Raj Senani



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  • Profile
  • QualificationsB.Sc., B.Sc. Engineering, M.E. (Honours), Ph.D.
  • DesignationProfessor Emeritus
  • DivisionElectronics and Communications Engineering
  • E-Mailsenani@nsit.ac.in

Biosketch

Raj Senani was born on March 14, 1950 at Budaun, UP. He obtained B.Sc. in 1966 from Lucknow University, B.Sc. Engineering in Electrical Engineering in 1971 from HBTI, Kanpur, M.E. (Electrical Engineering) with Honours in 1974 from MNREC (now MNNIT), Allahabad and Ph.D. in Electrical Engineering for his work on the Realization of Some Classes of Active Networks in 1988, from MNREC, University of Allahabad.


Dr. Senani held the positions of Lecturer (1975-1986) and Reader (1987-1988) at the EE Department of MNREC, Allahabad. He joined the ECE Department of the Delhi Institute of Technology, Delhi in 1988 as an Assistant Professor. He became a Professor in 1990. Since then, he has served as Head, ECE Department (1990-1993, 1997-1998), Head Applied Sciences (1993-1996), Head, Manufacturing Processes and Automation Engineering (1996-1998), Dean Research (1993-1996), Dean Academic (1996-1997), Dean Administration (1997-1999), Dean Post Graduate Studies (1997-2001) and Director, Netaji Subhas Institute of Technology (NSIT) during June 1996-September 1996, February 1997-June 1997 and May 2003-January 2004. He served as the Head, Division of ECE from 2000 till July 2014, as Dean, Faculty of Technology, University of Delhi, during July 2011-July 2014 and as Director of NSIT, from October 2008-till December 2014.


After his superannuation on 31st March, 2015, he has been re-employed as a Professor, in the Division of ECE, NSIT and concurrently, is also working as an Adjunct Professor for NIT, Patna.


Professor Senani's areas of teaching and research interest are Analog VLSI Circuits, Analog Signal Processing, Current-Mode Circuits, Electronic Instrumentation and Chaotic oscillators. He has authored/co-authored over 150 international research publications- which have received, as per Google Scholar, over 3800 citations with an h-index of 34 and i-10 index of over 100 so far. He has authored/co-authored 04 book chapters for two Springer books and 04 monographs three of which are published by Springer, namely, `Current feedback operational amplifiers and their applications’, Springer Science+Business Media, New York, 2013; `Current Conveyors: Variants, Applications and Hardware Implementations’, Springer International Publishing, Switzerland, 2015 and `Sinusoidal Oscillators and Waveform Generators employing Modern Electronic Circuit Building Blocks’, Springer, Switzerland 2016.


He is functioning as an Editorial reviewer for over 30 international journals including several of IEEE (USA) and IET (UK) Journals. He has served as the Honorary Editor of Circuits and Systems for IETE Journal of Research during 1992-1995, 2007-2008, is currently serving as Editor-in-Chief for IETE Journal of Education. He is serving as an Associate Editor for Circuits, Systems and Signal Processing (Birkhauser-Boston, USA) since 2003 besides being Member of Editorial boards of 07 other international journals.


Professor Senani is a Member of Sigma Xi (The Scientific Research Society, USA), a Senior Member of IEEE (USA), a Life Member of ISTE (India), a Fellow of the Institution of Engineers (India) and a Life Fellow of the Institute of Electronics and Telecommunication Engineers (IETE, India). He was elected a Fellow of the National Academy of Sciences, India (NASI) in 2008 for his contributions to Analog Integrated Circuits and Signal Processing and Analog VLSI. He is the recipient of the Second Laureate of the 25th Khwarizmi International Awards, bestowed upon him by Iranian Research Organization for Science and Technology (IROST) in 2012. His biography has been included in several editions of a number of international directories such as those of Marquis' Who's Who, International Biographical Centre, American Biographical Institute and several others.

 

