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IETE Journal of Research Volume 62, 2016 - Issue 2
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Articles

A New Low-power, High-Q, Wide Tunable CMOS Active Inductor for RF Applications

Sehmi SaadMicroelectronic and Instrumentation Laboratory, LR-13ES12, Faculty of Sciences, University of Monastir, Monastir, TunisiaView further author information
,
Mongia MhiriMicroelectronic and Instrumentation Laboratory, LR-13ES12, Faculty of Sciences, University of Monastir, Monastir, TunisiaView further author information
,
Aymen Ben HammadiMicroelectronic and Instrumentation Laboratory, LR-13ES12, Faculty of Sciences, University of Monastir, Monastir, TunisiaView further author information
&
Kamel BesbesMicroelectronic and Instrumentation Laboratory, LR-13ES12, Faculty of Sciences, University of Monastir, Monastir, Tunisia;Research Center of Microelectronics and Nanotechnology, Techno-park of Sousse, Sousse, TunisiaView further author information
Pages 265-273 | Published online: 07 Dec 2015

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Read on this site (3)

Goon Weng Wong & Norhayati Soin. (2023) Improved Q-Factor 3D Double-Layered On-Chip Resistor with Shielded Ground Conductor. IETE Journal of Research 0:0, pages 1-12.
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S. Aditya & S. Moorthi. (2020) Digitally tunable active inductor for RF-DCO applications. International Journal of Electronics Letters 8:4, pages 417-426.
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Goon Weng Wong & Norhayati Soin. (2018) On-Chip Meander Line N-Well Resistor with Shielded Ground Conductor for Q-Factor Improvement. IETE Journal of Research 64:2, pages 270-279.
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Articles from other publishers (25)

