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Systems Engineering Resume

Desired Industry: Engineering SpiderID: 68973
Desired Job Location: Brooklyn, New York Date Posted: 6/9/2013
Type of Position: Full-Time Permanent Availability Date: Immediately
Desired Wage: 90000
U.S. Work Authorization: Yes
Job Level: Management (Manager, Director) Willing to Travel:
Highest Degree Attained: Masters Willing to Relocate: Yes

Analytical, detail-oriented, and
results-driven engineering professional—
seeking a challenging career in a
laboratory environment within the
research and development field to
effectively apply extensive experience
working with Lamp Gas Mixture; Excimer
Lamp Plasma; High Voltage Power
conditioning for Ozone Generation using
IGBT-pulsed technology; photo-detection
of light sources and integrating
systems; photomultipliers (PMT)
applications; high RF energy
transmissions (X–Ray); and transducer
applications in ultrasonic. Recognized
for comprehensive knowledge in
manufacturing processes and ISO
procedures; as well as in developing and
designing automated test equipment
(ATE). Adept at defining, implementing,
and facilitating information-gathering
sessions for system requirements,
design, development, testing, and
implementation. Highly skilled in the
production and testing of integral
components of a system that utilizes
some form of physics and high-voltage
design reviews

Research and Development Engineer
Take full responsibility in overseeing
and creating applications for germicidal
irradiation and water treatment.
Streamline UV emitting processes
integrating UV-C Lamp Plasma
characteristics for client
specifications. Supervise and observe
testing of all key components of UV-C
and higher wavelengths, including
gaseous states, electrode diagnosis
amalgam interaction with vapor pressure,
temperature trends, and collimated beam
analysis for colonies and irradiated
effects on living organisms. Leverage
proficiency in working on a design of
Germicidal Irradiation using Pulsed DC-
driven power supplies capable of
producing 20-60kV range of power for
Dielectric barrier discharging systems.
Work in partnership with Swiss parent
company on varied Thyristor and IGBT
Converter power designs using state of
the art DSP based controllers. Lead the
implementation of Frequency tuned
Inverter section for refined power
distribution of Ozone Generation. Make
modification on Power conversion
techniques, electrode-less lamp
ignition, preheating circuit designs,
filtering for harmonic mitigation, and
traveling to Switzerland for lectures
and new technology engineering reviews.

- Conceptualized the design of
plasma lamps, LED sources, electrode
analysis using MATLAB and computer
modeling, and laboratory environments.
- Conducted experimental Lamp
testing for analysis in Thermal, vapor
pressure, Distribution and interaction
of selected elements within controlled
- Collaborated with senior staff
on technical papers to implement
theoretical applications for future
- Effectively merged RF energy
generation with high voltage source for
precision and accuracy of specific
wavelengths in various instrumentation
and devices for clients.
- Created Bio essay for System
efficiency with compliant and
regulations from state.
- Incorporated Ballast Design for
multi phased UVC layout for Inline or
Open channel systems.
- Commissioned large UV and Ozone
Production systems.

Consultant 2011
Carried out execution of source code
applications for digital signal
processing elements consisting of finite
impulse response filtering and compiler
development (CIC). Assisted in
implementing current models, such as
Virtex 7, Kintex 7, Virtex 6, and
Spartan 6 from the Xilinx FPGA family.
Demonstrated expertise in utilizing ISE
Design Suite for DSP-specific algorithms
as well as in verifying functionality
that accelerated development through
register-transfer level (RTL) design
method using Verilog HDL for various
design flows.
- Optimized DSP functions used
with RTL through extensive library
options from various models in order to
streamline assemble DSP designs
delivering high-quality results without
requiring much time and effort.
- Analyzed and created numerous
functional codes, including DSP
algorithms implemented in RTL, which
were verifiable from DSP-specific
simulation environments; such as MATLAB
or Simulink that incorporated into
hardware accelerated and co-simulation
- Generated source codes which
defined specific functional blocks
within subassemblies from the board
- Conducted upgrades and supported
legacy systems with simple to complex
simulated functions for imaging
enhancement in the audio and medical

Technical Staff - AES (Electronics
Engineering systems) 2005-2010
Provided daily oversight and technical
support to the development of complex
electronic systems for industrial and
commercial industries, while also
directing junior staff members in the
laboratory. Served as key contact in
both the initial and final stages for
current receiver and high-energy
accelerator systems. Developed and
utilized various acceptance test
procedures, regression testing,
environmental, EMI/EMC, and failure
analysis for the integration of
electronic systems. Collaborated with
senior engineers in building and
implementing key receiver components,
including direct digital synthesizers
(DDS); analog to digital conversion, and
digital radio frequency memory (DRFM);
and gate array (FPGA) with aid in
designing for receiver processes. Wrote
white papers on receiver characteristics
involving algorithms, thermal analysis
for high-powered amplifier layouts,
baseband to up-conversion and quadrature
phase receiver designs with I and Q data
for resolution and imaging processes.
- Ensured the compatibility of
analog to digital sections throughout
the subsystem function through use of
software and source code.
- Carried out build-in-test
requirements to enhance fault matrices
for improved root cause failures.
- Performed thorough analysis and
validated proper installation; and
programmed various systems which enabled
customer requirements to achieve and
identify new installation upgrades.
- Studied and honed knowledge on
newly designed high-energy accelerator
devices with controlled voltage source
modules; including full power and
stepped power characterization which was
stored to memory.
- Led the implementation of
excitation parameters for timed pulsed
outputs for X-ray and wavelengths using
firmware upgrades.
- Developed and presented drawings
(schematics) for various test consoles
to alter frequency character and voltage
source potentials to characterize the
excitation of transmitted energy from