Research Publications of Professor Raj Senani

Part I. Research Papers in refereed International Journals

[1] R. Senani and R. N. Tiwari, ‘New canonic active-RC realization of grounded and floating inductors’, Proc. IEEE (USA), vol. 66, no. 7, pp. 803-804, July 1978.
[2] R. Senani, ‘Active simulation of inductors using Current Conveyors’, Electronics Letters, IEE (UK), vol. 14, no. 15, pp. 483-484, also see ibid, 1978, vol. 15, no. 4, pp. 112-114, 1979.
[3] R. Senani, ‘Realization of single resistance-controlled lossless floating inductance’ Electronics Letters, IEE (UK), vol. 14, no. 25, pp. 828-829, also see ibid, 1980, vol. 16, no. 4, p. 117, 1978.
[4] R. Senani, ‘New canonic sinusoidal oscillator with independent control through a single grounded resistor’, Proc. IEEE (USA), vol. 67, no. 4, pp. 691-692, 1979.
[5] R. Senani, ‘New canonic single resistance controlled sinusoidal oscillator using a single Current Conveyor’, Electronics Letters, IEE (UK), vol. 15, no. 18, pp. 568-569, 1979.
[6] R. Senani, ‘Novel active-RC circuit for floating inductance simulation’, Electronics Letters, IEE (UK), vol. 15, no. 21, pp. 679-680, 1979.
[7] R. Senani, ‘Some observations concerning the methods of filter and oscillator realization using the concept of FDNR’, Proc. IEEE (USA), vol. 67, no. 12, pp. 1665-1666, 1979.
[8] R. Senani, ‘Novel circuit implementation of Current Conveyors using an OA and an OTA’, Electronics Letters, IEE (UK), vol. 16, no. 1, pp. 2-3, 1980.
[9] R. Senani, ‘Novel sinusoidal oscillator employing grounded capacitors’, Electronics Letters, IEE (UK), vol. 16, no. 2, pp. 62-63; also see ibid, 1980, vol. 16, no. 22, p. 863, 1980.
[10] R. Senani, ‘Novel active-RC realizations of tunable floating inductors’, Electronics Letters, IEE (UK), vol. 16, no. 4, pp. 154-155, 1980.
[11] R. Senani, ‘A new technique for inductance-to-time period conversion using integrated circuit operational amplifiers’ IEEE Trans. Industrial Electronics and Control Instrumentation (USA), vol. IECI-27, no. 1, pp. 36-37, 1980.
[12] R. Senani, ‘New tunable synthetic floating inductors’, Electronics Letters, IEE (UK), vol. 16, no. 10, pp. 382-383, 1980.
[13] R. Senani, ‘Linear resistance-to-frequency conversion using Integrated circuit operational amplifiers’, International Journal of Electronics (UK), vol. 50, no. 6, pp. 485-491, 1981.
[14] R. Senani, ‘Some new synthetic floating inductance configurations’, Archiv. Fur Elektronik und Ubertrangungstechnik (Germany), vol. 35, no. 7/8, pp. 307-310, 1981.
[15] R. Senani, ‘Authors reply to “Comments on New canonic active RC realizations of grounded and floating inductors”, Proc. IEEE (USA), vol. 70, no. 1, pp. 101-103, 1982.
[16] R. Senani, ‘Novel lossless synthetic floating inductor employing a grounded capacitor’, Electronics Letters, IEE (UK), vol. 18, no. 10, p. 413, 1982; also see Erratum, ibid, August 1982 issue
[17] R. Senani, ‘A class of single-element-controlled sinusoidal oscillators’, Archiv. Fur Elektronik und Ubertrangungstechnik (Germany), vol. 36, no. 10, pp. 405-408, 1982.
[18] R. Senani, ‘New single-capacitor simulations of floating inductors’, Electrocomponent Science and Technology (UK), vol. 10, pp. 7-12, 1982.
[19] R. Senani, ‘On the synthesis of a class of immittances and filters using grounded capacitors’, International J. of Circuit Theory and applications (UK), vol. 11, no. 4, pp. 410-415, 1983.
[20] R. Senani, ‘Novel application of generalized Current Conveyor’, Electronics Letters, IEE (UK), vol. 20, no. 4, pp. 169-170, 1984; also see ibid 1984, vol. 20, no. 8, p. 356, April 1984.
[21] R. Senani, ‘Floating ideal FDNR using only two Current Conveyors’, Electronics Letters, IEE (UK), vol. 20, no. 5, pp. 205-206, 1984.
[22] R. Senani, ‘New RC-active oscillator configuration employing unity-gain amplifiers’, Electronics Letters, IEE (UK), vol. 21, no. 20, pp. 889-891, 1985.
[23] R. Senani, ‘New types of sine wave oscillators’, IEEE Transactions on Instrumentation and Measurement (USA), vol. IM-34, no. 3, pp. 461-463 and p. 485, 1985.
[24] R. Senani, ‘Novel higher order active filter design using Current Conveyors’, Electronics Letters, IEE (UK), vol. 21, no. 22, pp. 1055-1057, 1985.
[25] R. Senani, ‘Network transformation for active-RC realization of RLM immittances’, Frequenz: Journal of Telecommunications (Germany), vol. 40, no. 3, pp. 67-70, 1986.
[26] R. Senani, ‘On the realization of floating active elements’, IEEE Transactions on Circuits and Systems (USA), vol. 33, no. 3, pp. 323-324, 1986.
[27] R. Senani, ‘On linear Inductance-Time and related conversions using IC op-amps’, IEEE Trans. on Industrial Electronics (USA), vol. IE-34, no. 2, pp. 292-293, 1987.