Abhishek Kumar. 2023. Nanodevices for Integrated Circuit Design. Nanodevices for Integrated Circuit Design 227 241 .
Rasool Gardeshkhah & Ali Naderi Saatlo. (2023) A New Tunable Gyrator-C-Based Active Inductor Circuit for Low Power Applications. Journal of Circuits, Systems and Computers 32:13.
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Sehmi Saad, Fayrouz Haddad & Aymen Ben Hammadi. (2022) High-Performance CMOS Tunable Differential Active Inductor for RF applications. High-Performance CMOS Tunable Differential Active Inductor for RF applications.
Sehmi Saad, Fayrouz Haddad & Aymen Ben Hammadi. (2022) Impact of multi-finger MOSFET geometry on the electrical performance of RF circuits. Microelectronics Reliability 129, pages 114445.
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Muhammad I. Masud, Nasir Shaikh-Husin, Iqbal A. Khan & Abu K. Bin A’Ain. (2022) CNTFET Based Grounded Active Inductor for Broadband Applications. Computers, Materials & Continua 73:1, pages 2135-2149.
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Darshak B. Marvania, Dhruvi S. Parikh & Dhara P. Patel. 2022. Proceedings of the International e-Conference on Intelligent Systems and Signal Processing. Proceedings of the International e-Conference on Intelligent Systems and Signal Processing 391 401 .
Abdollah Sabbaghi & Emad Ebrahimi. (2021) A low‐noise current‐reused CMOS active inductor by exploiting G m ‐boosting technique . IET Microwaves, Antennas & Propagation 15:15, pages 1914-1926.
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Mongia Mhiri & Kamel Besbes. (2021) Gyrator-C-Based CMOS Active Inductors: Analysis of Performance Optimization Techniques. IEEE Microwave Magazine 22:8, pages 65-82.
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Pritesh Kumar Yadav & Prasanna Kumar Misra. (2021) Tunable bandpass filter using double resistive feedback floating active inductor for 5 GHz wireless LAN Applications. Analog Integrated Circuits and Signal Processing 108:1, pages 205-213.
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Sehmi Saad & Aymen Ben Hammadi. (2021) An Ultra-Compact Multi-Band VCO Achieving − 196 dB FoMA with Single-Ended Tunable Active Inductor. BioNanoScience 11:2, pages 390-400.
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Abdullah Yesil, Erkan Yuce & Shahram Minaei. (2020) MOSFET‐C ‐based grounded active inductors with electronically tunable properties . International Journal of RF and Microwave Computer-Aided Engineering 30:8.
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Omar Faruqe, Aniqa Ibnat Lim & Md Tawfiq Amin. (2020) Tunable active inductor based VCO and BPF in a single integrated design for wireless applications in 90 nm CMOS process . Engineering Reports 2:8.
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Suman Nehra, P. K. Ghosh & Meena Singh. 2020. Nanoelectronics, Circuits and Communication Systems. Nanoelectronics, Circuits and Communication Systems 405 413 .
Zhao Zhang, Wanrong Zhang, Hongyun Xie, Dongyue Jin, Weicong Na, Hezhan Wan, Sijia Zhang, Feihu Wang & Jiancheng Huang. (2019) A novel active inductor with high self-resonance frequency high Q factor and independent adjustment of inductance. A novel active inductor with high self-resonance frequency high Q factor and independent adjustment of inductance.
Dan-Dan Zheng, Yu-Bin Li, Chang-Qi Wang, Kai Huang & Xiao-Peng Yu. (2019) Design of area-efficient GHz range current mode frequency synthesizer using standard CMOS technology. Journal of Electrical Engineering 70:4, pages 323-328.
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Yunus BABACAN & Abdullah YESIL. (2019) MOSFET tabanlı kayıplı Endüktans benzetimiMOSFET Based Parallel Inductance Simulator. Iğdır Üniversitesi Fen Bilimleri Enstitüsü Dergisi 9:1, pages 30-38.
Crossref
Dhara P Patel & Shruti Oza-Rahurkar. (2018) Tunable CMOS Active Inductor Using Widlar Current Source. Journal of Circuits, Systems and Computers 28:02, pages 1950027.
Crossref
Sehmi Saad, Mongia Mhiri, Aymen Ben Hammadi & Kamel Besbes. (2018) A 0.14-3.5 GHz All Digital PLL with improved fast frequency-lock and a novel TDC-based self-calibration capability. A 0.14-3.5 GHz All Digital PLL with improved fast frequency-lock and a novel TDC-based self-calibration capability.
Mustafa Konal & Firat Kacar. (2017) MOS Only Grounded Active Inductor Circuits and Their Filter Applications. Journal of Circuits, Systems and Computers 26:06, pages 1750098.
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Sehmi Saad, Mongia Mhiri, Aymen Ben Hammadi & Kamel Besbes. (2017) A fine frequency tuning for LC-DCO using enhanced capacitive degeneration technique. A fine frequency tuning for LC-DCO using enhanced capacitive degeneration technique.
Akanksha Singh & Vandana Niranjan. (2017) Active inductor linearization using transistor level techniques. Active inductor linearization using transistor level techniques.
Sehmi Saad, Mongia Mhiri, Aymen Ben Hammadi & Kamel Besbes. (2016) A 5-mW, 1.2–3.5-GHz Capacitive Degeneration in LC -Digitally-Controlled Oscillator for Nano-Satellite Frequency Synthesizers in 90-nm CMOS . Journal of Circuits, Systems and Computers 25:12, pages 1650159.
Crossref
Sehmi Saad, Mongia Mhiri, Aymen Ben Hammadi & Kamel Besbes. (2016) An L, S and S2 bands, compliant LC-based DCO for amateur Nano-satellite applications. An L, S and S2 bands, compliant LC-based DCO for amateur Nano-satellite applications.
Aymen Ben Hammadi, Mongia Mhiri, Fayrouz Haddad, Sehmi Saad & Kamel Besbes. (2016) A 1.82?4.44 GHz reconfigurable bandpass filter based on tunable active inductor. A 1.82?4.44 GHz reconfigurable bandpass filter based on tunable active inductor.
Sehmi Saad, Mongia Mhiri, Aymen Ben Hammadi & Kamel Besbes. (2016) Design of high-performance CMOS tunable active inductor. Design of high-performance CMOS tunable active inductor.

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