, Terrestrial Cosmic Rays, Neutron, Protons, Total Ionization Dose (Gamma), pulsed Gamma (Gamma Dot), heavy ion and Single Event Effects for… Show more http://mettop.emrtc.nmt.edu Designed & implemented the Semiconductor & Microelectronics Testing and Design Center at New Mexico Tech on behalf of the Defense Logistics Agency (DLA) to study nuclear radiation effects on semiconductor devices and microelectronics functional and parametric performance per MIL-STD 883, JEDEC 57 and JEDEC 89. • Alpha, Terrestrial Cosmic Rays, Neutron, Protons, Total Ionization Dose (Gamma), pulsed Gamma (Gamma Dot), heavy ion and Single Event Effects for Spacecraft Design. Source facilities cooperative agreements and scientific collaborations include, the White Sands Missile Range, Sandia National Laboratories, Los Alamos National Laboratories, NM. • Advanced new Field Programmable Gate Arrays (FPGAs), memory technologies and microprocessor devices laboratory evaluation. • Failure Analysis for semiconductor devices, radiation and thermal effects. • Microelectronics Survivability and Vulnerability Assessment. • Microelectronics Low Profile Anti-Tamper Technology and Microchip Self-Destruct Mechanisms. • Academic collaboration with Departments of Electrical Engineering, Physics, Materials Engineering. • Coordinate research activities and provide research fellowships and internship opportunities for graduate and undergraduate students. • Semiconductor Information Analysis and Characterization Database (SIAC-D) design & Development. • Seek research topics and new business opportunities for microchip development and testing. • Principal investigator on a variety of research topics of importance to military, aerospace and microelectronics user community. • Adjunct Professor, Department of New Mexico Tech Electrical Engineering: Semiconductors and Microelectronics. Show less http://mettop.emrtc.nmt.edu Designed & implemented the Semiconductor & Microelectronics Testing and Design Center at New Mexico Tech on behalf of the Defense Logistics Agency (DLA) to study nuclear radiation effects on semiconductor devices and microelectronics functional and parametric performance per MIL-STD 883, JEDEC 57 and JEDEC 89. • Alpha, Terrestrial Cosmic Rays, Neutron, Protons, Total Ionization Dose (Gamma), pulsed Gamma (Gamma Dot), heavy ion and Single Event Effects for… Show more http://mettop.emrtc.nmt.edu Designed & implemented the Semiconductor & Microelectronics Testing and Design Center at New Mexico Tech on behalf of the Defense Logistics Agency (DLA) to study nuclear radiation effects on semiconductor devices and microelectronics functional and parametric performance per MIL-STD 883, JEDEC 57 and JEDEC 89. • Alpha, Terrestrial Cosmic Rays, Neutron, Protons, Total Ionization Dose (Gamma), pulsed Gamma (Gamma Dot), heavy ion and Single Event Effects for Spacecraft Design. Source facilities cooperative agreements and scientific collaborations include, the White Sands Missile Range, Sandia National Laboratories, Los Alamos National Laboratories, NM. • Advanced new Field Programmable Gate Arrays (FPGAs), memory technologies and microprocessor devices laboratory evaluation. • Failure Analysis for semiconductor devices, radiation and thermal effects. • Microelectronics Survivability and Vulnerability Assessment. • Microelectronics Low Profile Anti-Tamper Technology and Microchip Self-Destruct Mechanisms. • Academic collaboration with Departments of Electrical Engineering, Physics, Materials Engineering. • Coordinate research activities and provide research fellowships and internship opportunities for graduate and undergraduate students. • Semiconductor Information Analysis and Characterization Database (SIAC-D) design & Development. • Seek research topics and new business opportunities for microchip development and testing. • Principal investigator on a variety of research topics of importance to military, aerospace and microelectronics user community. • Adjunct Professor, Department of New Mexico Tech Electrical Engineering: Semiconductors and Microelectronics. Show less

  • Vitesse Semiconductor is now Microsemi
    • Semiconductor Manufacturing
    • 1 - 100 Employee
    • Senior Member of Technical Staff
      • 2000 - 2003