[28] R. Senani, ‘Network transformations for incorporating non-ideal simulated immittances in the design of active filters and oscillators’, IEE Proc. Pt. G: Electronic Circuits and Systems (UK), vol. 134, no. 4, pp. 158-166, 1987.
[29] R. Senani, ‘On the transformation of RC-active oscillators’, IEEE Trans. on Circuits and Systems (USA), vol. CAS-34, no. 9, pp. 1091-1093, 1987.
[30] R. Senani, ‘Generation of new two-amplifier synthetic floating inductors’, Electronics Letters, IEE (UK), vol. 23, no. 22, pp. 1202-1203, 1987.
[31] R. Senani, ‘A novel application of Four-terminal Floating Nullors’, Proc. IEEE (USA), vol. 75, no. 11, pp. 1544-1546, 1987.
[32] R. Senani, ‘Floating immittance realization: The nullor approach’, Electronics Letters, IEE (UK), vol. 24, no. 7, pp. 403-405, 1988.
[33] R. Senani and V. Chauhan, ‘Simple approach for generating Active-compensated building blocks’, Electronics Letters, IEE (UK), vol. 24, no. 15, pp. 916-918, 1988.
[34] R. Senani, ‘Analysis, synthesis and design of new types of RC-active sinusoidal oscillators: Part I’, Frequenz: Journal of Telecommunications (Germany), vol. 42, no.8, pp. 223-228, 1988.
[35] R. Senani, ‘Analysis, synthesis and design of new types of RC-active sinusoidal oscillators: Part II’, Frequenz: Journal of Telecommunications (Germany), vol. 42, no.9, pp. 251-256, 1988.
[36] R. Senani and A. K. Banerjee, ‘Linearly-tunable Wien bridge oscillator realized with operational transconductance amplifiers’, Electronics Letters, IEE (UK), vol. 25, no. 1, pp. 19-21, 1989.
[37] R. Senani, ‘New electronically-tunable OTA-C Sinusoidal Oscillator’, Electronics Letters, IEE (UK), vol. 25, no. 4, pp. 286-287, 1989.
[38] R. Senani, ‘Three-op-amp Floating Immittance Simulators: A retrospection’, IEEE Trans. on Circuits and Systems (USA), vol. 36 no. 11, pp. 1463-1465, 1989.
[39] R. Senani, M. P. Tripathi, D. R. Bhaskar and A. K. Banerjee, ‘Systematic generation of OTA-C Sinusoidal Oscillators’, Electronics Letters, IEE (UK), vol. 26, no. 18, pp. 1457-1459, 1990; also see ibid, 1991, vol. 27, no. 1, pp. 100-101.
[40] V. K. Singh and R. Senani, ‘New multifunction active filter configuration employing Current Conveyors’, Electronics Letters, IEE (UK), vol. 26, no.21, pp. 1814-1816, 1990.
[41] R. Senani, A. K. Banerjee, M. P. Tripathi and D. R. Bhaskar, ‘Some simple Techniques of generating OTA-C Sinusoidal Oscillators’, Frequenz: Journal of Telecommunications (Germany), vol.45, no. 7/8, pp. 177-181, 1991.
[42] R. Senani and D. R. Bhaskar, ‘Single-op-amp Sinusoidal oscillators suitable for generation of Very Low Frequencies’, IEEE Trans. on Instrumentation and Measurement (USA), vol. 40, no. 4, pp. 777-779, 1991 and pp. 794, 800.
[43] R. Senani and D. R. Bhaskar, ‘Realization of Voltage-controlled Impedances’, IEEE Trans. On Circuits and Systems (USA), vol. 38, no. 9, pp. 1081-1086, 1991; also see ibid, 1992, vol. 39, no. 2, p. 162.
[44] R. Senani and D. R. Bhaskar, ‘A simple configuration for realizing Voltage-Controlled Impedances’, IEEE Trans. on Circuits and Systems (USA), vol. 39, no. 1, pp. 52-59, 1992.
[45] R. Senani and V. K. Singh, ‘Single-element-controlled Sinusoidal Oscillator employing a single Current Conveyor IC’, Electronics Letters, IEE (UK), vol. 28, no. 4, pp. 414-415, 1992; also see ibid, 1992, vol. 28, no. 9. p. 895.
[46] R. Senani, ‘New Current mode biquad Filter’, International Journal of Electronics (UK), vol. 73, no. 4, pp. 735-742, 1992.
[47] R. Senani, ‘Simple Sinusoidal Oscillator using op-amp compensation poles’, Electronics Letters, IEE (UK), vol. 29, no. 5, pp. 452-453, 1993.
[48] D. R. Bhaskar and R. Senani, ‘New Current Conveyor based Single resistance controlled/voltage-controlled oscillator employing grounded capacitors’, Electronics Letters, IEE (UK), vol. 29, no. 7, pp. 612-614, 1993.
[49] D. R. Bhaskar, M. P. Tripathi and R. Senani, ‘A class of three-OTA-two-Capacitor Oscillators with non-interacting controls’, International Journal of Electronics (UK), vol. 74, no. 3, pp. 459-463, 1993.
[50] R. Senani, D. R. Bhaskar and M. P. Tripathi, ‘On the realization of linear Sinusoidal VCOs’, International Journal of Electronics (UK), vol. 74, no. 5, pp. 727-733, 1993.
[51] D. R. Bhaskar, M. P. Tripathi and R. Senani, 1993, ‘Systematic derivation of all possible Canonic OTA-C Sinusoidal Oscillators’, Journal of the Franklin Institute (USA), vol. 330, no. 5, pp. 885-903.
[52] J. Malhotra and R. Senani, ‘Class of floating, generalized positive/negative immittance converters/inverters realized with Operational Mirrored Amplifiers’, Electronics Letters, IEE (UK), vol. 30, no. 1, pp. 3-5, 1994.
[53] D. R. Bhaskar and R. Senani, ‘New linearly tunable CMOS-compatible OTA-C oscillators with non-interacting controls’, Microelectronics Journal (UK), vol. 25, pp. 115-123, 1994.
