Mechanical Engineering Power

Anvesh Jarabani

480-***-**** **** E University Drive, Apt# 137, Tempe, AZ 85281 **************@*****.***

• Applied Thermodynamics • Heat Transfer • 3D CAD Modeling

• Machine Design Elements • Finite Element Analysis (FEM) • Robotics

• Power Semi conductors • Geometric Dimensioning and Tolerances (GD&T) • Python, C, C++

EDUCATION

Master of Science –Mechanical Engineering GPA 3.2/4.0 Expected May 2015

Arizona State University, Tempe, AZ

Bachelor of Education –Mechanical Engineering GPA 8.3/10 (3.8/4.0) May 2013

Osmania University, Hyderabad, India

PROFESSIONAL EXPERIENCE

May 2012 – Aug 2012

Automotive Tech Intern:

Hyundai Motors Hyderabad, India

Designed and assembled Carburetor and hydraulic system components using SolidWorks and proposed better

Dimensioning and Tolerances resulting in 6.4 % better response in acceleration.

Analyzed and improved automobile electronic power supplies and wiring circuits using AutoCad resulting in

16% reduction in power consumption for interior electronics and entertainment systems.

Plotted the gate drive circuits and experienced the working of power semiconductors like IGBTs, Mosfets in

electronic power steering and Hybrid electronic vehicles along with Lithium-ion battery technology.

Programmed automated CNC machine using Solid works toolbox and C language, resulting in reduction in

processing time by the CNC computer.

Performed testing and debugging of the C language program to vali date the program for practical usage.

Assembled Automobile P ower train Components and transmission systems using techniques like Mechanical

Wrenching and understood the Basic Fabrication of components and their manufacturing techniques.

ACADEMIC PROJECTS

Manufacturing of All Terrain Vehicle for Society of Automotive Engineers Baja contest:

Designed the ATV chassis using SolidWorks resulting in weight reduction and improved chassis strength.

Assembled various components of the ATV using SolidWorks (3D CAD modeling) and understood geometric

dimensioning & tolerances of steering mechanism, suspension system.

Analyzed various loads on the chassis using Ansys dynamics and found the joints with critical stress

conditions and found the required material properties at joints.

Collaborated with team to build chassis and assemble the ATV using basic fabrication techniques like

machining, milling, fastening, electrical wiring for power supply, mechanical wrenching and debugging and

took 3rd position in the contest of 55 participants from all over India.

Construction of a path-follower robot:

Built a path-follower robot using low-voltage DC motors, sensors, micro-processor and Lithium-ion batteries.

Designed and analyzed the Analog circuit schematic using Labview a nd gate drive circuits for the Arduino

micro-processor and experienced working of power semiconductors like IGBTs, Mosfets.

Developed the code for the micro-processor using C language in order to make robot follow a given path.

Continuous path control of a six-axis articulated Robot:

Developed the end effectors’ velocity and acceleration plots using Python.

Improved the manipulator maneuverability by improving the code using Visual C++.

TECHNICAL SKILLS & RELEVANT COURSES

Software: C, C++, Python, Matlab

Concepts: Object oriented programming, Lithium-ion battery technology, Heat sinking and cooling, isolation,

Geometric Dimensioning & Tolerances.

Courses: CAD tools, General electronics, Engineering Drawing, Power Semiconductors (IGBTs & Mosfets),

Metallurgical materials, Advanced Product Design Method and manufacturing technology.

PROFESSIONAL MEMBERSHIPS AND AWARDS

Member of Society of Automotive Engineers (SAE).

Achieved Certificate of merit for organizing and exhibiting fuel cell technology in HEVs.

Achieved Certificate of merit for developing required code for Path follower robot in competition.

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