Title

Courses Offered

Mechanical Engineering

Automobile Engineering

Electrical and Electronics Engineering

Computer Engineering

Mechanical Engineering (Tool & Die)

For Online Admission Application Click here

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Notifications

Psychological counselling number : 9843145484

24x7 women helpline number : 9842317659

Admission Start on 2023-24

Admission 2023-24

For Online Admission Application Click here

About us

PROFILE

This prestigious institution bloomed with its zeal and zest of the great visionary, Honorable Dr. G. KATHAMUTHU during the year 1984 to serve the society through technical education with the full effort of our Honourable chairman, founder of technical institution. He belongs to the native of Seikalathur Village near Manamadurai in Sivagangai District. His visionary and his excellence erected technical institution like Engineering College, Polytechnic Colleges and other institution to the upliftment of the poor and rural students. It has been supported by Sujatha Education Trust, Chennai. The location of our esteemed institution Thangam-Muthu Polytechnic College is near by Periyakulam and situated in Velnagar, 7 Kms. from Periyakulam and 19km away from Batlagundu on the NH � 45 Extension.

LIBRARY

A well maintained library is in our institution. A good collection of books, study materials and yearly collection of question papers of Board Examinations are all made available to the demanding students. Apart from the above, dailies, periodicals, journals and magazines are regularly subscribed and are neatly kept in chronological order.

Approved Course and Intake

Approved Courses Approved Intake
Mechanical Engineering 120
Automobile Engineering 60
Electrical and Electronics Engineering 120
Electronics and Communication Engineering 60
Computer Engineering 60
Mechanical Engineering (Tool&Die) 60

INFRASTRUCTURE FACILITIES

Our Institution is fully equipped with all the necessary facilities to give our students excellent training in Technical Education.

� There are well established computer centres provided with latest technologies of Hardware & Software.

� Electronics And Communication Engineering Laboratories are well equipped with advanced equipments.

� Electrical and Electronics Department is well equipped with DC and AC Machines, Lathe Workshop and Foundry.

� Lively N.S.S. unit is functioning in our institution .It offers various services such as teaching illiterates, repairing of roads, planting tender saplings and creating awareness about AIDS, Rain water Harvesting etc., in various villages.

� Excellent Skill Development Training Programme is organised regularly through CIICP Continuing Education Cell for in around area.

� We have implement the MHRD scheme of Community Development Through Polytechnics.

� Mechanical Departments is providing Lathes and Workshops for the benefit of the students in advance. Separate section for Tool and Die, and Automobile Lab helps the students more in their practical knowledge.

Mandate

Thangam-Muthu Polytechnic College, Periyakulam is offering three year Diploma programs approved by the ALL INDIA COUNCIL FOR TECHNICAL EDUCATION (AICTE) in various disciplines of Engineering at Post secondary and post higher secondary levels to candidates selected following the state prescribed norms and guide lines, curriculum and evaluation system by the Directorate of Technical Education to meet the needs of industry.

The Polytechnic College is financially self supported through the fees collected from the students for the diploma programs with a deep care and concern for the well sustained and steady growth and development of Technical Education in the Region.

Mission

Thangam-Muthu Polytechnic College, Periyakulam, provides quality technician education programs in engineering disciplines, testing and consultancy services to meet the needs of business and industries and society at large.

We are committed to accomplish the following:

* To become centre of excellence in all disciplines.

* To establish sustainable relationship with industries.

* To offer continuing and non � formal education to fulfil the needs of our stake holders.

* To impart various skills to rural community through various programs sponsored by Govt. and non- governmental organizations.

* To facilitate the development of entrepreneurs.

* To inculcate generic and social skills to our students besides their technical competencies.

Our core values are:

* Transparency in our endeavours.

* Team Spirit.

* Disciplined approach.

* Quality consciousness

CIICP

Excellent Skill Development Training Programme is organised regularly through CIICP Continuing Education Cell for in around area.

CDTP

We have implement the MHRD scheme of Community Development Through Polytechnics. Through this scheme we have provide free Skill Development Courses are conducted through Main Centre and six Extension Centres

AICTE

GRIEVANCE REDRESSAL CELL

QUALITY POLICY & QUALITY OBJECTIVES

AICTE

AICTE COMITTEE

STAFF DETAIL

GOVERNING COUNCIL

EOA Report 1993-1995

EOA Report 2005-2006

EOA Report 2006-2007

EOA Report 2009-2012

EOA Report 2010-2012

EOA Report 2011-12

EOA Report 2012-13

EOA Report 2013-14

EOA Report 2014-15

EOA Report 2015-16

EOA Report 2016-17

EOA Report 2017-18

EOA Report 2018-19

EOA Report 2019-20

EOA Report 2020-21

EOA Report 2021-22

EOA Report 2022-23

Contact us

Madurai Main Road,

Velnagar,

Periyakulam ,

Theni District 625604.

Phone: 04546 235234,

Fax: 04546-235218,

e-mail: tmpc343@yahoo.com

1. Mechanical Engineering:

Mechanical Engineering is the discipline that applies the principles of engineering, physics, and materials science for the design, analysis, manufacturing, and maintenance of mechanical systems. It is the branch of engineering that involves the design, production, and operation of machinery. It is one of the oldest and broadest of the engineering disciplines.

