About Us

1:1 PC: Department offers 1:1 PC for every student in the well equipped DSP-VLSI laboratories. At least one faculty member and one technical assistant are allotted to guide the students in all the laboratories.

Hardware Equipment: Except usual equipments like Oscilloscope, Function Generator, Power supply, trainer kits, microwave test benches we also provide numerous numbers of some exceptional equipments like Arbitrary Waveform Generator, NI-PXI-RF signal generator with Software Define Radio, Spectrum Analyzer, HF AM FM signal generator, Distortion meter.

Software: We have the latest licensed software’s like Lab View, Tanner-T SPICE, Xilinx etc.

Networking: Institute provides the internet facilities of 2Mbps band width. Students can access the internet facilities within the college hour to familiar with the latest technological updates as per their requirements, like Project Work and other Academic Purposes.

Basic Electrical & Electronic Engineering

NAME OF THE LABORATORY: Basic Electrical & Electronic Engineering -I

Code: ES191 Contact period:3 Credit:2

NAME OF THE EXPERIMENTS

1. Familiarization with electronic components like resistors, capacitors, diodes, breadboard, connecting wires, etc.
2. Familiarization with measuring and testing equipments like cro, function generatormulti- meter, etc
3. Study of pn junction diode characteristics
4. Study of zener diode characteristics.
5. Study of half wave and full wave rectifier
6. Study of the transistor characteristics.

BEYOND SYLLABUS EXPERIMENTS

1.To measure phase difference between two waveforms using Lissajous pattern obtained in CRO
2.Study of zener diode as a voltage regulator

NAME OF THE LABORATORY: Basic Electrical & Electronic Engineering -II

Code: ES291 Contact period:3 Credit:2

NAME OF THE EXPERIMENTS

Study of the input and output characteristics of a transistor in common-base (CB) configuration
Study of the input and output characteristics of a transistor in common-base (CB) configuration
Study of drain and transfer characteristics of an n-channel JFET.
Study of Logic Gates and realization of Boolean functions using Logic Gates.
.To measure the Bandwidth and slew-rate of an op-amp.
Study of Common Mode Rejection Ratio (CMRR) of an OPAMP.
Study of OPAMP circuits: Inverting amplifier, non-inverting amplifier and voltage follower (unity gain buffer).
Study of OPAMP circuits: Adders and subtractors.
Study of OPAMP circuits: Integrators and differentiators.

BEYOND SYLLABUS EXPERIMENTS

1.Design of a clipper circuit using diodes

2.Design of clamper circuit using diodes

Analog Electronics Circuit Laboratory

Code: EC394 Contact period:3 Credit:2

NAME OF THE EXPERIMENTS

1.     Study of Diode as clipper & clamper
2.     Study of Zener diode as a voltage regulator
3.     Study of ripple and regulation characteristics of full wave rectifier without and with capacitor filter
4.     Study of characteristics curves of B.J.T & F.E.T .
5.     Design a two-stage R-C coupled amplifier & study of it’s gain & Bandwidth.
6.     Study of class A & class B power amplifiers.
7.     Study of class C & Push-Pull amplifiers.
8.     Realization of current mirror & level shifter circuit using Operational Amplifiers.
9.     Study of timer circuit using NE555 & configuration for monostable & astable multivibrator.
10. Design a Bistable multivibrator using NE 555.
11. Study of Switched Mode Power Supply & construction of a linear voltage regulator using regulator IC chip.
12.    Design a simple function generator using IC.
13.    Realization of a V-to-I & I-to-V converter using Op-Amps.
14.    Realization of a Phase Locked Loop using Voltage Controlled Oscillator (VCO).
15.    Study of D.A.C & A.D.C.

