Project Software

KARTHIK.S #**, *th Cross Road, Madhina Nagar,

Mobile : +91-741******* Magammanapalya, Bommanahalli,

Email : acsafs@r.postjobfree.com Bangalore – 560068. Career Objective:

To evolve into a sincere profession contributing to the success of the organization that offers professional growth while being resourceful, innovative and flexible. Academic Details:

Education Year of Pass out Institution Percentage

BE(MECH) 2015 Mahendra College of

Engineering, Salem.

8.36(CGPA)

HSC 2011 Vedhha Vikass Higher

Secondary School, Salem.

88

SSLC 2009 Shri Thiyagarajar Matric

School, Vazhapaddy.

89.6

Technical Skills:

Programming Languages: C, C++, Embedded C.

Operating Systems: Linux, Windows 8/7/XP.

Documentation Tools: MS-Word, MS- PowerPoint.

Course: NX- CADD 7.5 & 8.5

Operating Systems: Windows 8/7/XP.

Concept/Software taught: GD & T, NX CAD

Internship Certification:

“Certified on Advanced Embedded System Technology from Sysinnova”

Duration: 9 months

Programming Languages : C, C++, Embedded C.

Tools / Compilers: GCC, Keil uVision3, LPC200 Flash Utility, Flash magic.

Microcontrollers: ARM7 (LPC2148), 8051

Simulators:Keil, Proteus.

Embedded Protocols: I2C, RS232

Internship Projects:

Project 1:

Module Name: Interface serial EEPROM with p89v51rd2 using I2C protocol. Software Language: Embedded C.

Controller: p89v51rd2 (by Philips (NXP)).

Devices: Turbo IC 24c02. (EEPROM Device).

Compiler: KEIL uV2.

Flashing Tool: Flash Magic.

Description:

The I2C bus was designed by Philips in the early '80s to allow easy communication between components which reside on the same circuit board. Philips Semiconductors migrated to NXP in 2006. The name I2C translates into “Inter IC”. Sometimes the bus is called IIC or I C bus. This module is about establishing communication between memory device turbo IC 24c02

(EEPROM IC) and microcontroller (p89v51rd2) using I2C addressing protocol and verify it using Hyper-terminal.

The module makes use of I2C addressing protocol to communicate between the microcontroller and the EEPROM.

It uses of 2-wire serial interface which includes a bidirectional serial data bus synchronized by a clock.

The controller (master) starts and terminates the data transfer between master and slave device

(EEPROM).

The communication involves sending data to be written in the ROM memory (Write-operation) and reading it back (Read-operation) from the specific memory address. Roles and Responsibilities:

Involved in writing project, specific functions and coding, testing and debugging. Project 2:

Module Name: WATCH DOG TIMER with UART.

Software Language: Embedded C.

Controller: LPC2148.

Compiler: KEIL uV2.

Flashing Tool: LPC214x_ISP.

Description:

A watchdog timer (sometimes called a computer operating properly or COP timer, or simply a watchdog) is an electronic timer that is used to detect and recover from computer malfunctions. During normal operation, the computer regularly restarts the watchdog timer to prevent it from elapsing, or

"timing out".

This simple module is about making use of WDT inbuilt in LPC2148, to wait for an event from the HyperTerminal.

It makes use of the WDT of lpc2148 and awaits an input from HT application while the WDT running the timer for a specific duration programmed.

When HT fails to give an input within the stipulated time, WDT goes to timeout mode

The timeout is indicated by a simple LED toggling continuously and keeps toggling until external reset clears the timeout flag of WDT.

If the WDT is fed before the timeout, a FEED sequence is executed which loads WDT timer with countdown value and starts the timer again.

Roles and Responsibilities:

Involved in writing project specific functions and coding, testing and debugging Academic Projects:

Undergraduate Project:

Title: Design Optimization and Analysis of Diesel Engine Piston Tools: Solid works, Pro-E and Ansys Software.

Description:

The work of this project is to present the general study on the strength, and heat transfer comparison of Aluminium alloy piston and Silumin alloy piston. For this project Pro-E and ANSYS software’s are used. The model of a piston is created in Pro-E software. Mechanical and Thermal Analysis is performed by using ANSYS Software. In this project Silumin Alloy is used to overcome the problem that occurs in Aluminium alloy piston. The main objective of the work is to reduce the weight of the piston without affecting the performance so as to minimize the cost of the material. And also increase the strength and performance of the engine.

Mini Project:

Title: Design and Fabrication of Automatic Board Rougher. Tools: Solid works and Pro-E.

Description:

By using this project, we can clean the board automatically. The duster is placed in the chain drive. When the motor is running, the duster also moves left to right or right and left direction. Due to this action, the board was cleaned automatically.

Academic Training:

Company Name: STEEL AUTHORITY OF INDIA LIMITED

Duration: 7 Days.

Role: Mechanical Maintenance.

Paper Presentation and Workshop:

Presented a paper on “PLASMA CUTTING” on September 2014, THE KAVERY COLLEGE OF ENGINEERING in Salem.

Personal Information:

Father’s Name: Subramani.K

Mother’s Name: Dhanalakshimi.S

Date Of Birth: 20th March,1993

Gender: Male

Languages: English, Tamil

Permanent Address: 21/7, Vettaikaranoor (vill),

Chandrapillaivalasu (po),

Belur(via),

Vazhappady (Tk),

Salem(Dt)-636104

Declaration:

I do hereby declare that the above information is true to the best of my knowledge. Yours faithfully,

[Karthik S]

National Workshop on 'ADVANCED ENGINEERING MATERIALS AND PROCESSING ' on January 2014, PSG TECHNOLOGY in Coimbatore.

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