**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’,

[2]
** R. Senani**, ‘Active simulation of inductors using Current
Conveyors’,

[3]
** R. Senani**, ‘Realization of single resistance-controlled lossless
floating

[4]
** R.
Senani**, ‘New canonic
sinusoidal oscillator with independent control through a single grounded
resistor’,

[5]
** R. Senani**, ‘New canonic single resistance controlled sinusoidal
oscillator using a single Current Conveyor’,

[6]
** R. Senani**, ‘Novel active-RC circuit for floating inductance
simulation’,

[7]
** R. Senani**, ‘Some observations concerning the methods of filter
and oscillator realization using the concept of FDNR’,

[8]
** R. Senani**, ‘Novel circuit implementation of Current Conveyors
using an OA and an OTA’,

[9]
** R. Senani**, ‘Novel sinusoidal oscillator employing grounded
capacitors’,

[10]
** R. Senani**, ‘Novel active-RC realizations of tunable floating
inductors’,

[11]
** R. Senani**, ‘A new technique for inductance-to-time period
conversion using integrated circuit operational amplifiers’

[12]
** R. Senani**, ‘New tunable synthetic floating inductors’,

[13]
** R. Senani**, ‘Linear resistance-to-frequency conversion using
Integrated circuit operational amplifiers’,

[14]
** R. Senani**, ‘Some new synthetic floating inductance
configurations’,

[15]
** R. Senani**, ‘Authors reply to “Comments on New canonic active RC
realizations of grounded and floating inductors”,

[16]
** R. Senani**, ‘Novel lossless synthetic floating inductor
employing a grounded capacitor’,

[17]
** R. Senani**, ‘A class of single-element-controlled sinusoidal
oscillators’,

[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’,

[20]
** R. Senani**, ‘Novel application of generalized Current Conveyor’,

[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’,

[23]
** R. Senani**, ‘New types of sine wave oscillators’,

[24]
** R. Senani**, ‘Novel higher order active filter design using
Current Conveyors’,

[25]
** R. Senani**, ‘Network transformation for active-RC realization of
RLM immittances’,

[26]
** R. Senani**, ‘On the realization of floating active elements’,

[27]
** R. Senani**, ‘On linear Inductance-Time and related conversions
using IC op-amps’,

[28]
** R. Senani**, ‘Network transformations for incorporating non-ideal
simulated immittances in the design of active filters and oscillators’,

[29]
** R. Senani**, ‘On the transformation of RC-active oscillators’,

[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’,

[32]
** R. Senani**, ‘Floating immittance realization: The nullor
approach’,

[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’

[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’,

[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’,

[39]
** R. Senani**, M. P. Tripathi, D. R. Bhaskar and A. K. Banerjee,
‘Systematic

[40]
V. K. Singh and ** R. Senani**, ‘New multifunction active filter configuration
employing Current Conveyors’,

[41]
** R. Senani**, A. K. Banerjee, M. P. Tripathi and D. R.
Bhaskar, ‘Some simple Techniques of
generating OTA-C Sinusoidal Oscillators’,

[42]
** R. Senani** and D. R. Bhaskar, ‘Single-op-amp Sinusoidal
oscillators suitable for generation of Very Low Frequencies’,

[43]
** R. Senani** and D. R. Bhaskar, ‘Realization of Voltage-controlled

[44]
** R. Senani** and D. R. Bhaskar, ‘A simple configuration for
realizing Voltage-Controlled Impedances’,

[45]
** R. Senani** and V. K. Singh, ‘Single-element-controlled
Sinusoidal Oscillator employing a single Current Conveyor IC’

[46]
** R. Senani**, ‘New Current mode biquad Filter’,

[47]
** R. Senani**, ‘Simple Sinusoidal Oscillator using op-amp
compensation poles’,

[48]
D. R.
Bhaskar and ** R. Senani, **‘New
Current Conveyor based Single resistance controlled/voltage-controlled oscillator
employing grounded capacitors’,

[49]
D. R.
Bhaskar, M. P. Tripathi and ** R. Senani,**
‘A class of three-OTA-two-Capacitor Oscillators with non-interacting controls’,

[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’,

[52]
J.
Malhotra and ** R. Senani, **‘Class of floating, generalized
positive/negative immittance converters/inverters realized with Operational
Mirrored Amplifiers’,

[53]
D. R.
Bhaskar and ** R. Senani**, ‘New linearly
tunable CMOS-compatible OTA-C oscillators with non-interacting controls’,

