An Energy-Efficient Differential-BPSK Transceiver for IoT Applications

Y.-L. Tsai; J.-Y. Chen; C.-Y. Lin; B.-C. Wang; Tz.-Y. Yeh; T.-H. Lin; TSUNG-HSIEN LIN; 林宗賢; 林宗賢;TSUNG-HSIEN LIN;T.-H. Lin;Tz.-Y. Yeh;B.-C. Wang;C.-Y. Lin;J.-Y. Chen;Y.-L. Tsai

doi:10.1109/rfit.2016.7578167

An Energy-Efficient Differential-BPSK Transceiver for IoT Applications

Journal

IEEE RFIT

Pages

1月9日

Date Issued

2016

Author(s)

Y.-L. Tsai

J.-Y. Chen

C.-Y. Lin

B.-C. Wang

Tz.-Y. Yeh

T.-H. Lin

TSUNG-HSIEN LIN

林宗賢

DOI

10.1109/rfit.2016.7578167

URI

https://scholars.lib.ntu.edu.tw/handle/123456789/428198

Abstract

A 400-MHz 10-Mbps differential BPSK (D-BPSK) transceiver is presented. The receiver adopts a dynamic phase-to-amplitude conversion technique, which converts signal phase transition to amplitude variation. In the transmitter, phase modulated signal is realized by edge combining appropriate phases via an array of phase MUXs. Fabricated in 0.18-μm CMOS process, the receiver accomplishes -63dBm sensitivity at 0.1% BER and draws 1.77mW, from 0.9-V supply. The TX draws 0.51mW at -15dBm output power. The overall link efficiency is 228pJ/b. © 2016 IEEE.

Subjects

Differential binary phase shifting keying (D-BPSK); phase-to-amplitude conversion; receiver; transceiver; transmitter

SDGs

[SDGs]SDG7

Other Subjects

Energy efficiency; Internet of things; Phase modulation; Phase shift; Radio waves; Receivers (containers); Transceivers; Transmitters; Amplitude variations; Binary phase; CMOS processs; Dynamic phase; Energy efficient; IOT applications; Link efficiency; Phase modulated signals; Signal receivers

Type

conference paper

An Energy-Efficient Differential-BPSK Transceiver for IoT Applications

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