Physicist/Applications Engineer 1998-
Functioned well as a source contributor,
junior physicist, and supervisor for
technicians with regard to the design,
development, and deployment of high-
stability oscillators called Time
Frequency standards that utilized atomic
absorption interactions of isotopes
Rubidium and Cesium inside an
accelerator with cavity resonant
dielectric designed devices. Coordinated
high stability oscillators, master clock
oscillators, hard type X-ray generators
and electron beam applications with
engineers and physicist. Presided over
the development of frequency hopping
synthesizers for telecommunications and
medical imaging systems. Assumed
responsibility in designing and carrying
out prototypes of RF generator boards
leading to a significant board design
improvements while reducing signal to
noise, frequency resonance and settling
time for phase locked design.
- Took part in extensive testing
and analysis while using specific
hardware and specialized equipment
customer requirements.
- Managed entire aspect of phases,
from initial to final stages of each
system evaluation, which comprised of
testing at a component to entire system
level compatibility in compliance with
customer requirements and company
- Closely monitored the creation
and support to engineering and
physicists on prototype frequency time
standards, X-ray generators, and servo
and electro-mechanical components for
companies; which included Lucent,
Motorola, Marconi, GE, and Toshiba from
- Played a pivotal role in
providing major contributions to
selectivity of discrete designs within
the excitation layout for X- ray
generation and transmission (beam)
stages that were manufactured in house
- Worked in partnership with
senior staff member at Frequency
Electronic Inc. (FEI) as an employer for
frequency electronics.
- Received assignment to acquire
various standalone general industrial
radiography X-ray machines for testing
Hydrogen masers and master atomic clock
components for various analysis and root
cause failures.
- Applied knowledge on older
models of various X-ray systems for
radiography as well as writing and
conducted functional testing.
- Obtained extensive experience
with high-voltage consoles and
backplanes that were fabricated in
alignment with customer requirements;
including voltage monitoring, kVp
meters, mAs (electron counter) and
switching power, lock-out, and X-ray
exposure timing control selectivity.
- Honed knowledge on atomic clock
transitions for Cesium and Rubidium
isotopes that were used in atomic
resonance controlled oscillators.
- Facilitated three-dimensional
subassembly system of laser beam
generation for absorption in FEI’s
Cesium Master GPS clocks.
- Ensured the incorporation of
high-voltage generation sources
(transformer type) for fine tuning
approximate energy levels (X-ray
wavelengths and amplitudes) for the X-
ray generator.
- Determined, planned, and created
cavity lids and magnetron-type
resonators, facilitating the completion
of microwave and Rubidium cavity cells;
constructed various dimensional
dielectrics to streamline coupling
(standing wave) through step recovery
diode, band-pass filtering techniques,
and modulation detection for error
- Boosted signal to noise ratio of
devices opposed to stressed
environmental testing by identifying,
analyzing, and resolving specific
component failures.
- Handled and operated cavity
resonator material and fabrication for
optimization for hyperfine electron
magnetic moment (optical pumping) for
injection of a modulated signal for
extreme stability in feedback.
- Initiated, developed, and
utilized methodology for in-process
testing of circuit designs to reduce
waste and costs; as well as to support
the productivity and efficiency in
production line.

Junior Radio Frequency (RF) Engineer |
Senior Technician - Aeroflex Circuit
Technologies, Plainview, NY
Field Technician - AXSYS Communications,
Farmingdale, NY
Specialty Radar | Nuclear Energy
Specialist - United States Army, Tacoma,

Master of Science in System Engineering
State University of New York (SUNY) at
Stony Brook, Stony Brook, NY
Bachelor of Science in Physics
Northwest University, Kirkland, WA
Associate of Science in Electrical
Engineering, with Concentration in Power
Pearce Community College, Tacoma, WA

Institute of Electrical and Electronics
Engineers (IEEE)
Association Physics America (APA)


Additional Information:

MATLAB, Lab VIEW Microsoft Office Suite
- Microsoft Visio - ADA - UNIX OS -
Doors - Simulation Threat Analysis
Programs - FPGA (source code with
debugging and algorithm features - Spice
- Motorola IDEN - IEEE Communication -
J-TAG Applications - AutoCAD - Agilent
ADS 2000

Advanced Integration Electronic Systems
for imaging and Commercial Systems -
Nuclear Generation Development for
various industries - Aerospace GPS with
Atomic Timing standards use of Cesium
and Rubidium interaction - Medical
diagnostic devices, X-ray generation,
high-voltage systems - Radiography -
Electron beam acceleration applications
- Frequency synthesizer development for
test and automation

Available upon request.

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