Digital Electronic & Integrated Circuits Laboratory

Code: EC492 Contact period:3 Credit:2

NAME OF THE EXPERIMENTS

1.Realization of Basic Gates using Universal Gates.
2. Code conversion circuits-BCD to Excess-3 & vice-versa.
3.4-bit Parity Generator & Comparator circuit.
4. Construction of simple Decoder & Multiplexer Circuit using logic gates.
5.Design of Combinational circuit for BCD to Decimal conversion to drive 7-segment display using Multiplexer.
6.Construction of simple Arithmetic circuits- Adder, Subtractor.
7.Realization of RS, JK, D Flip-flops using universal gates.
8.Realization of Universal Register using JK Flip-flops and logic gates.
9. Realization of Universal Register using Flip-flops and Multiplexer.
10.Construction of adder circuit using Shift Register and Full Adder.
11. Realization of Asynchronous Up/Down Counter.
12. Realization of Synchronous Up/Down Counter.
13. Design of Sequential Counter with irregular sequence.
14.Realization of Ring Counter and Johnson’s counter

BEYOND SYLLABUS EXPERIMENTS:

1.

Design a 3 Bit Adder and Subtractor Using 4:1 Multiplexer (MUX)
2.Design a BCD adder using IC 7483 and other logic gates.

Solid State Laboratory

Code: EC392 Contact period:3 Credit:2

NAME OF THE EXPERIMENTS

1.Study input characteristics of BJT in common-emitter configuration.
2. Study output characteristics of BJT in common-emitter configuration for different base currents and hence determine hybrid parameters.
3. Study output characteristics of BJT in common-emitter configuration and find performance parameters (Voltage Gain, Current Gain, Input Impedance, Output Impedance).
4. Study the variation of small-signal voltage gain with frequency of a common-emitter RC coupled amplifier. Study of drain characteristics and transfer characteristics of a JFET and hence determine the FET parameters (drain resistance, transconductance & amplification factor).
5. Study the variation of small-signal voltage gain with frequency of a JFET.
6. Study of drain characteristics and transfer characteristics of a MOSFET and hence determine the FET parameters (drain resistance, transconductance & amplification factor).

BEYOND SYLLABUS EXPERIMENTS:

1.Voltage Transfer Characteristics (VTC) of a resistive load nMOS inverter using Spice simulation tool.
2.Voltage Transfer Characteristics (VTC) of a CMOS inverter using Spice simulation tool.

Analog and digital Communication Lab

Code: EC591 & EC691 Contact period:3 Credit:2

NAME OF THE EXPERIMENTS:

1. Measurement of modulation index of an AM signal.
2. Measurement of output power with varying modulation index an AM signal (for both DSB- & SSB).
3. Measurement of distortion of the demodulated output with varying modulation index of an AM
signal (for both DSB-SC & SSB).
4. Measurement of power of different frequency components of a frequency modulated signal & the measurement of the bandwidth.
5. Design a PLL using VCO & to measure the lock frequency.
6. Design a FM demodulator using PLL.
7. Measurement of SNR of a RF amplifier.
8. Measurement of selectivity, sensitivity, fidelity of a superhetrodyne receiver.
9. Study of waveforms of various functional points (output of RF, IF & video) of a B/W TV receiver.
10. Study of the vertical & horizontal sweep of the time base unit of a B/W TV.
11. Design, implementation and study of all the properties of 7-length and 15-length pn sequences
using shift register.
12. Study of PAM and demodulation.
13. Study of PCM and demodulation.
14. Study of line coders: polar/unipolar/bipolar NRZ ,RZ and Manchester.
15. Study of delta modulator and demodulator.
16. Study of adaptive delta modulator and demodulator.
17. Study of BPSK modulator and demodulator.
18. Study of BFSK modulator and demodulator.
19. Study of ASK modulator and demodulator.
20. Study of QPSK modulator and demodulator.

BEYOND SYLLABUS :

1. Design of pre-emphasis and de-emphasis circuit. Design a hardware circuit of Amplitude
modulator and demodulator for baseband signal of 1KHz with carrier signal of 100KHz.
2. Study of Pulse width Modulation Technique

EM Theory & Tx Lines AND RF & Microwave Engg. Laboratory

Code: EC491 Contact period:3 Credit:2

NAME OF THE EXPERIMENTS:

1.Plotting of Standing Wave Pattern along a transmission line when the line is open-circuited, short-circuited and terminated by a resistive load at the loaded. Input Impedance of a terminated coaxial line using shift in minima technique.
2.Study of Smith chart on Matlab platform.
3.Simulation study of Smith chart - Single and double stub matching. Radiation Pattern of dipole antenna.
4. Radiation Pattern of a folded-dipole antenna.
5.Radiation pattern of a 3-element Yagi-Uda Antenna.
6.Beam width, gain and radiation pattern of a 3-element, 5-element and 7-element. Yagi-Uda antenna - Comparative study.
7.Radiation pattern, Gain, Directivity of a Pyramidal Horn Antenna.
8. Study of Spectrum Analyzer.
9.Measurement of unknown impedance using shifting minima technique using a waveguide test bench.
10.Study of the characteristics of a Reflex Klystron
11.Study of Gunn oscillator characteristics using X-band waveguide test bench.
12.Study of multi-hole directional coupler
13.Scattering matrix of Waveguide Tees.
14.Frequency and wavelength in a rectangular waveguide.
15.Standing Wave-Ratio and Reflection Coefficient.
16.Measurement of dielectric constant of a material.

BEYOND SYLLABUS:

1.Radiation pattern, Gain, Directivity of a Pyramidal Parabolic dish antenna
2. Radiation pattern of a E-plane & H-plane Yagi-Uda Antenna
3.Measurement of phase shift of a phase shifter.
4.Study of the properties of a circulator

VLSI and EDA Laboratory

Code: EC701 Contact period:3 Credit:2

NAME OF THE EXPERIMENTS:

1. Familiarity with Spice simulation tool
2. Spice Simulation of Inverter , NAND , NOR Gates.
3 Familiarity with EDA tools for VLSI design /FPGA based system design
4. Layouts ,Transistors and tools,.
5. Standars cell Design
6. Design of CMOS XOR/XNOR Gates.
7. Design of CMOS Full adder 8. Design of CMOS Flip flops ( R-S ,D , J-K)

BEYOND SYLLABUS:

1.Schematic designs of CMOS Basic gates and flip-flops.
2.Design of Differential Amplifier.
3.Writing of small programs in VHDL and downloading onto Xilinx FPGA.

Signal System and Digital Signal Processing Laboratory

This laboratory is design to help students to define difference between ASP and DSP and deduce relation between CTFT and DTFT further relate DTFT with DFT. The objective and outcomes of this laboratory is stated below.

The laboratory objective is to:

Familiarization both on software and a hardware component. In the software part, students carry out a number of computer experiments written in C or MATLAB, illustrating some of the fundamental concepts and applications of digital signal processing, such as quantization, sampling and aliasing, block processing by convolution, real-time filtering on a sample-by-sample basis, signal enhancement and noise reduction filters, direct, canonical, and cascade realizations of digital filters, spectral analysis by the DFT and FFT, the design of FIR and IIR digital filters, and digital audio effect applications, such as dynamic range control.The hardware part of the lab illustrates the programming using FPGA kit.

The Laboratory outcomes is learn to:

use MATLAB programming to generate and plot different signals
compute circular and linear convolution using different techniques
compute FFT of different signals
implement FIR filtering.

Optical Communication Laboratory

Code: E793B Contact period:3 Credit:2

NAME OF THE EXPERIMENTS:

1:Measurement Of Numerical Aperture Of An Optical Fiber
2:The V-I And P-I Characteristics Of An Optical Led
3:Study The Losses In An Optical Fiber

BEYOND SYLLABUS:

1.Measurement Of Wavelength Of Laser With A Transmission Grating
2.Studies Of Laser Characteristics And Measurement Of Beam Waist And Beam Divergence Angle

Microprocessors & Microcontrollers laboratory

Code: EC592 Contact period:3 Credit:2

NAME OF THE EXPERIMENTS:

1.Study of prewritten programs on trainer kit using the basic instruction set .
2.Familiarization with 8085 & 8051simulator on PC.
3.Study of prewritten programs using basic instruction set on the simulator.
4.Programming using kit and simulator for.
5.Program using subroutine calls and IN/OUT instructions using 8255 PPI on the trainer kit.
6.Study of timing diagram of an instruction on oscilloscope.
7.Interfacing of 8255.
8.Study of 8051 Micro controller kit and writing programs.
9.Serial communication between two trainer kits.

BEYOND SYLLABUS :

1.Interfacing a LED matrix and display a specific pattern (digit) on the matrix.
2.Generation of triangular wave analog signal by PWM, triggering through internal timer
3.Stepper motor position control using a Microcontroller.

