Efficient wireless connectivity is an important requirement for IoT applications and has
attracted a lot of research interest recently. The receivers designed for such applications …

Energy harvesting is one of the most rapidly growing of the emerging technologies. This field
has arrived at the hybrid and multi-source era, where hybrid structures and novel materials …

This paper reports an ultralow-voltage (ULV) energy-harvesting bluetooth low-energy (BLE)
transmitter (TX). It features: 1) a fully integrated micropower manager (PM) to customize the …

Ultra-low-power circuits that can work under a low-voltage supply are in great demand in
future wearable biomedical applications, which tend to be integrated with low-output-voltage …

In this article, a 2.4-GHz Bluetooth low-energy (BLE) receiver employing a new quadrature
low-noise amplifier (LNA) is presented for low-power low-voltage Internet of Things (IoT) …

Inductor–capacitor–capacitor-series (LCC-S) compensation topology has been widely used
in inductive power transfer (IPT) systems due to its constant coil current regardless of the …

This article demonstrates the potential of deep-subthreshold mixed-signal circuits in
delivering medium-to-high performance to supply-constrained, energy-harvesting Internet of …

This paper presents a multi-mode boost converter to achieve the high efficiency over a wide
input voltage range for thermoelectric energy harvesting (TEH) applications. Under high …

This article proposes the theory and implementation of an even-harmonic class-CMOS
oscillator that displays an excellent phase noise performance. Starting from zero voltage …

This paper presents a 0.4-V ultra-low power (ULP) third-order active-RC complex band-pass
filter (CxBPF) for Bluetooth low energy receivers prototyped in a 180 nm CMOS process. The …