Adrian Pose
(US Citizen)
Union City, CA ***** ac4n20@r.postjobfree.com 510-***-**** @poseadrian
Electrical Engineer Seeking Technical Position
Dedicated and passionate electrical engineer graduate from San Jose State University, with a strong attention to detail seeking for an entry level opportunity to utilize his skills and knowledge in an organization that has potential for growth and advancement. Established proficiency in deliberate planning, operations, collaboration, multitasking, and providing quantifiable results:
Experienced in laboratory fields using lab testing equipment (digital-multi meter, oscilloscope, function generator, spectrum analyzer, dc power supply,3D printers, electric soldering Iron, breadboard circuit), Ability to conduct experiments, analyze and interpret the data, and composing engineering laboratory reports.
Deep understanding of Semiconductor Power Electronics Circuits such as DC/DC converters (Buck, Boost Buck-Boost Converter), AC/DC rectifiers, DC/AC inverters, Ability to design and implement electrical circuit on LT-Spice software.
Excellent experience in laboratory fields of Circuit and System Analysis, Electronic Circuit Design based on OPAMPS, MOSFET, CMOS transistor (Common Source, Gate, Drain, Current Mirror, Differential Amplifier) DC and AC Circuit Analysis, Digital and Analog Circuit Design, Microprocessor Based System Design (Programming with C/C++ languages).
Deep understanding of Principle of Electromagnetic Fields such as ( Electric field, Electric current, Magnetic field, induced current, Maxwell’s equation, Electromagnetic waves, boundary conditions, transmission line theory, index of refraction, reflection, polarization)
Education: B.S., Electrical Engineer - GPA 3.4
San Jose State University (Graduated December 2017)
Academic Accomplishments / Projects
Designed a Voice Controlled Indoor Navigation Glasses for Visually Impaired (SENIOR PROJECT) (Fall 2017)
Researched and analyzed the market for the cost and analysis of the components and BOM of the product.
Designed, integrated, and fabricated an adjustable step-down DC to DC buck converter using LM2596 and two Lithium Polymer battery in total of 22.2v to get the right input range to power the GPU within 9-19v. The converter was used to make the product power efficient. The buck converter was designed on Dip-trace and which was sent to a PCB manufacturer.
Designed and prototyped the glasses that had a small protoboard which the camera, ultrasonic ranging sensor, gyroscope, GPU Jetson TX1 and wires were connected together.
The GPU was programmed on OpenCV Library with the use of programming languages in C++ and Phyton to process the indoor navigation, reading printed words, and detecting the range of the objects in the surroundings; user should be able to walk through a passage inside a building with the guide of the voice navigation.
Designed an Energy Harvesting Circuit with the Ability of Charging Basic Smart Phone (Fall 2016)
Designed and integrated an energy harvesting circuit (PCB layout) on Lt-Spice and DipTrace using 1x1 inch solar cell which was capable of harvesting solar energy from heat.
The components were soldered together and the prototype solar charger was able to generate 5.04 VDC with 1.4A which is enough to charge the basic smartphone
Designed a Digital Voltmeter that is Capable of Measuring 0-30 Volts using 12-bit ADC (Fall 2016)
Designed and integrated the digital voltmeter from 0-30 volts reader with LCD using the MSP430F5529 launch pad Texas instruments with the use of analog to digital converter (ADC) on a breadboard using 3.3V output.
Programmed the TI instrument launch pad using Analog Digital converter pin as well as the LCD that is connected to get the output from 0-30 volts.
Designed a Calculator Using SAMD 20 ARM Cortex microcontroller (Spring 2016)
Designed and structured a four digit calculator using the keypad and the seven segment displays of the microcontroller processor that receives and transmits its data to the PC. The prototype was capable of adding, subtracting, multiplying and dividing while displaying the digit on seven segments LED.
The calculator was done by assembly instruction alongside with C++ to implement the code on Atmel Studio. It was able to communicate with PC via UART terminal/Termite Terminal Emulator.
Community Service Learning Project using Homopolar Motors (Fall 2015)
Facilitated a hands-on learning activity through electromagnetic force properties experiment for elementary and middle school students. A detailed explanation was provided to the students to provide them with a better understanding of how electromagnetic force works and what engineers do.
An electric train was built using copper wires and batteries while applying the basic concept of Electromagnetic properties.
Technical Engineering Expertise
Programming Languages: C, C++, Verilog, PHYTON, MATLAB, MATHCAD, XILINX ISE Design (Verilog)
Instrumentation and Equipment: Oscilloscope, Function Generators, Digital Multi-Meter, 3D Printers, Electric Soldering Iron, DC power supply
EDA Software: LT Spice, PSpice, DipTrace, PCB layout, Xilinx Design Suite 14.7, Cadence, LabVIEW, SolidWorks, AutoCAD.
Operating System and Software: All Windows, MAC OS, Visual Studio, Microsoft Office (Word, Excel, Power Point)
Work Experience
CPS Security Solutions April 2014- December 2016
Security Officer Fremont, CA
Provided customized security solutions to clients in different parts of the Bay Area. Delivered a daily written report of the activities in the client’s premises.
Monitored the premises in the morning and the evening while utilizing the patrol vehicle to detect and prevent signs of potential thief or vandalism, secure entrances and check for break-ins.
Trained new security personnel with standard operating procedures.
Business References
Joseph Esavian
Field Service/ Inside Sales Engineer
ac4n20@r.postjobfree.com
Somaia Sarwat Sylvia, Electrical Engineering Professor at San Jose State University
ac4n20@r.postjobfree.com
ac4n20@r.postjobfree.com
Jay Patel, Senior Project teammate
ac4n20@r.postjobfree.com