SUHAIL KHADER KHAN
Email: ********@***.*** Home Address:
Mobile: 925-***-**** 220 13th Ave N
St Petersburg, FL-33701
Objective:
To obtain an Electrical Engineer position.
Education:
Michigan Technological University (GPA-3.25) Houghton, MI
Master of Science in Electrical Engineering May 2014
Sri Venkateswara College of Engineering, Chennai, India
Bachelor of Engineering in Electronics and Communications May 2011
Experience:
Verizon Wireless Walnut Creek, CA
Associate RF Engineer Jan, 2014-May, 2014
RF Design, Network Planning and Optimization.
Selection of appropriate antennas, Diplexers, TMAs, RRHs and repeaters for sites.
Designed cell sites, RF Propagation and coverage model for sites using Geoplan.
Made RFDS for AWS and PCS LTE.
RF field walk to verify the site application. Implementing of LTE over AWS (2100 MHz) and PCS
(1900MHz) in central valley California.
IOSiX, LLC Ann Arbor, MI
Antenna Design Intern May 2013-August-2013
Designed a PCB trace Antenna 2.4GHz for a GPS data logging module.
Designed PCB trace antenna for CDMA (dual band 800 and 1900MHz).
Field testing for GPS and CDMA OBD data logging module
GRT Nature Trails Sky Rocca Yercaud, India
Systems Engineer June 2011-July 2012
Installed, configured, updated and maintained network and server software and hardware.
Implemented network enhancements that improved system reliability and performance.
Laboratory Experience:
Micro fabrication Laboratory May,2013-Dec,2013
Fabricated a 3 terminal back gate silicon thin film transistor device. We designed a unique dog bone structure for
the transistor. In this process of making it from a simple Silicon wafer to a transistor i t involved a series of steps,
which are deposition of Silicon Nitrate and silicon P++. Then lithography using a dog bone shaped mask, o xide
growth, channel connections, titanium and gold deposition. This method of transistor will be low cost and robust,
and can be used in sensing applications.
LPCVD, Lithography, RCA Cleaning, Sputtering, elipsometry, ion etching, oxidation process, etc
Academic Projects:
Sub-wavelength metamaterial structure to enhance antennas performance- placement of
metamaterial structure in proximity with monopole antenna to obtain better gain, radiation pattern and directivity.
Extremely subwavelength Negative Index Metamaterial,was to design and simulate NIM using CST
Microwave studio and achieved a λ/a ratio of 2400.The structure of a combination of a spiral and a back wire
etched on a FR4 substrate, exposed to certain boundary conditions it resonates at 7.5MHz.
Path Loss and Spatial Correlation measurements for Indoor and Outdoor near Ground Channels
using National Instruments transmitter & receiver PXIs using monopole antenna (2.45GHz).
RFID based anti-loss system - This system was designed with two tags (915 MHz transceiver module), one
laced with the bag and another with the travelling passenger, if two tags are separated by 10 meters apartment, the
buzzer inside both the tags starts alarming the separation. This helps people safe guard their baggage on the move.
Technical Skills:
RF Design: Geoplan
Antenna Design: CST Microwave Studio, Comsol, Oscilloscope, Vector Network Analyzer.
Programming Languages: Matlab, C.
Operating System Administration: MSDOS, Microsoft Windows 95/98/XP/Vista/7.
Other: Cisco packet tracer, Optiwave.