B.Tech , 1^st year 1^st semester
Course Code	Course Item	Course type	Year	Semester	Credit Points
HU101	English Language and Technical Communication	Theory	1	1	2
CH101	Chemistry-I	Theory	1	1	4
M101	Mathematics-I	Theory	1	1	4
ES101	Basic Electrical and Electronics Engineering-I	Theory	1	1	4
ME101	Engineering Mechanics	Theory	1	1	4
CH191	Chemistry-I	Practical	1	1	2
ES191	Basic Electrical and Electronics Engineering-I	Practical	1	1	2
ME191	Engineering Drawing and Computer Graphics	Practical	1	1	3
HU181	Language Laboratory	Sessional	1	1	1
XC181	NSS	Sessional	1	1	1
B.Tech , 1^st year ,2^nd semester
Course Code	Course Item	Course type	Year	Semester	Credit Points
CS201	Basic Computation and Principle of Computer Programming	Theory	1	2	4
PH201	Physics-I	Theory	1	2	4
M201	Mathematics-II	Theory	1	2	4
ES201	Basic Electrical and Electronics Engineering-II	Theory	1	2	4
ME201	Engineering Thermodynamics and Fluid Mechanics	Theory	1	2	4
CS291	Basic Computation and Principle of Computer Programming	Practical	1	2	2
PH291	Physics-I	Practical	1	2	2
ES291	Basic Electrical and Electronics Engineering-II	Practical	1	2	2
ME291	Workshop Practice	Practical	1	2	3
B.Tech , 2^nd year ,3^rd semester
Course Code	Course Item	Course type	Year	Semester	Credit Points
M(CS)301	Numerical Methods	Theory	2	3	2
M302	Mathematic-III	Theory	2	3	4
EC301	Circuit Theory & Networks	Theory	2	3	4
EC302	Solid State Device	Theory	2	3	3
EC303	Signals & Systems	Theory	2	3	3
EC304	Analog Electronic Circuits	Theory	2	3	4
M(CS)391	Numerical Lab.	Practical	2	3	1
EC391	Circuit Theory & Networks Lab.	Practical	2	3	2
EC393	Signal System Lab.	Practical	2	3	2
EC394	Analog Electronic Circuits Lab.	Practical	2	3	2
B.Tech , 2^nd year ,4^th semester
Course Code	Course Item	Course type	Year	Semester	Credit Points
HU401	Values & Ethics in Profession	Practical	2	4	3
PH401	Physic-II	Theory	2	4	4
CH401	Basic Environmental Engineering & Elementary Biology	Theory	2	4	3
EC401	EM Theory & Transmission Lines	Theory	2	4	4
EC402	Digital Electronics & Integrated Circuit	Theory	2	4	4
HU481	Technical Report Writing & Language Lab. Practice	Practical	2	4	2
PH491	Physic-II Lab.	Practical	2	4	2
EC491	EM Theory & Transmission Lines Lab.	Practical	2	4	2
EC492	Digital Electronics & Integrated Circuits Lab.	Practical	2	4	2
B.Tech , 3^rd year ,5^th semester
Course Code	Course Item	Course type	Year	Semester	Credit Points
HU501	Economics for Engineers	Theory	3	5	3
EC501	Analog Communication	Theory	3	5	4
EI(EC)502	Microprocessors & Microcontrollers	Theory	3	5	4
EC503	Control System	Theory	3	5	3
EC504A/B	Computer Architecture / Data Structure & C	Theory	3	5	4
EC591	Analog Communication Lab.	Practical	3	5	2
EI(EC)592	Microprocessors & Microcontrollers Lab.	Practical	3	5	2
EC593	Control System Lab.	Practical	3	5	2
EC594A/B	Computer Architecture Lab./ Data Structure & C Lab.	Practical	3	5	2
B.Tech , 3^rd year ,6^th semester
Course Code	Course Item	Course type	Year	Semester	Credit Points
HU601	Principles of Management	Theory	3	6	2
EC601	Digital Communication	Theory	3	6	3
EC602	Digital Signal Processing	Theory	3	6	3
EC603	Telecommunication System	Theory	3	6	3
EC604A/B	Antenna Theory & Propagation / Information Theory & Coding	Theory	3	6	3
EC-605A/B/C	Object Oriented Programming (IT) / Programming Language (CSE) / Electronic Measurement & Instrumentation(EI)	Theory	3	6	3
EC691	Digital Communication Lab.	Practical	3	6	2
EC692	Digital Signal Processing Lab.	Practical	3	6	2
EC-695A/B/C	Object Oriented Programming (IT) / Programming Language (CSE)/ Electronic Measurement & Instrumentation	Practical	3	6	2
EC681	Seminar	Sessional	3	6	2
B.Tech ,4^th year ,7^th semester
Course Code	Course Item	Course type	Year	Semester	Credit Points
EC701	Wireless Communication & Network	Theory	4	7	3
EC702	Microelectronics & VLSI Designs	Theory	4	7	3
EC703A/B/CD	RF & Microwave Engg./ Optical Communication & Network/ Computer Networks/ FPGA & Reconfigurable Computing	Theory	4	7	3
EC704A/B/C	Radar Engineering/ Embedded Systems/ Biomedical Instrumentation	Theory	4	7	3
EC705A/B/C/D	Artificial Intelligence (CSE)/ Robotics (CSE )/ Data Base Management System/ Power Electronics	Theory	4	7	3
HU781	Group Discussion	Practical	4	7	2
EC792	VLSI Design Lab	Practical	4	7	2
EC793A/B/C/D	RF & Microwave Engineering. Lab/ Optical Communication & Network Lab/ Computer Networks Lab/ FPGA & Reconfigurable Computing lab	Practical	4	7	2
EC795A/B/C/D	Artificial Intelligence Lab(CSE)/ Robotics lab(CSE)/ Data Base Management System Lab (CSE)/ Power Electronics Lab(EE)	Practical	4	7	2
EC781	Industrial Training	Practical	4	7	2
EC782	Project Part-I	Practical	4	7	2
B.Tech , 4^th year ,8^th semester
Course Code	Course Item	Course type	Year	Semester	Credit Points
HU801	Organisational Behaviour	Theory	4	8	2
EC801	Smart Antenna/ Digital Image Processing/ Satellite Communication & Remote Sensing	Theory	4	8	3
EC802	Neural N/W & Applications (CSE)/ Material Sc. & Engg. (Mat. Sc.)/ Renewable Energy (EE)/ Audio & Speech Processing (CSE)	Theory	4	8	3
EC881	Design Lab / Industrial problem related practical training	Practical	4	8	4
EC882	Project part-II	Practical	4	8	6
EC893	Grand viva	Practical	4	8	3

