Electrical Engineer Engineering

LAKSHMICHAITANYA MADIRAJU

**** *** ***** *****, *** Jose 562-***-****

CA, 95136

************************@*****.*** www.linkedin.com/in/lakshmichaitanyamadiraju

Objective: an electrical engineer who has acquired a varied set of skills with prime focus on high-speed PCB design, MATLAB/Simulink,VLSI: testing-verification, layout design. Looking for opportunities to apply and garner these skills to solve engineering problems.

TECHNICAL SKILL SET

Languages:

Verilog, MATLAB, embedded C, C, C++, Tcl (Scripting)

Tools and skills:

LabView, MATLAB, Simulink, PCB design, Synopsys EDA tools-VCS, Design Compiler and IC compiler, TetraMax ATPG, Altium, Logisim, Proteus, OrCAD, Pspice, Github, FEKO electromagnetic software, E-CAD, AutoCAD, Magic VLSI layout tool, Modelsim, PSIM, MultiSim, Questa-Sim, Quartus, RTL coding, Synthesis, Place and route

EDUCATION

California State University, Fresno May 2018

Master of science in Electrical engineering, GPA:3.3

COURSE WORK: Electrical Power Systems, Electronic Devices and Circuits, Digital systems testing and testable design, VLSI Circuits and Systems, Digital logic design, Computer architecture, advanced signals and systems, Non-linear control systems, Renewable energy sources, System modeling and realization.

CERTIFICATIONS:

Electrical CAD certification May 2015

PROJECTS

Master’s Project-ASIC design and testing of a DDR SDRAM using Synopsys EDA tools: April 2018

Researched on the concepts of DDR technology

Implemented the RTL design of DDR SDRAM in Verilog

Functional verification- Synopsys VCS

Logic Synthesis-Design optimization- Timing, area and power in Synopsys DC & gate-level netlist

Test pattern generation for the synthesized netlist in TETRAMAX ATPG

Post-synthesis simulation- Synopsys VCS

Design and verification of I2C master using system Verilog and Questa-Sim December 2017

Designed the functionality of I2C master using Verilog

Generated gate level netlist for the design in Quartus tool

Simulated and verified the design in Quest-Sim simulator

MATLAB/SIMULINK Modeling of an Electrical Power System: August 2017

Created a three phase RLC model in MATLAB/SIMULINK

Built a three-phase system with Electrical machines and connected to the grid to measure power

Created an inverter for three-phase load to model transmission lines losses

ASIC design and testing of a NoC router using Synopsys EDA tools: July 2017

Designed the RTL design of a NoC router in Verilog

Functional verification-Synopsys VCS

Logic Synthesis-Design optimization- Timing, Area and Power in Synopsys DC & gate-level netlist

Test pattern generation and fault detection- TETRAMAX ATPG

Post-synthesis simulation-Synopsys VCS

PCB design of a DDR3 memory using ALTIUM March 2017

Designed and routed a DDR3 system using Altium design suite

Verified physical constraints like skew, topology and impedance balance requirements before and after the design

Simulated finished design to detect signal and power integrity issues

Optimized electrical symmetry to maximize performance of DDR3

Modeling A Solar Panel Circuit using MATLAB/SIMULINK September 2016

Built a solar panel with 16 solar cells using SIMULINK’s SIMELECTRONICS tool.

Computed the total power generated by the circuit.

Plotted the V-I and V-P characteristics using MATLAB.

Employed a Maximum Power Point Tracking (MPPT) scheme to track the MAXIMUM power generated by the circuit

Developed the most efficient way to track maximum power

Sliding Mode Control of Buck and Boost Converters: July 2016

Buck and boost converter circuits were tested for different input voltages.

In both the cases the input voltage was applied and the desired voltage was tracked using the Sliding Mode Control Technique.

Developed an efficient way of tracking voltage using SMC technique

Finding the RADAR CROSS SECTION of a drone model using MATLAB: May 2016

Researched on the concept of Radar Cross Section.

Wrote MATLAB codes for individual parts of the drone.

Computed the RCS of the drone model by summing up the RCS values of individual parts.

Modeling a design for stepper motor control using LabView: March 2016

Designed a control logic for stepper motor control in LabView

Employed a for loop in LabView to obtain the digital sequence to energize the stepper motor for rotation

Controlled the direction of the stepper motor using the logic designed for clockwise and anti-clockwise rotation

Getting hold of energy meter data into mobile through GSM: June 2014

Integrated a microcontroller and GSM modem to acquire the data from an energy meter into a mobile phone

Coded ATMEL 89C52 micro-controller to transfer data from an electronic energy meter to a mobile through GSM modem

100 Watts Inverter: January 2013

Developed a model to perform basic inversion operation and devised a method to achieve 9V to 220V AC conversion

Amplified the current gain of input pulses by using Darlington transistors TIP122

Employed 9-0-9 transformer to step-up the AC voltage to 230v AC

Internship Experience: Worked as an intern at Autotechnic pvt. Ltd, India: october 2014 – November 2015

intern’s responsibilities involved building internal circuits for energy meters

gained experience in building a smart energy meter to keep track of power consumption

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