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International Journal of Electronics Volume 99, 2012 - Issue 2
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Original Articles

FDCCII-based FDNR simulator topologies

Fırat Kaçar Electrical and Electronics Engineering Department, Istanbul University, Istanbul, Turkey
&
Abdullah Yeşil Electrical and Electronics Engineering Department, Istanbul University, Istanbul, TurkeyCorrespondence[email protected]
Pages 285-293 | Received 22 Nov 2010, Accepted 09 Jul 2011, Published online: 20 Sep 2011

Citations (19)

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Read on this site (4)

Kapil Bhardwaj, Mayank Srivastava & Worapong Tangsrirat. (2023) New resistor-less tunable floating and grounded FDNR simulators. International Journal of Electronics 110:5, pages 849-881.
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Sinem KELEŞ & Fatih KELEŞ. (2023) Low Voltage-Low Power Wide Range FGMOS Fully Differential Difference Current Conveyor And Application Examples. International Journal of Electronics 0:0, pages 1-16.
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Ravendra Singh & Dinesh Prasad. (2021) Electronic Tuneable Grounded and Floating FDNR using FTFNTA. Australian Journal of Electrical and Electronics Engineering 18:3, pages 209-215.
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Mehmet Cem Dikbaş & Umut Engin Ayten. (2018) Voltage difference transresistance amplifier and its application: floating FDNR simulator circuit. International Journal of Electronics 105:10, pages 1716-1727.
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Articles from other publishers (15)

Mohammad Faseehuddin, Sadia Shireen, Norbert Herencsar & Worapong Tangsrirat. (2023) Novel FDNR , FDNC and lossy inductor simulators employing second generation voltage conveyor ( VCII ) . International Journal of Numerical Modelling: Electronic Networks, Devices and Fields 36:5.
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Kapil Bhardwaj, Mayank Srivastava & Worapong Tangsrirat. (2023) New Resistor-Less Electronically Tunable OTA-based Fully Floating FDNR Simulator. Wireless Personal Communications 130:1, pages 143-164.
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Montree Kumngern, Usa Torteanchai, Natapong Wongprommoon, Wirote Jongchanachavawat, Siraphop Tooprakai & Somkiat Lerkvaranyu. (2022) 0.3 V Fully Differential Current Conveyor Using MIBD-DT MOST technique. 0.3 V Fully Differential Current Conveyor Using MIBD-DT MOST technique.
Predrag B. Petrović. (2021) New floating/grounded FDNC and non-ideal grounded FDNR simulators based on VDTA. Analog Integrated Circuits and Signal Processing 110:2, pages 259-277.
Crossref
Venkata Mohit Sai Chandra Kukunoori, Vinay Reddy Godhala & Mayank Srivastava. 2021. Recent Advances in Power Electronics and Drives. Recent Advances in Power Electronics and Drives 455 463 .
Kapil Bhardwaj & Mayank Srivastava. 2021. Advances in VLSI, Communication, and Signal Processing. Advances in VLSI, Communication, and Signal Processing 561 570 .
A. Tonk & N. Afzal. (2019) Second generation fully differential current conveyor based analog circuits. Journal of Semiconductors 40:4, pages 042401.
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Pranjal Gupta & Mayank Srivastava. (2018) New Frequency Dependent Negative Conductance Simulator employing VDTAs and Grounded Capacitances. New Frequency Dependent Negative Conductance Simulator employing VDTAs and Grounded Capacitances.
Dinesh Prasad & Mayank Srivastav. (2017) Novel Ms⁁2 type FDNR simulation configuration with electronic control and grounded capacitances. Novel Ms⁁2 type FDNR simulation configuration with electronic control and grounded capacitances.
Mayank Srivastava, Ajay Roy, Ramendra Singh & Pranjal Gupta. (2017) New VDCC based electronically tunable grounded frequency dependent negative resistance simulator employing grounded passive elements. New VDCC based electronically tunable grounded frequency dependent negative resistance simulator employing grounded passive elements.
Abdullah Yesil, Erkan Yuce & Shahram Minaei. (2017) Grounded capacitance multipliers based on active elements. AEU - International Journal of Electronics and Communications 79, pages 243-249.
Crossref
Mayank Srivastava, Ajay Roy & Ramendra Singh. (2017) New grounded FDNR simulation circuit with electronic control. New grounded FDNR simulation circuit with electronic control.
Piya Supavarasuwat & Montree Kumngern. (2015) TITO-type current-mode universal filter with one active element. TITO-type current-mode universal filter with one active element.
Raj Senani, D. R. Bhaskar & A. K. SinghRaj Senani, D. R. Bhaskar & A. K. Singh. 2015. Current Conveyors. Current Conveyors 469 499 .
Montree Kumngern & Fabian Khateb. (2014) 0.5-V bulk-driven fully differential current conveyor. 0.5-V bulk-driven fully differential current conveyor.

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