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David J. Allstot
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2020 – today
- 2023
- [j62]Jialin Liu, David J. Allstot:
Compressed Sensing Σ-Δ Modulators and a Recovery Algorithm for Multi-Channel Wireless Bio-Signal Acquisition. IEEE Trans. Circuits Syst. I Regul. Pap. 70(4): 1429-1438 (2023) - [j61]Jialin Liu, David J. Allstot:
A Chopper-Stabilized Switched-Capacitor Front-End for Peripheral Nervous System Recording. IEEE Trans. Circuits Syst. I Regul. Pap. 70(8): 3065-3074 (2023) - [c79]Ajmal Vadakkan Kayyil, Bo Qiao, David J. Allstot:
A Digitally Configurable Outphasing Switched-Capacitor-Based RF Transmitter. MWSCAS 2023: 664-668 - 2022
- [c78]David J. Allstot, Un-Ku Moon, Gabor C. Temes:
Switched-Capacitor Circuits. CICC 2022: 1-8 - 2021
- [c77]Jialin Liu, David J. Allstot:
A Switched-Capacitor Closed-Loop Integration Sampling Front-End for Peripheral Nerve Recording. BioCAS 2021: 1-4 - [c76]Ajmal Vadakkan Kayyil, Bo Qiao, David J. Allstot:
Linearity Improvement Techniques for CMOS Switched-Capacitor Power Amplifiers. ISCAS 2021: 1-5 - [c75]Jialin Liu, David J. Allstot:
Compressed Sensing Σ-Δ Modulators and Recovery Algorithm for Multi-Channel Bio-Signal Acquisition. ISCAS 2021: 1-4 - [c74]Bo Qiao, Ajmal Vadakkan Kayyil, Jeffrey S. Walling, David J. Allstot:
I/Q-Sharing Switched-Capacitor Power Amplifier with Baseband Harmonic-Rejection and Wilkinson Combiner. ISCAS 2021: 1-4 - 2020
- [c73]Chaiyanut Aueamnuay, Ajmal Vadakkan Kayyil, Jialin Liu, Narayana Bhagirath Thota, David J. Allstot:
gm/ID Design Considerations for Subthreshold-Based CMOS Two-Stage Operational Amplifiers. ISCAS 2020: 1-5 - [c72]Chaiyanut Aueamnuay, Ajmal Vadakkan Kayyil, Narayana Bhagirath Thota, Praveen Kumar Venkatachala, David J. Allstot:
gm/ID-Based Frequency Compensation of CMOS Two-Stage Operational Amplifiers. ISCAS 2020: 1-5 - [c71]Parmoon Seddighrad, Yorgos Palaskas, Hongtao Xu, Paolo Madoglio, Kailash Chandrashekar, David J. Allstot:
Transformer-Combining Digital PA with Efficiency Peaking at 0, -6, and -12 dB Backoff in 32nm CMOS. ISCAS 2020: 1-4 - [c70]Si-Wook Yoo, Shih-Chang Hung, Jeffrey S. Walling, David J. Allstot, Sang-Min Yoo:
10.7 A 0.26mm2 DPD-Less Quadrature Digital Transmitter With 30dB Pout Range in 65nm CMOS. ISSCC 2020: 184-186 - [c69]Jialin Liu, David J. Allstot:
Windowed Integration Sampling in Bio-Signal Front-End Design. MWSCAS 2020: 529-532
2010 – 2019
- 2019
- [c68]Ajmal Vadakkan Kayyil, Pavan Kumar Ramakrishna, OnnLim Yong, David J. Allstot, Howard C. Yang:
A Two-Stage CMOS OTA with Load-Pole Cancellation. ISCAS 2019: 1-5 - [c67]Yu-Wen Kuo, Pavan Kumar Ramakrishna, Ajmal Vadakkan Kayyil, David J. Allstot:
Low-Voltage Tracking RC Frequency Compensation in Two-Stage Operational Amplifiers*. MWSCAS 2019: 782-785 - 2017
- [j60]Sandipan Kundu, Subhanshu Gupta, David J. Allstot, Jeyanandh Paramesh:
Frequency-Channelized Mismatch-Shaped Quadrature Data Converters for Carrier Aggregation in MU-MIMO LTE-A. IEEE Trans. Circuits Syst. I Regul. Pap. 64-I(1): 3-13 (2017) - 2015