2016
1. Surjadeep Sarkar, Anasua Sarkar, Baidyanath Biswas and Ujjwal Maulik. “GA Optimized Fuzzy Controlled DPLL using Discrete Energy Separation Algorithm”, accepted in CMI2016, Jadavpur University and will be published in IEEE explore.
2. S. Sarkar, B.N. Biswas and U. Maulik, “Digital Phase Lock Loop based on Discrete Energy Separation Algorithm”, accepted in C2E2-2016, Mankundu. Presented paper will be published in ‘Online Database of CRC Press, Taylor & Francis Group’
3. B N Biswas and Amit Kumar Varshney, “Reflex Klystron is an oscillator and is an oscillator’, Invited Talk, International Conference on Microelectronics, Computing and Communication (MicroCom 2016), Dept. of ECE, NIT Durgapur, January 23-25, 2016, published online in IEEE Xplore
4. Amit K Varshney, Sumit K Varshney, R K Saw, S K Shaw and T. Biswas, “Innovative structures for Stepped Impedance Resonator Filters for Wireless Applications”, 3^rdInternational Conference on Foundations and Frontiers in Computer, Communication and Electrical Engineering 2016 (C2E2 2016), pp. 375-378 ,15^thand 16^thJanuary, 2016, published online at CRCnetBase Taylor and Francis Group ISBN 9781138028777 - CAT# K27289
5. Sumit K Varshney, Amit K Varshney, A.M. Chowdhury, A. Ganguly and A Samanta, “Design of Leaky Wave Antenna Using Composite Right-Left Handed Transmission Line Metamaterial at centre frequency 2.33 GHz”, 3^rd International Conference on Foundations and Frontiers in Computer, Communication and Electrical Engineering 2016 (C2E2)2016), pp. 427-430 ,15^th and 16^th January, 2016, published online at CRCnetBase Taylor and Francis Group ISBN 9781138028777 - CAT# K27289
6. Amit K. Varshney, Raktim Guha, Sanjay K. Ghosh and B. N. Basu, "Gain-frequency response of a helix traveling-wave tube with T-shaped dielectric support rods in a metal envelope", Journal of Electromagnetic Waves and Applications, vol. 30, issue 5, pp. 566-578, February 2016.
7. S. Roy, S. Ghosh, S. De, Amit K Varshney and B N Biswas, “Studies on a Heterodyne PLL Demodulator with Euler Method,” National Conference on Materials, Devices and Circuits in Communication Technology (MDCCT), organised jointly by IETE Burdwan Sub-Centre and department of Physics, University of Burdwan, pp. 181-183,19-20 February, 2016.
8. B N Biswas, Amit K Varshney and Tulika Mehta, “Studies on Reflex Klystron,” Invited talk, National Conference on Materials, Devices and Circuits in Communication Technology, (MDCCT) organised jointly by IETE Burdwan Sub-Centre and department of Physics, University of Burdwan, on 19-20 February, 2016
9. B N Biswas, Amit K. Varshney and Arindum Mukherjee, “Hysteresis And Jump Phenomena In Reflex Oscillators,” Special Session, Commission D, URSI, Asia-Pacific Radio Science Conference, Grand Hilton Seoul Hotel, Seoul, Korea, August 21-25, 2016, paper accepted.
10. Arindum Mukherjee, Amit K Varshney , Tulika Mehta and B N Biswas, “False Lock Elimination in Heterodyne PLL Using Phase Frequency Control”, Special Session, Commission D, URSI, Asia-Pacific Radio Science Conference, Grand Hilton Seoul Hotel, Seoul, Korea, August 21-25, 2016, paper accepted.
11. Arindum Mukherjee, Amit K Varshney , Tulika Mehta and B N Biswas, “Locking Characteristics of a Modified Heterodyne Phase-Lock Loop”, Special Session, Commission D, URSI, Asia-Pacific Radio Science Conference, Grand Hilton Seoul Hotel, Seoul, Korea, August 21-25, 2016, paper accepted.
12. B N Biswas, Amit K Varshney, and Tulika Mehta, “Elimination of the Deleterious Effect of Using Bandpass Filter in Heterodyne PLL Demodulator”, Special Session, Commission D, URSI, Asia-Pacific Radio Science Conference, Grand Hilton Seoul Hotel, Seoul, Korea, August 21-25, 2016, paper accepted.
13. Amit K Varshney, B N Biswas and Arindum Mukherjee, “Overlooked Phenomena in Reflex Oscillators”, General Session, Commission D, URSI, Asia-Pacific Radio Science Conference, Grand Hilton Seoul Hotel, Seoul, Korea, August 21-25, 2016, paper accepted for poster presentation.
14. Sumit K Varshney, Amit K Varshney, A.M. Chowdhury, A. Ganguly and A Samanta, “Design of Leaky Wave Antenna Using Composite Right-Left Handed Transmission Line Metamaterial at centre frequency 2.33 GHz”, 3^rd International Conference on Foundations and Frontiers in Computer, Communication and Electrical Engineering 2016 (C2E2 2016), pp. 427-430 ,15^th and 16^th January, 2016, published online at CRCnetBase Taylor and Francis Group ISBN 9781138028777 - CAT# K27289.
15. Amit K Varshney, Sumit K Varshney, R K Saw, S K Shaw and T. Biswas, “Innovative structures for Stepped Impedance Resonator Filters for Wireless Applications”, 3^rd International Conference on Foundations and Frontiers in Computer, Communication and Electrical Engineering 2016 (C2E2 2016), pp. 375-378 ,15^th and 16^th January, 2016, published online at CRCnetBase Taylor and Francis Group ISBN 9781138028777 - CAT# K27289.
16. Shuvajit Roy, B N Biswas and Amit K. Varshney, “Elimination Of Cycle Slipping And Effect Of Transmission Delay In Heterodyne PLL Demodulator”, General Session, Commission C, URSI, Asia-Pacific Radio Science Conference, Grand Hilton Seoul Hotel, Seoul, Korea, August 21-25, 2016, paper accepted for oral presentation.
17. Manish Kumar Sharma,Adrish Bhattacharya,Raka Ramona Day, “Innovative structures for Stepped Impedance Resonator Filters for Wireless Applications”,3^rd International Conference on Foundations and Frontiers in Computer, Communication and Electrical Engineering 2016 (C2E2 2016)