      • Verification and validation of revolutionary VSC9118 SFI4 OC192 (Synchronous Optical Network) SONET/SDH & 10 Gb/s Ethernet SPI 4.2 Virtual Concatenation (VC) and Generic Framing Protocol (GFP) ASIC. • Design Applications Engineering, validation and Release to Production of the Vitesse Semiconductor CorporationVSC9186 10Gb/s Pointer Processor, Frame Alignment, timeslot interchange switching and overhead-processing ASICs on a PCI interfaced high-speed backplane. Supported VSC9186 ASIC… Show more • Verification and validation of revolutionary VSC9118 SFI4 OC192 (Synchronous Optical Network) SONET/SDH & 10 Gb/s Ethernet SPI 4.2 Virtual Concatenation (VC) and Generic Framing Protocol (GFP) ASIC. • Design Applications Engineering, validation and Release to Production of the Vitesse Semiconductor CorporationVSC9186 10Gb/s Pointer Processor, Frame Alignment, timeslot interchange switching and overhead-processing ASICs on a PCI interfaced high-speed backplane. Supported VSC9186 ASIC fromv1.0 full spin, v1.1 metal- layer respin and v2.0 full respin. Generated functional validation plan forVSC9186, VSC9187,VSC 9188 5Gb/s VT1.5 TSI and 2.5G VT1.5 PP devices and the VSC9184 Pointer Processor device. Utilized the VSC9182 switch fabric for data path loopback off high speed backplane. • Technical design support of customer designs and implementation of the high-speed prototype to productionVSC9186 ASIC for Lucent Metro ADM and DMX systems, Ciena and other customers using multiple Vitesse ASICs. • Implementation of ATE physical verification system for ASICs using PERL. System level integration of clock distribution, optics and chip modules forming end-to-end solutions on advanced evaluation platforms. • Functional validation of all chip functions related to OC-192 SONET/SDH, CPU Interfaces, JTAG, e-JTAG, ARC Processors and Transparency FPGA. • Verification, validation, noise analysis and release to production of six (6) million+ gates telecommunication SONET pointer processor, frame aligner, time slot interchange ASICs and FPGAs. Successful planning and execution of hardware development of PCBs for ASIC Validation. Implementation of PCI based chassis with clock distribution, optical transponders, and laser sources for ASIC validation.Successfully led and implemented validation system for full spin, metal-layer respin and full chip respin. Show less • Verification and validation of revolutionary VSC9118 SFI4 OC192 (Synchronous Optical Network) SONET/SDH & 10 Gb/s Ethernet SPI 4.2 Virtual Concatenation (VC) and Generic Framing Protocol (GFP) ASIC. • Design Applications Engineering, validation and Release to Production of the Vitesse Semiconductor CorporationVSC9186 10Gb/s Pointer Processor, Frame Alignment, timeslot interchange switching and overhead-processing ASICs on a PCI interfaced high-speed backplane. Supported VSC9186 ASIC… Show more • Verification and validation of revolutionary VSC9118 SFI4 OC192 (Synchronous Optical Network) SONET/SDH & 10 Gb/s Ethernet SPI 4.2 Virtual Concatenation (VC) and Generic Framing Protocol (GFP) ASIC. • Design Applications Engineering, validation and Release to Production of the Vitesse Semiconductor CorporationVSC9186 10Gb/s Pointer Processor, Frame Alignment, timeslot interchange switching and overhead-processing ASICs on a PCI interfaced high-speed backplane. Supported VSC9186 ASIC fromv1.0 full spin, v1.1 metal- layer respin and v2.0 full respin. Generated functional validation plan forVSC9186, VSC9187,VSC 9188 5Gb/s VT1.5 TSI and 2.5G VT1.5 PP devices and the VSC9184 Pointer Processor device. Utilized the VSC9182 switch fabric for data path loopback off high speed backplane. • Technical design support of customer designs and implementation of the high-speed prototype to productionVSC9186 ASIC for Lucent Metro ADM and DMX systems, Ciena and other customers using multiple Vitesse ASICs. • Implementation of ATE physical verification system for ASICs using PERL. System level integration of clock distribution, optics and chip modules forming end-to-end solutions on advanced evaluation platforms. • Functional validation of all chip functions related to OC-192 SONET/SDH, CPU Interfaces, JTAG, e-JTAG, ARC Processors and Transparency FPGA. • Verification, validation, noise analysis and release to production of six (6) million+ gates telecommunication SONET pointer processor, frame aligner, time slot interchange ASICs and FPGAs. Successful planning and execution of hardware development of PCBs for ASIC Validation. Implementation of PCI based chassis with clock distribution, optical transponders, and laser sources for ASIC validation.Successfully led and implemented validation system for full spin, metal-layer respin and full chip respin. Show less

