Jayanta Mukherjee

jayanta.jpg

Department of Electrical Engineering, IIT Bombay

Research Interests:

?       Antenna Design

?       RF IC Design

Patents

Applied

1. “Wide Range CMOS Mixer”, V Singh & J Mukherjee, Application No 826/MUM/2011, filed with Patent Office Mumbai

2. “Low power analog FM transceiver for Bio-Telemetry Applications”, S K Gowdhaman, Vineeth A, M Shojaei-Baghini, J Mukherjee, Application No 1473/MUM/2011, filed with Patent Office Mumbai

3. “Low Cost, Efficient, High Gain and Wideband Microstrip Antenna fed Yagi Array in Fabry Perot Cavity”, A Vaidya, R K Gupta, J Mukherjee, S K Mishra, Application No 1626/MUM/2011, filed with Patent Office Mumbai

4. “Parallel metal plated split U-shape Omnidirectional UWB Antenna”, S K Mishra, R K Gupta, A Vaidya, J Mukherjee, Application No 2792/MUM/2011, filed with Patent Office Mumbai

Chips Designed and Tested at IIT Bombay

?       a 2GHz differential oscillator 0.18 um CMOS http://www.ee.iitb.ac.in/~jayanta/Chip1

?       a 3.1 GHz oscillator 0.18 um CMOS http://www.ee.iitb.ac.in/~jayanta/Chip2

?       A low power (12 mW) fuly integrated biomedical transmitter for rural health care monitoring in the 1.7-1.8GHz band(1 dBm power output) 0.18 um CMOS http://www.ee.iitb.ac.in/~jayanta/Chip3

?       A 16.8 GHz Distributed oscillator in 0.18 um CMOS http://www.ee.iitb.ac.in/~jayanta/Chip4

PhD Positions Open

If you are interested in PhD in RF/Analog VLSI design, modeling, testing, please let me know. We have some positions open. Preference will be given to students with proven track record.

email: jayanta@ee.iitb.ac.in

Lab Facilities Available

?       Software - Cadence, Mentor Graphics, ADS (Education Donation), IE3D

?       PCB design - Eagleware

?       PCB fabrication Lab

?       Test Facilities - 30 GHz R&S FSV30 Spectrum Analyzer, Agilent 8722ET 40 GHz VNA

?       Probe Station - Suss Microtec PM5 with RF probes til 40GHz

Courses Offered This Semester

?       EE 611 Microwave Integrated Circuits

?       EE 389 Electronic Design Lab I

Graduated PhD Students

1. Dr Rajiv Kumar Gupta

2. Dr Sanjeev Kumar Mishra

Current PhD Students

1. Mr Jai Narayan Tripathi

2. Mr Avinash Vaidya

3. Mr Darshak Bhat

4. Mr Anil Kamma

5. Mr Biswajeet Mukherjee

6. Ms Pragati

Graduated MTech Students

1. B. Anil Kumar, MTech 2008

2. Diwakar Suvvari, MTech 2008

3. Kapil Jainwal, MTech 2008

4. Siva Rama Krishna R, DD 2008, Prof M Shojaei-Baghini, Co-Superviser

5. Pankaj Arora, Co Supervised with Prof V Agarwal, 2009

6. B S Koyarh,MTech 2009

7. P Kalapala,MTech 2009

8. B P Dwivedi,MTech 2010

9. Vijay Ghanwat,MTech 2010

10. Prem Bahadur,MTech 2010

11. Kunal Vyas,DD 2010

12. Jay Waghmare,DD 2010

13. Kamlesh Meena,DD 2010

14. Vaibhav Singh, DD 2010

15. Saurabh Dubey, DD 2010

16. Nekman Verma, DD 2011

17. Ashay Shah, DD 2012

18. Sudheer Kamisetty, MTech 2012

19. Manish Patidar, Mtech 2012

20. Prashant Bhut, Mtech 2012

21. Siva Kumar G, Mtech 2012

22. Billa Swamy, MTech 2012

Academic Background

?       Bachelor of Engineering, Electrical and Electronics Engineering, Birla Institute of Technology, Mesra, 1999.

?       Master of Science, Electrical Engineering, The Ohio State University, 2003.

?       Ph.D, Electrical and Computer Engineering, The Ohio State University, 2006.

