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Giuseppe Palmisano
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- affiliation: University of Catania, Italy
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2020 – today
- 2024
- [j48]Simone Spataro, Egidio Ragonese
, Nunzio Spina
A GaN-Integrated Galvanically Isolated Data Link Based on RF Planar Coupling With Voltage Combining for Gate-Driver Applications. IEEE Access 12: 48530-48539 (2024) - [j47]Nunzio Spina
A Three-Channel Package-Scale Galvanic Isolation Interface for Wide Bandgap Gate Drivers. IEEE Trans. Very Large Scale Integr. Syst. 32(8): 1389-1399 (2024) - [c58]Florian Cacho, P. Cathelin, Joycelyn Hai, S. Bouvot, J. Nowakowski, M. Martinez, R. Debroucke, S. Jean, R. Paulin, J. Antonijevic, X. Federspiel, Nicolas Planes, Giuseppe Papotto, Alessandro Parisi, Alessandro Finocchiaro, Andrea Cavarra, Alessandro Castorina, Claudio Nocera, Giuseppe Palmisano:
Robustness Assessment Through 77GHz Operating Life Test of Power Amplifier for Radar Applications in 28nm FD-SOI CMOS. IRPS 2024: 4 - [c57]Alessandro Domenico Minnella, Giuseppe Papotto, Alessandro Parisi, Giuseppe Palmisano:
A Comparison Between Single and Differential-Ended Doherty Power Stages in GaN Technology for 28-GHz 5G Applications. PRIME 2024: 1-4 - 2023
- [j46]Katia Samperi
GaN Monolithic PWM Generator With Dynamic Offset Compensation. IEEE Access 11: 126892-126899 (2023) - [j45]Nunzio Spina
Fully Integrated Galvanic Isolation Interface in GaN Technology. IEEE Trans. Circuits Syst. I Regul. Pap. 70(11): 4605-4614 (2023) - [c56]Alessandro Domenico Minnella, Alessandro Finocchiaro, Giuseppe Papotto, Giuseppe Palmisano, Alessandro Parisi:
A 0-360° phase shifter for 77-GHz automotive radar sensors in 28-nm FD-SOI CMOS technology. PRIME 2023: 53-56 - [c55]Katia Samperi, Nunzio Spina, Salvatore Pennisi, Giuseppe Palmisano:
Integrated GaN digital soft start-up for switching power converters. PRIME 2023: 193-196 - 2022
- [j44]Egidio Ragonese
CMOS Automotive Radar Sensors: mm-Wave Circuit Design Challenges. IEEE Trans. Circuits Syst. II Express Briefs 69(6): 2610-2616 (2022) - [c54]Katia Samperi, Salvatore Pennisi, Francesco Pulvirenti, Giuseppe Palmisano:
1-mS constant-Gm GaN transconductor with embedded process compensation. PRIME 2022: 73-76 - 2020
- [j43]Alessandro Parisi
Galvanically Isolated DC-DC Converter Using a Single Isolation Transformer for Multi-Channel Communication. IEEE Trans. Circuits Syst. 67-I(12): 4434-4444 (2020)
2010 – 2019
- 2019
- [j42]Alessandro Finocchiaro
A 28-nm FD-SOI CMOS Variable-Gain Amplifier With Body-Bias-Based DC-Offset Cancellation for Automotive Radars. IEEE Trans. Circuits Syst. II Express Briefs 66-II(10): 1693-1697 (2019) - [c53]Egidio Ragonese
Reinforced Galvanic Isolation: Integrated Approaches to Go Beyond 20-kV Surge Voltage (invited). ApplePies 2019: 277-283 - [c52]Egidio Ragonese
Highly Integrated Galvanically Isolated Systems for Data/Power Transfer. ICECS 2019: 518-521 - 2018
- [j41]Nunzio Greco, Alessandro Parisi, Nunzio Spina, Egidio Ragonese
Scalable lumped models of integrated transformers for galvanically isolated power transfer systems. Integr. 63: 323-331 (2018) - [j40]Egidio Ragonese
