PLACEMENT BROCHURE (2017-18)

M.TECH IN
RADIO FREQUENCY DESIGN AND TECHNOLOGY
http://care.iitd.ac.in

CENTR E FOR APPLIED R ES EARCH IN ELECTR ONICS (C. A .R.E)

INDIAN INSTITUTE OF TECHNOLOGY, DE LHI
 Passion for Excellence
As the placement season for the year 2017-18 draws near, we would like to invite the leaders in the
industry of Wireless Technology and Communication to recruit the students of our centre for their
Organization. The Radio Frequency Design & Technology (RFDT) program at IIT Delhi is distinguished from other
similar programs by virtue of its orientation towards a more practical research based approach in RF, acoustic
systems and MEMS device fabrication including their design and application. Such an approach is aided by
the availability of necessary infrastructure in the form of design and simulation software, fabrication tools
and technology and state of the art instruments for measurements.

Furthermore, the departmental coursework is structured to meet industry standards and equip our students with
the requisite skills and knowledge to tackle and resolve challenges effectively. Most of the M.Tech projects are part of industry
sponsored research projects thus giving the students a broad outlook and practical approach towards problems. The foundation laid
by the rigorous coursework often results in our students coming up with innovative ideas during their project work some of which
have resulted in publications and valuable contribution to the industry.

It is our belief that the students of this batch like their alumni before them, are committed towards excellence and
are equipped with necessary skills and motivation to become invaluable assets of your organization and the industry.

Prof. Ananjan Basu

Head CARE
IIT Delhi
ABOUT THE CENTRE
The Centre for Applied Research in Electronics (CARE) was established in 1971 with the main objective of providing
focus to coordinated research and training in specialized areas in Electronics. Since its inception, the Centre has concentrated
its R&D programs in three specific areas of Applied Electronics namely Microwaves, Signal Processing and Microelectronics.
The Centre is one of the few in India to be involved in intensive practical research in above fields conducted in
advanced laboratories equipped with state of the art facilities and high end industry standard software. The endeavors of
the Centre facilitated by state of the art system design and test facilities have resulted in deliverable products for the
sponsoring agencies and over 50 technology transfers since 1982.
The Centre consists of distinguished faculty members in these areas, renowned for their contribution through papers
published in reputed journals, book publications and guest lecturers in various universities and conferences worldwide. They
have also been recipients of national and international awards.

ABOUT THE M.TECH PROGRAM

The M.Tech program in RFDT enrolls the brightest minds from across the country thus ensuring the competitiveness
of the program. Students are shortlisted on the basis of scores obtained in GATE conducted by IITs and IISc and are
interviewed subsequently by the centre's faculty. The completion of the above process lead to a miscellany of handpicked talent
that is groomed at the institute in the due course of the program. The coursework is unique imparting hands-on training on
topics like digital signal processors and applications, speech processing, wireless and underwater communications,
antenna design, active and passive circuit design at microwave and millimeter wave frequencies, fabrication of solid state devices,
MEMS based sensors and actuators, RF MEMS etc.
The projects undertaken by the students are an exercise in developing their technical skills and efficient problem
solving abilities while encouraging novel ideas. The coordinated efforts of the different research groups has resulted in
making this Masters program in RFDT highly industry oriented and a much sought after course.