Honors

1. Gold Medalist, Bachelor of Engineering, BIT Mesra

2. Texas Instruments Fellow 2001-2004, The Ohio State University

3. The technology “Low Power Bio Medical Transmitter” was one among top 50 selected technologies for the “DST - Lockheed Martin India Innovation Growth Programme 2012”

4. IIT Bombay Industrial Research and Consultancy Center, Young Investigator Award 2012

Activities

* Session Chair - RF, Microwave and Optical track IEEE MWSCAS 2010

* Member, Program Committee - VLSI Conference, Chennai 2011

Publications

Books

1. “Phase Noise in RF Oscillators - Models and Analysis”, Jayanta Mukherjee, VDM Verlag Dr Muller publishers, January 2009

2. “Multilayer Directional and Planar Omnidirectional Antennas”, R.K Gupta, J Mukherjee, Lambert Academic Publishers, Dec 2011

3. Planar UWB Antennas: Design, Analysis and Application”, Sanjeev Kumar Mishra and Jayanta Mukherjee, LAP Lambert Academic Publishing, Germany, Sept 2012.ISBN-13: 978-3-659-25195-5,

Book Chapters

1. “Nonlinear RF Circuits and Nonlinear Vector Network Analyzers”,

Chapter 7, “Kurokawa theory of oscillator design and phase-noise theory”, Cambridge University Press, 2011

2. “Design Automation, Modeling, Optimization and Testing of Analog/RF Circuits and Systems by Particle Swarm Optimization”, Jai N Tripathi, J Mukherjee, P R Apte,

Swarm Intelligence for Electric and Electronic Engineering (Accepted), IGI Global Publishers

Journals

1. “A Novel Half Hemispherical Dielectric Resonator Antenna with Array of Slots for Wideband Applications”, B. Mukherjee, P. Patel, G. Shrikanth Reddy, and J. Mukherjee, Accepted in Progress in Electromagnetic Research C

2. High Gain and Low Cross-Polar Compact Printed Elliptical Monopole UWB Antenna Loaded with Partial Ground and Parasitic Patches, Shrikanth Reddy et. al. , Progress In Electromagnetics Research B, Vol. 43, 151 - 167, 2012

3. “High-Gain Low Side Lobe Level Fabry Perot Cavity Antenna With Feed Patch Array”, A. R. Vaidya, R. K. Gupta, S. K. Mishra, and J. Mukherjee Progress In Electromagnetics Research C, Vol. 28, 223-238, 2012.

4. “Compact Printed Dual Band-Notched U-Shape UWB Antenna”. Sanjeev K Mishra et.al. Progress In Electromagnetics Research C, Vol. 27, Pages 169-181, 2012

5. “Efficient, High Gain with Low Side Lobe Level Antenna Structures Using Parasitic Patches on Multilayer Superstrate”, A R Vaidya et.al., Microwave and Optical Technology Letters June 2012

6. Sanjeev K Mishra, Rajiv K Gupta, Avinash R Vaidya and Jayanta Mukherjee, “Low-Cost, Compact Printed Circular Monopole UWB Antenna with 3.5/5.5GHz Dual Band Notched Characteristics”, Microwave Optical Technology Letters vol. 54, No 1, pp. 242–246, Jan 2012.

7. “Printed Fork Shaped Dual Band Monopole Antenna for Bluetooth and UWB Applications with 5.5 GHz WLAN Band Notched Characteristics” , Sanjeev Mishra, Rajiv Gupta, Avinash Vaidya and J Mukherjee, Progress in Eelectromagnetic Research C 22, page 195-210, 2011

8. “A Compact Dual Band Fork Shaped Monopole Antenna for Bluetooth and UWB Applications”, Sanjeev K Mishra, Rajiv Gupta, Avinash Vaidya, J Mukherjee, IEEE Antenna and Wireless Propagation Letters, vol. 10, pp 627-630, July 2011.

9. Sanjeev K Mishra, Rajiv K Gupta and Jayanta Mukherjee, “A Simple U-Shaped Printed Ultra-Wideband Antenna with WLAN Band Rejection”, Microw. Opt. Technol. Lett., vol. 53, No. 7, pp. 1645–1649, July 2011.

10. “Parallel Metal Plated Tuning Fork Shaped Omnidirectional Monopole Antenna For UWB Application”, S.K Mishra,R.K Gupta, J. Mukherjee, vol. 53, pp. 601–604, Microwave and Optical Technology Letters, March 2011

11. “Efficient High Gain with low SLL Antenna Structures Using Circular Array of Square Parasitic Patches on a Superstrate Layer”, R.K Gupta and J Mukherjee, Microwave and Optical Technology Letters, December 2010

12.”Effect of Superstrate Material on a High Gain Antenna using array of parasitic patches”, R.K Gupta and J. Mukherjee, Microwave and Optical Technology Letters, Jan 2010

13.”Low Cost Efficient High Gain Antenna Using Array of Parasitic Patches on a Superstrate Layer”,R. K. Gupta and J. Mukherjee, Microwave and Optical Technology letters, March 2009

14. “An Analytic Circuit-Based Model for White and Flicker Phase Noise in LC Oscillators”,IEEE Transactions on Circuits and Systems I, J. Mukherjee, Patrick Roblin, Siraj Akhtar, July 2007

