Milan B Azet

San Diego, CA • addbze@r.postjobfree.com • 619-***-****

https://www.linkedin.com/in/milan-azet/

SUMMARY

Recent graduate from San Diego State University majoring in Electrical Engineering with emphasis on communication, RF systems, as well as power distributions. Currently seeking a position that will allow me to apply the skills learned and gain the experience necessary to become a professional engineer in the industry. EDUCATION

San Diego State University (2017-2019)

Bachelor of Science in Electrical Engineering 3.3

Cuyamaca College (2012-2017)

Associate Degree in Mathematics and Science 3.59

EMPLOYMENT EXPERIENCE

California Protons Therapy Center (2017-Present)

Security

• Answering phones, greeting patients and visitors

• Complying with SDI, HIPAA, and all safety and personnel rules to ensure a safe work environment

• Maintaining a positive attitude and an optimistic tone when speaking with patients and helping them resolve issues that they may have

Goodwill Industries (2010-2016)

Supervisor

• Led a team of 18 personnel to achieve daily responsibilities from the start of shifts to the closing hour of the store

• Stocked and maintained the sales floor, and maintained a clean, safe, and diverse environment at all times.

• Served as cashier during busy times to help my team

• Effectively managed different aspects of the store shelves to ensure products remain in stock

• Oversaw all aspects of customer service and aimed to have an above expectation quality service with every interaction as our daily goal

RELVANT COURSES COMPLETED

• AC/DC Circuit Analysis

• Statistical Models

• Embedded Systems Programming

• Electronics Design and Analysis including Power Electronics

• Signals and Systems Analysis

• Analog and Digital Communication Systems

• Electromagnetic Wave Propagation

• RF and Microwave Systems

• Digital Signal Processing

• Control Systems

PERSONAL SKILLS

• Ability to work dynamically with team members and contribute effectively as well as follow leadership directives with minimal supervision.

• Ability to analyze and solve technical problems; combine patience, determination, and persistence to create alternative solutions.

• Excellent written and verbal skills that communicate ideas and concepts to colleagues.

• Ability to develop innovative plans and solutions and strongly motivated to achieve optimal results and surpass obstacles.

• Capable of learning independently and translating planning into action through accurate analysis and assessment.

TECHNICAL SKILLS

Strong understanding of power systems from generation to distributions and the effects of parasitic elements on the different models of transportation cables.

Use of instrumentations to design and analyze circuits including power generators, multimeters, signal analyzers, vector network analyzers, and spectrum analyzers; including the ability to troubleshoot circuits by a strong understanding of the electric and magnetic theories.

PCB design and implementation of different hardware via Autodesk Revit and CAD modeling tools.

Familiar with the behavior and analysis of microwave systems and modeling them via the interchangeable S-parameters, Z, Y, or ABCD parameters, as well as implementing impedance matching techniques that include lumped elements, single or double stubs via analytics or smith chart, and the use of a quarter-wave transformer.

Ability to design and analyze Wilkinson’s power dividers, resistive power dividers, direct couplers, rat- race or hybrid coupler, as well as RF filters via Microwave Office AWR.

Software: C, C++, Python, HTML, Java, Matlab, Pspice, LTspice, KiCad, Autodesk Revit, CAD, Maxwell Modeling, ARM, Microwave Office AWR, AVR Microcontroller and Microsoft Office. ENGINEERING PROJECTS

• Design and build of a search and rescue drone capable of rescuing victims of earthquake disasters that may be trapped under debris and rubble by utilizing various systems working simultaneously including a passive infrared sensor, a break-out thermal camera, an ultrasonic detection kit, a frequency scanner, and a mesh network to relay information collected from the drone to the control center

• Design and analysis, through Pspice, of a Buck and Buck Boost Converter in order to observe switching waveforms operating at a fixed duty-ratio and consisting of a near-ideal MOSFET and diode circuit.

• Implementation the use of interrupts, timers, and counters working together by allowing the LED to blink in different percentages based on the keypad being pressed alongside AVR.

• Design of a high-speed transmission line to connect from a CPU to RAM across a motherboard with a 1GHz clock signal via Maxwell and Pspice.

• Implementation of different analog and digital modulation techniques including AM, ASK, PSK, 16- QAM, and QPSK in conjunction with a raised-root cosine filter via Matlab and Emona Tims.

• Design of a double stub, open circuit, shunt tuning network to match a load operating at 2GHz to a 50 line by the use of both an analytical solution and a smith-chart approach through Advanced Design System software and Pspice

• Design and simulation of a binomial quarter-wave matching transformer for a microstrip implementation on an FR4 substrate to connect a line to a load and increase the bandwidth using Microwave Office

• Design and simulation of a 3dB lossless Wilkinson power divider on an FR4 substrate to operate at 2.4GHz via AWR

• Design and simulation of a Quadrature Hybrid and Rat-Race Coupler separately on AWR to operate at 2.4GHz and 3.5GHz independently and extracting their S-Parameter to make a judgement on their performance.

• Design and analysis of a 3dB equal ripple bandpass filter to operate between 700MHz and 960MHz with a characteristic impedance of 50 using AWR

• Design and simulation of a low-pass maximally flat filter up to 2GHz with 20dB attenuation to operate at 3.4GHz using Microwave Office

• Generating a DC wave from an AC power supply by using a half-wave and full-wave rectifier circuit diagrams, then providing analysis by taking readings from the input and output waveforms and determining the output voltage with a capacitor used to smooth the output and a resistor to provide a voltage drop.

Current Research

• Design QAM mapper and de-mapper using FPGA .

• Design of integrated mixer and local oscillator topologies for WiFi and WiMAX systems.

• Design switched capacitor filter using LTspice.

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