To know more about the Centre, please visit http://care.iitd.ac.in

 C.A.R.E
Centre for Applied Research in Electronics

Microwave Signal Processing Microelectronics

110 GHz VNA with Probe Station DSP Hardware PCB Designed at CARE Mask Aligner
 Microwave
FOCUSES ON FA C I L I T E S
 MMIC & RFIC Design  VNAs up to 110 GHz.
 RF MEMS  Spectrum Analysers up to 40 GHz.
 EBG Structures  Microwave Signal Source up to 20 GHz.
 Microwave antennas  Mask making facility with coordinatograph.
 Microwave imaging  MIC fabrication facility.
 RF power amplifiers &  200 mm Probing system for submicron probing.
transmitter design  On-chip Antenna Measurement Facility.
 Quasi-Optical table with 67 GHZ VNA for
Dielectric Constant Measurement.
 Advanced RF, MEMS and EM simulation Tools viz.
Ansoft HFSS, Agilent ADS, CST Studio.
LABS  Anechoic chamber with automatic platform
 CAD Lab controller for antenna testing and
 Microwave Measurement characterization.
Lab
 Mask Making / IC Lab
 Radio Amplifiers and Power
Trans receivers Lab
 Signal Processing
FOCUSES ON FA C I L I T E S
 Acoustic signal processing: Speech, audio  TI’s DSP kits and OMAP Processor kits and
and underwater signals FPGA with multi core processors
 DSP systems: Hardware and software  Full acoustic anechoic chamber for speech
 Detection, Localization & Target and audio applications
Classification Algorithms  Underwater tank for underwater acoustic
 Sonar systems signal processing
 Acoustic vector sensors for underwater  Studio quality recording facility for Speech
and air applications and audio signals.
 Machine learning  NI’s High speed Multi channel simultaneous
 Multi sensor data fusion data acquisition system.
 Nonlinear optimization  DSP lab equipped with software tools such
 Deep Learning as Matlab, Comsol, Code Composer Studio,
 Virtual Reality LabView.
 Sensor Array Signal Processing  3D printing facility for rapid prototype
development
LABS
 DSP Lab
 DSP Applications Lab
 Speech and Audio Processing Lab
 Underwater and Air Acoustics Lab
 Microelectronics
FOCUSES ON FA C I L I T E S
 Nano Structured Materials  RF/DC Sputtering System
 Silicon Micromachining &  Thermal Evaporation System
MEMS Sensors  Reactive Ion Etching
 Organic Semiconductors  Diffusion and Oxidation Furnaces
 SOI Devices  Photolithography Chamber
 SAW Devices  Mask making and Mask Aligner Facility
 Photonic Devices  Surface Profiler for thickness measurement
 Quantum Dot Devices equipment
 Photo Acoustic/Photo  Thermal, Acoustics, Optical and Magnetic systems
Thermal NDS Techniques for Non-Destructive Characterization
 Memory Devices  Clean Bench / Chemical Bench Facility
 Sheet Resistance Measurement system
LABS
 Alpha Step Measurement system
 Microelectronics Lab  Stress Measurement system
 NDS Lab  Lab equipped with TCAD for device simulations
 Photonics Lab  Embedded system bench
 SAW Devices Lab
 Courses
CORE COURSES ELECTTIVES
 CAD of RF and microwave devices.  Signal Theory.
 Fundamentals of RF electronics  Digital Signal Processing –I
 RF & microwave measurement  Sensor Array Signal Processing.
systems  Introduction to Machine Learning
 Fabrication techniques for RF and  Human & Machine Speech communication
microwave  Computer Programming and its applications.
 Architectures & Algorithms for DSP  Fabrication Technique of RF Devices.
systems  Detection & Estimation Theory.
 Digital Communication  Information Theory.
 RF and microwave measurement lab
 Low Power Computing
 Major Project Part – 1
 Numerical Linear Algebra
 Major Project Part – 2
 RF and Microwave Active Circuits.
 RF and Microwave Solid State Devices
 Radiating systems for RF communication.
 RF MEMS Design and Technology.
 Selected topics in RFDT.
 Analog Integrated Circuits.
 MOS VLSI.
 M.Tech PROJECTS (2017 -18)
 Design of Metamaterial Structure at Millimeter Wave Frequencies.
 Deep Learning Architecture for Motion Activity Classification Using MEMS Sensors and Spatial
Environment Classification Using Audio Signal.
 Diabetic Retinopathy Detection Using Deep Learning with Neural Networks .
 Ingestible Capsule for Impedance and pH Monitoring in the Esophagus.
 Fabrication of RF MEMS Cantilever Switches.
 Adaptive Noise Suppression Algorithm Using Digital Microphone.
 High Resolution Range Doppler Imaging.
 Signal Processing for Virtual Reality Application.
 Fabrication and Measurement of FET based Gas Sensor.
 On-chip Coplanar Waveguide for Silicon based RFIC.
 3-dimensional SONAR Imaging.
 Design and Fabrication of On-chip Inductor for Silicon based RFIC.
 FACULTY PROFILES
Prof. Arun Kumar : Digital signal processing, Speech & Audio processing technologies for man machine
interaction, underwater acoustics, acoustics for air and media.
Prof. Ananjan Basu : Microwave & millimetre wave engineering.
Prof. S K Koul : Microwave Integrated circuits, Microwave Phase Shifters, Optical and millimetre waves
dielectric integrated guides and circuits, CAD.
Prof. Rajendra Bahl : Signal & image Processing, Acoustic imaging, Target definition, Sensor System simulator and
design, bio Sonar.
Dr. Prabhu Babu : Signal processing and communications, Machine learning, Big Data analysis

Dr. Ankur Gupta : MOS Device Design, Nanotechnology, Device-Circuit Co-Design, DC/RF Characterization
and modelling, Interface Circuit Design.
Dr. Pushparaj Singh : Microelectromechanical systems (MEMS) sensors and micro-systems .
Dr. Monika Agrawal : Signal Processing and Communication.
Dr. Mahesh P Abegaonkar : Microwave & millimetre wave engineering.
Dr. Samaresh Das : Nano electronics and Optoelectronics.
Dr. Ulrich L. Rhode : Microwave circuits, (Amplifiers, Oscillators and Mixers ) as well as Frequency Synthesizers.
Prof Vikram Kumar : Experimental Solid State Physics, Structure and Growth of Thin Films, Plasma Processing of
Materials, Solid Interfaces.
Dr Saakshi Dhanekar : Nano-sensors, Microfluidics, Porous Silicon fabrication and Applications for chemical and
Bio-Detection.
 COLLABORATIONS

I N T E R N AT I O N A L N AT I O N A L
● Agilent Technologies. ● Astra Microwave.
● Applied Nanostructures, USA. ● BEL.
● Femto CNRS France. ● DRDO.
● Lockheed Martin USA. (DEAL, LRDE, RCI, NPOL, NSTL, SASE, CABS)
● Maxim Semiconductors, USA. ● GAETECH Hyderabad.
● MEMS Cap, USA. ● Honeywell Bangalore.
● Mitsubishi, Japan. ● Indian Navy.
● NXP Semiconductors, Netherlands ● NPMASS.
● ST Microelectronics, USA. ● Space Application Centre, Ahmedabad.
● University of Tokyo. ● Tektronix.
● Delft Institute of Microelectronics.
● University of Bath, UK.
PAST RECRUITERS

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 RECRUITMENT PROCESS
Companies that wish to Participate in the formal Recruitment process through
Training & Placement cell of IIT Delhi may contact:
Prof. I.N.Kar
Professor-In-Charge of Training and Placement Cell.
IIT Delhi email id : hodtnp@admin.iitd.ernet.in
Phone: +91-11-226591731/32

Companies that wish to Recruit M.Tech in RFDT Program may contact:

Placement Coordinator
Dr. Mahesh P Abegaonkar
Associate Professor, C.A.R.E IIT Delhi
email id: mpjosh@care.iitd.ernet.in
Phone: +91-11-2659-6281

r fd t p lac ement s.iitd @g mail.c om