15. “Novel modeling methodology of LC differential oscillator noise”, Microwave and Optical Technology Letters, J. Mukherjee, Patrick Roblin, April 2006

National Journals

1. “1× Microstrip Line Fed Metal Plated Split U-Shape Omnidirectional Ultra-Wideband Monopole Antenna”, IETE Journal of Research, Sanjeev K Mishra et. al.(Accepted)

Conference

1. “Power Integrity Analysis and Discrete Optimization of Decoupling Capacitors on High Speed Power Planes by Particle Swarm Optimization”, Jai N Tripathi et.al, ISQED 2013, Santa Clara

2. “WLAN Band-Notched Printed U-Shape UWB Antenna”, International Conference on Signal Processing and Communications (SPCOM 2012), Accepted

3. “Efficient High Gain Wideband Antenna with Circular Array of Square Parasitic Patches”, Avinash Vaidya, Sanjeev K Mishra, Rajiv K Gupta, Jayanta Mukherjee, 2012 IEEE Asia-Pacific Conference on Antennas and Propagation, (Accepted)

4. “Printed Band - notched U shaped Ultra Wide Band Antenna with Modified Split Ring Resonator”, Anil Kamma, Shrikanth Reddy, Sanjeev Kumar Mishra, Jayanta Mukherjee, 2012 IEEE Asia-Pacific Conference on Antennas and Propagation, (Accepted)

5. “Damping the Cavity-Mode Anti-Resonances’ Peaks on a Power Plane by Swarm Intelligence Algorithms”, Jai Narayan Tripathi, Nitin Kumar Chhabra, Raj Kumar Nagpal, Rakesh Malik and Jayanta Mukherjee, ISCAS 2012

6. “Maintaining Power Integrity by Damping the Cavity-Mode Resonances Peaks on a Power Plane by Particle Swarm Optimization”, Jai Narayan Tripathi, Raj Kumar Nagpal, Nitin Kumar Chhabra, Rakesh Malik and Jayanta Mukherjee, ISQED 2012, Santa Clara

7. “Optimization of Analog RF Circuit Parameters using Randomness in Particle Swarm Optimization”, Sudheer Kamisetty, Jyoti Garg, Jai Narayan Tripathi and Jayanta Mukherjee, WICT 2011, Mumbai

8. " Low Cost, Efficient, High Gain and Wideband Microstrip Antenna Fed Yagi Array in Fabry-Perot Cavity”, Sanjeev K Mishra et.al., PIERS 2012, Kuala Lumpur

9. “Optimizing Gain of 5 GHz RF Amplifier keeping Minimum Deviation in Center Frequency and Noise Figure”, J.N Tripathi, P R Apte, J Mukherjee, ISIC 2011, Singapore, Dec 2011.

10. Sanjeev K Mishra, Rajiv K Gupta, Avinash R Vaidya and Jayanta Mukherjee, “Parallel Metal Plated U-Shape Ultra-wide Band Antenna with WLAN Band-Notched Characteristics”, PIERS 2012, Kuala Lumpur.

11.”Effect of Superstrate Height on Gain of MSA Fed Fabry Perot Cavity Antenna”, Loughborough Antennas & Propagation Conference 2011 (Accepted), A.R Vaidya, R.K Gupta, S.K Mishra, J Mukherjee

12. “Optimizing Phase Noise of 2 GHz RF Oscillator with Minimum Frequency Deviation”, Jai Narayan Tripathi, Jayanta Mukherjee, and Prakash R. Apte, IEEE MWSCAS 2011, Seoul, Korea.

13. “Printed U-shaped Monopole Antenna for UWB Applications”, Sanjeev Kumar Mishra, Rajiv Kumar Gupta and Jayanta Mukherjee, International Conference on Microwaves, Antenna, Propagation & Remote Sensing, 14-17 December 2010, Jodhpur, India

14. “A Simple Ultra-wideband Printed Circular Monopole Antenna with WLAN Band Rejection”, Sanjeev Kumar Mishra, Avinash R Vaidya and Jayanta Mukherjee, International Conference on Microwaves, Antenna, Propagation & Remote Sensing, 14-17 December 2010, Jodhpur, India

15. “Designing Asymmetric 2.2 GHz RF Oscillator by Design of Experiments using Taguchi Methods”, J.N. Tripathi, J. Mukherjee, P.R Apte , 5th European Conference on Circuits and Systems for Communications, November 23-25, 2010, Belgrade, Serbia

16. “Designing Asymmetric 2.4 GHz RF Oscillator for Improving Signal Integrity by Design of Experiments”, J.N Tripathi, J. Mukherjee, P.R Apte, APCCAS 2010, Dec 2010, Kuala Lumpur, Malaysia