2015
1. A. Banerjee, and B. N. Biswas, “Stability analysis of Optical Phase Locked Loop in the presence of non-negligible loop propagation delay,” Optik-Int. J. for Light and Electron Optics (Elsevier), Vol. 126, No. 11, pp. 2941-2945, 2015 (Impact Factor- 0.677*).
2. B Chatterjee, S Ray, B N Biswas, “A new DSP based DPLL incorporates a dither signal and an additional phase control to overcome the deleterious effect of truncation error”, 3rd International Conference On Computer, Communication, Control and Information Technology (C3IT - 2015), (IEEE Conference), Hooghly, West Bengal, India on 7^th -8^th Feb, 2015.
3. D.Ghosh, A.Mukheree, S.Ray, B.N.Biswas, “A New Dual Loop Optoelectronic Oscillator” International Conference on Microwave Photonics, ICMAP-2013, Dhanbad, India, 11-13 December,2015(Accepted)
4. B Chatterjee, B N Biswas, S Ray, “A novel DSP-based PFC-DPLL with fuzzy controlled acquisition aid to improve acquisition performance and noise immunity”, International Journal of Communication Systems, Vol 28, Issue 15 (2015), pp. 2051-2066.
5. B Chatterjee, S Ray, B N Biswas, “An Additional Phase Control in a Fuzzy Controlled DSP DPLL to Improve the Transient Behavior and BFSK Signal Tracking”, International Journal of Electronics and Communication Technology, Vol 6 Issue SPL – 1 Jan – March 2015