[54] R. Senani and J. Malhotra, ‘Minimal realizations of a class of Operational-Mirrored-Amplifier-based floating impedances’, Electronics Letters, IEE (UK), vol. 30, no. 14, pp. 1113-1114, 1994.
[55] R. Senani and D. R. Bhaskar, ‘Versatile Voltage-Controlled Impedance Configuration’, IEE Proceedings Part G: Circuits, Devices and Systems (UK), vol. 141, no. 5, pp. 414-416, 1994.
[56] R. Senani, ‘On Equivalent forms of Single-Op-Amp Sinusoidal RC Oscillators’, IEEE Trans. On Circuits and Systems I: Fundamental Theory and Applications (USA), vol. 41, no. 10, pp. 617-624, 1994.
[57] R. Senani, ‘Realization of linear voltage-controlled-resistance in floating form’ Electronics Letters, IEE (UK), vol. 30, no. 23, pp. 1909-1911, 1994.
[58] R. Senani, ‘Floating GNIC/GNII Configuration realized with only a single OMA’, Electronics Letters, IEE (UK), vol. 31, no.6, pp. 423-425, 1995.
[59] R. Senani and V. K. Singh, ‘KHN-equivalent biquad using Current Conveyors’, Electronics Letters, IEE (UK), vol. 31, no. 8, pp. 626-628, 1995.
[60] R. Senani, ‘Universal linear voltage controlled impedance configuration’, IEE Proceedings: Circuits, Devices and Systems (UK), vol. 142, no. 3, p. 208, 1995.
[61] R. K. Swami and R. Senani, ‘Macromodeling ideal switches for SPICE’, IEEE Circuits and Devices Magazine (USA), vol. 11, no. 4, pp. 8-10, 1995.
[62] R. Senani and D. R. Bhaskar, ‘New active-R Sinusoidal VCOs with linear tuning laws’, International Journal of Electronics (UK), vol. 80, no.1, pp. 57-61, 1996.
[63] R. Senani and V. K. Singh, ‘Synthesis of Canonic Single Resistance Controlled Oscillators using a single Current-Feedback-Amplifier’, IEE Proceedings Part G: Circuits, Devices and Systems (UK), vol. 143, no. 1, pp. 71-72, 1996.
[64] R. Senani, ‘A simple approach of deriving Single-input-multiple-output current Mode biquad filters’, Frequenz: Journal of Telecommunications (Germany), vol. 50, no. 5/6, pp. 124-127, 1996.
[65] R. Senani, ‘Alternative modification of the classical GIC structure’, Electronics Letters, IEE (UK), vol. 32, no. 15, p. 1329, 1996.
[66] R. Senani and V. K. Singh, ‘Novel Single-Resistance-Controlled Oscillator Configuration using Current Feedback Amplifiers’, IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications (USA), vol. 43, no. 8, pp. 698-700, 1996.
[67] R. Senani and S. S. Gupta, ‘Synthesis of Single-Resistance-Controlled Oscillators using CFOAs: Simple State Variable Approach’, IEE Proc. Part G: Circuits, Devices and Systems (UK), vol. 144, no.2, pp. 104-106, 1997.
[68] R. Senani and S. S. Gupta, ‘Universal voltage mode/current mode filter realized with Current feedback Op-Amps’, Frequenz: Journal of Telecommunications (Germany), vol. 51, no. 7/8, pp. 203-208, 1997.
[69] R. K. Swami and R. Senani, ‘New macromodels of a Switch for SPICE Applications’, IEEE Transactions on Education (USA), vol. 40, no. 4, pp. 273-277, 1997.
[70] A. K. Singh and R. Senani, ‘Low-component-count active-only immittances and their application in realizing simple multifunction Biquads’, Electronics Letters, IEE (UK), vol. 34, no. 8, pp. 718-719, 1998.
[71] R. Senani and S. S. Gupta, ‘Implementation of Chua’s chaotic circuit using current feedback op-amps’, Electronics Letters, IEE (UK), vol. 34, no. 9, pp. 829-830, 1998.
[72] S. S. Gupta and R. Senani, ‘State variable synthesis of single-resistance-controlled grounded-capacitor oscillators using only two CFOAs’, IEE Proceedings: Circuits, Devices and Systems (UK), vol. 145, no. 2, pp. 135-138, 1998.
[73] R. Senani, ‘Realization of a class of Analog Signal Processing/Signal Generation Circuits: Novel configurations using current feedback op-amps’, Frequenz: Journal of Telecommunications (Germany), vol. 52, no. 9/10, pp. 196-206, 1998.
[74] S. S. Gupta and R. Senani, ‘State variable synthesis of single-resistance-controlled grounded-capacitor oscillators using only two CFOAs: Additional New Realizations’, IEE Proceedings: Circuits, Devices and Systems (UK), vol. 145, no. 6, pp. 415-418, 1998.
[75] A. K. Singh, R. Senani and M. P. Tripathi, ‘Low-component-count, high frequency resonators and their applications, using op-amp compensation poles’, Frequenz: Journal of Telecommunications (Germany), vol. 53, no. 7/8, pp. 161-169, 1999.
[76] S. S. Gupta and R. Senani, ‘Grounded-capacitor current-mode SRCO: Novel application of DVCCC’, Electronics Letters, IEE (UK), vol. 36, no. 3, pp. 195-196, 2000.
[77] R. Senani and S. S. Gupta, ‘Novel SRCOs using first generation Current Conveyors’, International Journal of Electronics (UK), vol. 87, no. 10, pp. 1187-1192, 2000.
[78] A. K. Singh and R. Senani, ‘Active-R design using CFOA-poles: New resonators, filters and oscillators’, IEEE Transactions on Circuits and Systems II- Analog and Digital Signal Processing (USA), vol. 48, no. 5, pp. 504-511, 2001.