  • Harris Corporation
    • United States
    • Defense and Space Manufacturing
    • 700 & Above Employee
    • Site Manager and Engineering Project Manager
      • 2000 - 2000

      Lead the Development of a family of Remote Stations RS200-Clearburst using TDMA for Broad Band Wireless Access. Hardware Design and System Integration. • Manage new product hardware design and development of Integrated Broadband Wireless Network Access platforms for wireless telecommunications and transmission solutions designed around the Motorola 860 microprocessor. • Hardware development and system integration of point-to-multipoint wireless communication network devices including… Show more Lead the Development of a family of Remote Stations RS200-Clearburst using TDMA for Broad Band Wireless Access. Hardware Design and System Integration. • Manage new product hardware design and development of Integrated Broadband Wireless Network Access platforms for wireless telecommunications and transmission solutions designed around the Motorola 860 microprocessor. • Hardware development and system integration of point-to-multipoint wireless communication network devices including E1/T1, LAN, Ethernet, Nx64 Video (V.35), (telephone) POTS, and RS-232, including Voice & Video over IP interfaces. • Create hardware definitions based on system requirements for point-to-multipoint wireless networks. • Management of all aspects of hardware design from concept through production including device family planning, detailed project planning, scheduling, configuration management, contract manufacturing for PCB layout, fabrication, assembly, test and design reviews. • Multi-site development of remote station hardware with Montreal and Calgary for a project phased out in the US for migration to the Microwave Communication Division in Calgary, Canada. • Successful delivery of first ‘Clearburst’ Broadband Wireless Access Remote Station (RS-200) for Harris Corporation for systems integration and testing, before move of future design activity to Calgary Canada. Show less Lead the Development of a family of Remote Stations RS200-Clearburst using TDMA for Broad Band Wireless Access. Hardware Design and System Integration. • Manage new product hardware design and development of Integrated Broadband Wireless Network Access platforms for wireless telecommunications and transmission solutions designed around the Motorola 860 microprocessor. • Hardware development and system integration of point-to-multipoint wireless communication network devices including… Show more Lead the Development of a family of Remote Stations RS200-Clearburst using TDMA for Broad Band Wireless Access. Hardware Design and System Integration. • Manage new product hardware design and development of Integrated Broadband Wireless Network Access platforms for wireless telecommunications and transmission solutions designed around the Motorola 860 microprocessor. • Hardware development and system integration of point-to-multipoint wireless communication network devices including E1/T1, LAN, Ethernet, Nx64 Video (V.35), (telephone) POTS, and RS-232, including Voice & Video over IP interfaces. • Create hardware definitions based on system requirements for point-to-multipoint wireless networks. • Management of all aspects of hardware design from concept through production including device family planning, detailed project planning, scheduling, configuration management, contract manufacturing for PCB layout, fabrication, assembly, test and design reviews. • Multi-site development of remote station hardware with Montreal and Calgary for a project phased out in the US for migration to the Microwave Communication Division in Calgary, Canada. • Successful delivery of first ‘Clearburst’ Broadband Wireless Access Remote Station (RS-200) for Harris Corporation for systems integration and testing, before move of future design activity to Calgary Canada. Show less

  • Raytheon
    • United States
    • Defense and Space Manufacturing
    • 700 & Above Employee
    • Senior Electrical Design Engineer
      • 1998 - 2000