A Fully Integrated Galvanically Isolated DC-DC Converter With Data Communication. IEEE Trans. Circuits Syst. I Regul. Pap. 65-I(4): 1432-1441 (2018) - [j39]Alessandro Finocchiaro
Wafer-Level Contactless Testing Based on UHF RFID Tags With Post-Process On-Chip Antennas. IEEE Trans. Circuits Syst. II Express Briefs 65-II(10): 1355-1359 (2018) - [j38]Alessandro Parisi
Nano-Power CMOS Voltage Reference for RF-Powered Systems. IEEE Trans. Circuits Syst. II Express Briefs 65-II(10): 1425-1429 (2018) - [j37]Nunzio Greco
A Double-Isolated DC-DC Converter Based on Integrated LC Resonant Barriers. IEEE Trans. Circuits Syst. I Regul. Pap. 65-I(12): 4423-4433 (2018) - [c51]Alessandro Finocchiaro, Giovanni Girlando, Alessandro Motta, Alberto Pagani, Giuseppe Palmisano:
Main Parasitic Effects in Contactless Wafer Testing. ApplePies 2018: 69-76 - [c50]Andrea Cavarra
Transformer Design for 77-GHz Down-Converter in 28-nm FD-SOI CMOS Technology. ApplePies 2018: 195-201 - [c49]Egidio Ragonese
Fully Integrated Galvanically Isolated DC-DC Converters Based on Inductive Coupling. ApplePies 2018: 335-341 - [c48]Alessandro Finocchiaro, Giovanni Girlando, Alessandro Motta, Alberto Pagani, Giuseppe Palmisano:
A fully contactless wafer-level testing for UHF RFID tag with on-chip antenna. DTIS 2018: 1-6 - [c47]Claudio Nocera, Andrea Cavarra
Down-converter solutions for 77-GHz automotive radar sensors in 28-nm FD-SOI CMOS technology. PRIME 2018: 153-156 - 2017
- [j36]Alessandro Parisi, Alessandro Finocchiaro, Giuseppe Palmisano:
An accurate 1-V threshold voltage reference for ultra-low power applications. Microelectron. J. 63: 155-159 (2017) - [j35]Nunzio Greco, Nunzio Spina, Vincenzo Fiore, Egidio Ragonese
A Galvanically Isolated DC-DC Converter Based on Current-Reuse Hybrid-Coupled Oscillators. IEEE Trans. Circuits Syst. II Express Briefs 64-II(1): 56-60 (2017) - [c46]Nunzio Greco, Alessandro Parisi, Pierpaolo Lombardo, Giuseppe Palmisano, Nunzio Spina, Egidio Ragonese
A 100-mW fully integrated DC-DC converter with double galvanic isolation. ESSCIRC 2017: 291-294 - 2016
- [j34]Vincenzo Fiore
Low-Power ASK Detector for Low Modulation Indexes and Rail-to-Rail Input Range. IEEE Trans. Circuits Syst. II Express Briefs 63-II(5): 458-462 (2016) - [c45]Pierpaolo Lombardo, Vincenzo Fiore
16.7 A fully-integrated half-duplex data/power transfer system with up to 40Mb/s data rate, 23mW output power and on-chip 5kV galvanic isolation. ISSCC 2016: 300-301 - 2015
- [j33]Vincenzo Fiore
An Integrated 13.56-MHz RFID Tag in a Printed Organic Complementary TFT Technology on Flexible Substrate. IEEE Trans. Circuits Syst. I Regul. Pap. 62-I(6): 1668-1677 (2015) - [j32]Nunzio Spina, Vincenzo Fiore
Current-Reuse Transformer-Coupled Oscillators With Output Power Combining for Galvanically Isolated Power Transfer Systems. IEEE Trans. Circuits Syst. I Regul. Pap. 62-I(12): 2940-2948 (2015) - 2014
- [j31]Giuseppe Papotto
A 90-nm CMOS 5-Mbps Crystal-Less RF-Powered Transceiver for Wireless Sensor Network Nodes. IEEE J. Solid State Circuits 49(2): 335-346 (2014) - [j30]Giorgio Maiellaro, Egidio Ragonese
Ambient Light Organic Sensor in a Printed Complementary Organic TFT Technology on Flexible Plastic Foil. IEEE Trans. Circuits Syst. I Regul. Pap. 61-I(4): 1036-1043 (2014) - [c44]Vincenzo Fiore