[79] S. S. Gupta and R. Senani, ‘CMOS differential difference current conveyors and their applications’, IEE Proceedings: Circuits, Devices and Systems (UK), vol. 148, no. 6, pp. 335-336, 2001.
[80] R. Senani and A. K. Singh, ‘A new Universal Current mode biquad filter’, Frequenz: Journal of Telecommunications (Germany), vol. 56, no. 1/2, pp. 55-59, 2002.
[81] A. K. Singh and R. Senani, ‘A new four-CC-based configuration for realizing a voltage-mode biquad filters’, Journal of Circuits, Systems and Computers (USA), vol. 11, no. 3, pp. 213-218, 2002.
[82] P. Kumar and R. Senani, ‘Bibliography on nullors and their applications in circuit analysis, synthesis and design’, Analog Integrated Circuits and Signal Processing (USA), vol. 33, no. 1, pp. 65-76, 2002.
[83] S. S. Gupta and R. Senani, ‘Realization of Current-mode SRCOs using All Grounded Passive Elements, Frequenz: Journal of Telecommunications (Germany), vol. 57, no. 1-2, pp. 26-37, 2003.
[84] R. Senani, A. K. Singh and V. K. Singh, ‘New tunable SIMO-type Current mode Universal biquad using MOCCs and all grounded passive elements’, Frequenz: Journal of Telecommunications (Germany), vol. 57, no. 7-8, pp. 160-161, 2003.
[85] R. K. Sharma and R. Senani, ‘Multifunction CM/ VM biquads realized with a single CFOA and grounded capacitors’, International Journal of Electronics and Communications, AEU (Germany), vol. 57, no. 5, pp. 301-308, 2003.
[86] R. K. Sharma and R. Senani, ‘Universal current-mode biquad using a single CFOA’, International Journal of Electronics (UK), vol. 91, no. 3, pp. 175-183, 2004.
[87] R. Senani, A. K. Singh and V. K. Singh, ‘A new floating current controlled positive resistance using mixed-translinear cells’ IEEE Transactions on Circuits and Systems II: Express Brief (USA), vol. 51, no. 7, pp. 374-377, 2004.
[88] R. K. Sharma and R. Senani, ‘On the realization of Universal current mode biquads using a single CFOA’, Analog Integrated Circuits and Signal Processing (USA), vol. 41, no. 1, pp. 65-78, 2004.
[89] R. Senani and S. S. Gupta, ‘Novel sinusoidal oscillators using only unity-gain voltage followers and current followers’, IEICE Electronics Express (Japan), vol. 1, no. 13, pp. 404-409, 2004.
[90] R. Senani, V. K. Singh, A. K. Singh and D. R. Bhaskar, ‘Novel electronically controllable current-mode universal biquad filter’, IEICE Electronics Express (Japan), vol. 1, no. 14, pp. 410-415, 2004.
[91] S. S. Gupta and R. Senani, ‘New single resistance controlled oscillators employing a reduced number of unity-gain cells’, IEICE Electronics Express (Japan), vol. 1, no. 16, pp. 507-512, 2004.
[92] D. R. Bhaskar, A. K. Singh, R. K. Sharma and R. Senani, ‘New OTA-C universal current-mode/ trans-admittance biquads’, IEICE Electronics Express (Japan), vol. 2, no. 1, pp. 8-13, 2005.
[93] R. Senani and R. K. Sharma, ‘Explicit current output sinusoidal oscillators employing only a single current feedback op-amp’, IEICE Electronics Express (Japan), vol. 2, no. 1, pp. 14-18, 2005.
[94] D. R. Bhaskar and R. Senani, ‘New FTFN-based Grounded-Capacitor SRCO with explicit current-mode output and reduced number of resistors’, International Journal of Electronics and Communications (AEUE) (Germany), vol. 59, no. 1, pp. 48-51, 2005.
[95] V. K. Singh, A. K. Singh and R. Senani, ‘Dual-function capability of a recently proposed Grounded-capacitor-four-CC biquad’, Journal of Circuits, Systems and Computers (USA), vol. 14, no. 1, pp. 51-56, 2005.
[96] S. S. Gupta and R. Senani, ‘New grounded-capacitor SRCOs using a single differential-difference-complementary-current-feedback-amplifier’, IEE Proceedings: Circuits, Devices and Systems (UK), vol. 152, no. 1, pp. 38-48, 2005.
[97] A. K. Singh and R. Senani, ‘CFOA-based state-variable biquad and its high-frequency compensation’, IEICE Electronics Express (Japan), vol. 2, no. 7, pp. 232-238, 2005.
[98] R. Senani, V. K. Singh, A. K. Singh and D. R. Bhaskar, ‘Tunable current-mode universal biquads employing only three MOCCs and all grounded passive elements: additional new realizations’, Frequenz: Journal of Telecommunications (Germany), vol. 59, no. 7-8, 2005.
[99] V. K. Singh, A. K. Singh, D. R. Bhaskar and R. Senani, ‘Novel mixed-mode universal biquad configuration’, IEICE Electronics Express (Japan), vol. 2, no. 22, pp. 548-553, 2005.
[100] V. K. Singh, R. K. Sharma, A. K. Singh, D. R. Bhaskar and R. Senani, ‘Two new canonic single-CFOA oscillators with single resistor controls’, IEEE Transactions on Circuits and Systems II: Express Brief (USA), vol. 52, no. 12, pp. 860-864, 2005.
[101] S. S. Gupta and R. Senani, ‘New single resistance controlled oscillator configurations using unity-gain cells’, Analog Integrated Circuits and Signal Processing (USA), vol. 46, no, 2, pp. 111-119, Feb, 2006.
