Research
Publications of Professor Raj Senani
I.
Papers published 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. 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, Author’s reply on ‘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’, Archiv fur Elektronik:
Journal of Electrical Engineering (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]
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, 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, 2011
[122]
D. R. Bhaskar, Kasim K. Abdalla and R. Senani: `New SRCO with explicit
current mode output using two CCs and grounded capacitors’, Turk. Journal
of Elec. Engg. And Computer Science (Turkey),
vol. 19, No. 2, pp. 235-244, 2011
[123]
D. R. Bhaskar, Kasim
K. Abdalla and R. Senani:
`Electronically-controllable Current-mode Second order Sinusoidal Oscillators
using MO-OTAs and Grounded capacitors’, Circuits and Systems (USA), vol. 2,
No. 1 pp. 65-73, 2011
[124]
R. Senani, Kasim K. Abdalla and D. R. Bhaskar: `A
State variable method for their realization of Universal Current mode biquads’,
Circuits
and Systems (USA), vol. 2, No. 4, October 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, 2011.
[126]
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
[127]
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.
[128]
R. Senani and S.S. Gupta, ‘Current-mode
universal biquad using current followers: A minimal
realization’ Radio Engineering 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 (USA), vol. 31, no. 2, pp. 489-499, April
2012
[130]
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), 2012 (to appear)
[131]
B. Singh, A. K. Singh and R. Senani, New Universal
Current-mode Biquad using only three ZC-CFTAs’ Radio Engineering Journal (Czech
Republic) 2012 (to appear).
[132]
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 (to appear)
Part II: National Journal Publications
[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 III: Design Ideas
[1] R.
Senani, ‘Two ICs make biquad filter’, Electronics
World and Wireless World (UK), p. 922, November 1994.
Part IV: International Conference Publication
[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.
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