[54]
** R. Senani** and J. Malhotra, ‘Minimal realizations of a class of
Operational-Mirrored-Amplifier-based floating impedances’,

[55]
** R. Senani** and D. R. Bhaskar, ‘Versatile Voltage-Controlled
Impedance Configuration’,

[56]
** R. Senani**, ‘On Equivalent forms of Single-Op-Amp Sinusoidal RC
Oscillators’,

[57]
** R. Senani**, ‘Realization of linear voltage-controlled-resistance
in floating form’

[58]
** R. Senani**, ‘Floating GNIC/GNII Configuration realized with only
a single OMA’,

[59]
** R. Senani** and V. K. Singh, ‘KHN-equivalent biquad using Current
Conveyors’,

[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’,

[62]
** R. Senani** and D. R. Bhaskar, ‘New active-R Sinusoidal VCOs with
linear tuning laws’,

[63]
__R. Senani__** **and V. K. Singh, ‘Synthesis of Canonic Single
Resistance Controlled Oscillators using a single Current-Feedback-Amplifier’,

[64]
** R. Senani**, ‘A simple approach of deriving Single-input-multiple-output
current Mode biquad filters’,

[65]
** R. Senani**, ‘Alternative modification of the classical GIC
structure’,

[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’,

[69]
R. K.
Swami and ** R. Senani**, ‘New
macromodels of a Switch for SPICE Applications’,

[70]
A. K.
Singh and ** R. Senani**, ‘Low-component-count
active-only immittances and their application in realizing simple multifunction
Biquads’,

[71]
** R. Senani** and S. S. Gupta, ‘Implementation of Chua’s chaotic
circuit using current feedback op-amps’,

[72]
S. S.
Gupta and ** R. Senani**, ‘State
variable synthesis of single-resistance-controlled grounded-capacitor
oscillators using only two CFOAs’,

[73]
** R. Senani**, ‘Realization of a class of Analog Signal
Processing/Signal Generation Circuits: Novel configurations using current
feedback op-amps’,

[74]
S. S.
Gupta and ** R. Senani**, ‘State
variable synthesis of single-resistance-controlled grounded-capacitor
oscillators using only two CFOAs: Additional New Realizations’,

[75]
A. K.
Singh, ** R. Senani** and M. P.
Tripathi, ‘Low-component-count, high frequency resonators and their
applications, using op-amp compensation poles’,

[76]
S. S.
Gupta and ** R. Senani, ‘**Grounded-capacitor
current-mode SRCO: Novel application of DVCCC’,

[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’,

[79]
S. S.
Gupta and ** R. Senani, **‘CMOS
differential difference current conveyors and their applications’,

[80]
** R. Senani** and A. K. Singh, ‘A new Universal Current mode biquad
filter’,

[81]
A. K. Singh and ** R. Senani**, ‘A new four-CC-based configuration for realizing
a voltage-mode biquad filters’,

[82]
P. Kumar and ** R. Senani**, ‘Bibliography on nullors and their applications
in circuit analysis, synthesis and design’,

[83]
S. S. Gupta and ** R. Senani**, ‘Realization of Current-mode SRCOs using All
Grounded Passive Elements,

[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’,

[85]
R. K. Sharma and ** R. Senani**, ‘Multifunction CM/ VM biquads realized with a
single CFOA and grounded capacitors’,

[86]
R. K. Sharma and ** R. Senani**, ‘Universal current-mode biquad using a single
CFOA’,

[87]
** R.
Senani**, A. K. Singh and V. K. Singh, ‘A new floating current controlled
positive resistance using mixed-translinear cells’

[88]
R. K. Sharma and ** R. Senani**, ‘On the realization of Universal current mode
biquads using a single CFOA’,

[89]
** R. Senani** and S. S. Gupta, ‘Novel sinusoidal oscillators using
only unity-gain voltage followers and current followers’,

[90]
** R. Senani**, V. K. Singh, A. K. Singh and D. R. Bhaskar, ‘Novel
electronically controllable current-mode universal biquad filter’,

[91]
S. S.
Gupta and ** R. Senani**, ‘New single resistance controlled
oscillators employing a reduced number of unity-gain cells’,

[92]
D. R.
Bhaskar, A. K. Singh, R. K. Sharma and ** R.
Senani**, ‘New OTA-C universal current-mode/ trans-admittance biquads’,

[93]
** R. Senani** and R. K. Sharma, ‘Explicit current output sinusoidal
oscillators employing only a single current feedback op-amp’,

[94]
D. R.
Bhaskar and ** R. Senani**, ‘New
FTFN-based Grounded-Capacitor SRCO with explicit current-mode output and
reduced number of resistors’,