[102] R. Senani and S. S. Gupta, ‘New universal filter using only current followers as active elements’, International Journal of Electronics and Communications (AEUE) (Germany), vol. 60, no. 3, pp.251-256, March 2006.
[103] R. Senani, ‘New Universal Current-mode biquad employing all grounded passive components but only two DOCCs’, Journal of Active and Passive Electronic Devices (USA), vol. 1, pp. 281-288, July 2006.
[104] S. S. Gupta, R. K. Sharma, D. R. Bhaskar and R. Senani, ‘Synthesis of sinusoidal oscillators with explicit current output using Current feedback Op-amps’, WSEAS Transactions on Electronics (USA), Vol. 3, no. 7, pp. 385-388, July 2006.
[105] P. Kumar, R. Senani, R. K. Sharma and S. S. Gupta, ‘Unified methodology for realizing Fully differential Current-mode filters’, WSEAS Transactions on Electronics (USA), Vol. 3, no. 7, pp. 389-392, July 2006.
[106] Pragati Kumar and R. Senani, ‘A systematic realization of current-mode universal biquad filters’, International Journal of Electronics (UK), vol. 93, no. 9, pp. 623-636, September 2006.
[107] V. K. Singh, A. K. Singh, D. R. Bhaskar and R. Senani, ‘New Universal Biquads using CFOAs’, IEEE Transactions on Circuits and Systems II: Express Brief (USA), vol. 53, no. 11, pp. 1299-1303, November 2006.
[108] S. S. Gupta and R. Senani, ‘New voltage-mode/current-mode Universal biquad filter using unity gain cells’, International Journal of Electronics (UK), vol. 93, no. 11, pp. 769-775, November 2006.
[109] D. R. Bhaskar, R. K. Sharma, A. K. Singh and R. Senani, ‘New dual-mode biquads using OTAs’, Frequenz (Germany), vol. 60, pp. 246-252, November 2006.
[110] D. R. Bhaskar and R. Senani, ‘New CFOA-based Single-element-controlled Sinusoidal Oscillators', IEEE Trans. on Instrumentation and Measurement (USA), vol. 55, no. 6, pp. 2014-2021, December 2006.
[111] Pragati Kumar and R. Senani, ‘Improved SRCO using a single PFTFN’, Analog Integrated Circuits and Signal Processing (USA), vol. 50, no. 2, pp. 147-149, February 2007.
[112] R. Senani and D. R. Bhaskar, ‘Practical voltage/ current-controlled grounded resistor with dynamic range extension’, IET Circuits, Devices and Systems (UK), vol. 2, no. 5, pp. 465-466, December 2008.
[113] D. Biolek, R. Senani, V. Biolkova and Z. Kolka, ‘Active elements for analog signal processing; classification, review and new proposals’, Radioengineering Journal (Czech Republic), vol. 17, no. 4, pp. 15-32, December 2008.
[114] R. K. Sharma, R. Senani, D. R. Bhaskar, A.K. Singh and S.S. Gupta, ‘Electronically tunable floating inductor using operational mirrored amplifier’, Journal of Circuits, Systems and Computers (USA), vol. 18, no. 1, pp. 59-66, February 2009.
[115] S. S. Gupta, D. R. Bhaskar and R. Senani, ‘New Voltage-controlled oscillators using CFOAs’, International Journal of Electronics and Communications (AEUE: Germany), vol. 63, no. 3, pp. 209-217, March 2009.
[116] R. Senani, D. R. Bhaskar, S.S. Gupta and V. K. Singh, ‘A configuration for realizing linear, voltage-controlled resistance, inductance and FDNC elements’, International Journal of Circuit Theory and Applications (Ireland), vol. 37, no. 5, pp. 709-719, June 2009.
[117] S.S. Gupta, D.R. Bhaskar, R. Senani and A. K. Singh, ‘Inverse active filters employing CFOAS’, Electrical Engineering (Archiv fur Elektronik: Germany), vol. 91, pp. 23-26, June 2009.
[118] S.S. Gupta, R.K. Sharma, D.R. Bhaskar and R. Senani, ‘Sinusoidal oscillators with explicit current output employing current-feedback op-amps, International Journal of Circuit Theory and Applications (Ireland), vol. 38, no.2, pp. 131-147, March 2010.
[119] D. R. Bhaskar, R. Senani and A. K. Singh, ‘Linear sinusoidal VCOs: new configurations using current-feedback-op-amps’, International Journal of Electronics (UK), vol. 97, no. 3, pp. 263-272, March 2010.
[120] D. R. Bhaskar, Kasim K. Abdalla and R. Senani: `New SRCO with explicit current mode output using two CCs and grounded capacitors’, Turkish Journal of Elec. Engg. and Computer Science (Turkey), vol. 19, No. 2, pp. 235-244, March 2011
[121] Kasim K Abdalla, D. R. Bhaskar and R. Senani, ‘New Universal Current-mode Biquad Using All Grounded passive Components and without requiring any Component–Matching’, Journal of Active and Passive Electronic Devices (USA), vol. 6, No. 1-2, pp. 109-117, Jan/April 2011
[122] D. R. Bhaskar, Kasim K. Abdalla and R. Senani: `Electronically-controlled Current-mode Second order Sinusoidal Oscillators using MO-OTAs and Grounded capacitors’, Circuits and Systems (USA), vol. 2, no. 1, pp. 65-73, April 2011
[123] A. K. Singh, R. Senani, D.R. Bhaskar and R.K. Sharma, ‘A new electronically-tunable active only Universal biquad’, Journal of Circuits, Systems and Computers (USA), vol. 20, No. 3, pp. 549-555, May 2011
