Low-power/low-voltage RF microsystems for wireless sensors networks

## Abstract A monolithic on‐off keying receiver is presented for wireless sensor network applications. By employing the self‐mixing technique, the demodulator is constructed from a voltage multiplier instead of a rectifier in this work. The proposed receiver can achieve a data rate upto 1 Mb/s at a

## Abstract A low‐power 2.4‐GHz SiGe HBT receiver front‐end for wireless sensor networks utilizing current‐ reuse technique is reported for the first time. The proposed receiver comprises the low‐noise amplifier (LNA), the passive mixer, and the intermediate frequency (IF) amplifier. To reduce the

## Abstract This article describes a low‐power and low‐cost fully integrated 2.4 GHz IEEE 802.15.4 RF transceiver for low‐rate wireless sensor networks. The RF transceiver adopts the single‐IF direct‐conversion architecture. For the high linearity, the RF receiver front end utilizes the current mir

An RF low phase noise voltage-controlled oscillator is implemented with micromachined IC-compatible variable capacitors and three-dimensional coil inductor. Unlike conventional on-chip passive devices, the micromachined variable capacitors achieve a high-Q value above 60 at 1 GHz with a 15% tuning r

This paper describes the design of a low cost, low-power ZigBee receiver for wireless sensor networks. The receiver consists of a low-noise amplifier, a pair of down-conversion mixers, and a pair of variablegain low-pass filters. The LNA has a single-ended input, eliminating the need for an off-chip