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D. S. Truesdell and Calhoun, B. H., A 640 pW 22 pJ/sample Gate Leakage-Based Digital CMOS Temperature Sensor with 0.25°C Resolution, in IEEE Custom Integrated Circuits Conference (CICC) 2019, Austin, TX, 2019.PDF icon A 640 pW 22 pJ_sample Gate Leakage-Based Digital CMOS Temperature Sensor with 0.25C Resolution.pdf (1.81 MB)
A. Klinefelter, Roberts, N., Shakhsheer, Y., Gonzalez, P., Shrivastava, A., Roy, A., Craig, K., Faisal, M., Boley, J., Oh, S., Zhang, Y., Akella, D., Wentzloff, D. D., and Calhoun, B., A 6.45 μW Self-Powered IoT SoC with Integrated Energy-Harvesting Power Management and ULP Asymmetric Radios, in ISSCC, San Francisco, CA, 2015.
A. Roy, Klinefelter, A., Yahya, F., Chen, X., Gonzalez, P., Lukas, C. J., Akella, D., Boley, J., Craig, K., Faisal, M., Oh, S., Roberts, N., Shakhsheer, Y., Shrivastava, A., Vasudevan, D., Wentzloff, D. D., and Calhoun, B., 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.
S. Gupta, Truesdell, D. S., and Calhoun, B. H., A 65nm 16kb SRAM with 131.5pW Leakage at 0.9V for Wireless IoT Sensor Nodes, in 2020 IEEE Symposium on VLSI Circuits (VLSI), 2020.PDF icon A 65nm 16kb SRAM with 131.5pW Leakage at 0.9V for Wireless IoT Sensor Nodes.pdf (935.56 KB)
X. Liu, Agrawal, A., Tanaka, A., and Calhoun, B. H., A 6nA Fully-Autonomous Triple-Input Hybrid-Inductor-Capacitor Multi-Output Power Management System with Multi-Rail Energy Sharing, All-Rail Cold Startup, and Adaptive Conversion Control for mm-scale Distributed Systems, in 2024 IEEE International Solid-State Circuits Conference (ISSCC), 2024.PDF icon A_6nA_Fully Autonomous_Triple-Input_Hybrid-Inductor-Capacitor_Multi-Output_Power_Management_System_with_Multi-Rail_Energy_Sharing_All-Rail_Cold_Startup_and_Adaptive_Conve.pdf (1.55 MB)
D. S. Truesdell, Breiholz, J., Kamineni, S., Liu, N. X., Magyar, A., and Calhoun, B. H., 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.PDF icon A 6–140-nW 11 Hz–8.2-kHz DVFS RISC-V Microprocessor Using Scalable Dynamic Leakage-Suppression Logic (1.63 MB)
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X. Liu, Li, S., and Calhoun, B. H., An 802pW 93% Peak Efficiency Buck Converter with 5.5×106 Dynamic Range Featuring Fast DVFS and Asynchronous Load-Transient Control, in 2021 IEEE European Solid-State Circuits Conference (ESSCIRC), 2021.PDF icon An 802pW 93% Peak Efficiency Buck Converter with 5.5×106 Dynamic Range Featuring Fast DVFS and Asynchronous Load-Transient Control.pdf (580.42 KB)
A. Tanaka, He, S., Mounsi, R., Liu, X., Faruqe, O., Mim, N. Gahan, Truesdell, D. S., Nasiri, A., and Calhoun, B. H., An 81.0% Peak Efficiency, 1.0W/cm^3 Miniaturized 5V/1A AC-DC Converter using a Highly-Integrated Primary-Side Active Clamp Flyback Controller with Adaptive Frequency and Zero-Voltage Switching, in 2025 IEEE Custom Integrated Circuits Conference (CICC), In Press.
J. Moody, Bassirian, P., Roy, A., Feng, Y., Li, S., Costanzo, R., N. Barker, S., Calhoun, B. H., and Bowers, S. M., An 8.3 nW -72 dBm Event Driven IoE Wake Up Receiver RF Front End, in 2017 European Microwave Integrated Circuit Conference (EuMIC), Nuremberg, Germany, 2017.
S. Li, Breiholz, J., Kamineni, S., Im, J., Wentzloff, D. D., and Calhoun, B. H., An 85 nW IoT Node-Controlling SoC for MELs Power-Mode Management and Phantom Energy Reduction, in 2020 IEEE International Symposium on Circuits and Systems (ISCAS), 2020.
R. Agarwala, Wang, P., Tanneeru, A., Lee, B., Misra, V., and Calhoun, B. H., An 88.6nW Ozone Pollutant Sensing Interface IC with a 159 dB Dynamic Range, in ACM/IEEE International Symposium on Low Power Electronics and Design (ISLPED), 2020.
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X. Chen, Breiholz, J., Yahya, F. B., Lukas, C. J., Kim, H. - S., Calhoun, B. H., and Wentzloff, D. D., 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.
J. F. Ryan, Khanna, S., and Calhoun, B. H., An Analytical Model for Performance Yield of Nanoscale SRAM Accounting for the Sense Amplifier Strobe Signal, in Internation Symposium on Lower Power Electronics and Design (ISLPED), 2011.
J. F. Ryan, Wang, J., and Calhoun, B. H., Analyzing and Modeling Process Balance for Sub-threshold Circuit Design, in GLSVLSI, 2007, pp. 275-280.
J. Wang, Nalam, S., and Calhoun, B. H., Analyzing Static and Dynamic Write Margin for Nanometer SRAMs, in International Symposium on Low Power Electronics and Design, 2008, pp. 129-134.
B. H. Calhoun and Chandrakasan, A., Analyzing Static Noise Margin for Sub-threshold SRAM in 65nm CMOS, in European Solid-State Circuits Conference, 2005, pp. 363-366.
J. Boley, Wang, J., and Calhoun, B. H., Analyzing Sub-Threshold Bitcell Topologies and the Effects of Assist Methods on SRAM Vmin, Journal of Low Power Electronics and Applications, 2012.
J. Boley, Wang, J., and Calhoun, B. H., 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.
J. Boley, Calhoun, B. H., and Wang, J., Analyzing Subthreshold Bitcell Topologies and the Effects of Assist Methods on SRAM Vmin. 2011.

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