30.4 A 13.56MHz RFID tag with active envelope detection in an organic complementary TFT technology. ISSCC 2014: 492-493 - 2013
- [j29]Giorgio Maiellaro, Egidio Ragonese
High-Gain Operational Transconductance Amplifiers in a Printed Complementary Organic TFT Technology on Flexible Foil. IEEE Trans. Circuits Syst. I Regul. Pap. 60-I(12): 3117-3125 (2013) - [c43]Sahel Abdinia, Daniele Raiteri, Stéphanie Jacob, Romain Coppard, Pieter van Lieshout, Giuseppe Palmisano, Antonino Scuderi, Arthur H. M. van Roermund, Eugenio Cantatore:
Analog to digital converters on plastic foils. ICICDT 2013: 123-126 - [c42]Sahel Abdinia, Mohamed Benwadih
A 4b ADC manufactured in a fully-printed organic complementary technology including resistors. ISSCC 2013: 106-107 - 2012
- [j28]Alessandro Italia, Calogero Marco Ippolito
A 1-mW 1.13-1.9 GHz CMOS LC VCO Using Shunt-Connected Switched-Coupled Inductors. IEEE Trans. Circuits Syst. I Regul. Pap. 59-I(6): 1145-1155 (2012) - [c41]Sahel Abdinia, Mohamed Benwadih
Design of analog and digital building blocks in a fully printed complementary organic technology. ESSCIRC 2012: 145-148 - [c40]Stéphanie Jacob, Mohamed Benwadih
High performance printed N and P-type OTFTs for complementary circuits on plastic substrate. ESSDERC 2012: 173-176 - [c39]Giuseppe Papotto
A 90nm CMOS 5Mb/s crystal-less RF transceiver for RF-powered WSN nodes. ISSCC 2012: 452-454 - 2011
- [j27]Giuseppe Papotto
A 90-nm CMOS Threshold-Compensated RF Energy Harvester. IEEE J. Solid State Circuits 46(9): 1985-1997 (2011) - 2010
- [j26]Marco Cavallaro, Tino Copani, Giuseppe Palmisano:
A Gaussian Pulse Generator for Millimeter-Wave Applications. IEEE Trans. Circuits Syst. I Regul. Pap. 57-I(6): 1212-1220 (2010) - [c38]Calogero Marco Ippolito
A 1.7-mW dual-band CMOS frequency synthesizer for low data-rate sub-GHz applications. ESSCIRC 2010: 142-145
2000 – 2009
- 2009
- [j25]Angelo Scuderi, Egidio Ragonese
24-GHz ultra-wideband transmitter for vehicular short-range radar applications. IET Circuits Devices Syst. 3(6): 313-321 (2009) - [j24]Calogero D. Presti, Francesco Carrara, Antonino Scuderi, Peter M. Asbeck, Giuseppe Palmisano:
A 25 dBm Digitally Modulated CMOS Power Amplifier for WCDMA/EDGE/OFDM With Adaptive Digital Predistortion and Efficient Power Control. IEEE J. Solid State Circuits 44(7): 1883-1896 (2009) - [c37]Francesco Carrara, Calogero D. Presti, Giuseppe Palmisano:
A 2.4-GHz 24-dBm SOI CMOS power amplifier with on-chip tunable matching network for enhanced efficiency in back-off. ESSCIRC 2009: 176-179 - [c36]Francesco Carrara, Alessandro Italia, Giuseppe Palmisano, R. Guerra:
A 400-MHz CMOS radio front-end for ultra low-power medical implantable applications. ESSCIRC 2009: 232-235 - [c35]Egidio Ragonese
A fully integrated 24GHz UWB radar sensor for automotive applications. ISSCC 2009: 306-307 - 2008
- [j23]Alessandro Italia, Francesco Carrara, Antonino Scuderi, Egidio Ragonese
Radio-frequency front-end for 5 GHz wireless local area network transceivers. IET Circuits Devices Syst. 2(5): 439-450 (2008) - [j22]Francesco Carrara, Calogero D. Presti, Antonino Scuderi, Carmelo Santagati, Giuseppe Palmisano:
A Methodology for Fast VSWR Protection Implemented in a Monolithic 3-W 55% PAE RF CMOS Power Amplifier. IEEE J. Solid State Circuits 43(9): 2057-2066 (2008) - [c34]Marco Cavallaro, Alessandro Italia, Giuseppina Sapone, Giuseppe Palmisano:
A 3∓5 GHz low-complexity ultra-wideband CMOS RF front-end for low data-rate WPANs. ESSCIRC 2008: 438-441 - [c33]Calogero D. Presti, Francesco Carrara, Giuseppe Palmisano, Antonino Scuderi:
A high-resolution 24-dBm Digitally-Controlled CMOS PA for multi-Standard RF polar transmitters. ESSCIRC 2008: 482-485 - [c32]Angelo Scuderi, Egidio Ragonese
0.13-μm SiGe BiCMOS radio front-end circuits for 24-GHz automotive short-range radar sensors. ESSCIRC 2008: 494-497 - 2007
- [j21]Alessandro Italia, Egidio Ragonese
Digitally controlled linear-in-dB variable-gain amplifier for high-frequency applications. IET Circuits Devices Syst. 1(6): 409-414 (2007) - [c31]Vittorio Giammello, Egidio Ragonese
An Offset Compensated Baseband Circuit for Automotive Radar Ultra-Wideband Applications. ICECS 2007: 931-934 - [c30]Calogero D. Presti, Francesco Carrara, Antonino Scuderi, Giuseppe Palmisano:
Fast Peak Detector with Improved Accuracy and Linearity for High-Frequency Waveform Processing. ISCAS 2007: 3884-3887 - [c29]Francesco Carrara, Calogero D. Presti, Antonino Scuderi, Carmelo Santagati, Giuseppe Palmisano:
A 3W 55% PAE CMOS PA with Closed-Loop 20: 1 VSWR Protection. ISSCC 2007: 80-588 - 2006
- [j20]Francesco Carrara, Alessandro Italia, Egidio Ragonese
Design methodology for the optimization of transformer-loaded RF circuits. IEEE Trans. Circuits Syst. I Regul. Pap. 53-I(4): 761-768 (2006) - [j19]Egidio Ragonese
An image-reject down-converter for 802.11a and HIPERLAN2 wireless LANs. Telecommun. Syst. 32(2-3): 105-115 (2006) - 2005
- [j18]Angelo Scuderi, Luca La Paglia, Antonino Scuderi, Francesco Carrara, Giuseppe Palmisano:
A VSWR-protected silicon bipolar RF power amplifier with soft-slope power control. IEEE J. Solid State Circuits 40(3): 611-621 (2005) - [j17]Tino Copani, Santo A. Smerzi, Giovanni Girlando, Giuseppe Palmisano:
A 12-GHz silicon bipolar dual-conversion receiver for digital satellite applications. IEEE J. Solid State Circuits 40(6): 1278-1287 (2005) - [j16]Alessandro Italia, Luca La Paglia, Antonino Scuderi, Francesco Carrara, Egidio Ragonese
A silicon bipolar transmitter front-end for 802.11a and HIPERLAN2 wireless LANs. IEEE J. Solid State Circuits 40(7): 1451-1459 (2005) - [j15]Francesco Carrara, Giuseppe Palmisano:
High-dynamic-range VGA with temperature compensation and linear-in-dB gain control. IEEE J. Solid State Circuits 40(10): 2019-2024 (2005) - [c28]Calogero D. Presti, Francesco Carrara, Giuseppe Palmisano:
Variable-gain up-conversion mixer with current reuse for 5-GHz W-LAN applications. ECCTD 2005: 249-252 - [c27]Francesco Carrara, Angelo Scuderi, Antonio Scuderi, Geraldo Bottiglieri, Giuseppe Palmisano:
Silicon bipolar linear power amplifier for WCDMA mobile applications. ISCAS (3) 2005: 2679-2682 - [c26]Alessandro Italia, Francesco Carrara, Egidio Ragonese
Design methodology for the optimization of transformer-loaded RF circuits. ISCAS (4) 2005: 3239-3242 - [c25]Francesco Carrara, Giuseppe Palmisano:
Variable-gain up-converter with current reuse for WCDMA wireless transmitters. ISCAS (4) 2005: 3247-3250 - 2004