The mechanical engineering field requires an understanding of core areas including mechanics, kinematics, thermodynamics, materials science, structural analysis and electricity. Mechanical engineers use these core principles along with tools like computer-aided design, and product lifecycle management to design and analyze manufacturing plants, industrial equipment and machinery,heating and cooling systems, transport systems, aircraft, watercraft, robotics, medical devices, weapons, and others.

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2. Automobile Engineering:

Automobile Engineering is a branch study of engineering which teaches manufacturing, designing, mechanical-mechanisms as well operations of automobiles. It is an introduction to vehicle engineering which deals with motorcycles, cars, buses and trucks etc. It include branch study of mechanical, electronic, software and safety elements. Some of the engineering attributes and disciplines that are of importance to the automotive engineer and many of the other aspects are included in it.

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3. Electrical and Electronics Engineering

Electrical Engineering is a field of engineering that generally deals with the study and application of electricity, electronics, and electromagnetism. This field first became an identifiable occupation in the later half of the 19th century after commercialization of the electric telegraph, the telephone, and electric power distribution and use. Subsequently, broadcasting and recording media made electronics part of daily life. The invention of the transistor, and later the integrated circuit, brought down the cost of electronics to the point they can be used in almost any household object.

Electrical engineering has now subdivided into a wide range of subfields including electronics, digital computers, power engineering,telecommunications, control systems, radio-frequency engineering, signal processing, instrumentation, and microelectronics. The subject of electronic engineering is often treated as its own subfield but it intersects with all the other subfields, including the power electronics of power engineering.

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4. Electronics and Communication Engineering

Electronics Engineering, is an electrical engineering discipline which utilizes non-linear and active electrical components (such as semiconductor devices, especially transistors, diodes and integrated circuits) to design electronic circuits, devices ,microprocessors, microcontrollers and other systems. The discipline typically also designs passive electrical components, usually based on printed circuit boards.

Communications Engineering, or Telecoms Engineering, is an engineering discipline centered on electrical and computer engineering which seeks to support and enhance telecommunication systems. The work ranges from basic circuit design to strategic mass developments. A telecommunication engineer is responsible for designing and overseeing the installation of telecommunications equipment and facilities, such as complex electronic switching systems, copper wire telephone facilities, optical fiber cabling, IP data systems, and terrestrial radio link systems. Telecommunication engineering also overlaps heavily with broadcast engineering.

Telecommunication is a diverse field of engineering connected to electronic, civil and systems engineering. Ultimately, telecom engineers are responsible for providing high-speed data transmission services. They use a variety of equipment and transport media to design the telecom network infrastructure; the most common media used by wired telecommunications today are copper wires, coaxial cables, andoptical fibers. Telecommunications engineers also provide solutions revolving around wireless modes of communication and information transfer, such as wireless telephony services, radio and satellite communications, and internet and broadband technologies

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5. Computer Engineering:

Computer Engineering is a discipline that integrates several fields of electrical engineering and computer science required to develop computer hardware and software. Computer engineers usually have training in electronic engineering (or electrical engineering), software design, and hardware-software integration instead of only software engineering or electronic engineering. Computer engineers are involved in many hardware and software aspects of computing, from the design of individual microcontrollers, microprocessors,personal computers, and supercomputers, to circuit design. This field of engineering not only focuses on how computer systems themselves work, but also how they integrate into the larger picture.

Usual tasks involving computer engineers include writing software and firmware for embedded microcontrollers, designing VLSI chips, designing analog sensors, designing mixed signal circuit boards, and designing operating systems. Computer engineers are also suited for robotics research, which relies heavily on using digital systems to control and monitor electrical systems like motors, communications, and sensors.

In many institutions, computer engineering students are allowed to choose areas of in-depth study in their junior and senior year, because the full breadth of knowledge used in the design and application of computers is beyond the scope of an undergraduate degree. Other institutions may require engineering students to complete one or two years of General Engineering before declaring computer engineering as their primary focus

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5. Mechanical Engineering (Tool & Die)

This Discipline deals with who are working in Tool and die makers are a class of machinists in the manufacturing industries who make jigs, fixtures, dies, moulds, machine tools, cutting tools, gauges, and other tools used in manufacturing processes.[1] Depending on which area of concentration a particular person works in, he or she may be called by variations on the name, including tool maker(toolmaker), die maker (die maker), mould, tool fitter (toolfitter), etc.

Tool and die makers work primarily in toolroom environments�sometimes literally in one room but more often in an environment with flexible, semipermeable boundaries from production work. They are skilled artisans (craftspeople) who typically learn their trade through a combination of academic coursework and hands-on instruction, with a substantial period of on-the-job training that is functionally an apprenticeship (although usually not nominally today). Art and science (specifically, applied science) are thoroughly intermixed in their work, as they also are in engineering. Manufacturing engineers and tool and die makers often work in close consultation as part of a manufacturing engineering team. There is often turnover between the careers, as one person may end up working in both at different times of their life, depending on the turns of their particular educational and career path. (In fact, there was no codified difference between them during the 19th century; it was only after World War II that engineering became a regulated profession exclusively defined by a university or college engineering degree.) Both careers require some level of talent in both artistic/artisanal/creative areas and math-and-science areas. Job-shop machinists can be any combination of toolmaker and production machinist. Some work only as machine operators, whereas others switch fluidly between toolroom tasks and production tasks.

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