LEADER 00000cam a2200697Ii 4500 
001    on1027650045 
003    OCoLC 
005    20190111051043.6 
006    m     o  d         
007    cr cn||||||||| 
008    171213s2018    maua    ob    001 0 eng d 
019    1039931385 
020    9781630815165|q(electronic book) 
020    1630815160|q(electronic book) 
020    |z9781630811716 
020    |z1630811718 
035    (OCoLC)1027650045|z(OCoLC)1039931385 
040    STF|beng|erda|epn|cSTF|dOCLCQ|dEBLCP|dN$T|dOCLCF|dCUV|dYDX
       |dOCLCQ|dOCLCO 
049    RIDW 
050  4 TK7876 
072  7 TEC|x009070|2bisacsh 
082 04 621.3813|223 
090    TK7876 
100 1  Llamas-Garro, Ignacio,|0https://id.loc.gov/authorities/
       names/nb2018004804|eauthor. 
245 10 Frequency measurement technology /|cIgnacio Llamas-Garro, 
       Marcos Tavares de Melo, Jung-Mu Kim. 
264  1 Boston, MA :|bArtech House,|c[2018] 
300    1 online resource :|billustrations. 
336    text|btxt|2rdacontent 
337    computer|bc|2rdamedia 
338    online resource|bcr|2rdacarrier 
340    |gpolychrome|2rdacc 
347    text file|2rdaft 
490 1  Artech microwave library 
504    Includes bibliographical references and index. 
505 0  Frequency Measurement Technology; Contents; Preface; 
       Chapter 1 Frequency Measurement Fundamentals; 1.1 
       OVERVIEW; 1.2 INTRODUCTION TO RF/MICROWAVE FREQUENCY 
       MEASUREMENT; 1.2.1 RF/microwave Measurement Theory; 1.2.2 
       Frequency Measurement Instrumentation; 1.2.3 Frequency 
       Detection Architectures; References; Chapter 2 
       Instantaneous Frequency Measurement; 2.1 OVERVIEW; 2.2 
       INTRODUCTION TO INSTANTANEOUS FREQUENCY MEASUREMENT; 2.3 
       IFM RECEIVERS; 2.3.1 Analog Frequency Discriminators; 
       2.3.2 Digital Frequency Discriminators; 2.4 IFM DESIGNS; 
       2.4.1 IFM Using Interferometers Based on Delay Lines. 
505 8  2.4.2 IFM Using Multiband-stop Filters2.5 CONCLUSIONS AND 
       FUTURE WORK; References; Chapter 3 Reconfigurable 
       Frequency Measurement; 3.1 OVERVIEW; 3.2 INTRODUCTION TO 
       RFM; 3.3 RFM RECEIVER ARCHITECTURES; 3.3.1 Block Diagrams 
       and Components of an RFM Receiver; 3.3.2 A Comparison 
       between IFM and RFM; 3.3.3 Elements for Reconfiguration; 
       3.4 RFM DESIGNS; 3.4.1 RFM Using PIN Diodes with 2 Bits 
       for Frequency Identification; 3.4.2 RFM Using PIN Diodes 
       with 4 Bits for Frequency Identification; 3.5 CONCLUSIONS;
       References; Chapter 4 Photonic Instantaneous Frequency 
       Measurement; 4.1 OVERVIEW. 
505 8  4.2 INTRODUCTION TO RF/MICROWAVE FREQUENCY MEASUREMENT4.3 
       IFM PRINCIPLE; 4.3.1 Electronic IFM; 4.3.2 Photonic IFM; 
       4.4 IFM BASED ON OPTICAL INTERFEROMETRY; 4.4.1 IFM Based 
       on Noncoherent Optical Delays; 4.4.2 IFM Based on Coherent
       Optical Delays; 4.5 IFM BASED ON POLARIZATION EFFECTS; 
       4.5.1 IFM Based on Measurement of Stokes Parameters; 4.5.2
       IFM Based on Polarization Interferometers; 4.5.3 IFM Based
       on Polarization Modulator and Polarization Adjustments; 
       4.5.4 IFM Based on Polarization Modulators and Modulation 
       Bias Adjustments; 4.5.5 IFM Based on Polarization 
       Modulator and Dispersion. 
505 8  4.5.6 IFM Based on Polarization Microwave Photonic Filter 
       Pairs4.6 IFM BASED ON OPTICAL FILTERING; 4.6.1 IFM Based 
       on Mach-Zehnder Interferometer Optical Filters; 4.6.2 IFM 
       Based on Ring-resonator Optical Filters; 4.6.3 IFM Based 
       on the Bragg Grating Optical Filters; 4.7 IFM BASED ON 
       FREQUENCY TO TIME MAPPING; 4.7.1 Single RF Signal 
       Measurement; 4.7.2 Multiple RF Signal Measurement; 4.8 IFM
       BASED ON OPTICAL MIXING; 4.8.1 IFM Based on Optoelectrical
       Mixing; 4.8.2 IFM Based on All Optical Mixing; 4.9 IFM 
       BASED ON STIMULATED BRILLOUIN SCATTERING. 
