CURRICULUM VITAE
VIVEK KUMAR MODANWAL
Vill-Ranijot, Post-Maskanwa
Bazar Gonda,
Uttar pradesh
Mob: 639*******.
Email: ac4jmt@r.postjobfree.com
Objective:
To become a successful professional in the field of Electronics and Communication Engineering and to work in an innovative and competitive world.
ACADEMIC
Educational Qualifications
Level
Board/University
Electives
Result
Year of Passing
M. Tech
Shri Ramswaroop Memorial University
Digital Communication
65%
2017
B.E
Vinayaka Mission kirupananda Variyar Engineering College, Salem
Electronics
& Communication
Engineering
75%
2014
II PUC
Swami Narayan Chippya
Inter college, Uttar Pradesh
PCM
72%
2009
SSLC
Premghan Inter college, Uttar Pradesh
Science
74.6%
2007
CERTIFICATIONS
Level
Institution
P.G Diploma in Embedded Systems
Centre for Electronics and Information Technology Research (CEITR) Bangalore
Network Connection and Internet
BSNL
EXPERIENCE (6 Months)
As R&D Engineer Trainee (EMBEDDED) at CEITR Bangalore.
AREAS OF INTEREST:
Basics of Electronics, Microprocessor & Microcontroller, VLSI and Basics C language.
ACTIVITIES & ACHIEVEMENT
Participated in project competition “Leading way to Entrepreneurship & Incubation” title of the project is “SIMPLE ELECTRONIC LOCK”.
Participated in the “AEROSPACE AND ELECTRONIC SYSTEMS SOCIETY INAUGURAL ENDOWMENT SEMINAR ON RADAR IMAGING SATELLITE”.
Cricket match winner in Annual Sports Meet held in college in 2012 Participated in District level cricket tournament held in Salem.
SKILL SET
Programming Languages
C, Embedded C.
Processors
8085, ARM7.
Controllers
8051, AT89C51, LPC2148.
IDE’s Used
Keil uV4 for 8051,MPLAB & Hi-tech C compiler for PIC series Code vision and PROTEUS7 Simulator.
PROJECT SUMMARY
Academic Projects
M.TECH THESIS
Title: LOW POWER WIDE FAN-IN CONTROL PULSE OPERATED DOMINO MULTIPLEXOR WITH STATIC SWITCHING.
Supervisor: Assistant Prof. VIVEK MISHRA
Description: In wide fan-in domino multiplexors, significant power losses are introduced due to the high switching activity at both dynamic and output nodes. In this paper a multiplexor is proposed with static switching at both dynamic and output nodes. This technique has a control pulse generator circuit which turns on the pull up transistor conditionally for a short duration only. This technique is advanced than previously existing techniques as it has faster response over other existing techniques but lesser power consumption and lesser area required. Simulation is done using 0.18µm CMOS technology. Power consumption of proposed multiplexor is calculated and the results are compared with existing multiplexors for different loading condition, clock frequency and temperature. For capacitance 100fF, proposed domino multiplexor circuit reduces power consumption by 81.08%, 17.57% and 25.50% as compared to standard footless domino, SP-Domino and SSPD multiplexors.
The proposed multiplexor removes the redundant switching at both the dynamic and output nodes. It has separate transistors for pull up and keeper action thus flexible in design. The proposed multiplexor provides both inverting and non-inverting functions and can be mixed with static logic in single-phase pipeline. It is advantageous over standard footless domino, single-phase SP domino and SSPD in power consumption.
Publication
I have published paper on “low power wide fan-in control pulse operated domino multiplexor with static switching” in International Journal of Computer Applications, Foundation of Computer Science (FCS), NY, USA, Volume 172 - Number 8, Year of Publication: 2017. Authors: Vivek Mishra, Vivek Kumar Modanwal
Doi:
10.5120/ijca2017915194
B.TECH PROJECT
Project – 1
ALARM MONITORING SYSTEM
Institution
B.E
Role
Academic
Department
E&C
Technologies/Tools
Renesas Microcontroller and HEW IDE
Project Description:
The project deals with application of embedded system in the real time safety monitoring aspect of an industry. The essential part of the system is Renesas microcontroller which perform a single well defined task & embedded system has associated peripheral & graphical LCD, buzzer. The application of the project is to prevent industries management from damage of access temperature,gas,extra voltage & leakage of gas with the help of Embedded development tool HEW (High performance Embedded workshop).
Projects done under CEITR
Project – 2
Gesture controlled Robot
Parts used
AT89C51 microcontroller, ADXL335(Accelerometer), LM324,L293D & DC Motor
Technologies/Tools
Keil IDE,Proteus
Project Description:
This is a robot that detects tilt direction and runs based on the gesture. The robot is built using microcontroller AT89C51 (used as the decision-making device), motor driver L293D, operational amplifier LM324 (comparator), ADXL335 (Tilt sensor) and a few discrete components.
In the circuit, the sensors (ADXL335) are used to detect the tilt direction. The sensor output is fed to LM324 & then the comparator output is fed to the microcontroller, which takes the decision and gives appropriate command to motor driver L293D so as to move the motor accordingly.
Project - 3
Automated Line Following Robot
Parts used
8051 microcontroller, Phototransistor, LM324,L293D & DC Motor
Technologies/Tools
Keil IDE,Proteus
Project Description:
This is a self-operating robot that detects and follows a line drawn on the floor. The path to be taken is indicated by a white line on a black surface. The robot is built using microcontroller AT89C51 (used as the decision-making device), motor driver L293D, operational amplifier LM324 (comparator), phototransistor (sensor) and a few discrete components.
In the circuit, the sensors (phototransistors) are used to detect the white strip on a black background. The sensor output is fed to LM324 & then the comparator output is fed to the microcontroller, which takes the decision and gives appropriate command to motor driver L293D so as to move the motor accordingly.
PERSONAL Details
Date of Birth : 01-07-1990
Gender : Male
Marital Status : Unmarried
Languages Known : English and Hindi
Nationality : Indian
I hereby declare that the above given statements are true and correct to the best of
my knowledge and belief.
PLACE:
DATE:
(VIVEK KUMAR MODANWAL)