17.Sanjeev K Mishra, Rajiv K Gupta and Jayanta Mukherjee, “Effect of Substrate Material on Radiation Characteristics of an UWB Antenna”, Accepted in Loughborough Antennas & Propagation Conference (LAPC), U.K., 8th-9th Nov 2010

18. “Performance Analysis of CMOS Mode Locked Class E Power Amplifier”, Pankaj Arora, Jayanta Mukherjee, Vivek Agarwal, MWSCAS 2010, Seattle Washington, Aug 1-4, 2010

19. “27.1GHz CMOS Distributed Voltage Controlled Oscillators With Body Bias for Frequency Tuning of 1.28GHz”, Kalyan Bhattacharyya, J. Mukherjee and M. Shojaei, MWSCAS 2009, Cancun Mexico, Aug 2 - 5 2009.

20. “Phase Noise Reduction in Quadrature LC Oscillators Using Inverter Based Tail Noise Shaping”, J. Mukherjee, M Shojaei-Baghini, Manoj Johnson, NEWCAS-TAISA’09, Toulouse, France June-July 2009.

21.”20GHz CMOS Distributed Voltage Controlled Oscillators With Frequency Tuning By MOS Varactors”, Kalyan Bhattacharyya, Jayanta Mukherjee, M. Shojaei-Baghini, 2nd INTERNATIONAL WORKSHOP ON ELECTRON DEVICES AND SEMICONDUCTOR TECHNOLOGY (IEDST 2009), June 1-2, 2009, Indian Institute of Technology Bombay, Mumbai, India.

22. “CURRENT-MODE CMOS PIPELINED ADC”, S.R Krishna R, M Shojaei-Baghini, J. Mukherjee, IEEE Eurocon 2009, St Petersburg, Russia, May 2009

23. “Phase Noise Reduction in CMOS LC Oscillators Using Tail Noise Shaping and Gm3 Boosting”, Kapil Jainwal and Jayanta Mukherjee, IEEE ICECE Conf, Dhaka, Bangladesh Dec 2008.

24.”Microstrip Equivalent Parasitics Modeling of RFIC Interconnects”, Jayanta Mukherjee et.al.,IEEE MWSCAS 2007, Montreal Canada, August 2007

25. “Optimizing MOSFET Channel Width for Low Phase Noise in LC Oscillators”, Jayanta Mukherjee, IEEE MWSCAS 2007, Montreal Canada, August 2007

26. “Impact of Amplitude Phase Correlation on Oscillator Phase Noise Model”, Jayanta Mukherjee IEEE MWSCAS 2006, San Juan, Puerto Rico, August 2006 (Student Paper Contest Finalist)

27. “Accurate circuit based non linear perturbation model of phase noise in LC oscillators”, Jayanta Mukherjee, Patrick Roblin And Steven Bibyk, IEEE MWSCAS 2005, Cincinnati USA, August 2005

28. “General non linear perturbation model for flicker noise in LC oscillator”, Jayanta Mukherjee et.al. IEEE MWSCAS 2005, Cincinnati USA, August 2005

29. “RFIC loadpull simulations implementing best practice RF and mixed-signal design using an integrated agilent and cadence EDA tool”, Jayanta Mukherjee et. al., IEEE Microelectronic System Education Conference, Anaheim California, June 2003

Work Experience

1999-2000 Wipro Technologies, Bangalore

2002-2003 Thomson Multimedia, Princeton

2006-present IIT Bombay

ADS Donation from Agilent

The following papers have been published

1. “Designing Asymmetric 2.2 GHz RF Oscillator by Design of Experiments using Taguchi Methods”, J.N. Tripathi, J. Mukherjee, P.R Apte , 5th European Conference on Circuits and Systems for Communications, November 23-25, 2010, Belgrade, Serbia

2. “Designing Asymmetric 2.4 GHz RF Oscillator for Improving Signal Integrity by Design of Experiments”, J.N Tripathi, J. Mukherjee, P.R Apte, APCCAS 2010, Dec 2010, Kuala Lumpur, Malaysia

3. “Performance Analysis of CMOS Mode Locked Class E Power Amplifier”, Pankaj Arora, Jayanta Mukherjee, Vivek Agarwal, MWSCAS 2010, Seattle Washington, Aug 1-4, 2010

4. “27.1GHz CMOS Distributed Voltage Controlled Oscillators With Body Bias for Frequency Tuning of 1.28GHz”, Kalyan Bhattacharyya, J. Mukherjee and M. Shojaei, MWSCAS 2009, Cancun Mexico, Aug 2 - 5 2009.

Contact Information

Department of Electrical Engineering
IIT Bombay, Powai
Mumbai 400 076, India
Email : jayanta[AT]ee.iitb.ac.in
Phone: (O) : 91-22-2576 7479
(R) :
Office room no: 105(A)(Annexe Building)
Fax: (0091 22) - 25723707