[124] J. K. Pathak, A. K. Singh and R. Senani: ‘Systematic realization of quadrature oscillators using current differencing buffered amplifiers’, IET Circuits Devices Systems (UK), vol. 5, issue 3, pp. 203-211, May 2011
[125] S. S. Gupta, D. R. Bhaskar and R. Senani: `Synthesis of Linear VCOs: The State variable approach’, Journal of Circuits, Systems and Computers (USA), vol. 20, no. 4, June 2011.
[126] S. S. Gupta, D.R. Bhaskar and R. Senani, ‘New analog inverse filter realized with current feedback op-amps’, International Journal of Electronics (UK), vol. 98, no. 8, pp. 1103-1113, August 2011.
[127] R. Senani, Kasim K. Abdalla and D. R. Bhaskar: `A State variable method for the realization of Universal Current mode biquads’, Circuits and Systems (USA), vol. 2, no. 4, pp. October 2011
[128] R. Senani and S.S. Gupta, ‘Current-mode universal biquad using current followers: A minimal realization’ Radioengineering Journal (Czech Republic) vol. 20. no. 4, pp. 898-904, December 2011.
[129] Ashish Gupta, R. Senani, D.R. Bhaskar and A.K. Singh, ‘OTRA-based grounded-FDNR and grounded inductance simulators and their applications’, Circuits, Systems and Signal Processing, vol. 31, no. 2, pp. 489-499, April 2012.
[130] B. Singh, A. K. Singh and R. Senani, New Universal Current-mode Biquad using only three ZC-CFTAs’ Radioengineering Journal (Czech Republic), vol. 21, no. 1, pp. 273-280, April 2012
[131] R. Senani: `On the transformation of grounded inductors to floating inductors using OFA and FCCII’, Journal of Circuits, Systems and Computers (USA), Vol. 21, No. 5, August 2012, DOI: 10.1142/s1142/s0218126612
[132] Kasim K. Abdalla, D. R. Bhaskar and R. Senani: `Configuration for releasing a Current-mode Universal filter and dual mode Quadrature SRCO’: IET Circuits, Devices and Systems (UK), vol. 6, no. 3, pp. 159-167, August 2012
[133] D. R. Bhaskar, S. S. Gupta, R. Senani and A.K. Singh: `New CFOA-based Sinusoidal Oscillators retaining independent control of oscillation frequency even under the influence of parasitic impedances’, Analog Integrated Circuits and Signal Processing (USA), vol. 73, no. 1, pp. 427-437, October 2012
[134] K. K. Abdalla, D.R. Bhaskar and R. Senani, `A review of the evolution of the current-mode circuits and techniques and various modern analog circuit building blocks’, Nature and Science (USA), Vol. 21, no. 10, pp. 1-13, October 2012
[135] R. Senani and D. R. Bhaskar: `New loss-less/lossy Synthetic Floating Inductance configuration realized with only two CFOAs’, Analog Integrated Circuits and Signal Processing (USA), Vol. 2012, Article ID 463680, DOI: 10.5402/433680
[136] S. S. Gupta, D. R. Bhaskar and R. Senani, `Synthesis of new single CFOA-based VCOs incorporating the voltage summing property of analog multipliers’ ISRN Electronics (USA), appeared online 29 June 2012, DOI: 10.1007/s10470-012-9897-5. 2012
[137] B. Singh, A. K. Singh and R. Senani, `Realization of SRCOs: another new application of DDAs’, Analog Integrated Circuits and Signal Processing (USA), vol. 76, no. 2, pp. 267-272, August 2012
[138] B. Singh, A. K Singh and R. Senani. A new universal biquad filter using differential difference amplifiers and its practical realization. Analog Integrated Circuits and Signal Processing (USA), Vol. 75, no. 2, pp. 293-297, May 2013
[139] Ashish Gupta, R. Senani, D. R. Bhaskar and A. K. Singh, ‘New OTRA-Based Generalized Impedance Simulator’, ISRN Electronics (USA), Vol. 2013, Article ID 907597, 10 pages
[140] J. K. Pathak, A. K. Singh and R. Senani, `New Voltage Mode Universal Filters using only two CDBAs’, ISRN Electronics (USA), vol. 2013, doi/10.1155/2013/987687, 6 pages
[141] J. K. Pathak, A. K. Singh and R. Senani, `New Multiplier/Divider using a Single CDBA’, American Journal of Electrical and Electronics Engineering (USA), Vol. 2, no. 3, pp. 98-102, 2014
[142] R. Senani, Manish Gupta, D. R. Bhaskar and A. K. Singh, `Generation of equivalent forms of operational transconductance amplifier-RC sinusoidal oscillators: the nullor approach’, Journal of Engineering, IET (UK), 2014 (doi:10.1049/loe.2013.0200)
[143] J. K. Pathak, A. K. Singh and R. Senani, `New Squarer and Square-rooting Circuits using CDBAs’, American Journal of Electrical and Electronics Engineering (USA), Vol. 2, No. 6, pp. 175-179, 2014
[144] D. K. Srivastava, V. K. Singh and R. Senani, `New Very Low frequency Oscillator using only a Single CFOA’, American Journal of Electrical and Electronics Engineering (USA), Vol. 3, no. 1, pp. 1-3, 2015
[145] J. K. Pathak, A. K. Singh and R. Senani, `New Canonical lossy inductor using a single CDBA and its applications’, International Journal of Electronics (UK), 2015 (to appear)

