Nema Karimi

University of Washington Bothell Electrical Engineering Graduate

Contact

Address

Redmond, WA, 98052

Phone

425-***-****

E-mail

adhj1i@r.postjobfree.com

LinkedIn

https://www.linkedin.com/in/nema-karimi-624a2015a

Skills

JAVA, Assembly language, Embedded C Programming Verilog, MATLAB, R programming

LTspice, Multisim, ExpressPCB, ExpressSCH, EasyEDA, AWR Microwave Office, test, troubleshoot integrated systems, soldering

Schematic development, Printed Circuit board (PCB), circuit building, electronic equipment, chips, microprocessors, oscilloscope, function generator, tiva launchpad, VNA

Microsoft Word, PowerPoint, Excel, Visio, Outlook, technical recommendations

RF Engineering, Integrated Circuits Technology, Semiconductor process system, Digital Signal Processing

As a graduate of the Electrical Engineering program at the University of Washington Bothell I am skilled in MATALB, Assembly language, Embedded C Programming, JAVA, Verilog, R programming, ExpressPCB, ExpressSCH, LTspice, Multisim, printed circuit board (PCB). An electrical engineering graduate that is dedicated towards completing my given tasks. I have learned the importance of completing my given tasks in a group, and as a member of any group I will bring a lot of positive energy and motivation towards completing my job.

Education

2015-09 - 2017-06

Pre-Engineering

Bellevue College - Bellevue, WA

2017-09 - 2020-03

Bachelor of Science: Electrical Engineering

University of Washington - Bothell, WA

Accomplishments

Senior design capstone project Rom Emulator Winter 2019- Summer 2019

·ROM emulator, a developer could write a test program to a system under test and modify that program as often as needed without the restraints of not being able to write to ROM easily

Microprocessor System Design TIVA microcontroller Winter 2019

·Use a C program on the TIVA microcontroller to control the temperature of an Ohmic heater, and display the results

Digital Signal Processing Electrocardiogram (ECG) Signal Winter 2019

·Design filters to remove interference and noise from an ECG signal being the measurements of the electrical activity of the heart

Introduction to Control Systems boost convertor with Feedback Summer 2018

·Simulate and design a regulated boost dc-dc converter, in a boost converter the output voltage is higher than the input voltage. Making the compensated system to become stable

Introduction to RF and Microwave Engineering Wi-Fi Antenna Z-Match Spring 2019

·Design a band-pass L network impedance matching circuit for matching your antenna pure real resistance at 2.45 GHz to a driver with a 50Ω output impedance at a center frequency of 2.45 GHz using VNA and Microwave Office

Fundamentals of Integrated Circuit Technology research on microheaters Spring 2019

·Research project on Microheaters providing high temperatures to catalyze oxidation/reduction reactions changing a semiconductor's resistance

Input & Output Interfacing Microprocessor Project Winter 2019

·learn how to implement a master program in C using the IAR Workbench. The input and output of our created system will be displayed and manipulated using the Tiva Launchpad board. We will perform digital input and output with the help of pointers, and we will learn the importance of using them for addressing the GPIO registers.

Assembly Language for Arm Processors Microprocessor Project Winter 2019

·to learn basic Assembly language commands for ARM processors and to understand the difference between the reserved registers, namely the Program Counter (PC), Stack Pointer (SP) and Link Register (LR).

32-Bit ALU Microprocessor Project Microprocessor Project Winter 2019

·design a 32-bit Arithmetic Logic Unit (ALU) using System Verilog. In addition, we will be simulating using ModelSim, and we will use a testbench to simulate results from addition, subtraction, logical AND and logical OR. These simulated results will be compared to a table of test vectors that we will create by hand using hexadecimal arithmetic

Analog Input & Output Sampling R4 Microprocessor Project Winter 2019

·using the Tiva Launchpad, PCB, oscilloscope, function generator, and the IAR Workbench for driver construction in C. Our first task is to set up and use the SysTick timer along with a PWM to investigate analog output via oscilloscope. Later we will use the onboard switches on the Tiva Launchpad to switch between ramp and ADC sampling, and finally we will investigate aliasing and the Nyquist frequency using variable voltages from the function generator.

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