      • Detailed digital hardware logic design and development of THAAD Antenna Array Radar High Voltage Power Distribution Unit (PDU) Control Logic Assembly using TTL/CMOS, Orcad 9.1, and Mentor Graphics Modelsim VHDL dual relay and digital design approach. • Project management and development of multiple hardware designs simultaneously using Raytheon Integrated Product Development System, Raytheon Six Sigma and Project Earned Value for Radar Engineering & Manufacturing Development. • Detailed… Show more • Detailed digital hardware logic design and development of THAAD Antenna Array Radar High Voltage Power Distribution Unit (PDU) Control Logic Assembly using TTL/CMOS, Orcad 9.1, and Mentor Graphics Modelsim VHDL dual relay and digital design approach. • Project management and development of multiple hardware designs simultaneously using Raytheon Integrated Product Development System, Raytheon Six Sigma and Project Earned Value for Radar Engineering & Manufacturing Development. • Detailed hardware design, development and production support of Multi-LAU Units and Command Tables. Transition of a complex engineering system that utilizes state of the art FDDI and ATM LAN/SWAN technology in VME architectured LAN Access Units (LAUs) and Command Tables for the LPD17, LPD18,CVN68 and CVN76 carrier groups; from Hughes Aircraft Co. in Fullerton, CA to Portsmouth, RI. The system represents state of the art sensors (including radar systems) and weapons integration. • Successful delivery of SSDS MK II systems. Hardware design and development of electronic systems for surface and subsurface military, maritime hardware for ships, carriers and special purpose underwater vehicles including MK30, NSSN, SQQ32, CCS MKII torpedo, AN-SQQxx mine hunter and towed array systems. • Design of variable frequency tuning magnetics for sonar systems (MK-30 Mod 2). • Evaluation of for surface & subsurface electronic systems including MK30 & TLAN. Power supply evaluation and testing on joint tactical programs, JCTCS. • Generation of test requirements specifications for submarine control and transmit power supplies for NSSN. Show less • Detailed digital hardware logic design and development of THAAD Antenna Array Radar High Voltage Power Distribution Unit (PDU) Control Logic Assembly using TTL/CMOS, Orcad 9.1, and Mentor Graphics Modelsim VHDL dual relay and digital design approach. • Project management and development of multiple hardware designs simultaneously using Raytheon Integrated Product Development System, Raytheon Six Sigma and Project Earned Value for Radar Engineering & Manufacturing Development. • Detailed… Show more • Detailed digital hardware logic design and development of THAAD Antenna Array Radar High Voltage Power Distribution Unit (PDU) Control Logic Assembly using TTL/CMOS, Orcad 9.1, and Mentor Graphics Modelsim VHDL dual relay and digital design approach. • Project management and development of multiple hardware designs simultaneously using Raytheon Integrated Product Development System, Raytheon Six Sigma and Project Earned Value for Radar Engineering & Manufacturing Development. • Detailed hardware design, development and production support of Multi-LAU Units and Command Tables. Transition of a complex engineering system that utilizes state of the art FDDI and ATM LAN/SWAN technology in VME architectured LAN Access Units (LAUs) and Command Tables for the LPD17, LPD18,CVN68 and CVN76 carrier groups; from Hughes Aircraft Co. in Fullerton, CA to Portsmouth, RI. The system represents state of the art sensors (including radar systems) and weapons integration. • Successful delivery of SSDS MK II systems. Hardware design and development of electronic systems for surface and subsurface military, maritime hardware for ships, carriers and special purpose underwater vehicles including MK30, NSSN, SQQ32, CCS MKII torpedo, AN-SQQxx mine hunter and towed array systems. • Design of variable frequency tuning magnetics for sonar systems (MK-30 Mod 2). • Evaluation of for surface & subsurface electronic systems including MK30 & TLAN. Power supply evaluation and testing on joint tactical programs, JCTCS. • Generation of test requirements specifications for submarine control and transmit power supplies for NSSN. Show less

  • FDA
    • United States
    • Government Administration
    • 700 & Above Employee
    • Research Electrical and Electronics Engineer
      • 1994 - 1998