II Book Chapters

[1] R. Senani, A. K. Singh, Pragati Kumar and R. K. Sharma, `Nullors, their Bipolar and CMOS Implementations and Applications in Analog Circuit Synthesis and Design’, Ch. 2, pp. 31-59, in `Integrated Circuits for Analog Signal Processing’ Edited by Esteban Tlelo-Cuautle, Springer (USA), 2012
[2] R. Senani, D. R. Bhaskar, S. S. Gupta and V. K. Singh, `Current feedback Op-amps, Their Applications, Bipolar/CMOS Implementations and their Variants, Ch. 3, pp. 61-84, in `Integrated Circuits for Analog Signal Processing’ Edited by Esteban Tlelo-Cuautle, Springer (USA), 2012
[3] R. Senani, D. R. Bhaskar, A. K. Singh and R.K Sharma, `Synthesis of Analog Circuits using only Voltage and Current Followers as Active elements’, Ch. 1 in `RF/Analog and Mixed Signal Circuits Systematic Design’ edited by Mourad Fakhfakh, Esteban Tlelo-Cuautle and Rafael Castro-Lopez, Springer (USA), 2013
[4] R. Senani, D. R. Bhaskar, A. K. Singh and V.K. Singh, `Synthesis of Electronically-Controllable Signal Processing and Signal Generation Circuits using Modern Active Building Blocks, Ch. 2 in `RF/Analog and Mixed Signal Circuits Systematic Design’ edited by Mourad Fakhfakh, Esteban Tlelo-Cuautle and Rafael Castro-Lopez, Springer (USA), 2013

Part III Books/ Research Monographs Published
[1] R. Senani, D. R. Bhaskar, V. K. Singh and A. K. Singh, `Current Feedback Operational Amplifiers and Their Applications', Springer Science+ Business Media, New York, 2013 ISBN 978-1-4614-5187-7
[2] R. Senani `Novel Analog Circuits Using Op-Amps, OTAs and Current Conveyors' Technology & Engineering/Electronics, Lambert Academic Publishers, Germany, May 2014 ISBN 978-3-659-53746-2
[3] R. Senani, D. R. Bhaskar and A. K. Singh, `Current Conveyors: Variants, Applications and Hardware Implementations', Springer International Publishing, Switzerland, 2015 ISBN 978-3-319-08683-5

Part IV: Research Papers published in National Journals

[1] R. Senani, ‘Canonic synthetic floating inductance circuits requiring only a single component-matching condition’, Journal of the IETE (India), vol. 27, no. 6, pp. 201-204, June 1981.
[2] R. Senani, ‘Realization of Linear Circuits using IC op-amps: Some appraisals (Invited paper)’, Students’ Journal of the IETE (India), vol. 31, no.2, pp. 61-70, April 1990.

Part V: Design Ideas

[1] R. Senani, ‘Two ICs make biquad filter’, Electronics World+ Wireless World (UK), p. 922, November 1994.

Part VI: International Conference Publications

[1] R. Senani, ‘New single resistance controlled sinusoidal oscillators using the concept of frequency dependent negative resistance’, Proc. 22nd Midwest Symposium on Circuits and Systems, Philadelphia (USA), pp. 279-283, 17-19 June 1979.
[2] R. K. Sharma, R. Senani, D. R. Bhaskar, A. K. Singh, S. S. Gupta, ` Electronically-controllable floating inductor using OMA with enhanced input dynamic range’, ELECO-2009, International Conference on Electrical and Electronics Engineering (Turkey), 2009.
[3] D.R. Bhaskar, K. K. Abdalla and R. Senani, ` New SRCO with explicit current-mode output using two CCs and grounded capacitors’, International Conference on Electrical and Electronics Engineering, ELECO-2009, (Turkey), 2009
[4] P. Kumar, R. Senani, R. K. Sharma and S. S. Gupta, `Unified methodology for realizing fully-differential current-mode filter’s, Proceedings of the 5th WSEAS International Conference on Circuits, Systems, Electronics, Control & Signal Processing (USA), pp. 134-137, 2007
[5] S.S. Gupta, R.K. Sharma, D. R. Bhaskar and R. Senani, Synthesis of sinusoidal oscillators with explicit current output using current feedback op-amps’ Proceedings of the 5th WSEAS International Conference on Circuits, Systems, Electronics, Control & Signal Processing (USA), pp. 242-245, 2007
[6] D. R. Bhaskar and R. Senani, ‘Simulation of a floating inductance: A new two-CFOA-based configuration’, Fifth International Conference on Computational Intelligence Modelling and Simulation (CIMSim), pp. 381-383, Seoul, South Korea, 24-26 September 2013.