Artikel ; Online: A 1.02 μW Battery-Less, Continuous Sensing and Post-Processing SiP for Wearable Applications.
IEEE transactions on biomedical circuits and systems
2019 Band 13, Heft 2, Seite(n) 271–281
Abstract: Improving system lifetime and robustness is a key to advancing self-powered platforms for real world applications. A complete self-powered, battery-less, wearable platform requires a microwatt-power system-on-chip (SoC), operating reliably within this ... ...
Abstract | Improving system lifetime and robustness is a key to advancing self-powered platforms for real world applications. A complete self-powered, battery-less, wearable platform requires a microwatt-power system-on-chip (SoC), operating reliably within this budget, capable of surviving long periods without charging, and recovering from power loss to its previous state. To meet these requirements, we designed a wireless sensing heterogeneous system-in-package (SiP) containing an ultra-low power (ULP) SoC, a non-volatile boot memory (NVM), and a 2.4 GHz frequency shift key (FSK) radio, all integrated with custom ULP interfaces. The SoC includes a fully integrated energy harvesting platform power manager (EH-PPM) to power the SiP and other commercial sensors. The EH-PPM is designed for small loads and powers the SoC and peripherals while drawing very low operating current. The SoC also includes a digital system data-flow for sensing applications, an analog front end for ECG signal acquisition, and a cold-boot management system (CBMS) for boot and recovery from the NVM. The CBMS enables integration of the SoC with the ULP NVM to create a wearable formfactor, self-powered system capable of recovery from power loss. The SoC also includes a radio interface tightly integrated with a compression accelerator to efficiently communicate with the FSK transmitter and reduce the FSK's transmission time. This tight integration between accelerators on the SoC and peripherals is another feature that reduces the system's power consumption by reducing the code size and number of memory accesses required to perform an operation. The SoC consumes 507 nW average power while running free-fall detection, 519 nW average power while measuring ambient temperature, and 1.02 μW during continuous ECG monitoring and post-processing. |
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Mesh-Begriff(e) | Analog-Digital Conversion ; Electric Power Supplies ; Electrocardiography ; Signal Processing, Computer-Assisted ; Temperature ; Wavelet Analysis ; Wearable Electronic Devices ; Wireless Technology |
Sprache | Englisch |
Erscheinungsdatum | 2019-01-24 |
Erscheinungsland | United States |
Dokumenttyp | Journal Article ; Research Support, U.S. Gov't, Non-P.H.S. |
ISSN | 1940-9990 |
ISSN (online) | 1940-9990 |
DOI | 10.1109/TBCAS.2019.2894775 |
Datenquelle | MEDical Literature Analysis and Retrieval System OnLINE |
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