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 …

In this paper, a receiver front-end tailored to Bluetooth Low Energy applications is
presented. In the proposed solution, the LNA, mixers, VCO, quadrature scheme and the first …

This article reports an ultra-low-power (ULP) Bluetooth low-energy (BLE) receiver with an
improved spurious-free dynamic range (SFDR). It features two passive-intensive RF …

For true mobility, wearable electronics should be self-powered by the environment. On-body
thermoelectric (~ 50μW/cm 2) is a maturing energy source but delivers a deeply low and …

This paper presents a 1.7-mW low-intermediate-frequency receiver design for Bluetooth low-
energy (BLE) applications. The design exploits particular aspects of BLE, such as the …

This paper presents a 1.8-mW 2.4-GHz channelized receiver for ISM-band applications.
Unlike traditional ISM-band radios which typically require a phase-locked loop (PLL) for …

Two prototypes of low-power back-channel (BC) Bluetooth low-energy (BLE) wake-up
receivers are presented. The receivers scan the BLE advertising channels for modulated …

In this article, an ultra-low-voltage 2.4-GHz radio frequency (RF) receiver front-end
architecture targeting the removal of output flicker noise is presented, making it possible to …

A low-power 2.2-2.4-GHz receiver front end for Internet-of-Things (IoT) applications is
presented. The front end consists of a capacitively cross-coupled common-gate low-noise …

An ultra-low power (ULP) 2.4 GHz RF front-end which consists of a low noise amplifier (LNA)
and a passive mixer in a standard 65nm CMOS is presented. LNA adopts a complementary …