- [c66]Sandipan Kundu, Subhanshu Gupta, David J. Allstot, Jeyanandh Paramesh:
DAC mismatch shaping for quadrature sigma-delta data converters. MWSCAS 2015: 1-4 - 2014
- [j59]Daibashish Gangopadhyay, Emily G. Allstot, Anna M. R. Dixon, Karthik Natarajan, Subhanshu Gupta, David J. Allstot:
Compressed Sensing Analog Front-End for Bio-Sensor Applications. IEEE J. Solid State Circuits 49(2): 426-438 (2014) - 2013
- [j58]Sang-Min Yoo, Jeffrey S. Walling, Ofir Degani, Benjamin Jann, Ram Sadhwani, Jacques Christophe Rudell, David J. Allstot:
A Class-G Switched-Capacitor RF Power Amplifier. IEEE J. Solid State Circuits 48(5): 1212-1224 (2013) - 2012
- [j57]Jeffrey S. Walling, Sang-Min Yoo, David J. Allstot:
Digital power amplifier: A new way to exploit the switched-capacitor circuit. IEEE Commun. Mag. 50(4): 145-151 (2012) - [j56]David J. Allstot, Riccardo Rovatti, Gianluca Setti:
Editorial. IEEE J. Emerg. Sel. Topics Circuits Syst. 2(3): 337-339 (2012) - [j55]Subhanshu Gupta, Daibashish Gangopadhyay, Hasnain Lakdawala, Jacques Christophe Rudell, David J. Allstot:
A 0.8-2 GHz Fully-Integrated QPLL-Timed Direct-RF-Sampling Bandpass ΣΔ ADC in 0.13 µm CMOS. IEEE J. Solid State Circuits 47(5): 1141-1153 (2012) - [j54]Anna M. R. Dixon, Emily G. Allstot, Daibashish Gangopadhyay, David J. Allstot:
Compressed Sensing System Considerations for ECG and EMG Wireless Biosensors. IEEE Trans. Biomed. Circuits Syst. 6(2): 156-166 (2012) - [j53]Subhanshu Gupta, Yi Tang, Jeyanandh Paramesh, David J. Allstot:
Multi-rate Polyphase DSP and LMS Calibration Schemes for Oversampled ADCs. J. Signal Process. Syst. 69(3): 329-338 (2012) - [c65]Christopher J. Mandic, Daibashish Gangopadhyay, David J. Allstot:
A 1.1µW 2.1µVRMS input noise chopper-stabilized amplifier for bio-medical applications. ISCAS 2012: 2881-2884 - 2011
- [j52]Sang-Min Yoo, Jeffrey S. Walling, Eum Chan Woo, Benjamin Jann, David J. Allstot:
A Switched-Capacitor RF Power Amplifier. IEEE J. Solid State Circuits 46(12): 2977-2987 (2011) - [j51]Sankaran Aniruddhan, Sudip Shekhar, David J. Allstot:
A CMOS 1.6 GHz Dual-Loop PLL With Fourth-Harmonic Mixing. IEEE Trans. Circuits Syst. I Regul. Pap. 58-I(5): 860-867 (2011) - [j50]Sudip Shekhar, Daibashish Gangopadhyay, Eum Chan Woo, David J. Allstot:
A 2.4-GHz Extended-Range Type-I SigmaDelta Fractional-N Synthesizer With 1.8-MHz Loop Bandwidth and -110-dBc/Hz Phase Noise. IEEE Trans. Circuits Syst. II Express Briefs 58-II(8): 472-476 (2011) - [c64]Karthik Natarajan, Sang-Min Yoo, David J. Allstot, Jeffrey S. Walling:
Towards greener wireless transmission: Efficient power amplifier design. IGCC 2011: 1-4 - [c63]Subhanshu Gupta, Yi Tang, Kuang-Wei Cheng, Jeyanandh Paramesh, David J. Allstot:
Multi-rate polyphase DSP and LMS calibration schemes for oversampled data conversion systems. ICASSP 2011: 1585-1588 - [c62]Anna M. R. Dixon, Emily G. Allstot, Andrew Y. Chen, Daibashish Gangopadhyay, David J. Allstot:
Compressed sensing reconstruction: Comparative study with applications to ECG bio-signals. ISCAS 2011: 805-808 - [c61]Aabeeya Salman, Emily G. Allstot, Andrew Y. Chen, Anna M. R. Dixon, Daibashish Gangopadhyay, David J. Allstot:
Compressive sampling of EMG bio-signals. ISCAS 2011: 2095-2098 - [c60]Daibashish Gangopadhyay, Andrew Y. Chen, David J. Allstot:
Analog Chirp Fourier Transform for high-resolution real-time wideband RF spectrum Analysis. ISCAS 2011: 2441-2444 - [c59]Sang-Min Yoo, Jeffrey S. Walling, Eum Chan Woo, David J. Allstot:
A switched-capacitor power amplifier for EER/polar transmitters. ISSCC 2011: 428-430 - 2010
- [j49]Charles T. Peach, Un-Ku Moon, David J. Allstot:
An 11.1 mW 42 MS/s 10 b ADC With Two-Step Settling in 0.18 μ m CMOS. IEEE J. Solid State Circuits 45(2): 391-400 (2010) - [j48]Kuang-Wei Cheng, Karthik Natarajan, David J. Allstot:
A Current Reuse Quadrature GPS Receiver in 0.13 μ m CMOS. IEEE J. Solid State Circuits 45(3): 510-523 (2010) - [j47]Jeffrey S. Walling, David J. Allstot:
Linearizing CMOS Switching Power Amplifiers Using Supply Regulators. IEEE Trans. Circuits Syst. II Express Briefs 57-II(7): 497-501 (2010) - [c58]Subhanshu Gupta, Daibashish Gangopadhyay, David J. Allstot:
A Mode-I/Mode-III UWB LNA with programmable gain and 20 dB WLAN blocker rejection in 130nm CMOS. ISCAS 2010: 1093-1096 - [c57]Heng-Chia Hsu, Kaushik Dasgupta, Nathan M. Neihart, Sudip Shekhar, Jeffrey S. Walling, David J. Allstot:
U-shaped slow-wave transmission lines in 0.18μm CMOS. ISCAS 2010: 1296-1299 - [c56]Daibashish Gangopadhyay, Sudip Shekhar, Jeffrey S. Walling, David J. Allstot:
A 1.6 mW 5.4 GHz transformer-feedback gm-boosted current-reuse LNA in 0.18/μm CMOS. ISCAS 2010: 1635-1638
2000 – 2009
- 2009
- [j46]Dicle Ozis, Jeyanandh Paramesh, David J. Allstot:
Integrated Quadrature Couplers and Their Application in Image-Reject Receivers. IEEE J. Solid State Circuits 44(5): 1464-1476 (2009) - [j45]Jeffrey S. Walling, Hasnain Lakdawala, Yorgos Palaskas, Ashoke Ravi, Ofir Degani, Krishnamurthy Soumyanath, David J. Allstot:
A Class-E PA With Pulse-Width and Pulse-Position Modulation in 65 nm CMOS. IEEE J. Solid State Circuits 44(6): 1668-1678 (2009) - [j44]Jeffrey S. Walling, Stewart S. Taylor, David J. Allstot:
A Class-G Supply Modulator and Class-E PA in 130 nm CMOS. IEEE J. Solid State Circuits 44(9): 2339-2347 (2009) - [j43]Sudip Shekhar, Ganesh Balamurugan, David J. Allstot, Mozhgan Mansuri, James E. Jaussi, Randy Mooney, Joseph T. Kennedy, Bryan Casper, Frank O'Mahony:
Strong Injection Locking in Low- Q LC Oscillators: Modeling and Application in a Forwarded-Clock I/O Receiver. IEEE Trans. Circuits Syst. I Regul. Pap. 56-I(8): 1818-1829 (2009) - [j42]Cameron T. Charles, David J. Allstot:
A Calibrated Phase and Amplitude Control System for a 1.9 GHz Phased-Array Transmitter Element. IEEE Trans. Circuits Syst. I Regul. Pap. 56-I(12): 2728-2737 (2009) - [j41]Ling Luo, Nathan M. Neihart, Sumit Roy, David J. Allstot:
A two-stage sensing technique for dynamic spectrum access. IEEE Trans. Wirel. Commun. 8(6): 3028-3037 (2009) - [c55]Nathan M. Neihart, David J. Allstot, Matt Miller, Pat Rakers:
Twisted Transformers for Low Coupling RF and Mixed Signal Applications. ISCAS 2009: 429-432 - [c54]Kuang-Wei Cheng, Karthik Natarajan, David J. Allstot:
A 7.2mW quadrature GPS receiver in 0.13µm CMOS. ISSCC 2009: 422-423 - 2008
- [j40]Sudip Shekhar, Jeffrey S. Walling, Sankaran Aniruddhan, David J. Allstot:
CMOS VCO and LNA Using Tuned-Input Tuned-Output Circuits. IEEE J. Solid State Circuits 43(5): 1177-1186 (2008) - [j39]Gaurab Banerjee, Krishnamurthy Soumyanath, David J. Allstot:
Desensitized CMOS Low-Noise Amplifiers. IEEE Trans. Circuits Syst. I Regul. Pap. 55-I(3): 752-765 (2008) - [j38]Yi Tang, Kuang-Wei Cheng, Subhanshu Gupta, Jeyanandh Paramesh, David J. Allstot:
Cascaded Complex ADCs With Adaptive Digital Calibration for I/Q Mismatch. IEEE Trans. Circuits Syst. I Regul. Pap. 55-I(3): 817-827 (2008) - [j37]Jeffrey S. Walling, Sudip Shekhar, David J. Allstot:
Wideband CMOS Amplifier Design: Time-Domain Considerations. IEEE Trans. Circuits Syst. I Regul. Pap. 55-I(7): 1781-1793 (2008) - [c53]Nathan M. Neihart, David J. Allstot, Matt Miller, Pat Rakers:
Twisted inductors for low coupling mixed-signal and RF applications. CICC 2008: 575-578 - [c52]Subhanshu Gupta, Yi Tang, David J. Allstot, Jeyanandh Paramesh:
Hybrid modeling techniques for low OSR cascade continuous-time SigmaDelta modulators. ISCAS 2008: 2414-2417 - [c51]Cameron T. Charles, David J. Allstot:
A buffered charge pump with zero charge sharing. ISCAS 2008: 2633-2636 - [c50]Frank O'Mahony, Sudip Shekhar, Mozhgan Mansuri, Ganesh Balamurugan, James E. Jaussi, Joseph T. Kennedy, Bryan Casper, David J. Allstot, Randy Mooney:
A 27Gb/s Forwarded-Clock I/O Receiver Using an Injection-Locked LC-DCO in 45nm CMOS. ISSCC 2008: 452-453 - [c49]Jeffrey S. Walling, Hasnain Lakdawala, Yorgos Palaskas, Ashoke Ravi, Ofir Degani, Krishnamurthy Soumyanath, David J. Allstot:
A 28.6dBm 65nm Class-E PA with Envelope Restoration by Pulse-Width and Pulse-Position Modulation. ISSCC 2008: 566-567 - 2007
- [j36]Hossein Zarei, Cameron T. Charles, David J. Allstot:
Reflective-Type Phase Shifters for Multiple-Antenna Transceivers. IEEE Trans. Circuits Syst. I Regul. Pap. 54-I(8): 1647-1656 (2007) - [c48]Yi Tang, Subhanshu Gupta, Jeyanandh Paramesh, David J. Allstot:
A Digital-Summing Feedforward Sigma-Delta Modulator and its Application to a Cascade ADC. ISCAS 2007: 485-488 - [c47]Nathan M. Neihart, Sumit Roy, David J. Allstot:
A Parallel, Multi-Resolution Sensing Technique for Multiple Antenna Cognitive Radios. ISCAS 2007: 2530-2533 - [c46]Jeffrey S. Walling, David J. Allstot:
Monolithic Spiral Transformers: A Design Methodology. ISCAS 2007: 3351-3354 - 2006
- [j35]Sudip Shekhar, Jeffrey S. Walling, David J. Allstot:
Bandwidth Extension Techniques for CMOS Amplifiers. IEEE J. Solid State Circuits 41(11): 2424-2439 (2006) - [j34]Ali Afzali-Kusha, Makoto Nagata, Nishath K. Verghese, David J. Allstot:
Substrate Noise Coupling in SoC Design: Modeling, Avoidance, and Validation. Proc. IEEE 94(12): 2109-2138 (2006) - [j33]Kiyong Choi, David J. Allstot:
Parasitic-aware design and optimization of a CMOS RF power amplifier. IEEE Trans. Circuits Syst. I Regul. Pap. 53-I(1): 16-25 (2006) - [j32]Jinho Park, David J. Allstot:
A matrix amplifier in 0.18-μm SOI CMOS. IEEE Trans. Circuits Syst. I Regul. Pap. 53-I(3): 561-568 (2006) - [j31]Cameron T. Charles, David J. Allstot:
A Calibrated Phase/Frequency Detector for Reference Spur Reduction in Charge-Pump PLLs. IEEE Trans. Circuits Syst. II Express Briefs 53-II(9): 822-826 (2006) - [j30]Jeyanandh Paramesh, David J. Allstot:
Analysis of the Bridged T-Coil Circuit Using the Extra-Element Theorem. IEEE Trans. Circuits Syst. II Express Briefs 53-II(12): 1408-1412 (2006) - [c45]Sankaran Aniruddhan, Sudip Shekhar, David J. Allstot:
A delay generation technique for fast-locking frequency synthesizers. ISCAS 2006 - [c44]Cameron T. Charles, David J. Allstot:
A 2-GHz integrated CMOS reflective-type phase shifter with 675° control range. ISCAS 2006 - [c43]Cameron T. Charles, David J. Allstot:
A 2-GHz CMOS variable gain amplifier optimized for low noise. ISCAS 2006 - [c42]Cameron T. Charles, David J. Allstot:
A variable-offset phase detector for phased-array applications. ISCAS 2006 - [c41]Dicle Ozis, Jeyanandh Paramesh, David J. Allstot:
Analysis and design of lumped-element quadrature couplers with lossy passive elements. ISCAS 2006 - [c40]Sudip Shekhar, Sankaran Aniruddhan, David J. Allstot:
A fully-differential CMOS Clapp VCO for IEEE 802.11a applications. ISCAS 2006 - 2005
- [j29]Jeyanandh Paramesh, Ralph Bishop, Krishnamurthy Soumyanath, David J. Allstot:
A four-antenna receiver in 90-nm CMOS for beamforming and spatial diversity. IEEE J. Solid State Circuits 40(12): 2515-2524 (2005) - [j28]Xiaoyong Li, Sudip Shekhar, David J. Allstot:
Gm-boosted common-gate LNA and differential colpitts VCO/QVCO in 0.18-μm CMOS. IEEE J. Solid State Circuits 40(12): 2609-2619 (2005) - [j27]Min Chu, David J. Allstot:
Elitist nondominated sorting genetic algorithm based RF IC optimizer. IEEE Trans. Circuits Syst. I Regul. Pap. 52-I(3): 535-545 (2005) - [j26]Wei Zhuo, Xiaoyong Li, Sudip Shekhar, Sherif H. K. Embabi, José Pineda de Gyvez, David J. Allstot, Edgar Sánchez-Sinencio:
A capacitor cross-coupled common-gate low-noise amplifier. IEEE Trans. Circuits Syst. II Express Briefs 52-II(12): 875-879 (2005) - [c39]Min Chu, David J. Allstot:
An elitist distributed particle swarm algorithm for RF IC optimization. ASP-DAC 2005: 671-674 - [c38]Min Chu, David J. Allstot:
Phase-locked loop synthesis using hierarchical divide-and-conquer multi-optimization. ASP-DAC 2005: 675-678 - [c37]Charles T. Peach, Ashoke Ravi, Rosie Bishop, Krishnamurthy Soumyanath, David J. Allstot:
A 9-b 400 Msample/s pipelined analog-to digital converter in 90nm CMOS. ESSCIRC 2005: 535-538 - [c36]Hossein Zarei, Allan Ecker, Jinho Park, David J. Allstot:
A full-range all-pass variable phase shifter for multiple antenna receivers. ISCAS (3) 2005: 2100-2103 - [c35]K. M. Naegle, Subhanshu Gupta, David J. Allstot:
Design considerations for a 10 GHz CMOS transmit-receive switch. ISCAS (3) 2005: 2104-2107 - [c34]Cameron T. Charles, David J. Allstot:
A 360° extended range phase detector for type-I PLLs. ISCAS (6) 2005: 5457-5460 - [c33]Sankaran Aniruddhan, David J. Allstot:
Architectural issues in base-station frequency synthesizers. ISCAS (6) 2005: 6034-6037 - [c32]Vikram Jandhyala, Yasuo Kuga, David J. Allstot, Chuanjin Richard Shi:
Bridging Circuits and Electromagnetics in a Curriculum Aimed at Microelectronic Analog and Microwave Simulation and Design. MSE 2005: 45-46 - 2004
- [j25]See Taur Lee, Sher Jiun Fang, David J. Allstot, Abdellatif Bellaouar, Ahmed R. Fridi, Paul Fontaine:
A quad-band GSM-GPRS transmitter with digital auto-calibration. IEEE J. Solid State Circuits 39(12): 2200-2214 (2004) - [j24]Taeik Kim, Xiaoyong Li, David J. Allstot:
Compact model generation for on-chip transmission lines. IEEE Trans. Circuits Syst. I Regul. Pap. 51-I(3): 459-470 (2004) - [j23]Jinho Park, Kiyong Choi, David J. Allstot:
Parasitic-aware RF circuit design and optimization. IEEE Trans. Circuits Syst. I Regul. Pap. 51-I(10): 1953-1966 (2004) - [j22]Jianjun Guo, Waisiu Law, Ward J. Helms, David J. Allstot:
Digital calibration for monotonic pipelined A/D converters. IEEE Trans. Instrum. Meas. 53(6): 1485-1492 (2004) - [c31]Min Chu, David J. Allstot, Jeffrey M. Huard, Kim Y. Wong:
NSGA-based parasitic-aware optimization of a 5GHz low-noise VCO. ASP-DAC 2004: 169-174 - [c30]Gaurab Banerjee, David T. Becher, Celia Hung, David J. Allstot, Krishnamurthy Soumyanath:
Measurement and modeling of noise parameters for desensitized low noise amplifiers. CICC 2004: 387-390 - [c29]Min Chu, David J. Allstot:
A 6 GHz low-noise quadrature Colpitts VCO. ICECS 2004: 21-24 - [c28]Min Chu, Sudip Shekhar, David J. Allstot, Tarun Kanti Bhattacharyya:
Design considerations for anti-phase injected quadrature voltage controlled oscillators. ICECS 2004: 25-28 - [c27]Gaurab Banerjee, David T. Becher, Celia Hung, Krishnamurthy Soumyanath, David J. Allstot:
Desensitized design of MOS low noise amplifiers by Rn minimization. ICECS 2004: 619-622 - [c26]Jinho Park, David J. Allstot:
RF circuit synthesis using particle swarm optimization. ISCAS (5) 2004: 93-96 - [c25]Jinho Park, David J. Allstot:
A 12.5 GHz RF matrix amplifier in 180nm SOI CMOS. ISCAS (1) 2004: 117-20 - [c24]Kiyong Choi, David J. Allstot:
Post-optimization design centering for RF integrated circuits. ISCAS (1) 2004: 956-959 - [c23]Taeik Kim, David J. Allstot:
A tunable transmission line phase shifter (TTPS). ISCAS (1) 2004: 972-975 - [c22]Sankaran Aniruddhan, Min Chu, David J. Allstot:
A lateral-BJT-biased CMOS voltage-controlled oscillator. ISCAS (1) 2004: 976-979 - 2003
- [c21]Jinho Park, Kiyong Choi, David J. Allstot:
Parasitic-aware design and optimization of a fully integrated CMOS wideband amplifier. ASP-DAC 2003: 904-907 - [c20]J. Shorb, Xiaoyong Li, David J. Allstot:
A resonant pad for ESD protected narrowband CMOS RF applications. ISCAS (1) 2003: 61-64 - [c19]Srinivas Kodali, David J. Allstot:
A symmetric miniature 3D inductor. ISCAS (1) 2003: 89-92 - [c18]Srinivas Kodali, Taeik Kim, David J. Allstot:
On-chip inductor structures: a comparative study. ISCAS (1) 2003: 93-96 - [c17]Taeik Kim, Xiaoyong Li, David J. Allstot:
Accurate compact model extraction for on-chip coplanar waveguides. ISCAS (4) 2003: 644-647 - [c16]D. R. Beck, David J. Allstot, D. Garrity:
An 8-bit, 1.8 V, 20 MSample/s analog-to-digital converter using low gain opamps. ISCAS (1) 2003: 853-856 - [c15]Waisiu Law, Jianjun Guo, Charles T. Peach, Ward J. Helms, David J. Allstot:
A monotonic digital calibration technique for pipelined data converters. ISCAS (1) 2003: 873-876 - [c14]Jianjun Guo, Waisiu Law, Charles T. Peach, Ward J. Helms, David J. Allstot:
A mixed-signal calibration technique for low-voltage CMOS 1.5-bit/stage pipeline data converters. ISCAS (1) 2003: 889-892 - 2002
- [j21]Hee-Tae Ahn, David J. Allstot:
A 0.5-8.5 GHz fully differential CMOS distributed amplifier. IEEE J. Solid State Circuits 37(8): 985-993 (2002) - [c13]Charles T. Peach, Waisiu Law, D. R. Beck, Ward J. Helms, David J. Allstot:
Matching considerations in I/Q A/D converter pairs. ISCAS (3) 2002: 145-148 - [c12]Kiyong Choi, David J. Allstot, Sayfe Kiaei:
Parasitic-aware synthesis of RF CMOS switching power amplifiers. ISCAS (1) 2002: 269-272 - [c11]J. Shorb, David J. Allstot, R. Roze:
Class AB-D-G line driver for central office asymmetric digital subscriber line systems. ISCAS (5) 2002: 405-408 - [c10]Sher Jiun Fang, See Taur Lee, David J. Allstot, Abdellatif Bellaouar:
A 2 GHz CMOS even harmonic mixer for direct conversion receivers. ISCAS (4) 2002: 807-810 - 2001
- [j20]Ravi Gupta, Brian M. Ballweber, David J. Allstot:
Design and optimization of CMOS RF power amplifiers. IEEE J. Solid State Circuits 36(2): 166-175 (2001) - 2000
- [j19]Brian M. Ballweber, Ravi Gupta, David J. Allstot:
A fully integrated 0.5-5.5 GHz CMOS distributed amplifier. IEEE J. Solid State Circuits 35(2): 231-239 (2000) - [j18]Hee-Tae Ahn, David J. Allstot:
A low-jitter 1.9-V CMOS PLL for UltraSPARC microprocessor applications. IEEE J. Solid State Circuits 35(3): 450-454 (2000) - [j17]Brian M. Ballweber, Ravi Gupta, David J. Allstot:
Correction to "A fully integrated 0.5 - 5.5-GHz CMOS distributed amplifier". IEEE J. Solid State Circuits 35(6): 921 (2000)
1990 – 1999
- 1999
- [j16]Ravi Gupta, David J. Allstot:
Fully monolithic CMOS RF power amplifiers: recent advances. IEEE Commun. Mag. 37(4): 94-98 (1999) - [j15]Hiok-Tiaq Ng, Ramsin M. Ziazadeh, David J. Allstot:
A multistage amplifier technique with embedded frequency compensation. IEEE J. Solid State Circuits 34(3): 339-347 (1999) - [j14]Jianjun Zhou, David J. Allstot:
Addition to "Monolithic transformers and their application in a differential CMOS RF low-noise amplifier". IEEE J. Solid State Circuits 34(8): 1176 (1999) - 1998
- [j13]Nishath K. Verghese, David J. Allstot:
Computer-aided design considerations for mixed-signal coupling in RF integrated circuits. IEEE J. Solid State Circuits 33(3): 314-323 (1998) - [j12]Jianjun Zhou, David J. Allstot:
Monolithic transformers and their application in a differential CMOS RF low-noise amplifier. IEEE J. Solid State Circuits 33(12): 2020-2027 (1998) - [j11]Sayfe Kiaei, David J. Allstot, Ken Hansen, Nishath K. Verghese:
Noise considerations for mixed-signal RF IC transceivers. Wirel. Networks 4(1): 41-53 (1998) - [c9]Ramsin M. Ziazadeh, Hiok-Tiaq Ng, David J. Allstot:
A multistage amplifier topology with embedded tracking compensation. CICC 1998: 361-364 - 1997