- [j14]Santo A. Smerzi, Giovanni Girlando, Tino Copani, Giuseppe Palmisano:
A Ku-band monolithic receiver for DVB-S applications. IEEE Commun. Mag. 42(8): 132-139 (2004) - [j13]Angelo Scuderi, Tonio Biondi, Egidio Ragonese
A lumped scalable model for silicon integrated spiral inductors. IEEE Trans. Circuits Syst. I Regul. Pap. 51-I(6): 1203-1209 (2004) - [c24]Alessandro Italia, Luca La Paglia, Antonino Scuderi, Francesco Carrara, Egidio Ragonese, Giuseppe Palmisano:
A 5-GHz silicon bipolar transmitter front-end for wireless LAN applications. CICC 2004: 553-556 - [c23]Giovanni Girlando, Tino Copani, Santo A. Smerzi, Giuseppe Palmisano:
A Ku-band monolithic tuner-LNB for satellite applications [low noise block down-converter]. CICC 2004: 613-616 - [c22]Egidio Ragonese, Alessandro Italia, Luca La Paglia, Giuseppe Palmisano:
Silicon bipolar up and down-converters for 5-GHz WLAN applications. ESSCIRC 2004: 75-78 - 2003
- [c21]Francesco Carrara, Antonino Scuden, Giuseppe Palmisano:
Wide-bandwidth fully integrated Cartesian feedback transmitter. CICC 2003: 451-454 - [c20]Giovanni Girlando, Egidio Ragonese, Alessandro Italia, Giuseppe Palmisano:
Bipolar LNA design at different operating frequencies. ISCAS (1) 2003: 213-216 - [c19]Francesco Carrara, Pietro Filoramo, Giuseppe Palmisano:
High-dynamic-range decibel-linear IF variable-gain amplifier with temperature compensation for WCDMA applications. ISCAS (1) 2003: 289-292 - 2002
- [j12]Salvatore Cosentino, Pietro Filoramo, Angelo Granata, Marco Marletta, Giuseppe Martino, Roberto Pelleriti, Felice Torrisi
An integrated RF transceiver for DECT application. IEEE J. Solid State Circuits 37(3): 443-449 (2002) - [c18]Giovanni Girlando, Giuseppe Ferla, Egidio Ragonese
Silicon bipolar LNAs in the X and Ku bands. ICECS 2002: 113-116 - [c17]Francesco Carrara, Tonio Biondi, Antonino Scuderi, Giuseppe Palmisano:
Degradation of the DC current capability in long-emitter bipolar transistors. ICECS 2002: 1195-1198 - [c16]Egidio Ragonese
A very accurate design of monolithic inductors in a 2D EM simulator. ICECS 2002: 1199-1202 - 2001
- [j11]Giuseppe Palmisano, R. Salerno:
Analysis and optimization of a novel biasing for constant‐gain CMOS open‐loop amplifiers. Int. J. Circuit Theory Appl. 29(3): 311-319 (2001) - [j10]Gianluca Giustolisi, Giuseppe Palmisano, Gaetano Palumbo:
Analysis and optimization of a novel CMOS multiplier. Int. J. Circuit Theory Appl. 29(3): 321-330 (2001) - [c15]Salvatore Cosentino, Pietro Filoramo, Angelo Granata, Marco Marletta, Giuseppe Martino, Roberto Pelleriti, Felice Torrisi, Mario Paparo, Gaetano Cosentino, Paolo Vita, Giuseppe Palmisano:
An integrated RF transceiver for DECT application. CICC 2001: 519-522 - [c14]Giuseppe Palmisano, Salvatore Pennisi:
Low-voltage continuous-time CMOS current amplifier with dynamic biasing. ISCAS (1) 2001: 312-315 - 2000
- [j9]Gianluca Giustolisi, Giuseppe Palmisano, T. Segreto:
1.2-V CMOS op-amp with a dynamically biased output stage. IEEE J. Solid State Circuits 35(4): 632-636 (2000) - [j8]Gianluca Giustolisi, Giuseppe Palmisano, Gaetano Palumbo:
CMRR frequency response of CMOS operational transconductance amplifiers. IEEE Trans. Instrum. Meas. 49(1): 137-143 (2000) - [c13]Gianluca Giustolisi, Giuseppe Palmisano, Salvatore Pennisi:
High-linear class AB transconductor for high-frequency applications. ISCAS 2000: 169-172 - [c12]Giuseppe Palmisano, Salvatore Pennisi:
A true low-voltage CMOS class AB current mirror. ISCAS 2000: 249-252 - [c11]Gianluca Giustolisi, Giuseppe Palmisano, Gaetano Palumbo:
A fuzzy membership function circuit in SC technique. ISCAS 2000: 393-396
1990 – 1999
- 1999
- [j7]Giuseppe Di Cataldo, Giuseppe Palmisano, Gaetano Palumbo, Salvatore Pennisi
High-speed voltage buffers for the experimental characterization of CMOS transconductance operational amplifiers. IEEE Trans. Instrum. Meas. 48(1): 31-33 (1999) - [c10]S. Finocchiaro, Giuseppe Palmisano, R. Salerno, C. Sclafani:
Design of bipolar RF ring oscillators. ICECS 1999: 5-8 - [c9]Giuseppe Palmisano, Salvatore Pennisi
A versatile CMOS fully differential current amplifier. ICECS 1999: 607-610 - [c8]Giuseppe Palmisano, Gaetano Palumbo, Salvatore Pennisi
Performance parameters of current operational amplifiers. ICECS 1999: 1615-1618 - [c7]Giuseppe Palmisano, Salvatore Pennisi:
A 20-dB CMOS IF amplifier with embedded single-to-differential input converter. ISCAS (2) 1999: 196-199 - 1998
- [j6]Giuseppe Palmisano, Gaetano Palumbo, Salvatore Pennisi
High-drive CMOS current amplifier. IEEE J. Solid State Circuits 33(2): 228-236 (1998) - [c6]Gianluca Giustolisi, Giuseppe Palmisano, Gaetano Palumbo, C. Strano:
A Novel 1.5-V Cmos Mixer. Great Lakes Symposium on VLSI 1998: 113-117 - [c5]Gianluca Giustolisi, Giuseppe Palmisano, Gaetano Palumbo:
A 1.5 V CMOS voltage multiplier. ICECS 1998: 313-316 - 1996
- [c4]Giuseppe Palmisano, Gaetano Palumbo, Salvatore Pennisi:
Low harmonic distortion class AB CMOS current output stage. ICECS 1996: 5-8 - [c3]Giuseppe Palmisano, Gaetano Palumbo:
Simplified model of an amplifier with two poles and a pole-zero doublet. ICECS 1996: 124-127 - 1995
- [j5]Giuseppe Palmisano, Gaetano Palumbo:
A simple cmos CCII+. Int. J. Circuit Theory Appl. 23(6): 599-603 (1995) - [j4]Giovanni Calí, Giuseppe Palmisano, Gaetano Palumbo, N. Aiello:
An Area Efficient Current limiter for Automotive IC: Analysis and Design. J. Circuits Syst. Comput. 5(3): 443-454 (1995) - [c2]Giuseppe Di Cataldo, Giuseppe Palmisano, Gaetano Palumbo:
A CMOS CCII+. ISCAS 1995: 315-318 - 1994
- [j3]Giuseppe Palmisano, Gaetano Palumbo, Victor da Fonte Dias:
A high-frequency differential sc integrator with highly accurate gain compensation. Int. J. Circuit Theory Appl. 22(1): 71-75 (1994) - [c1]Giuseppe Palmisano, Gaetano Palumbo, Salvatore Pennisi:
A High-Accuracy High-Speed CMOS Current Comparator. ISCAS 1994: 739-742 - 1990
- [j2]Giovanni Chiappano, Armando Colamonico, Marcello Donati, Franco Maloberti, Federico Montecchi, Giuseppe Palmisano:
Custom integrated circuits for audio processing and signalling in vehicular units. Eur. Trans. Telecommun. 1(6): 603-610 (1990)
1980 – 1989
- 1988
- [j1]Giovanni Chiappano, Armando Colamonico, Marcello Donati, Franco Maloberti, Federico Montecchi, Giuseppe Palmisano:
A tunable switched-capacitor programmable N-path tone receiver and generator. IEEE J. Solid State Circuits 23(6): 1418-1425 (1988)
Coauthor Index
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