2016
DOI: 10.1109/tbcas.2015.2495272
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An Autonomous Wireless Sensor Node With Asynchronous ECG Monitoring in 0.18 m CMOS

Abstract: The design of a 13.56 MHz/402 MHz autonomous wireless sensor node with asynchronous ECG monitoring for near field communication is presented. The sensor node consists of an RF energy harvester (RFEH), a power management unit, an ECG readout, a data encoder and an RF backscattering transmitter. The energy harvester supplies the system with 1.25 V and offers a power conversion efficiency of 19% from a -13 dBm RF source at 13.56 MHz. The power management unit regulates the output voltage of the RFEH to supply the… Show more

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Cited by 38 publications
(23 citation statements)
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“…A typical WPT setup is shown in Fig. 3 [22,29]. State-of-the-art IMD-specific WPT techniques can be broadly categorized into three types 2…”
Section: Choice Of Wpt Techniquementioning
confidence: 99%
“…A typical WPT setup is shown in Fig. 3 [22,29]. State-of-the-art IMD-specific WPT techniques can be broadly categorized into three types 2…”
Section: Choice Of Wpt Techniquementioning
confidence: 99%
“…The dominant power consumption part can be removed if the digital signal processing is done externally and the output signal of the front-end is ready for transmission without any further manipulation and processing. The proposed biopotential front-end [20] benefits from voltage to frequency (or time) conversion which is very low power, precise, accurate, simple and can be transmitted using backscattering [6]. Fig.…”
Section: Bio-potential Measurementmentioning
confidence: 99%
“…It is one of the best solutions for minimizing the power consumption of the pacemaker that is implanted inside the body with a limited power source. The use of a backscatter link means that the modulation switching circuitry in the backscatterer only needs to operate at modest frequencies comparable to the data, not the carrier frequency [6]. Fig.…”
Section: Stimulator Systemmentioning
confidence: 99%
“…In the recent decade, the demand for miniaturized ultralow-power (ULP) wireless sensor nodes (WSNs) [1,2], medical implants [3], and wearable devices [4] for the Internet of Things (IoT) [5] are gaining momentum in academic and industrial research. Power consumption of ULP analog-frontend (AFE) and transceivers are ever decreasing, prompting the use of energy harvesting (EH) as an alternative solution to batteries where their replacement is a constraint and impractical for implantable devices.…”
Section: Introductionmentioning
confidence: 99%
“…Solar or piezoelectric (PZ) energy has significant power density compared to thermal and RF energy [9], however, limitations due to weather dependency and irregularity of the energy source is unattractive for applications that require a constant power source; i.e: biomedical sensor nodes (BSNs) [1,3,4]. Alternatively, is it a challenge to design an effective and efficient start-up circuit for thermoelectric generators (TEG) harvesting in complementary-metal-oxide-semiconductor (CMOS) due to the low-voltage generated [3,8].…”
Section: Introductionmentioning
confidence: 99%