Amit K Varshney, B N Biswas, Arindum Mukherjee, “Overlooked Phenomena in Reflex Oscillators”, International Journal of Electronics and Communication Technology (IJECT), vol. 8, Issue 1, January-March 2017, pp. 40-44.
B N Biswas, Arindum Mukherjee, A. Varshney and Tulika Mehta, “Novel Extended Range Phase-Lock Demodulator with Injection Feedback”, International Journal of Electronics and Communication Technology (IJECT), vol. 8, Issue 1, January-March 2017, pp. 45-47.
B N Biswas, Arindum Mukherjee, A. Varshney and Tulika Mehta, “Introduction to FM Detection: A Necessary Revisit”, International Journal of Electronics and Communication Technology (IJECT), vol. 8, Issue 1, January-March 2017, pp. 9-12

· Amit K. Varshney, Raktim Guha, Sushanta Biswas, Partha Pratim Sarkar, Subrata K. Datta & B. N. Basu, “Tape-helix model of analysis for the dispersion and interaction impedance characteristics of a helix loaded with a double-negative metamaterial for potential application in vacuum electron devices”, Journal of Electromagnetic Waves and Applications, volume 33, issue 2, pp. 138-150, (2019) DOI: 10.1080/09205071.2018.1530614

· R. Guha, A. K. Bandyopadhyay, A. K. Varshney, S. K. Datta and B. Basu, "Investigations into Helix Slow-Wave Structure Assisted by Double-Negative Metamaterial," in IEEE Transactions on Electron Devices, vol. 65, no. 11, pp. 5082-5088, Nov. 2018.

· Sumit K Varshney, Amit K Varshney, Raktim Guha and Sanjay K Ghosh, “Realization of Flat-to-Negative Dispersion of a Helical Slow-Wave Structure for a Wideband Traveling-Wave Tube using T-shaped Dielectric Helix-Support Rods”, International Journal of Electronics and Communication Technology (IJECT), vol. 6, Issue 1, pp. 208-211 (2015)

· Anjan Kumar Kundu and Sumit Kumar Varshney, “Design of a Rectenna for Ambient Energy Harvesting,” IEEE-MTTS International Microwave and RF Conference (IMaRC-2018), November 2018