This course aims to equip students with the knowledge and skills in 3D printing, 3D Modeling and CNC Programming, enabling them to design, create, and manufacture innovative products with precision and accuracy. With a right blend of theory (20%) and experiential understanding (80%), skills such as simple quantification, back of the envelope calculations, quick engineering drawings, use of right tools, classification / taxonomy fundamentals and systems approach to planning and execution will be introduced and strengthened.
3D Modeling
3D Printing
Conventional & CNC Machining
Welding and Fabrication
CNC Wire EDM
https://iitmpravartak.org.in/digital_mfg_practice
Venue : CSTF, IIT Madras
Course Fees : INR 6000/- + GST
3D modeling of Engineering parts
Understanding manufacturing of the parts by various manufacturing processes
3D Printing of parts using FDM type 3D printer and Exposure of Metal additive manufacturing
Learning CAM software, CNC programming and operation of CNC machines
Manufacturing of the parts by Conventional and CNC machines
B.E/B.Tech in Mechanical/Manufacturing/Production Engineering(Completed or Final Year Students)
Age : 22-25 Years
INR 10000/-
Early bird Registrations now opens at INR 6000 + GST*
Certificate to be issued by SWAYAM Plus in association with IIT Madras Click here for the certificate template
https://iitmpravartak.org.in/digital_mfg_practice
Jobs in Manufacturing Industries
3D Modeling in Design Field
Prototyping in Research Projects & Product Development in Start-up Companies
Course syllabusPortable in size (A4 Size) and less weight (2.5 kg) and one can easily carry as a briefcase.
Does not need any external supporting instruments.
Experiments can be performed in any room (separate laboratory not needed).
Built-in DC Power supply (+5V, +12V, and -12V), Variable voltage source, Oscilloscope, Signal generator, and Voltage/Current measuring meter.
High Efficiency, Wide AC input voltage range (160V to 280V) DC power supply is used considering power fluctuation in Rural Areas.
Almost all areas of Electronics covered (Basic Electronic Circuits, Analog, Digital, Solar PV Power, Sensors, and Embedded controller).
Provided with Input Devices like Toggle Switches/Push button Switches and Output Devices like Light emitting diode (LED) for status indication, LCD for parameter display, Buzzer for alarm indication, Electromagnetic Relay switch for output controls, Speaker for sound level indication, Bar graph display for voltage level indication, mini DC fan, and mini DC motor.
Sensors to monitor different parameters like Temperature, Light, Sound, Distance, Magnetic field, and Heartbeat are used.
Nearly 300+ Experiments can be performed.
Provision of Breadboard at the center – To wire any circuit and use with built-in power supply, signal generator, Oscilloscope, sensors, and Arduino microcontroller.
Experiments cover from fundamentals of Electronics (Laws and Theorems) up to Application-based circuits.
Easily integrate different blocks to perform mini projects.
Provision of external accessible port pins of Arduino microcontroller – To perform external Automation/Control/Robotics Experiments.
Low cost.
Manual is framed as self-practice by students with necessary wiring diagrams.
Manual starts with a Quick Overview of the Trainer System, describing the various functional blocks, and their locations.
Sufficient background Theory is given for better understanding.
Measurement tables are given with theoretical values to verify practical results.
Plots are given for quick analysis as well as the conclusion.
Wherever required, experiments are provided with numerical problems to understand the theory well.
Specifications, Characteristics, and functions of each component are discussed in detail.
Self-Assessment questions are given to gain confidence.
Appendix is given to recollect basics and apply in relevant experiments.
The range of topics covered, start from electricity basics, electrical circuits, test and measuring instruments, electronic components, semiconductor devices, transistor circuits, Analog Circuits, digital electronics, Solar photovoltaic as a renewable energy source, Input-Output devices, sensors and actuators till the embedded controller using Arduino UNO. Last two topics are devoted to the application-based exercises as relevant for use in our day-to-day life.
List of Dos and Don’ts and Safety Practice are given.
Needs only minimum guidance and provides great confidence.
Manual is prepared with the motive of imparting the required Knowledge and Skill competencies so as to nurture the students to build and develop their own electronic circuitry and systems in the future.
3D Printing:
CNC Programming:
SOLIDWORKS 3DM:
3D Printing:
3D Modeling:
CNC :
Light Sensors – Light Dependent Resistor (LDR), Infrared Sensor, Solar cell.
Temperature Sensors – Thermistor, Thermocouple, and LM 35.
Sound Sensor – Microphone.
Distance Sensor – Ultra sound Sonar.
Magnetic field Sensor – Hall effect sensor, Reed Switch.
Automatic Dusk-Dawn sense Street light controller using LDR.
Solar operated DC fan.
Object Detector using IR Emitter – Detector.
Remote control Fan/Light using long range IR sensor.
Temperature controlled laptop fan using Thermistor.
Temperature measurement using LM 35.
Temperature measurement using Thermocouple.
Distance sensor using Ultrasonic sensor.
Sound level measurement using Mic with amplifier.
Magnetic field detector using Hall sensor.
Door security system using Reed switch.
Link will be posted soon
  Mr. Balaganesan
  Mail Id: gbganesh@iitm.ac.in
  Contact No: 9790790365
  Mr. Jayakumar
  Mail Id: jayakumarsri96@gmail.com
  Contact No: 9884733057
  Digital Skills Academy
  Mail Id: digitalskillsacademy@iitmpravartak.net
  Contact No: 9498341969