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ORCIDJames W. Haslett
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- affiliation: University of Calgary, Canada
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2020 – today
- 2020
[c31]Nan Zhang, Leonid Belostotski
, James W. Haslett:
Passive Third-, Fourth-, and Fifth-Order Reconfigurable D-Band Frequency Multipliers Based on Switched-Capacitor Varactors. MWSCAS 2020: 440-443
2010 – 2019
- 2016
- [j22]Mohammad Hossein Taghavi, Peyman Ahmadi, Leonid Belostotski, James W. Haslett:
A Stagger-Tuned Transimpedance Amplifier. IEEE Trans. Very Large Scale Integr. Syst. 24(4): 1460-1469 (2016) - [j21]Yongsheng Xu, Ge Wu, Leonid Belostotski, James W. Haslett:
5-bit 5-GS/s Noninterleaved Time-Based ADC in 65-nm CMOS for Radio-Astronomy Applications. IEEE Trans. Very Large Scale Integr. Syst. 24(12): 3513-3525 (2016) - 2015
- [j20]Andrew R. Macpherson, Leonid Belostotski, James W. Haslett:
65-nm CMOS Voltage-to-Time Converter for 5-GS/s Time-Based ADCs. Circuits Syst. Signal Process. 34(10): 3121-3145 (2015) - [j19]Mohammad Hossein Taghavi, Leonid Belostotski, James W. Haslett, Peyman Ahmadi:
10-Gb/s 0.13-µm CMOS Inductorless Modified-RGC Transimpedance Amplifier. IEEE Trans. Circuits Syst. I Regul. Pap. 62-I(8): 1971-1980 (2015) - 2014
- [j18]Yongsheng Xu, Leonid Belostotski, James W. Haslett:
A 65-nm CMOS 10-GS/s 4-bit Background-Calibrated Noninterleaved Flash ADC for Radio Astronomy. IEEE Trans. Very Large Scale Integr. Syst. 22(11): 2316-2325 (2014) - [c30]Mostafa Rashdan, James W. Haslett:
Differential-Time and Pulse-Amplitude Modulation Signaling for Serial Link Transceivers. ISMVL 2014: 248-253 - 2013
- [j17]Mostafa Rashdan, Abdel Yousif, James W. Haslett, Brent Maundy:
Differential Time Signaling Data-Link Architecture. J. Signal Process. Syst. 70(1): 21-37 (2013) - [c29]Andrew R. Macpherson, James W. Haslett, Leonid Belostotski:
A 5GS/s 4-bit time-based single-channel CMOS ADC for radio astronomy. CICC 2013: 1-4 - [c28]Ge Wu, Leonid Belostotski, James W. Haslett:
A broadband Variable Gain Amplifier for the Square Kilometer Array. ISCAS 2013: 2267-2270 - [c27]Mostafa Rashdan, James W. Haslett:
Comparing Performance of a Multiple-Valued Time-Based Serial Data Link with Other Serial Links. ISMVL 2013: 248-253 - [c26]Mohammad H. Taghavi, Peyman Ahmadi, Leonid Belostotski, James W. Haslett:
Low-power CMOS inductorless bandwidth-enhanced transimpedance amplifier for short-haul applications. RWS 2013: 82-84 - 2012
- [c25]Mohammad H. Taghavi, Leonid Belostotski, James W. Haslett:
Signal-to-Noise-Ratio-constrained jitter optimization for wideband amplifiers. CCECE 2012: 1-4 - [c24]Mostafa Rashdan, James W. Haslett, Brent Maundy:
Multiple-Valued Time-Based Architecture for Serial Communication Links. ISMVL 2012: 1-6 - [c23]Mohammad H. Taghavi, Leonid Belostotski, James W. Haslett:
A bandwidth enhancement technique for CMOS TIAs driven by large photodiodes. NEWCAS 2012: 433-436 - 2011
- [c22]Andrew R. Macpherson, Kenneth A. Townsend, James W. Haslett:
A 2.5GS/s 3-bit time-based ADC in 90nm CMOS. ISCAS 2011: 9-12 - 2010
- [c21]Ahmed Youssef, James W. Haslett, Edward Youssoufian:
Digitally-controlled RF passive attenuator in 65 nm CMOS for mobile TV tuner ICs. ISCAS 2010: 1999-2002 - [c20]Kenneth A. Townsend, Andrew R. Macpherson, James W. Haslett:
A fine-resolution Time-to-Digital Converter for a 5GS/S ADC. ISCAS 2010: 3024-3027 - [c19]Mostafa Rashdan, Abdel Yousif, James W. Haslett, Brent Maundy:
Data link design using a time-based approach. ISCAS 2010: 3977-3980
2000 – 2009
- 2009
- [j16]Kenneth A. Townsend, James W. Haslett:
A Wideband Power Detection System Optimized for the UWB Spectrum. IEEE J. Solid State Circuits 44(2): 371-381 (2009) - [c18]Mostafa Rashdan, Abdel Yousif, James W. Haslett, Brent Maundy:
A new time-based architecture for serial communication links. ICECS 2009: 531-534 - [c17]Ihab Amer, Rana Hamed, Wael M. Badawy, Graham A. Jullien, James W. Haslett:
An Enhanced Lenient Merging Scheme for H.264 Variable Block Size Selection. MMEDIA 2009: 136-139 - 2008
- [j15]Leonid Belostotski, James W. Haslett:
A Technique for Differential Noise Figure Measurement of Differential LNAs. IEEE Trans. Instrum. Meas. 57(7): 1298-1303 (2008) - 2007
- [j14]Leonid Belostotski, James W. Haslett:
Sub-0.2 dB Noise Figure Wideband Room-Temperature CMOS LNA With Non-50 Ω Signal-Source Impedance. IEEE J. Solid State Circuits 42(11): 2492-2502 (2007) - [j13]Leonid Belostotski, James W. Haslett:
Correction to "Noise Figure Optimization of Inductively-Degenerated CMOS LNA's With Integrated Gate Inductors". IEEE Trans. Circuits Syst. I Regul. Pap. 54-I(4): 925 (2007) - [c16]Kenneth A. Townsend, James W. Haslett, John Nielsen:
A CMOS Integrated Power Detector for UWB. ISCAS 2007: 3039-3042 - [c15]Holly Pekau, James W. Haslett:
A 0.18µm CMOS 2.1GHz Sub-sampling Receiver Front End with Fully Integrated Second- and Fourth-Order Q-Enhanced Filters. ISCAS 2007: 3103-3106 - 2006
- [j12]Ahmad Chamseddine, James W. Haslett, Michal M. Okoniewski:
CMOS Silicon-on-Sapphire RF Tunable Matching Networks. EURASIP J. Wirel. Commun. Netw. 2006 (2006) - [j11]Jim Kulyk, James W. Haslett:
A monolithic CMOS 2368±30 MHz transformer based Q-enhanced series-C coupled resonator bandpass filter. IEEE J. Solid State Circuits 41(2): 362-374 (2006) - [j10]Leonid Belostotski, James W. Haslett:
Noise figure optimization of inductively degenerated CMOS LNAs with integrated gate inductors. IEEE Trans. Circuits Syst. I Regul. Pap. 53-I(7): 1409-1422 (2006) - [c14]Holly Pekau, Jim Kulyk, James W. Haslett, Leonid Belostotski:
Linearization Techniques for Cross-Coupled Transconductor Circuits Used in Integrated Q-Enhanced LC Filters. CCECE 2006: 541-546 - [c13]Leonid Belostotski, James W. Haslett:
On Selection of Optimum Signal Source Impedance for Inductively-Degenerated CMOS LNAS. CCECE 2006: 584-589 - [c12]Leonid Belostotski, James W. Haslett, B. Veidt:
Wide-band CMOS low noise amplifier for applications in radio astronomy. ISCAS 2006 - [c11]Holly Pekau, Abdel Yousif, James W. Haslett:
A CMOS integrated linear voltage-to-pulse-delay-time converter for time based analog-to-digital converters. ISCAS 2006 - [c10]Kenneth A. Townsend, James W. Haslett:
Low-power Q-enhancement for parallel LC tanks. ISCAS 2006 - 2005
- [j9]Holly Pekau, James W. Haslett:
A 2.4 GHz CMOS sub-sampling mixer with integrated filtering. IEEE J. Solid State Circuits 40(11): 2159-2166 (2005) - [c9]Holly Pekau, Lee Hartley, James W. Haslett:
A re-configurable high-speed CMOS track and latch comparator with rail-to-rail input for IF digitization [software radio receiver applications]. ISCAS (6) 2005: 5369-5372 - [c8]Joshua K. Nakaska, James W. Haslett:
A CMOS Quality Factor Enhanced Parallel Resonant LC-Tank with Independent Q and Frequency Tuning for RF Integrated Filters. IWSOC 2005: 96-100 - [c7]Kenneth A. Townsend, James W. Haslett, Krzysztof Iniewski:
Design and Optimization of Low-Voltage Low-Power Quasi-Floating Gate Digital Circuits. IWSOC 2005: 132-136 - [c6]Kenneth A. Townsend, James W. Haslett, Tommy Kwong-Kin Tsang, Mourad N. El-Gamal, Krzysztof Iniewski:
Recent Advances and Future Trends in Low Power Wireless Systems for Medical Applications. IWSOC 2005: 476-481 - 2004
- [j8]Chris D. Holdenried, James W. Haslett, Michael W. Lynch:
Analysis and design of HBT Cherry-Hooper amplifiers with emitter-follower feedback for optical communications. IEEE J. Solid State Circuits 39(11): 1959-1967 (2004) - [c5]Chris D. Holdenried, James W. Haslett:
A DC-6 GHz, 50 dB dynamic range, SiGe HBT true logarithmic amplifier. ISCAS (4) 2004: 289-292 - [c4]Holly Pekau, Joshua K. Nakaska, Jim Kulyk, Grant McGibney, James W. Haslett:
SOC Design of an IF Subsampling Terminal for a Gigabit Wireless LAN with Asymmetric Equalization. IWSOC 2004: 307-313 - 2003
- [j7]Bogdan Georgescu, Holly Pekau, James W. Haslett, John G. McRory:
Tunable coupled inductor Q-enhancement for parallel resonant LC tanks. IEEE Trans. Circuits Syst. II Express Briefs 50(10): 705-713 (2003) - [c3]Chris D. Holdenried, Michael W. Lynch, James W. Haslett:
Modified CMOS Cherry-Hooper amplifiers with source follower feedback in 0.35μm technology. ESSCIRC 2003: 553-556 - [c2]Adesh Garg, Ian Steiner, Graham A. Jullien, James W. Haslett, G. H. McGibney:
A high speed complex adaptive filter for an asymmetric wireless LAN using a new quantized polynomial representation. ISCAS (2) 2003: 157-160 - [c1]Bogdan Georgescu, Joshua K. Nakaska, Robert G. Randall, James W. Haslett:
A 0.28µm CMOS Bluetooth Frequency Synthesizer for Integration with a Bluetooth SOC Reference Platform. IWSOC 2003: 258-263 - 2002
- [j6]Chris D. Holdenried, James W. Haslett, John G. McRory, R. Douglas Beards, A. J. Bergsma:
A DC-4-GHz true logarithmic amplifier: theory and implementation. IEEE J. Solid State Circuits 37(10): 1290-1299 (2002) - 2000
- [j5]Fred N. Trofimenkoff, Michael Segal, Allan Klassen, James W. Haslett:
Characterization of EM downhole-to-surface communication links. IEEE Trans. Geosci. Remote. Sens. 38(6): 2539-2548 (2000)
1990 – 1999
- 1997
- [j4]A. K. Gupta, James W. Haslett, Fred N. Trofimenkoff:
BiCMOS adjustable linear current mirror. IEEE J. Solid State Circuits 32(1): 130-134 (1997) - 1996
- [j3]A. K. Gupta, James W. Haslett, Fred N. Trofimenkoff:
A wide dynamic range continuously adjustable CMOS current mirror. IEEE J. Solid State Circuits 31(8): 1208-1213 (1996) - 1995
- [j2]Ivars G. Finvers, James W. Haslett, Fred N. Trofimenkoff:
A high temperature precision amplifier. IEEE J. Solid State Circuits 30(2): 120-128 (1995) - 1992
- [j1]Ronald H. Johnston, Fred N. Trofimenkoff, James W. Haslett:
The complex resistivity response of a homogeneous Earth with a finite-length contained vertical conductor. IEEE Trans. Geosci. Remote. Sens. 30(1): 46-54 (1992)
Coauthor Index
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