- [j10]Rohit Mittal, Kimberly C. Bracken, L. Richard Carley, David J. Allstot:
A low-power backward equalizer for DFE read-channel applications. IEEE J. Solid State Circuits 32(2): 270-273 (1997) - [j9]Hiok-Tiaq Ng, David J. Allstot:
CMOS current steering logic for low-voltage mixed-signal integrated circuits. IEEE Trans. Very Large Scale Integr. Syst. 5(3): 301-308 (1997) - [c8]Jianjun Zhou, Ramsin M. Ziazadeh, H.-H. Ng, Hiok-Tiaq Ng, David J. Allstot:
Charge-pump assisted low-power/low-voltage CMOS opamp design. ISLPED 1997: 108-109 - 1996
- [j8]Rajesh H. Zele, David J. Allstot:
Low-power CMOS continuous-time filters. IEEE J. Solid State Circuits 31(2): 157-168 (1996) - [j7]Nishath K. Verghese, David J. Allstot, Mark A. Wolfe:
Verification techniques for substrate coupling and their application to mixed-signal IC design. IEEE J. Solid State Circuits 31(3): 354-365 (1996) - [j6]Michael P. Flynn, David J. Allstot:
CMOS folding A/D converters with current-mode interpolation. IEEE J. Solid State Circuits 31(9): 1248-1257 (1996) - 1995
- [j5]Katsufumi Nakamura, Masso Hotta, L. Richard Carley, David J. Allstot:
An 85 mW, 10 b, 40 Msample/s CMOS parallel-pipelined ADC. IEEE J. Solid State Circuits 30(3): 173-183 (1995) - [j4]Sujoy Mitra, Rob A. Rutenbar, L. Richard Carley, David J. Allstot:
Substrate-aware mixed-signal macrocell placement in WRIGHT. IEEE J. Solid State Circuits 30(3): 269-278 (1995) - [c7]Nishath K. Verghese, David J. Allstot:
SUBTRACT: a program for the efficient evaluation of substrate parasitics in integrated circuits. ICCAD 1995: 194-198 - [c6]Rohit Mittal, David J. Allstot:
Low-Power High-Speed Continuous-Time Sigma-Delta Modulators. ISCAS 1995: 183-186 - [c5]Joshua C. Park, Rohit Mittal, Kimberly C. Bracken, L. Richard Carley, David J. Allstot:
High-Speed CMOS Current-Mode Equalizers. ISCAS 1995: 1033-1036 - [c4]Nishath K. Verghese, David J. Allstot:
A Macromodel Compaction Scheme for the Fast Stimulation of Large Linear Mesh Circuits. ISCAS 1995: 1836-1839 - 1994
- [j3]Rajesh H. Zele, David J. Allstot:
Low-voltage fully differential switched-current filters. IEEE J. Solid State Circuits 29(3): 203-209 (1994) - [j2]Balsha R. Stanisic, Nishath K. Verghese, Rob A. Rutenbar, L. Richard Carley, David J. Allstot:
Addressing substrate coupling in mixed-mode ICs: simulation and power distribution synthesis. IEEE J. Solid State Circuits 29(3): 226-238 (1994) - [c3]Eby G. Friedman, Sung-Mo Kang, Eric A. Vittoz, David J. Allstot, Erik P. Harris, Ran-Hong Yan:
Forum: From 100 Milliwatts/MIPS to 10 Microwatts/MIPS. ISCAS 1994: 1-6 - 1993
- [c2]Nishath K. Verghese, Sang-Soo Lee, David J. Allstot:
A unified approach to simulating electrical and thermal substrate coupling interactions in ICs. ICCAD 1993: 422-426 - [c1]Rajesh H. Zele, Sang-Soo Lee, David J. Allstot:
A 3V-125 MHz CMOS Continuous-time Filter. ISCAS 1993: 1164-1167
1980 – 1989
- 1989
- [j1]Terri S. Fiez, Howard C. Yang, John J. Yang, Choung Yu, David J. Allstot:
A family of high-swing CMOS operational amplifiers. IEEE J. Solid State Circuits 24(6): 1683-1687 (1989)
Coauthor Index
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