[95]
V. K.
Singh, A. K. Singh and ** R. Senani**,
‘Dual-function capability of a recently proposed Grounded-capacitor-four-CC
biquad’,

[96]
S. S.
Gupta and ** R. Senani**, ‘New
grounded-capacitor SRCOs using a single
differential-difference-complementary-current-feedback-amplifier’,

[97]
A. K.
Singh and ** R. Senani**,
‘CFOA-based state-variable biquad and its high-frequency compensation’,

[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’,

[99]
V. K.
Singh, A. K. Singh, D. R. Bhaskar and ** R.
Senani**, ‘Novel mixed-mode universal biquad configuration’,

[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’,

[101]
S. S.
Gupta and ** R. Senani**, ‘New single resistance controlled oscillator configurations
using unity-gain cells’,

[102]
** R. Senani** and S. S. Gupta, ‘New
universal filter using only current followers as active elements’,

[103]
** R. Senani**, ‘New Universal Current-mode biquad
employing all grounded passive components but only two DOCCs’,

[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’,

[105]
P.
Kumar, ** R. Senani**, R. K.
Sharma and S. S. Gupta, ‘Unified
methodology for realizing Fully differential Current-mode filters’,

[106]
Pragati
Kumar and ** R. Senani**, ‘A
systematic realization of current-mode universal biquad filters’,

[107]
V. K.
Singh, A. K. Singh, D. R. Bhaskar and ** R.
Senani**, ‘New Universal Biquads using CFOAs’,

[108]
S. S.
Gupta and ** R. Senani**, ‘New voltage-mode/current-mode Universal biquad filter
using unity gain cells’,

[109]
D. R.
Bhaskar, R. K. Sharma**,** A. K. Singh** **and ** R. Senani**, ‘New
dual-mode biquads using OTAs’,

[110]
D. R.
Bhaskar and ** R. Senani**, ‘New
CFOA-based Single-element-controlled Sinusoidal Oscillators',

[111]
Pragati
Kumar** **and ** R. Senani, ** ‘Improved
SRCO using a single PFTFN’,

[112]
** R. Senani** and
D. R. Bhaskar, ‘Practical voltage/
current-controlled grounded resistor with dynamic range extension’,

[113]
D.
Biolek, ** R. Senani**, V.
Biolkova and Z. Kolka, ‘Active elements for analog signal processing;
classification, review and new proposals’,

[114]
R. K.
Sharma, ** R. Senani**, D. R.
Bhaskar, A.K. Singh and S.S. Gupta, ‘Electronically tunable floating inductor
using operational mirrored amplifier’,

[115]
S. S.
Gupta, D. R. Bhaskar and ** R. Senani**,
‘New Voltage-controlled oscillators using CFOAs’,

[116]
** R. Senani**, D. R. Bhaskar, S.S. Gupta and V. K.
Singh,

[117]
S.S.
Gupta, D.R. Bhaskar, ** R. Senani**
and A. K. Singh, ‘Inverse active filters employing CFOAS’,

[118]
S.S.
Gupta, R.K. Sharma, D.R. Bhaskar and ** R.
Senani**, ‘Sinusoidal oscillators with explicit current output employing
current-feedback op-amps,

[119]
D. R.
Bhaskar, ** R. Senani** and A. K.
Singh, ‘Linear sinusoidal VCOs: new configurations using current-feedback-op-amps’,

[120]
D. R.
Bhaskar, ** R. Senani**, A. K.
Singh and S. S. Gupta, `Two simple Analog Multiplier based Linear VCOs using a
single Current Feedback Op-amp’,

[121]
D. R.
Bhaskar, Kasim K. Abdalla and ** R.
Senani**: `New SRCO with explicit current mode output using two CCs and
grounded capacitors’,

[122]
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’,

[123]
D. R.
Bhaskar, Kasim K. Abdalla and ** R.
Senani**: `Electronically-controlled Current-mode Second order Sinusoidal
Oscillators using MO-OTAs and Grounded capacitors’,

[124]
A. K.
Singh, ** R. Senani**, D.R.
Bhaskar and R.K. Sharma, ‘A new electronically-tunable active only Universal
biquad’,

[125]
J. K.
Pathak, A. K. Singh and ** R. Senani**:
‘Systematic realization of quadrature oscillators using current differencing
buffered amplifiers’,

[126]
S. S.
Gupta, D. R. Bhaskar and ** R. Senani**:
`Synthesis of Linear VCOs: The State variable approach’,

