Paper Info
Title
FPGA-based digital direct-conversion transceiver for Nuclear Magnetic Resonance Systems
Abstract
Direct-conversion is an alternative to the established superheterodyne architecture for Nuclear Magnetic Resonance (NMR) transceivers. In this work, a digital direct-conversion transceiver for NMR is described. Following a software-defined radio paradigm, all signal processing tasks - including down-conversion to baseband - are performed in the digital domain, without analog heterodyning at the transceiver front-end. A programmable NMR pulse programmer with a minimum resolution of 24 ns is also integrated in the transceiver design, which allows the execution of user-defined pulse sequences. The RF Transceiver architecture is implemented in an Altera Cyclone II FPGA, and described in the VHDL hardware description language. The proposed architecture is suited for compact, low-cost NMR systems, for education and research, and is capable to perform experiments in areas such as NMR spectroscopy and relaxometry.
Year
DOI
Venue
2012
10.1109/SBCCI.2012.6344427
Integrated Circuits and Systems Design
Keywords
Field
DocType
NMR spectroscopy,field programmable gate arrays,signal processing,superheterodyne receivers,transceivers,Al/tera Cyclone II,FPGA-based digital direct-conversion transceiver,NMR relaxometry,NMR spectroscopy,NMR transceivers,RF Transceiver architecture,VHDL hardware description language,nuclear magnetic resonance systems,programmable NMR pu/se programmer,signal processing,software-defined radio paradigm,superheterodyne architecture,user-defined pulse sequences,Direct Conversion,FPGA,NMR,Software-defined radio
Signal processing,Baseband,Transceiver,Programmer,Computer science,Field-programmable gate array,Electronic engineering,Heterodyne,Relaxometry,Nuclear magnetic resonance,Superheterodyne receiver
Conference
ISBN
Citations 
PageRank 
978-1-4673-2606-3
1
0.36
References 
Authors
1
4
Name
Order
Citations
PageRank
Cecil Accetti R. de A. Melo110.69
Ricardo Emmanuel de Souza2144.53
de A Melo, C.A.R.310.36
de Souza, R.E.410.69