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ORCIDKhaled Hayatleh
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2020 – today
- 2022
[c22]Rajasekhar Nagulapalli, Khaled Hayatleh, Nabil Yassine, S. Barker:
A Novel Sub-1V Bandgap Reference with 17.1 ppm/0C Temperature coefficient in 28nm CMOS. ISCAS 2022: 1914-1917- 2020
- [j17]Rajasekhar Nagulapalli, Khaled Hayatleh
, Steve Barker, Amr A. Tammam, F. John Lidgey, Nabil Yassine:
A High-Sensitivity and Low-Power Circuit for the Measurement of Abnormal Blood Cell Levels. J. Circuits Syst. Comput. 29(4): 2050061:1-2050061:14 (2020) - [j16]Rajasekhar Nagulapalli, Khaled Hayatleh, Steve Barker:
A VGA Linearity Improvement Technique for ECG Analog Front-End in 65nm CMOS. J. Circuits Syst. Comput. 29(7): 2050113:1-2050113:11 (2020) - [j15]Rajasekhar Nagulapalli, Khaled Hayatleh, Steve Barker:
A Positive Feedback-Based Op-Amp Gain Enhancement Technique for High-Precision Applications. J. Circuits Syst. Comput. 29(14): 2050220:1-2050220:12 (2020) - [c21]Rajasekhar Nagulapalli, Khaled Hayatleh, Steve Barker, B. Naresh Kumar Reddy:
A Single BJT 10.2 ppm/°C Bandgap Reference in 45nm CMOS Technology. ICCCNT 2020: 1-4 - [c20]Rajasekhar Nagulapalli, Khaled Hayatleh, Steve Barker, B. Naresh Kumar Reddy:
A two-stage opamp frequency Compensation technique by splitting the 2nd stage. ICCCNT 2020: 1-5
2010 – 2019
- 2019
- [j14]Rajasekhar Nagulapalli, Khaled Hayatleh, Steve Barker, Pantelis Georgiou, F. J. Lidgey:
A High Value, Linear and Tunable CMOS Pseudo-Resistor for Biomedical Applications. J. Circuits Syst. Comput. 28(6): 1950096:1-1950096:11 (2019) - [j13]Khaled Hayatleh, Saddam Zourob, Rajasekhar Nagulapalli, Steve Barker, Nabil Yassine, Pantelis Georgiou, F. J. Lidgey:
A High-Performance Skin Impedance Measurement Circuit for Biomedical Applications. J. Circuits Syst. Comput. 28(7): 1950110:1-1950110:15 (2019) - [j12]Rajasekhar Nagulapalli, Khaled Hayatleh, Steve Barker, Amr A. Tammam, Pantelis Georgiou, F. J. Lidgey:
A 0.55 V Bandgap Reference with a 59 ppm/°C Temperature Coefficient. J. Circuits Syst. Comput. 28(7): 1950120:1-1950120:12 (2019) - [j11]Rajasekhar Nagulapalli, Khaled Hayatleh, Steve Barker, Amr A. Tammam, Nabil Yassine, Bilal Yassine, Mohamed Ben-Esmael:
A Low Noise Amplifier Suitable for Biomedical Recording Analog Front-End in 65nm CMOS Technology. J. Circuits Syst. Comput. 28(8): 1950137:1-1950137:12 (2019) - [j10]Rajasekhar Nagulapalli, Khaled Hayatleh, Steve Barker, Bilal Yassine, Saddam Zourob, Sumathi Raparthy, Nabil Yassine:
A Start-up Assisted Fully Differential Folded Cascode Opamp. J. Circuits Syst. Comput. 28(10): 1950164:1-1950164:12 (2019) - [c19]Rajasekhar Nagulapalli, Khaled Hayatleh, Steve Barker, B. Naresh Kumar Reddy, B. Seetharamulu:
A Low Power Miller Compensation Technique for Two Stage Op-amp in 65nm CMOS Technology. ICCCNT 2019: 1-5 - [c18]Rajasekhar Nagulapalli, Khaled Hayatleh, Steve Barker, B. Naresh Kumar Reddy, B. Seetharamulu:
A High Frequency CMRR improvement technique for Differential Amplifiers in 45nm CMOS. ICCCNT 2019: 1-5 - 2018
- [j9]Rajasekhar Nagulapalli, Khaled Hayatleh, Steve Barker, Sumathi Raparthy, Nabil Yassine, John Lidgey:
A 0.6 V MOS-Only Voltage Reference for Biomedical Applications with 40 ppm/∘C Temperature Drift. J. Circuits Syst. Comput. 27(8): 1850128:1-1850128:13 (2018) - [c17]Rajasekhar Nagulapalli, Khaled Hayatleh, Steve Barker, Saddam Zourob, Nabil Yassine, B. Naresh Kumar Reddy:
A Technique to Reduce the Capacitor Size in Two Stage Miller Compensated Opamp. ICCCNT 2018: 1-4 - [c16]Rajasekhar Nagulapalli, Khaled Hayatleh, Steve Barker, Saddam Zourob, Nabil Yassine, B. Naresh Kumar Reddy:
High Performance Circuit Techniques for Nueral Front-End Design in 65nm CMOS. ICCCNT 2018: 1-4 - [c15]Rajasekhar Nagulapalli, Khaled Hayatleh, Steve Barker, Saddam Zourob, Nabil Yassine, B. Naresh Kumar Reddy:
A 31 ppm/° C Pure CMOS Bandgap Reference by Exploiting Beta-Multiplier. VDAT 2018: 100-108 - 2017
- [c14]Steve Barker, Hooshang Izadi, Nigel T. Crook, Khaled Hayatleh, Matthias Rolf, Philip Hughes, Neil Fellows:
Natural head movement for HRI with a muscular-skeletal head and neck robot. RO-MAN 2017: 587-592 - 2016
- [j8]Mohamed Ben-Esmael, Mary Mathew, Bryan L. Hart, Khaled Hayatleh:
Technique for Increasing the Output Impedance of CMOS Regulated Cascode Circuits. J. Circuits Syst. Comput. 25(10): 1650118:1-1650118:6 (2016) - 2015
- [c13]Steve Barker, Luis A. Fuente, Khaled Hayatleh, Neil Fellows, Jochen J. Steil, Nigel T. Crook:
Design of a biologically inspired humanoid neck. ROBIO 2015: 25-30 - 2014
- [j7]Nikolaos Terzopoulos, Khaled Hayatleh, Cristiana Sebu, F. J. Lidgey, Mohamed Ben-Esmael, Amr A. Tammam, Steve Barker:
Analysis and Design of a High Precision-High output impedance Tissue Current Driver for Medical Applications. J. Circuits Syst. Comput. 23(8) (2014) - 2013
- [j6]Mohamed Ben-Esmael, F. J. Lidgey, Khaled Hayatleh, Bryan L. Hart:
Gain-Bandwidth Trade-Off in the CMOS Cascode amplifier. J. Circuits Syst. Comput. 22(3) (2013) - 2012
- [c12]F. J. Lidgey, Mohamed Ben-Esmael, Khaled Hayatleh, Bryan L. Hart:
Cascode amplifier: A cautionary tale. CSNDSP 2012: 1-4 - [c11]Panavy Pookaiyaudom, Apisak Worapishet, F. J. Lidgey, Khaled Hayatleh, Christofer Toumazou:
Measurement of cell and bacterial activity using array-based ISFET Chemical Current-Conveyor in weak-inversion. ISCAS 2012: 2059-2062 - 2011
- [j5]T. Barry, G. Fuller, Khaled Hayatleh, F. John Lidgey:
Self-Calibrating Infrared Thermometer for Low-Temperature Measurement. IEEE Trans. Instrum. Meas. 60(6): 2047-2052 (2011) - 2010
- [j4]Mary Mathew, Khaled Hayatleh, Bryan L. Hart:
A High-Transconductance Voltage-to-Current Converter Design. Circuits Syst. Signal Process. 29(6): 1123-1140 (2010) - [j3]Ruiheng Wu, F. John Lidgey, Khaled Hayatleh, Bryan L. Hart:
Differential amplifier with improved gain-accuracy and linearity. Int. J. Circuit Theory Appl. 38(8): 829-844 (2010)
2000 – 2009
- 2006
- [c10]Nikolaos Charalampidis, Khaled Hayatleh, Bryan L. Hart, F. John Lidgey:
A wide bandwidth voltage-follower with low distortion and high slew rate. ICECS 2006: 256-259 - 2005
- [c9]Nikolaos Terzopoulos, Khaled Hayatleh, Bryan L. Hart, F. J. Lidgey:
The collector-base resistance of a BJT. ECCTD 2005: 209-212 - 2004
- [c8]Amr A. Tammam, Khaled Hayatleh, Bryan L. Hart, F. John Lidgey:
A hierarchy of input stages for current feedback operational amplifiers. ISCAS (1) 2004: 821-824 - [c7]Amr A. Tammam, Khaled Hayatleh, Bryan L. Hart, F. John Lidgey:
High performance current-feedback op-amps. ISCAS (1) 2004: 825-828 - 2002
- [j2]J. Lee, Khaled Hayatleh, F. J. Lidgey, J. Drew:
Linear Bi-CMOS Transconductance for Gm-C Filter Applications. J. Circuits Syst. Comput. 11(3): 219-230 (2002) - [c6]J. Lee, Khaled Hayatleh, F. J. Lidgey, J. Drew:
Tuneable linear transconductance cell for Gm-C filter applications. ISCAS (4) 2002: 253-256 - [c5]Amr A. Tammam, Khaled Hayatleh, F. J. Lidgey:
Novel high performance current-feedback op-amp. ISCAS (1) 2002: 705-708 - [c4]J. Lee, Khaled Hayatleh, F. J. Lidgey:
Modified Gilbert transconductance multiplier. ISCAS (1) 2002: 733-736
1990 – 1999
- 1999
- [c3]Khaled Hayatleh, W. J. Su, F. J. Lidgey:
Improved current-feedback op-amp with good DC and CMRR performance. ISCAS (2) 1999: 263-266 - 1996
- [j1]Khaled Hayatleh, F. J. Lidgey, S. Porta:
Comparing Dual Current-Conveyor Configurations. J. Circuits Syst. Comput. 6(5): 475-484 (1996) - 1994
- [c2]Khaled Hayatleh, S. Porta, F. J. Lidgey:
High Frequency Performance of Current-Mode Precision Full Wave Rectifiers. ISCAS 1994: 401-404 - 1993
- [c1]F. J. Lidgey, Khaled Hayatleh, Chris Toumazou:
New Current-mode Precision Rectifiers. ISCAS 1993: 1322-1325
Coauthor Index
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