505 8  4.9.1 Stimulated Brillouin Scattering in Optical 
       Fibers4.9.2 IFM Based on SBS Resonance Shift; 4.9.3 IFM 
       Based on SBS Resonance and Channelizing Probe Array; 4.9.4
       IFM Based on SBS Resonance Channelizers; 4.10 OTHER 
       PHOTONIC IFM APPROACHES; 4.10.1 IFM Based on Microwave 
       Photonic Filters; 4.10.2 IFM Based on Quadrature Optical 
       Filter Pairs; 4.10.3 IFM Based on a Bank of Offset Optical
       Filters; 4.10.4 IFM Based on Phase to Intensity Modulation
       Conversions; 4.10.5 IFM Based on Photonic Assisted 
       Samplings and Downconversions; 4.11 DISCUSSION; 4.12 
       CONCLUSION; References; About the Authors; Index. 
520 3  This unique first-of-its-kind resource provides practical 
       coverage of the design and implementation of frequency 
       measurement receivers, which aid in identifying unknown 
       signals. The technologies used in frequency measurement 
       interferometry-based on-delay lines and filters are 
       explored in this book. Practitioners also find concrete 
       examples of microwave photonics implementations. The 
       designs and concepts that cover conventional photonic 
       instantaneous frequency measurement (IFM) circuits are 
       explained. This book provides details on new designs for 
       microwave photonic circuits and reconfigurable frequency 
       measurement (RFM) circuits using diodes and 
       MicroElectroMechanical Systems (MEMS).n nThis book 
       explains the many diverse applications of frequency 
       measurement that are used in defense, radar, and 
       communications. The instrumentation used to perform 
       frequency measurements is explained, including the use of 
       block analysis for network and spectrum analyzers and 
       calibration techniques. Readers learn the advantages of 
       using frequency measurement based on microwave/RF 
       techniques, including immunity to electromagnetic 
       interference, low loss, compatibility with fiber signal 
       distribution, and parallel processing signals. Moreover, 
       readers gain insight into the future of frequency 
       measurement receivers. The book examines both the 
       underpinnings and the implementation of frequency 
       measurement receivers using many diverse technological 
       platforms.|cPublisher abstract. 
588 0  Print version record. 
590    eBooks on EBSCOhost|bEBSCO eBook Subscription Academic 
       Collection - North America 
650  0 Microwaves|0https://id.loc.gov/authorities/subjects/
       sh85084975|xMeasurement.|0https://id.loc.gov/authorities/
       subjects/sh2002006406 
650  0 Microwave devices.|0https://id.loc.gov/authorities/
       subjects/sh85084958 
650  0 Frequency response (Electrical engineering)|0https://
       id.loc.gov/authorities/subjects/sh85051932 
650  7 Microwaves.|2fast|0https://id.worldcat.org/fast/1020261 
650  7 Measurement.|2fast|0https://id.worldcat.org/fast/1715944 
650  7 Microwave devices.|2fast|0https://id.worldcat.org/fast/
       1020193 
650  7 Frequency response (Electrical engineering)|2fast|0https:/
       /id.worldcat.org/fast/934971 
655  4 Electronic books. 
700 1  Melo, Marcos Tavares de,|0https://id.loc.gov/authorities/
       names/nb2018004806|eauthor. 
700 1  Kim, Jung-Mu,|0https://id.loc.gov/authorities/names/
       nb2018004807|eauthor. 
776 08 |iPrint version:|aLlamas-Garro, Ignacio.|tFrequency 
       measurement technology.|dBoston, MA : Artech House, [2018]
       |z9781630811716|z1630811718|w(OCoLC)1021057371 
830  0 Artech House microwave library.|0https://id.loc.gov/
       authorities/names/n42002465 
856 40 |uhttps://rider.idm.oclc.org/login?url=http://
       search.ebscohost.com/login.aspx?direct=true&scope=site&
       db=nlebk&AN=1825920|zOnline eBook via EBSCO. Access 
       restricted to current Rider University students, faculty, 
       and staff. 
856 42 |3Instructions for reading/downloading the EBSCO version 
       of this eBook|uhttp://guides.rider.edu/ebooks/ebsco 
901    MARCIVE 20231220 
948    |d20190118|cEBSCO|tEBSCOebooksacademic NEW 1-11-19 6702 
       |lridw 
994    92|bRID