Publications
Export 121 results:
Author Title [ Type] Year Filters: First Letter Of Last Name is B [Clear All Filters]
“A -102 dBm Sensitivity Multi-Channel Heterodyne Wake-Up Receiver with Integrated ADPLL”, IEEE Open Journal of the Solid-State Circuits Society, 2024.
, “A -102 dBm Sensitivity Multi-Channel Heterodyne Wake-Up Receiver with Integrated ADPLL”, IEEE Open Journal of the Solid-State Circuits Society, 2024.
, “A -102 dBm Sensitivity Multi-Channel Heterodyne Wake-Up Receiver with Integrated ADPLL”, IEEE Open Journal of the Solid-State Circuits Society, 2024.
, “A 1.02 μW Battery-Less, Continuous Sensing and Post-Processing SiP for Wearable Applications”, IEEE Transactions on Biomedical Circuits and Systems, 2019. 08625544.pdf (3.22 MB)
, “A 184 nW, -78.3 dBm Sensitivity Antenna-Coupled Supply, Temperature, and Interference-Robust Wake-up Receiver at 4.9 GHz”, IEEE Transactions on Microwave Theory and Techniques, 2022.
, “A 184 nW, -78.3 dBm Sensitivity Antenna-Coupled Supply, Temperature, and Interference-Robust Wake-up Receiver at 4.9 GHz”, IEEE Transactions on Microwave Theory and Techniques, 2022.
, “A 184 nW, -78.3 dBm Sensitivity Antenna-Coupled Supply, Temperature, and Interference-Robust Wake-up Receiver at 4.9 GHz”, IEEE Transactions on Microwave Theory and Techniques, 2022.
, “A 184 nW, -78.3 dBm Sensitivity Antenna-Coupled Supply, Temperature, and Interference-Robust Wake-up Receiver at 4.9 GHz”, IEEE Transactions on Microwave Theory and Techniques, 2022.
, “A 2.4 GHz-91.5 dBm Sensitivity Within-Packet Duty-Cycled Wake-Up Receiver”, IEEE Journal of Solid-State Circuits, 2021.
, “A 2.4 GHz-91.5 dBm Sensitivity Within-Packet Duty-Cycled Wake-Up Receiver”, IEEE Journal of Solid-State Circuits, 2021.
, “A 6.45μW Self-Powered SoC with Integrated Energy-Harvesting Power Management and ULP Asymmetric Radios for Portable Biomedical Systems”, IEEE Transactions on Biomedical Circuits and Systems, vol. 9, pp. 862-874, 2015.
, “A 6–140-nW 11 Hz–8.2-kHz DVFS RISC-V Microprocessor Using Scalable Dynamic Leakage-Suppression Logic”, IEEE Solid-State Circuits Letters (SSCL), 2019. A 6–140-nW 11 Hz–8.2-kHz DVFS RISC-V Microprocessor Using Scalable Dynamic Leakage-Suppression Logic (1.63 MB)
, “Analysis and Design of an Ultra-Low-Power Bluetooth Low-Energy Transmitter With Ring Oscillator-Based ADPLL and 4 Frequency Edge Combiner”, IEEE Journal of Solid-State Circuits, 2019.
, “Analyzing Sub-Threshold Bitcell Topologies and the Effects of Assist Methods on SRAM Vmin”, Journal of Low Power Electronics and Applications, 2012.
, “Analyzing Sub-Threshold Bitcell Topologies and the Effects of Assist Methods on SRAM VMIN”, Journal of Low Power Electronics and Applications (JLPEA), vol. 2, p. 12, 2012.
, “A Batteryless 19 uW MICS/ISM-Band Energy Harvesting Body Sensor Node SoC for ExG Applications”, Journal of Solid State Circuits, vol. 48, pp. 199-213, 2013.
, “Body Area Sensor Networks: Challenges and Opportunities”, Computer, vol. 42, pp. 58–65, 2009.
, “Body Sensor Networks: A Holistic Approach From Silicon to Users”, IEEE Proceedings, 2011.
, “Body Sensor Networks: A Holistic Approach From Silicon to Users”, IEEE Proceedings, 2011.
, “Can Subthreshold and Near-Threshold Circuits Go Mainstream?”, IEEE Micro, vol. 30, pp. 80-85, 2010.
, “A Design and Theoretical Analysis of a 145 mV to 1.2 V Single-Ended Level Converter Circuit for Ultra-Low Power Low Voltage ICs”, J. Low Power Electron. Appl. (JLPEA), vol. 6, 2016.
, “A Digital Auto-Zeroing Circuit to Reduce Offset in Sub-threshold Sense Amplifiers”, Journal of Low Power Electronics and Applications, 2013.
, “Energy Efficient Design for Body Sensor Nodes”, Journal of Low Power Electronics and Applications, 2011.
, “An Energy-Efficient Subthreshold Level Converter in 130-nm CMOS”, IEEE Transactions on Circuits and Systems II, vol. 57, pp. 290-294, 2010.
, “Enhanced Interference Rejection Bluetooth Low-Energy Back-Channel Receiver With LO Frequency Hopping”, IEEE Journal of Solid-State Circuits, 2019.
,