Power Amplifier and Transmitter Architectures for Software Defined Radio Systems

被引：52

作者：

Ghannouchi, Fadhel M. ^{[1
]}

机构：

[1] Univ Calgary, Schulich Sch Engn, iRadio Lab, Dept Elect & Comp Engn, Calgary, AB T2N 1N4, Canada

来源：

IEEE CIRCUITS AND SYSTEMS MAGAZINE | 2010年 / 10卷 / 04期

基金：

加拿大自然科学与工程研究理事会;

关键词：

EFFICIENCY; PREDISTORTION; OPTIMIZATION; DESIGN; RF;

D O I：

10.1109/MCAS.2010.938639

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

This paper briefly presents software defined radio (SDR) concept and layouts an overview of the actual state-of-the-art solution for power amplification systems and software enabled transmitters for SDR applications along with emerging related technology trends. Digital predistortion based linearization techniques, as an enabling technology for SDR transmitters, are briefly explained and discussed. Simulation results as well as experimental results are provided for LINC (linear amplification using nonlinear components) delta-sigma based transmitters to illustrate their respective performance and suitability for SDR applications.

引用

页码：56 / 63

页数：8

共 50 条

[21] Transmitter Location Estimation for Radio Environment Map Construction using Software Defined Radio
Ozsahin, Mustafa Tugrul
Tugcu, Tuna
[J]. 2014 IEEE 21ST SYMPOSIUM ON COMMUNICATIONS AND VEHICULAR TECHNOLOGY IN THE BENELUX (SCVT), 2014, : 94 - 99
[22] An Adaptive Power Amplifier and Control Subsytem for use in Space-Based Software Defined Radio Applications
Cohen, Nehemya
Whitney, James, II
Ryan, Dontae
Reece, Michel
[J]. 2013 ASILOMAR CONFERENCE ON SIGNALS, SYSTEMS AND COMPUTERS, 2013, : 489 - 491
[23] Instruction Set Extensions for Matrix Decompositions on Software Defined Radio Architectures
Murugappan Senthilvelan
Mihai Sima
Daniel Iancu
Michael Schulte
John Glossner
[J]. Journal of Signal Processing Systems, 2013, 70 : 289 - 303
[24] Design of 70W GaN Based Power Efficient Amplifier for Software Defined Radio Applications
Mandal, Joydeb
Rao, Srinivasa
Sarma, L. S. Sudhakara
[J]. 2022 IEEE MICROWAVES, ANTENNAS, AND PROPAGATION CONFERENCE, MAPCON, 2022, : 1114 - 1119
[25] Front-end architectures of software-defined radio, an exploration
Schiphorst, R
Hoeksema, F
Slump, C
[J]. 2001 IEEE INTERNATIONAL CONFERENCE ON ACOUSTICS, SPEECH, AND SIGNAL PROCESSING, VOLS I-VI, PROCEEDINGS: VOL I: SPEECH PROCESSING 1; VOL II: SPEECH PROCESSING 2 IND TECHNOL TRACK DESIGN & IMPLEMENTATION OF SIGNAL PROCESSING SYSTEMS NEURALNETWORKS FOR SIGNAL PROCESSING; VOL III: IMAGE & MULTIDIMENSIONAL SIGNAL PROCESSING MULTIMEDIA SIGNAL PROCESSING - VOL IV: SIGNAL PROCESSING FOR COMMUNICATIONS; VOL V: SIGNAL PROCESSING EDUCATION SENSOR ARRAY & MULTICHANNEL SIGNAL PROCESSING AUDIO & ELECTROACOUSTICS; VOL VI: SIGNAL PROCESSING THEORY & METHODS STUDENT FORUM, 2001, : 4028 - 4028
[26] Instruction Set Extensions for Matrix Decompositions on Software Defined Radio Architectures
Senthilvelan, Murugappan
Sima, Mihai
Iancu, Daniel
Schulte, Michael
Glossner, John
[J]. JOURNAL OF SIGNAL PROCESSING SYSTEMS FOR SIGNAL IMAGE AND VIDEO TECHNOLOGY, 2013, 70 (03): : 289 - 303
[27] An FPGA based all-digital transmitter with radio frequency output for software defined radio
Wireless Solutions Research Center, 1301 E. Algonquin Rd., Schaumburg, IL 60196, United States
不详
[J]. Proc. Des. Autom. Test Eur. DATE, 1600, (21-26):
[28] An FPGA based all-digital transmitter with radio frequency output for software defined radio
Ye, Zhuan
Grosspietsch, John
Memik, Gokhan
[J]. 2007 DESIGN, AUTOMATION & TEST IN EUROPE CONFERENCE & EXHIBITION, VOLS 1-3, 2007, : 21 - +
[29] In -Situ Measurement of Transmitter Antenna Input Current Using a Software -Defined Radio
Egbert, Austin
Goad, Adam
Haug, Samuel
Baylis, Charles
Kirk, Benjamin
Martone, Anthony
Marks, Robert J., II
[J]. 2023 101ST ARFTG MICROWAVE MEASUREMENT CONFERENCE, ARFTG, 2023,
[30] A broadband linear power amplifier for software radio applications
Morris, K
Kenington, P
[J]. 48TH IEEE VEHICULAR TECHNOLOGY CONFERENCE, VOLS 1-3, 1998, : 2150 - 2154

← 1 2 3 4 5 →