Paper Info
Title
Design of Dual-Band Multistandard Subsampling Receivers for Optimal SNDR in Nonlinear and Interfering Environments
Abstract
This paper presents a design approach to concurrent dual-band subsampling receivers for wireless certification and testing interoperability. The proposed technique allows the optimization of the signal-to-noise and distortion ratio and improves the subsampling receiver performance, usually limited by the clock jitter and folded thermal noise effects. Furthermore, the proposed design approach considers the presence of spurious nonlinear distortions and/or interferer's signals, which can alias over the desired signal bandwidth and reduce the valid subsampling frequency ranges. The proposed architecture allows seamless reconfigurability for simultaneous multistandard signal reception, reducing the costs in test equipment. As a validation of the proposed design methodology, a dual-band multiple clocking subsampling receiver operating in a nonlinear environment is developed, and an algorithm to find the optimal frequency plan is proposed and validated experimentally.
Year
DOI
Venue
2014
10.1109/TIM.2013.2297651
Instrumentation and Measurement, IEEE Transactions
Keywords
Field
DocType
radio networks,radio receivers,signal processing,clock jitter,distortion ratio,dual band multistandard subsampling receivers,dualband multiple clocking subsampling receiver,folded thermal noise effects,interferer signals,interfering environments,interoperability testing,multistandard signal reception,nonlinear distortions,nonlinear environment,nonlinear environments,optimal SNDR,optimal frequency plan,signal bandwidth,signal-to-noise optimization,wireless certification,Dual band,measurement standards,nonlinear systems,signal sampling,thermal noise
Signal processing,Alias,Reconfigurability,Wireless,Noise (electronics),Electronic engineering,Bandwidth (signal processing),Jitter,Mathematics,Multi-band device
Journal
Volume
Issue
ISSN
63
4
0018-9456
Citations 
PageRank 
References 
2
0.40
4
Authors
5
Name
Order
Citations
PageRank
José Ramón García Oya172.77
Andrew K. C. Kwan2225.21
Fadhel M. Ghannouchi321950.20
Seyed Aidin Bassam4233.10
Fernando Muñoz Chavero54311.27