[127]
S. S.
Gupta, D.R. Bhaskar and ** R. Senani**,
‘New analog inverse filter realized with current feedback op-amps’,

[128]
** R. Senani**, Kasim K. Abdalla and D. R. Bhaskar: `A State
variable method for the realization of Universal Current mode biquads’,

[129]
** R. Senani** and S.S. Gupta, ‘Current-mode universal biquad using
current followers: A minimal realization’

[130]
Ashish
Gupta, ** R. Senani**, D.R.
Bhaskar and A.K. Singh, ‘OTRA-based grounded-FDNR and grounded inductance
simulators and their applications’,

[131] B. Singh, A. K.
Singh and ** R. Senani**, New
Universal Current-mode Biquad using only three ZC-CFTAs’

[132]
** R. Senani**: `On the
transformation of grounded inductors to floating inductors using OFA and
FCCII’,

[133]
Kasim
K. Abdalla, D. R. Bhaskar and ** R.
Senani**: `Configuration for releasing a Current-mode Universal filter
and dual mode Quadrature SRCO’:

[134]
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

[135]
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’,

[136]
** R. Senani** and D. R. Bhaskar: `New loss-less/lossy Synthetic
Floating Inductance configuration
realized with only two CFOAs’,

[137]
S. S.
Gupta, D. R. Bhaskar and ** R. Senani**,
`Synthesis of
new single CFOA-based VCOs incorporating the voltage summing property of analog
multipliers’

[138]
B.
Singh, A. K. Singh and __R. Senani____, __`Realization of SRCOs: another new
application of DDAs’,

[139]
B.
Singh, A. K Singh and ** R. Senani**.
A new universal biquad filter using differential difference amplifiers and its
practical realization

[140]
Ashish
Gupta, ** R. Senani,** D. R. Bhaskar

[141]
J. K.
Pathak, A. K. Singh and ** R. Senani,**
`New Voltage Mode Universal Filters using only two CDBAs’,

[142]
J. K.
Pathak, A. K. Singh and ** R. Senani**,
`New Multiplier/Divider using a Single CDBA’,

[143]
** 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’,

[144] J. K. Pathak, A. K. Singh and ** R. Senani**, `New Squaring and
Square-rooting Circuits using CDBAs’,

[145] J. K. Pathak, A. K. Singh and ** R. Senani**, `New Canonical lossy
inductor using a single CDBA and its applications’,

[146]
D. K.
Srivastava, V. K. Singh and ** R. Senani**,
`New Very Low frequency Oscillator using only a Single CFOA’,

[147]
M. K.
Jain, V. K. Singh and ** R. Senani**,
`A bibliography of the work done on Externally linear and internally nonlinear
Circuits during 1979-2014

[148]
D. K.
Srivastava, V. K. Singh and ** R. Senani**,
`

[149]
D. R.
Bhaskar and ** R. Senani**, `Synthetic
Floating Inductors realized with only two Current Feedback Op-amps,

[150]
** R. Senani**, D. R. Bhaskar, Manish Gupta and A. K. Singh,
`Canonic OTA-C Sinusoidal Oscillators: Generation of new Grounded-capacitor
versions’,

__Part
II 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

[4 ** R. Senani,** D. R.
Bhaskar, V. K. Singh and R. K. Sharma, `Sinusoidal Oscillators and Waveform
Generators using Modern Electronic Circuit Building Blocks', Springer
International Publishing, Switzerland, Hardcover ISBN
978-3-319-23711-4; eBook ISBN
978-3-319-23712-1; 17 November, 2015 (release date)

III 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

[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 `

[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

[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

__Part IV: Research Papers published in
National Journals__

[1] ** R.
Senani**, ‘Canonic synthetic floating inductance circuits requiring only
a single component-matching condition’,

[2] ** R.
Senani**, ‘Realization of Linear Circuits using IC op-amps: Some
appraisals (Invited paper)’,

__ Part V: Design Ideas__

[1] ** R. Senani,** ‘Two ICs make biquad filter’,

__ Part VI: International Conference Publications__

[1]** R.
Senani**, ‘New single resistance controlled sinusoidal oscillators using
the concept of frequency dependent negative resistance’,

[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’,

[3]
D.R. Bhaskar, K. K. Abdalla and ** R.
Senani**, ` New SRCO with
explicit current-mode output using two CCs and grounded capacitors’,

[4]
P. Kumar, ** R. Senani**, R. K.
Sharma and S. S. Gupta, `Unified methodology for realizing fully-differential
current-mode filter’s,

[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’,

Back to the original page

Research collaborators