Sandeep Yanamadala
816-***-**** Farmington Hills, MI
ac150u@r.postjobfree.com https://www.linkedin.com/in/sandeep-yanamadala-3b1a2aa4
Summary
I am a dedicated Electrical Engineer with excellent interpersonal and communication abilities. I possess a solid knowledge in control systems, embedded systems and wireless networks. Being part of a team, I have the ability to coordinate with managers and staff to complete a given project on time.
Education
Master of Science in Electrical Engineering
Aug 2015 - Dec 2016
University of Missouri-Kansas City, Kansas City, Missouri
GPA: 3.48
Bachelor of Science in Electronics and Communication Engineering
Aug 2010 - May 2014
Jawaharlal Nehru Technological University, Kakinada
GPA: 3.4
Professional Training
“Fundamentals of Control Systems - Gasoline” SAE Certificate of Mastery Course
July 2017 - Aug 2017
LHP Engineering Solutions, Pontiac, MI
Engineering Process Training
Code Generation Training
CAN Communications (J1939)
Controls Theory and Application
Gasoline Engine and Controls Training (Speed Governing; Controls Model; System Diagrams, Wiring, and CAN)
Business Etiquette, Agile SCRUM, Leadership, Budgeting, Stress and Conflict Management, Communication and Teamwork
Professional Experience
Embedded Project Engineer
July 2014 - June 2015
Pantech ProEd, Hyderabad
Developed and tested applications for microcontroller LPC2148 with Keil IDE
Diagnosed hardware problem analysis and trouble shooting
Presented different technologies and projects on those technologies to Bachelor’s students
Designed hardware for projects using processor ARM7 and microcontroller 8051 with the GSM technology
Programmed microcontrollers with Flash Magic using Ethernet protocol
Developed codes with Embedded C for data collection from nodes and save the data using HyperTerminal which is then displayed on computer for observation
Technical Skills
Software tools: MATLAB, Simulink, MotoHawk, MotoTune, CANalyzer, CanKing, DSpace, Keil IDE, Proteus, Flash Magic, CADENCE, Wireshark
Hardware: Woodward ECU, Kvaser CAN, Wire Harness, LPC2148, Oscilloscope
Programming languages: Embedded C, C, Python, HTML, CSS
Protocols: SAE J1939, TCP/IP, UDP, Ethernet, HyperTerminal
Methodology: Agile
Utilities: MS Office (Word, Excel, PowerPoint)
Multilingual: English, Telugu, Hindi
Embedded Projects
Development of Min and Max Governor Control Model
July 2017 - Aug 2017
Controlled engine Speed by developing Minimum and Maximum Governor model in Simulink
Developed a Hardware in Loop (HiL) engine controller model using DTE with VeriStand
Flashed and calibrated through MotoTune to the engine
Tested the engine controller model on GM Ecotec 2.4L 4-stroke gasoline engine at different load conditions
Electronic Throttle Position Controller using Linear Potentiometer
July 2017 - Aug 2017
Developed control model for electronic throttle controller using Simulink and tested it using Hardware in Loop (HiL) before flashing it on gasoline engine
Calibrated electronic throttle position and pedal position using MotoTune
Tested and validated controller while varying the pedal position using MotoHawk
Distributed Control System for Electronic Throttle and CAN Communication
July 2017 - Aug 2017
Developed a Model in Loop (MiL) engine controller for both Minimum and Maximum Governor models
Built a state logic controller for engine based on the input RPM
Reduced overshoot and undershoot for each state to increase the engine efficiency in MotoTune
Development of a Control System for an Electronic Fuel Injector
July 2017 - Aug 2017
Built a PI controller model on one Woodward ECU and send the data to another Woodward ECU through CAN bus
Calibrated throttle position and pedal position using MotoTune calibration tool
Controlled the throttle body of one Woodward ECU by varying potentiometer on another Woodward ECU using CAN communication
Academic Projects
4-Bit Asynchronous Counter with Reset Option
Aug 2015 - June 2015
Implemented 4-bit asynchronous up and 4-bit asynchronous down counters using CADENCE Virtuoso tool in AMI- 0.6 microns process
Designed basic D- flip flop circuitry, the basic building block of the counter
Simulated the schematic as well as layout of up counter and down counter
Evaluated performance of the circuit by calculating rise time, fall time, propagation delay, maximum operation frequency and average power dissipation
Automated Vehicle for Motorist Safety and Security
Jan 2014 - April 2014
Designed an embedded system using three different sensors which are responsible for sending the text messages or calls for the safety and security purpose of the vehicle and driver
Designed a vehicle accident identification module using pressure sensors, speed detection module using object sensor and then connected to analog to digital converter
Developed vehicle theft detection module using magnetic switch and a buzzer
Connected all the sensors to AT89C52 microcontroller and then to a GSM module that sends messages or calls to the user
Successfully implemented the working bench model
Volunteering
Service Socket
Nov 2012- April 2014
Volunteered as an accountant during my Bachelor’s studies
The organization helped physically handicapped children by providing basic needs
Publication
Y. Mohan Sandeep "Two Stage Operational Amplifier with a Gain Boosted, Source Follower Buffer", International Journal of Engineering Trends and Technology (IJETT), V34(6),256-259 April 2016. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group