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Frederic Nabki
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2020 – today
- 2024
- [j40]Amirhossein Moshrefi, Hani H. Tawfik, Mohannad Y. Elsayed, Frederic Nabki:
Industrial Fault Detection Employing Meta Ensemble Model Based on Contact Sensor Ultrasonic Signal. Sensors 24(7): 2297 (2024) - [j39]Behnam Shakibafar, Farzan Farhangian, Jean-Marc Gagne, René Landry Jr., Frederic Nabki:
An Adaptive RF Front-End Architecture for Multi-Band SDR in Avionics. Sensors 24(18): 5963 (2024) - [c78]Amirhossein Moshrefi, Yves Blaquière, Frederic Nabki:
A Precise and Reliable Engine Knock Detection Utilizing Meta Classifier. ISCAS 2024: 1-5 - [c77]Allan Riboullet, Frédéric Nabki, Yves Blaquière, Glenn E. R. Cowan:
Configurable and Intelligent Switched CMOS Current Driver Powering Arrays of Electrothermal Actuators for MEMS Switches. ISCAS 2024: 1-5 - [c76]Saeed Ghaneei Aarani, Frederic Nabki, Benoit Gosselin:
Wideband Second-Harmonic Resonance LC-VCO with 195.8 dBc/Hz FOM. NewCAS 2024: 50-54 - [c75]Safa Razavinejad, Seyedfakhreddin Nabavi, Frederic Nabki:
A 180 nm CMOS Low-Power Digitally Controlled Charge-Pump for CMUT Devices Generating up to 23V. NewCAS 2024: 94-98 - [c74]Safa Razavinejad, Seyedfakhreddin Nabavi, Karim Allidina, Frederic Nabki:
A Clockless Wake-Up Circuit for Capacitive Micromachined Ultrasonic Transducer (CMUT) Receivers. NewCAS 2024: 193-197 - [c73]Julian L. Pita Ruiz, Almur A. S. Rabih, Seyedfakhreddin Nabavi, Frederic Nabki, Michaël Ménard:
1 x 5 MEMS Mode Selective Switch with an Inverse-Designed Silicon Nitride MDM. OFC 2024: 1-3 - 2023
- [j38]Maryam Ghamati, Mohammad Taherzadeh-Sani, Frederic Nabki:
A Compact Wideband Two-Stage LNA with Multiple Notches for Out-of-Band Filtering Using Center-Tap Inductors. Circuits Syst. Signal Process. 42(5): 2573-2588 (2023) - [j37]Philippe-Olivier Beaulieu, Etienne Dumesnil, Frederic Nabki, Mounir Boukadoum:
Analog RF Circuit Sizing by a Cascade of Shallow Neural Networks. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 42(12): 4391-4401 (2023) - [j36]Amin Pourvali Kakhki, Mohammad Taherzadeh-Sani, Frederic Nabki:
An Energy Efficient Coherent IR-UWB Receiver With Non-Coherent-Assisted Synchronization. IEEE Trans. Circuits Syst. I Regul. Pap. 70(8): 3154-3166 (2023) - [j35]Benoit Gosselin, Réjean Fontaine, Frederic Nabki, Srinjoy Mitra:
Guest Editorial Special Issue on the IEEE International NEWCAS Conference 2022. IEEE Trans. Circuits Syst. I Regul. Pap. 70(9): 3436-3439 (2023) - [j34]Maryam Ghamati, Mohammad Taherzadeh-Sani, Frederic Nabki, Milica Popovic:
Integrated Fast UWB Time-Domain Microwave Breast Screening. IEEE Trans. Instrum. Meas. 72: 1-12 (2023) - [j33]Nakisa Shams, Frederic Nabki:
Blocker-Tolerant Inductor-Less Harmonic Selection Wideband Receiver Front-End for 5G Applications. IEEE Trans. Very Large Scale Integr. Syst. 31(3): 369-381 (2023) - [j32]Nakisa Shams, Amin Pourvali Kakhki, Morteza Nabavi, Frederic Nabki:
An OOK and Binary FSK Reconfigurable Dual-Band Noncoherent IR-UWB Receiver Supporting Ternary Signaling. IEEE Trans. Very Large Scale Integr. Syst. 31(5): 644-657 (2023) - [c72]Seyedfakhreddin Nabavi, Michaël Ménard, Frederic Nabki:
An Electrostatic Micropositioner with 3 Degrees-of-Freedom. SENSORS 2023: 1-4 - [c71]Hamid Sadrimanesh, Yves Blaquière, Frederic Nabki:
Toward 2.5D Structures for Multi-Channel MEMS Acoustic-Based Digital Isolators using Through Silicon Openings. NEWCAS 2023: 1-5 - [c70]Abdurrashid Hassan Shuaibu, Yves Blaquière, Frédéric Nabki:
Toward a Polysilicon-Based Electrostatically Actuated DC MEMS Switch. NEWCAS 2023: 1-4 - [c69]Ali Poursaadati Zinjanab, Nakisa Shams, Frederic Nabki:
A Low Power Ultra-Wideband RF Receiver Front-End using a Differential N-Path Notch Filter. NEWCAS 2023: 1-4 - 2022
- [j31]Arash Abbasi, Amirhossein Moshrefi, Frederic Nabki:
A Wideband Low-Power RF-to-BB Current-Reuse Receiver Using an Active Inductor and 1 /f Noise-Cancellation for L-Band Applications. IEEE Access 10: 95839-95848 (2022) - [j30]Nakisa Shams, Frederic Nabki:
Analysis and Comparison of Low-Power 6-GHz N-Path-Filter-Based Harmonic Selection RF Receiver Front-End Architectures. IEEE Trans. Very Large Scale Integr. Syst. 30(3): 253-266 (2022) - [c68]Philippe-Olivier Beaulieu, Frederic Nabki, Mounir Boukadoum:
8-bit Partial Magnitude Comparator for Spike Generation in the Leaky Integrate-and-Fire Neuron Model using Gate-Diffusion-Input Logic Gates. ICECS 2022 2022: 1-4 - [c67]Seyedfakhreddin Nabavi, Michaël Ménard, Frederic Nabki:
Vertical Electrostatic MEMS Aligner with Integrated Silicon Nitride Optical Waveguides. IEEE SENSORS 2022: 1-4 - [c66]Arash Abbasi, Amirhossein Moshrefi, Frederic Nabki:
A Wideband Low-Power Current-Reuse RF-to-BB Receiver Using a Clock Strategy Technique. NEWCAS 2022: 275-279 - [c65]Abdurrashid Hassan Shuaibu, Frédéric Nabki, Yves Blaquière:
A MEMS Electrothermal Actuator Designed for a DC Switch Aimed at Power Switching Applications and High Voltage Resilience. NEWCAS 2022: 317-321 - [c64]Suraj Sharma, Niharika Kohli, Jonathan Brière, Frederic Nabki, Michaël Ménard:
Digitally Controlled Silicon Nitride Optical Switch. OFC 2022: 1-3 - 2021
- [j29]Bahaa Radi, Mohammadreza Sanadgol Nezami, Mohammad Taherzadeh-Sani, Frederic Nabki, Michaël Ménard, Odile Liboiron-Ladouceur:
A 22-Gb/s Time-Interleaved Low-Power Optical Receiver With a Two-Bit Integrating Front End. IEEE J. Solid State Circuits 56(1): 310-323 (2021) - [j28]Mohamed Osman, Frederic Nabki:
OSCAR: An Optimized Scheduling Cell Allocation Algorithm for Convergecast in IEEE 802.15.4e TSCH Networks. Sensors 21(7): 2493 (2021) - [j27]Alexandre Robichaud, Dominic Deslandes, Paul-Vahé Cicek, Frederic Nabki:
A System in Package Based on a Piezoelectric Micromachined Ultrasonic Transducer Matrix for Ranging Applications. Sensors 21(8): 2590 (2021) - [j26]Zakaria El Alaoui Ismaili, Wessam Ajib, Frederic Nabki, François Gagnon:
A 0.1-9-GHz Frequency Synthesizer for Avionic SDR Applications in 0.13-μm CMOS Technology. IEEE Trans. Very Large Scale Integr. Syst. 29(12): 2119-2129 (2021) - [c63]Seyedfakhreddin Nabavi, Michaël Ménard, Frederic Nabki:
Surface Micromachined Out-of-plane Electrostatic MEMS Actuator Integrated with Displacement Sensor. IEEE SENSORS 2021: 1-4 - [c62]Amirhossein Moshrefi, Frederic Nabki:
An Efficient Method to Enhance the Quality of Ultrasound Medical Images. MWSCAS 2021: 267-270 - [c61]Nakisa Shams, Frederic Nabki:
A Wideband RF Receiver Using a Harmonic Rejection N-path Notch Filter for 5G Applications. NEWCAS 2021: 1-4 - [c60]Nakisa Shams, Frederic Nabki:
A Noise-Cancelling Harmonic Selection Receiver Using an N-Path Filter for 5G Applications. NEWCAS 2021: 1-4 - 2020
- [j25]Shivaram Arunachalam, Ricardo Izquierdo, Frederic Nabki:
Ionization Gas Sensor Using Suspended Carbon Nanotube Beams. Sensors 20(6): 1660 (2020) - [j24]Alberto Prud'homme, Frederic Nabki:
Comparison between Linear and Branched Polyethylenimine and Reduced Graphene Oxide Coatings as a Capture Layer for Micro Resonant CO2 Gas Concentration Sensors. Sensors 20(7): 1824 (2020) - [j23]Ehsan Rahiminejad, Mehdi Saberi, Reza Lotfi, Mohammad Taherzadeh-Sani, Frederic Nabki:
A Low-Voltage High-Precision Time-Domain Winner-Take-All Circuit. IEEE Trans. Circuits Syst. II Express Briefs 67-II(1): 4-8 (2020) - [j22]Mohammad Taherzadeh-Sani, Bahaa Radi, Mohammadreza Sanadgol Nezami, Michaël Ménard, Odile Liboiron-Ladouceur, Frederic Nabki:
A 17 Gbps 156 fJ/bit Two-Channel Optical Receiver With Optical-Input Split and Delay in 65 nm CMOS. IEEE Trans. Circuits Syst. I Regul. Pap. 67-I(7): 2288-2296 (2020) - [j21]Bahaa Radi, Mohammadreza Sanadgol Nezami, Michaël Ménard, Frederic Nabki, Odile Liboiron-Ladouceur:
A 12.5 Gb/s 1.93 pJ/Bit Optical Receiver Exploiting Silicon Photonic Delay Lines for Clock Phases Generation Replacement. IEEE Trans. Circuits Syst. II Express Briefs 67-II(10): 1864-1868 (2020) - [c59]Arash Abbasi, Nakisa Shams, Frederic Nabki:
A 0.8 -3.4 GHz, Low-Power and Low-noise RF-to-BB-Current-Reuse Receiver Front-End for Wideband Local and Wide-area IoT Applications. ICECS 2020: 1-4 - [c58]Bahaa Radi, Mohammadreza Sanadgol Nezami, Odile Liboiron-Ladouceur, Michaël Ménard, Frédéric Nabki:
A 12.5 Gb/s 1.93 pJ/Bit Optical Receiver Exploiting Silicon Photonic Delay Lines for Clock Phases Generation Replacement. ISCAS 2020: 1 - [c57]Arash Abbasi, Nakisa Shams, Amin Pourvali Kakhki, Frederic Nabki:
A Low-Power Wideband Receiver Front-End for NB-IoT Applications. NEWCAS 2020: 50-53 - [c56]Nakisa Shams, Arash Abbasi, Frederic Nabki:
A 6 GHz 130 nm CMOS Harmonic Recombination RF Receiver Front-End Using N-Path Filtering. NEWCAS 2020: 58-61 - [c55]Amirhossein Moshrefi, Frederic Nabki:
A New Method to Improve the Quality of Embolic Ultrasound Signal Detection. NEWCAS 2020: 198-201 - [c54]Nakisa Shams, Arash Abbasi, Frederic Nabki:
A 3.5 to 7 GHz Wideband Differential LNA with gm Enhancement for 5G Applications. NEWCAS 2020: 230-233
2010 – 2019
- 2019
- [j20]Shivaram Arunachalam, Ricardo Izquierdo, Frederic Nabki:
Low-Hysteresis and Fast Response Time Humidity Sensors Using Suspended Functionalized Carbon Nanotubes. Sensors 19(3): 680 (2019) - [j19]Oussama Brini, Dominic Deslandes, Frederic Nabki:
A System-Level Methodology for the Design of Reliable Low-Power Wireless Sensor Networks. Sensors 19(8): 1800 (2019) - [j18]Anoir Bouchami, Mohannad Elsayed, Frederic Nabki:
A Sub-mW 18-MHz MEMS Oscillator Based on a 98-dBΩ Adjustable Bandwidth Transimpedance Amplifier and a Lamé-Mode Resonator. Sensors 19(12): 2680 (2019) - [j17]Mathieu Gratuze, Abdul Hafiz Alameh, Frederic Nabki:
Design of the Squared Daisy: A Multi-Mode Energy Harvester, with Reduced Variability and a Non-Linear Frequency Response. Sensors 19(15): 3247 (2019) - [j16]Hani H. Tawfik, Karim Allidina, Frederic Nabki, Mourad N. El-Gamal:
Dual-Level Capacitive Micromachined Uncooled Thermal Detector. Sensors 19(24): 5434 (2019) - [j15]Parisa Vejdani, Frederic Nabki:
Dual-Path and Dual-Chopper Amplifier Signal Conditioning Circuit With Improved SNR and Ultra-Low Power Consumption for MEMS. IEEE Trans. Circuits Syst. I Regul. Pap. 66-I(6): 2253-2262 (2019) - [j14]Amir Bazrafshan, Mohammad Taherzadeh-Sani, Frederic Nabki:
An Analog LO Harmonic Suppression Technique for SDR Receivers. IEEE Trans. Very Large Scale Integr. Syst. 27(1): 182-192 (2019) - [c53]Nakisa Shams, Amin Pourvali Kakhki, Frederic Nabki:
Reconfigurable IR-UWB Current Mode Switched Receiver for IoT Applications. ICECS 2019: 9-12 - [c52]Shivaram Arunachalam, Ricardo Izquierdo, Frederic Nabki:
Fabrication of an Ionization Gas Sensor using Suspended Carbon Nanotubes. IEEE SENSORS 2019: 1-4 - [c51]Mathieu Gratuze, Seyedfakhreddin Nabavi, Abdul Hafiz Alameh, Frederic Nabki:
A Multi-mode Non-linear Acoustic Piezoelectric MEMS Energy Harvester. IEEE SENSORS 2019: 1-4 - 2018
- [j13]Abdul Hafiz Alameh, Mathieu Gratuze, Mohannad Elsayed, Frederic Nabki:
Effects of Proof Mass Geometry on Piezoelectric Vibration Energy Harvesters. Sensors 18(5): 1584 (2018) - [j12]Shivaram Arunachalam, Anubha A. Gupta, Ricardo Izquierdo, Frederic Nabki:
Suspended Carbon Nanotubes for Humidity Sensing. Sensors 18(5): 1655 (2018) - [j11]Amir Bazrafshan, Mohammad Taherzadeh-Sani, Frederic Nabki:
A 0.8-4-GHz Software-Defined Radio Receiver With Improved Harmonic Rejection Through Non-Overlapped Clocking. IEEE Trans. Circuits Syst. I Regul. Pap. 65-I(10): 3186-3195 (2018) - [j10]Anoir Bouchami, Mohannad Elsayed, Frederic Nabki:
A 1.4-mW 14-MHz MEMS Oscillator Based on a Differential Adjustable-Bandwidth Transimpedance Amplifier and Piezoelectric Disk Resonator. IEEE Trans. Circuits Syst. I Regul. Pap. 65-I(10): 3414-3423 (2018) - [c50]Abdul Hafiz Alameh, Mathieu Gratuze, Alexandre Robichaud, Frederic Nabki:
Study and Design of MEMS Cross-Shaped Piezoelectric Vibration Energy Harvesters. ICECS 2018: 305-308 - [c49]Mohammad Honarparvar, José M. de la Rosa, Frederic Nabki, Mohamad Sawan:
Design Considerations of MASH ΔΣ Modulators with GRO-based Quantization. ISCAS 2018: 1-5 - [c48]Oussama Brini, Dominic Deslandes, Frederic Nabki:
A Model-Based Approach for the Design of Ultra-Low Power Wireless Sensor Nodes. NEWCAS 2018: 248-251 - 2017
- [j9]Mohammad Taherzadeh-Sani, Michiel Soer, Dominic Deslandes, Frederic Nabki:
65 nm CMOS switching discontinuous-conduction mode buck converter with 330 ns start-up time for light-load power-cycled applications. IET Circuits Devices Syst. 11(3): 267-273 (2017) - [j8]Abdul Hafiz Alameh, Frederic Nabki:
A 0.13-µm CMOS Dynamically Reconfigurable Charge Pump for Electrostatic MEMS Actuation. IEEE Trans. Very Large Scale Integr. Syst. 25(4): 1261-1270 (2017) - [j7]Mohammad Taherzadeh-Sani, Said M. Hussain Hussaini, Hamidreza Rezaee-Dehsorkh, Frederic Nabki, Mohamad Sawan:
A 170-dB Ω CMOS TIA With 52-pA Input-Referred Noise and 1-MHz Bandwidth for Very Low Current Sensing. IEEE Trans. Very Large Scale Integr. Syst. 25(5): 1756-1766 (2017) - [c47]Zakaria El Alaoui Ismaili, Wessam Ajib, François Gagnon, Frederic Nabki:
A 0.13 μm CMOS fully integrated 0.1 ∼ 12 GHz frequency synthesizer for avionic SDR applications. ISCAS 2017: 1-4 - [c46]Quentin Sauve, Damien Favre, Gabriel Morin-Laporte, Mohammad Taherzadeh-Sani, Nicolas Constantin, Frederic Nabki:
A calibration-free 13-bit 0.9 V differential SAR-ADC with hybrid DAC and dithering. ISCAS 2017: 1-4 - [c45]Abdul Hafiz Alameh, Frederic Nabki:
A 0.13 μm CMOS power conditioning circuit for piezoelectric vibration energy harvesters. MWSCAS 2017: 839-842 - [c44]Parisa Vejdani, Anoir Bouchami, Frederic Nabki:
Signal conditioning circuit with ultra-high sensitivity and ultra-low power consumption for MEMS. MWSCAS 2017: 930-933 - [c43]Mohammad Honarparvar, José M. de la Rosa, Frederic Nabki, Mohamad Sawan:
Novel band-pass ΔΣ modulators based on a modified adder-less feed-forward structure. MWSCAS 2017: 1288-1291 - [c42]Parisa Vejdani, Frederic Nabki:
A low-noise, low-power signal conditioning circuit with narrow bandwidth. MWSCAS 2017: 1461-1464 - 2016
- [j6]Reza Abdolvand, Behraad Bahreyni, Joshua E.-Y. Lee, Frederic Nabki:
Micromachined Resonators: A Review. Micromachines 7(9): 160 (2016) - [c41]Frederic Nabki, Michaël Ménard, Jonathan Brière, Mohannad Elsayed, Mohamed Rahim:
Towards chip scale components for optical coherence tomography. ICECS 2016: 69-72 - [c40]Saeed Mehrjoo, Mohammad Taherzadeh-Sani, Frederic Nabki:
A 27 mV output ripple 92% efficiency buck converter using a multi-bit delta-sigma modulator controller and segmented output switch in 180 nm CMOS. ICECS 2016: 129-132 - [c39]Abdul Hafiz Alameh, Anoir Bouchami, Frederic Nabki:
A wide voltage range charge pump in 0.13 μm CMOS for biasing of MEMS resonators. ICECS 2016: 165-168 - [c38]Amin Aghighi, Abdul Hafiz Alameh, Mohammad Taherzadeh-Sani, Frederic Nabki:
A 10-Gb/s low-power low-voltage CTLE using gate and bulk driven transistors. ICECS 2016: 217-220 - [c37]Ali Badiey, Reza Papi, Navid Rahmanikia, Mohammad Taherzadeh-Sani, Frederic Nabki:
Single-ended impedance-modulation equalization for low-power differential voltage-mode drivers. ICECS 2016: 644-647 - [c36]Alexandre Robichaud, Frederic Nabki, Dominic Deslandes:
An efficient reference-based adaptive antenna impedance matching CMOS circuit. ISCAS 2016: 1402-1405 - [c35]Philippe-Olivier Beaulieu, Abdul Hafiz Alameh, Michaël Ménard, Frederic Nabki:
A 360 V high voltage reconfigurable charge pump in 0.8 μm CMOS for optical MEMS applications. ISCAS 2016: 1630-1633 - [c34]Parisa Vejdani, Karim Allidina, Frederic Nabki:
Ultra-high sensitivity, low-power dual chopper signal conditioning circuit for integrated sensors. NEWCAS 2016: 1-4 - 2015
- [j5]Mohammad Taherzadeh-Sani, Frederic Nabki:
A 350-MS/s Continuous-Time Delta-Sigma Modulator With a Digitally Assisted Binary-DAC and a 5-Bits Two-Step-ADC Quantizer in 130-nm CMOS. IEEE Trans. Very Large Scale Integr. Syst. 23(9): 1914-1919 (2015) - [c33]Zakaria El Alaoui Ismaili, Wessam Ajib, François Gagnon, Frederic Nabki:
Very Wide Range Frequency Synthesizer Architecture for Avionic SDR Applications. ICUWB 2015: 1-5 - [c32]Monireh Eslami, Mohammad Taherzadeh-Sani, Frederic Nabki:
A 1-V 690 μW 8-bit 200 MS/s flash-SAR ADC with pipelined operation of flash and SAR ADCs in 0.13μm CMOS. ISCAS 2015: 289-292 - [c31]Etienne Dumesnil, Frederic Nabki, Mounir Boukadoum:
RF-LNA circuit synthesis using an array of artificial neural networks with constrained inputs. ISCAS 2015: 573-576 - [c30]Parvaneh Saffari, Mohammad Taherzadeh-Sani, Ali Basaligheh, Frederic Nabki, Mohamad Sawan:
Low-energy CMOS common-drain power amplifier for short-range applications. NEWCAS 2015: 1-4 - 2014
- [j4]Mohammad Taherzadeh-Sani, Reza Lotfi, Frederic Nabki:
A 10-bit 110 kS/s 1.16 µW SA-ADC With a Hybrid Differential/Single-Ended DAC in 180-nm CMOS for Multichannel Biomedical Applications. IEEE Trans. Circuits Syst. II Express Briefs 61-II(8): 584-588 (2014) - [c29]Abdul Hafiz Alameh, Alexandre Robichaud, Frederic Nabki:
A reconfigurable charge pump in 0.13 μm CMOS for agile MEMS actuation. ICECS 2014: 670-673 - [c28]Parisa Vejdani, Anoir Bouchami, Frederic Nabki:
Design constraints of high performance chopping signal conditioning circuits for integrated sensors. ICECS 2014: 690-693 - [c27]Etienne Dumesnil, Frederic Nabki, Mounir Boukadoum:
RF-LNA circuit synthesis by genetic algorithm-specified artificial neural network. ICECS 2014: 758-761 - [c26]Julian Santorelli, Frederic Nabki, Roni Khazaka:
Practical considerations for parameterized model order reduction of MEMS devices. NEWCAS 2014: 129-132 - [c25]Anoir Bouchami, Frederic Nabki:
Non-linear modeling of MEMS-based oscillators using an analog hardware description language. NEWCAS 2014: 257-260 - [c24]Mohammad Honarparvar, René Landry, Frederic Nabki, Mohamad Sawan:
Advanced modeling technique for bandpass continuous-time delta-sigma modulators. NEWCAS 2014: 341-344 - 2013
- [j3]Mohannad Elsayed, Frederic Nabki, Mourad N. El-Gamal:
A Novel Comb Architecture for Enhancing the Sensitivity of Bulk Mode Gyroscopes. Sensors 13(12): 16641-16656 (2013) - [j2]Mohammad Ali Taghvaei, Paul-Vahé Cicek, Karim Allidina, Frederic Nabki, Mourad N. El-Gamal:
A 0.13-µm CMOS Interface Circuit for a MEMS Resonator-Based Vacuum Measurement System. IEEE Trans. Circuits Syst. I Regul. Pap. 60-I(12): 3136-3144 (2013) - [c23]Alexandre Robichaud, Abdul Hafiz Alameh, Frederic Nabki, Dominic Deslandes:
An agile matching network using phase detection for antenna tuning. ICECS 2013: 755-758 - [c22]Hani H. Tawfik, Mourad N. El-Gamal, Frederic Nabki:
Shock rejection & ambient temperature compensation mechanism for uncooled micocantilever thermal detector. ICECS 2013: 827-830 - [c21]Mahdi Parvizi, Karim Allidina, Frederic Nabki, Mourad N. El-Gamal:
A 0.4V ultra low-power UWB CMOS LNA employing noise cancellation. ISCAS 2013: 2369-2372 - [c20]Mohamed Rahim, Peter Akkary, Nazih Jamaleddine, Frederic Nabki, Michaël Ménard:
An integrated silicon-on-insulator continually tunable optical delay line for optical coherence tomography. MWSCAS 2013: 709-712 - [c19]Zakaria El Alaoui Ismaili, Frederic Nabki, Wessam Ajib, Claude Thibeault:
A 0.35∼6.25 GHz cognitive radio frequency synthesizer architecture. MWSCAS 2013: 796-799 - [c18]Eric Zhang, Roger Mvika Mawelo, Christian Fayomi, Frederic Nabki:
A 0.9 V low-power reconfigurable successive approximation ADC for integrated sensors. NEWCAS 2013: 1-4 - 2012
- [c17]Zakaria El Alaoui Ismaili, Frederic Nabki, Wessam Ajib, Mounir Boukadoum:
A 500 MHz to 6 GHz frequency synthesizer architecture for cognitive radio applications. ICECS 2012: 597-600 - [c16]Ahmad Alfaifi, Frederic Nabki, Mourad N. El-Gamal:
A dual-axis bulk micromachined accelerometer with low cross-sensitivity. ICECS 2012: 733-736 - [c15]Raslen Hamdi, Alexandre Desmarais, Aniss Belarbi, Dominic Deslandes, Frederic Nabki:
A programmable OOK impulse radio ultra wideband transmitter with power cycling and spectral agility. ISCAS 2012: 2541-2544 - [c14]Mounir Boukadoum, Frederic Nabki, Wessam Ajib:
Towards neural network-based design of radiofrequency low-noise amplifiers. ISCAS 2012: 2741-2744 - [c13]Anh-kiet Vuong, Alexandre Desmarais, Anis Bounif, Dominic Deslandes, Frederic Nabki:
A low-power digitally programmable impulse radio ultra wideband transmitter with pulse shape control. NEWCAS 2012: 537-540 - [c12]Raslen Hamdi, Aniss Belarbi, Mohamed Amine Larbi, Dominic Deslandes, Frederic Nabki:
An UWB transmitter with power cycling and support for multiple modulation schemes. NEWCAS 2012: 541-544 - 2011
- [c11]Mohannad Elsayed, Frederic Nabki, Mourad N. El-Gamal:
A 2000°/s dynamic range bulk mode dodecagon gyro for a commercial SOI technology. ICECS 2011: 264-267 - 2010
- [c10]Kamel Elkhenissi, Maxim Cournoyer, Dominic Deslandes, Frederic Nabki:
A transmitted-reference low-power reconfigurable ultra-wideband transmitter. ISCAS 2010: 341-344 - [c9]Mohammad Ali Taghvaei, Paul-Vahe Cicek, Karim Allidina, Frederic Nabki, Mourad N. El-Gamal:
A MEMS-based temperature-compensated vacuum sensor for low-power monolithic integration. ISCAS 2010: 3276-3279
2000 – 2009
- 2009
- [j1]Frederic Nabki, Karim Allidina, Faisal Ahmad, Paul-Vahe Cicek, Mourad N. El-Gamal:
A Highly Integrated 1.8 GHz Frequency Synthesizer Based on a MEMS Resonator. IEEE J. Solid State Circuits 44(8): 2154-2168 (2009) - [c8]Paul-Vahe Cicek, Sareh Mahdavi, Frederic Nabki, Mourad N. El-Gamal:
Low actuation voltage silicon carbide RF switches for MEMS above IC. ICECS 2009: 223-226 - [c7]Karim Allidina, Mohammad Ali Taghvaei, Frederic Nabki, Paul-Vahe Cicek, Mourad N. El-Gamal:
A MEMS-based vacuum sensor with a PLL frequency-to-voltage converter. ICECS 2009: 583-586 - 2008
- [c6]Frederic Nabki, Tomas A. Dusatko, Mourad N. El-Gamal:
Frequency tunable silicon carbide resonators for MEMS above IC. CICC 2008: 185-188 - [c5]Dominique Lemoine, Paul-Vahe Cicek, Frederic Nabki, Mourad N. El-Gamal:
MEMS wafer-level vacuum packaging with transverse interconnects for CMOS integration. CICC 2008: 189-192 - [c4]Frederic Nabki, Faisal Ahmad, Karim Allidina, Mourad N. El-Gamal:
A compact and programmable high-frequency oscillator based on a MEMS resonator. CICC 2008: 337-340 - [c3]Frederic Nabki, Mourad N. El-Gamal:
A high gain-bandwidth product transimpedance amplifier for MEMS-based oscillators. ESSCIRC 2008: 454-457 - [c2]Frederic Nabki, Mourad N. El-Gamal:
Modeling and simulation of micro electromechanical (MEM) beam resonator-based oscillators. ISCAS 2008: 1324-1327 - 2005
- [c1]Chris Siu, Soraya Kasnavi, Kris Iniewski, Frederic Nabki:
RF CMOS Circuits for Ad-Hoc Networks and Wearable Computing. DSD 2005: 153-160
Coauthor Index
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Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from , , and to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from .
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last updated on 2024-10-23 20:34 CEST by the dblp team
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