      Provided scientific,technical research and design for the safety and effectiveness of new medical devices. • Designed, developed, fabricated and tested special-purpose electronic and electro-mechanical equipment as part of applied research projects for use by FDA personnel in research, testing, or the enforcement of P.L. 90-602 and the Medical Device Amendments. • Provided technical support and testing in the enforcement of the Radiation Control for Health and Safety Act and the Medical… Show more Provided scientific,technical research and design for the safety and effectiveness of new medical devices. • Designed, developed, fabricated and tested special-purpose electronic and electro-mechanical equipment as part of applied research projects for use by FDA personnel in research, testing, or the enforcement of P.L. 90-602 and the Medical Device Amendments. • Provided technical support and testing in the enforcement of the Radiation Control for Health and Safety Act and the Medical Device Amendments. • Provided technical assistance and evaluations for standards development, field enforcement, and compliance cases for manufacturers’ reports, corrective action plans, and submissions to the Office of Device Evaluation. • Studied new developments in the areas of electronic circuits and systems, electromechanical systems, medical device performance and use. • Identified potential research projects that were consistent with the Office of Science and Technology (OST) mission. • Hardware development and analysis for an array of medical devices including mammography equipment, gamma cameras, infusion devices, automatic external defibrillators (AED). • Analysis of Electromagnetic Energy, Electromagnetic Interference/Electromagnetic Compatibility (EMI/EMC) and their implications for medical device design through the Food and Drug Administration (FDA) Center for Devices and Radiological Health (CDRH) 510 (K) process. • Analyze technical aspects of medical device safety and effectiveness through CDRH design guidelines and the CFR (Code of Federal Regulations) as well as special controls for high reliability medical devices. Study of the design operation and use of most medical devices and accessory medical devices releasable through the FDA 510 (K) process and their chemical/ biological interaction with the human anatomy including endoscopic devices and patient monitoring systems. Show less Provided scientific,technical research and design for the safety and effectiveness of new medical devices. • Designed, developed, fabricated and tested special-purpose electronic and electro-mechanical equipment as part of applied research projects for use by FDA personnel in research, testing, or the enforcement of P.L. 90-602 and the Medical Device Amendments. • Provided technical support and testing in the enforcement of the Radiation Control for Health and Safety Act and the Medical… Show more Provided scientific,technical research and design for the safety and effectiveness of new medical devices. • Designed, developed, fabricated and tested special-purpose electronic and electro-mechanical equipment as part of applied research projects for use by FDA personnel in research, testing, or the enforcement of P.L. 90-602 and the Medical Device Amendments. • Provided technical support and testing in the enforcement of the Radiation Control for Health and Safety Act and the Medical Device Amendments. • Provided technical assistance and evaluations for standards development, field enforcement, and compliance cases for manufacturers’ reports, corrective action plans, and submissions to the Office of Device Evaluation. • Studied new developments in the areas of electronic circuits and systems, electromechanical systems, medical device performance and use. • Identified potential research projects that were consistent with the Office of Science and Technology (OST) mission. • Hardware development and analysis for an array of medical devices including mammography equipment, gamma cameras, infusion devices, automatic external defibrillators (AED). • Analysis of Electromagnetic Energy, Electromagnetic Interference/Electromagnetic Compatibility (EMI/EMC) and their implications for medical device design through the Food and Drug Administration (FDA) Center for Devices and Radiological Health (CDRH) 510 (K) process. • Analyze technical aspects of medical device safety and effectiveness through CDRH design guidelines and the CFR (Code of Federal Regulations) as well as special controls for high reliability medical devices. Study of the design operation and use of most medical devices and accessory medical devices releasable through the FDA 510 (K) process and their chemical/ biological interaction with the human anatomy including endoscopic devices and patient monitoring systems. Show less

Education

  • New Mexico Institute of Mining and Technology
    Doctor of Philosophy (PhD) Program, Materials Engineering
    2009 - 2012
  • University of Massachusetts Lowell
    Post Masters, Computer Hardware Engineering
    2000 - 2001
  • Howard University
    Doctoral Research, Electrical and Electronics Engineering
    1996 - 1996
  • The George Washington University
    Post Masters, Electrical and Electronics Engineering
    1995 - 1995
  • Drexel University
    Master of Science (MS), Electrical and Electronics Engineering
    1992 - 1994
  • University of Miami
    Bachelor of Science (BS), Electrical and Electronics Engineering
    1989 - 1991

Community

You need to have a working account to view this content. Click here to join now