David D. Wentzloff

Overview

Best Publications

• Design considerations for ultra-low energy wireless microsensor nodes

  B.H. Calhoun;D.C. Daly;Naveen Verma;D.F. Finchelstein

  375
  Citations

• Flexible Technologies for Self-Powered Wearable Health and Environmental Sensing

  Veena Misra;Alper Bozkurt;Benton Calhoun;Thomas Jackson

  228
  Citations

• A 47pJ/pulse 3.1-to-5GHz All-Digital UWB Transmitter in 90nm CMOS

  D.D. Wentzloff;A.P. Chandrakasan

  213
  Citations

• A 10 mV-Input Boost Converter With Inductor Peak Current Control and Zero Detection for Thermoelectric and Solar Energy Harvesting With 220 mV Cold-Start and $-$ 14.5 dBm, 915 MHz RF Kick-Start

  Aatmesh Shrivastava;Nathan E. Roberts;Osama U. Khan;David D. Wentzloff

  185
  Citations

• Gaussian pulse Generators for subbanded ultra-wideband transmitters

  D.D. Wentzloff;A.P. Chandrakasan

  182
  Citations

• Recent advances in IR-UWB transceivers: An overview

  Jorge R. Fernandes;David Wentzloff

  169
  Citations

• 5.4 A 32nW bandgap reference voltage operational from 0.5V supply for ultra-low power systems

  Aatmesh Shrivastava;Kyle Craig;Nathan E. Roberts;David D. Wentzloff

  142
  Citations

• A 98nW wake-up radio for wireless body area networks

  Nathan E. Roberts;David D. Wentzloff

  134
  Citations

• 21.3 A 6.45μW self-powered IoT SoC with integrated energy-harvesting power management and ULP asymmetric radios

  Alicia Klinefelter;Nathan E. Roberts;Yousef Shakhsheer;Patricia Gonzalez

  123
  Citations

• System design considerations for ultra-wideband communication

  D.D. Wentzloff;R. Blazquez;F.S. Lee;B.P. Ginsburg

  122
  Citations

• A −32dBm sensitivity RF power harvester in 130nm CMOS

  Seunghyun Oh;David D. Wentzloff

  115
  Citations

• A 116nW multi-band wake-up receiver with 31-bit correlator and interference rejection

  Seunghyun Oh;Nathan E. Roberts;David D. Wentzloff

  114
  Citations

• 26.8 A 236nW −56.5dBm-sensitivity bluetooth low-energy wakeup receiver with energy harvesting in 65nm CMOS

  Nathan E. Roberts;Kyle Craig;Aatmesh Shrivastava;Stuart N. Wooters

  112
  Citations

• Low-Power Impulse UWB Architectures and Circuits

  A.P. Chandrakasan;F.S. Lee;D.D. Wentzloff;V. Sze

  112
  Citations

• Body Sensor Networks: A Holistic Approach From Silicon to Users

  B. H. Calhoun;J. Lach;J. Stankovic;D. D. Wentzloff

  109
  Citations

• A 6.45 $\mu{ m W}$ Self-Powered SoC With Integrated Energy-Harvesting Power Management and ULP Asymmetric Radios for Portable Biomedical Systems

  Abhishek Roy;Alicia Klinefelter;Farah B. Yahya;Xing Chen

  104
  Citations

• Reconfigurable Radios: A Possible Solution to Reduce Entry Costs in Wireless Phones

  Mina Rais-Zadeh;Jeremy T. Fox;David D. Wentzloff;Yogesh B. Gianchandani

  95
  Citations

• An all-digital PLL synthesized from a digital standard cell library in 65nm CMOS

  Youngmin Park;David D. Wentzloff

  92
  Citations

• An All-Digital 12 pJ/Pulse IR-UWB Transmitter Synthesized From a Standard Cell Library

  Youngmin Park;D D Wentzloff

  91
  Citations

• Artificial neural network algorithms for pulse shape discrimination and recovery of piled-up pulses in organic scintillators

  C. Fu;A. Di Fulvio;S.D. Clarke;D. Wentzloff

  77
  Citations

• Flexible Technologies for Self-Powered Wearable Health and Environmental Sensing This article addresses the key challenges in wearable health and environmental systems that enable ultra-long battery lifetime, user comfort and wearability.

  Veena Misra;Alper Bozkurt;Benton Calhoun;Thomas Jackson

  0
  Citations

• IEEE Transactions on Microwave Theory and Techniques and Antennas and Propagation Announce a Joint Special Issue on Ultra-Wideband (UWB) Technology

  David Wentzloff;K.V.S. Rao

  0
  Citations

• Low-Power Impulse UWB Architectures and Circuits Pulsed ultrawide band provides the energy needed for a high data-rate battery-operated transceiver, and a low data-rate transceiver suitable for battery-less operation.

  Anantha P. Chandrakasan;Fred S. Lee;David D. Wentzloff;Vivienne Sze

  0
  Citations