%0 Journal Article %J J. Low Power Electron. Appl. (JLPEA) %D 2016 %T A 0.2 V, 23 nW CMOS Temperature Sensor for Ultra-Low-Power IoT Applications %A D. Akella Kamakshi %A A. Shrivastava %A B. H. Calhoun %B J. Low Power Electron. Appl. (JLPEA) %V 6 %G eng %1 A 0.2 V, 23 nW CMOS Temperature Sensor for Ultra-Low-Power IoT Applications.pdf|A 0.2 V, 23 nW CMOS Temperature Sensor for Ultra-Low-Power IoT Applications.pdf %0 Journal Article %J IEEE Journal of Solid-State Circuits (JSSC) %D 2016 %T A 1.5nW, 32.768kHz XTAL Oscillator Operational from 0.3V Supply %A A. Shrivastava %A Akella, D. %A B. H. Calhoun %B IEEE Journal of Solid-State Circuits (JSSC) %V 51 %G eng %1 A 1.5nW, 32.768kHz XTAL Oscillator Operational from 0.3V Supply.pdf|A 1.5nW, 32.768kHz XTAL Oscillator Operational from 0.3V Supply.pdf %0 Conference Paper %B IEEE International Solid-State Circuits Conference (ISSCC) %D 2016 %T A 236nW -56.5dBm Sensitivity Self-Powered Bluetooth Low-Energy Wakeup Receiver in 65nm CMOS %A Roberts, N. E. %A K. Craig %A A. Shrivastava %A S. N. Wooters %A Y. Shakhsheer %A B. H. Calhoun %A Wentzloff, D. D. %B IEEE International Solid-State Circuits Conference (ISSCC) %G eng %1 A 236nW -56.5dBm Sensitivity Self-Powered Bluetooth Low-Energy Wakeup Receiver in 65nm CMOS.pdf|A 236nW -56.5dBm Sensitivity Self-Powered Bluetooth Low-Energy Wakeup Receiver in 65nm CMOS.pdf %0 Journal Article %J Journal of Low Power Electronics and Applications (JLPEA) %D 2016 %T A 36nW, 7 ppm/oC Fully On-Chip Clock Source System for Ultra-Low Power Applications %A Akella, D. %A A. Shrivastava %A C. Duan %A B. H. Calhoun %B Journal of Low Power Electronics and Applications (JLPEA) %V 6 %G eng %1 A 36nW, 7 ppmoC Fully On-Chip Clock Source System for Ultra-Low Power Applications.pdf|A 36nW, 7 ppmoC Fully On-Chip Clock Source System for Ultra-Low Power Applications.pdf %0 Journal Article %J J. Low Power Electron. Appl. (JLPEA) %D 2016 %T 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 %A Y. Huang %A A. Shrivastava %A L. Barnes %A B. H. Calhoun %B J. Low Power Electron. Appl. (JLPEA) %V 6 %G eng %1 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.pdf|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.pdf %0 Journal Article %J IEEE Journal of Solid-State Circuits (JSSC) %D 2015 %T A 10mV-Input Boost Converter with Inductor Peak Current Control and Zero Detection for Thermoelectric and Solar Energy Harvesting with 220mV Cold-Start and -14.5dBm, 915MHz RF Kick-Start %A A. Shrivastava %A Roberts, N. E. %A O. U. Khan %A Wentzloff, D. D. %A B. H. Calhoun %B IEEE Journal of Solid-State Circuits (JSSC) %V 50 %P 1820-1832 %8 08/2015 %G eng %0 Conference Paper %B IEEE SOI-3D-Subthreshold Microelectronics Technology Unified Conference (S3S) %D 2015 %T A 145mV to 1.2V Single Ended Level Converter Circuit for Ultra-Low Power Low Voltage ICs %A Y. Huang %A A. Shrivastava %A B. H. Calhoun %B IEEE SOI-3D-Subthreshold Microelectronics Technology Unified Conference (S3S) %G eng %0 Conference Paper %B EEE International Solid-State Circuits Conference (ISSCC) %D 2015 %T A 32nW Bandgap Reference Voltage Operational from 0.5V Supply for Ultra-low Power Systems %A A. Shrivastava %A K. Craig %A N. Roberts %A Wentzloff, D. D. %A B. H. Calhoun %B EEE International Solid-State Circuits Conference (ISSCC) %G eng %0 Conference Paper %B GOMACTech %D 2015 %T Ultra Low Power Circuits and Systems for Self Powered Wireless Sensors %A Y. Shakhsheer %A A. Shrivastava %A N. Roberts %A K. Craig %A S. Wooters %A Wentzloff, D. D. %A B. H. Calhoun %B GOMACTech %G eng %0 Conference Paper %B IEEE Custom Integrated Circuits Conference (CICC) %D 2014 %T A 10mV-Input Boost Converter with Inductor Peak Current Control and Zero Detection for Thermoelectric Energy Harvesting %A A. Shrivastava %A D. Wentzloff %A B. H. Calhoun %B IEEE Custom Integrated Circuits Conference (CICC) %8 2014 %G eng %1 2014_Aatmesh_CICC.pdf|2014_Aatmesh_CICC.pdf %0 Conference Paper %B Symposium on VLSI Circuits %D 2014 %T A 1.2μW SIMO Energy Harvesting and Power Management Unit with Constant Peak Inductor Current Control Achieving 83-92% Efficiency Across Wide Input and Output Voltages %A A. Shrivastava %A Y. K. Ramadass %A S. Khanna %A S. Bartling %A B. H. Calhoun %B Symposium on VLSI Circuits %8 2014 %G eng %1 06858364.pdf