01469nam 2200373 n 450 99638602530331620221108061441.0(CKB)1000000000608455(EEBO)2240854552(UnM)99849383(EXLCZ)99100000000060845519920131d1567 uy |engurbn||||a|bb|The summe of diuinitie[electronic resource] drawen out of the holy Scripture, very necessary for curates and yong studentes in diuinity, and also meete for al Christen men and women, whatsoeuer age they be of. Drawen out of Latin into English by Robert HuttenImprinted at London By John Awdely, dwellyng in litle Britaine streete without AldersgateThe .15. of March 1567[296] pBy Johann Spangenberg.A translation, by Robert Hutton, of: Spangenberg, Johann. Margarita theologica."To the reader" from William Turner.Signatures: A-S T⁴.Reproduction of the original in the Cambridge University Library.eebo-0021Spangenberg Johann860716Hutton Robertd. 1568.1004396Turner Williamd. 1568.1001528Cu-RivESCu-RivESCStRLINWaOLNBOOK996386025303316The summe of diuinitie2307110UNISA05921nam 2200685 450 991082501180332120230125212118.01-60807-031-X(CKB)2550000000003229(EBL)946556(OCoLC)796382942(SSID)ssj0000428604(PQKBManifestationID)11252579(PQKBTitleCode)TC0000428604(PQKBWorkID)10429473(PQKB)11351847(Au-PeEL)EBL946556(CaPaEBR)ebr10359038(CaBNVSL)mat09100284(IEEE)9100284(MiAaPQ)EBC946556(EXLCZ)99255000000000322920200729d2009 uy engur|n|---|||||txtccrSpecial design topics in digital wideband receivers /James TsuiBoston, Massachusetts ;Artech House,2010.[Piscataqay, New Jersey] :IEEE Xplore,[2009]1 online resource (439 p.)Artech House radar seriesDescription based upon print version of record.1-60807-029-8 Includes bibliographical references and index.Special Design Topics in Digital Wideband Receivers; Contents; Preface; Chapter 1 Introduction; 1.1 Introduction; 1.2 Purpose of This Book; 1.3 Predicated Requirements on Receiver Performance; 1.4 Overall EW Receiver System Operation; 1.5 Encoder Designs; 1.6 Approaches and References; 1.7 Criterion of the Software Approaches; 1.8 Organization of the Book; References; Chapter 2 Amplification Required in Front of the ADC; 2.1 Introduction; 2.2 Basic Design Criterion; 2.3 Inputs to the Computer Program; 2.3.1 The Inputs Related to the RF Amplifier; 2.3.2 The Inputs Related to the ADC2.3.3 The Inputs Related to the FFT Operator2.4 Constants Generation; 2.5 Equations Derived; 2.6 Modification from the Previous Program; 2.7 An Example; 2.8 Nominal Sensitivity and Single Signal Dynamic Range; 2.9 Generate Nominal Values for ADC with Different Numbers of Bits; 2.10 Noise Floor and the Number of Bits; 2.11 Another Example; 2.12 Discussions of Results; References; Chapter 3 Dynamic Range Study Through Eigenvalue and MUSIC Methods; 3.1 Introduction; 3.2 Basic Definitions of Dynamic Range; 3.3 Prerequisite for Dynamic Range Measurements3.4 Single Signal Receiver Dynamic Range (SDR)3.5 Dynamic Range for Receiver with Multiple Signal Capability; 3.5.1 Single-Signal Dynamic Range; 3.5.2 Two-Signal Third-Order Intermodulation Spur Free Dynamic Range; 3.5.3 The Two-Signal Instantaneous Dynamic Range (IDR); 3.6 A Brief Discussion on the Eigenvalue Decomposition and MUSIC Methods; 3.7 Define the Processing Procedure; 3.8 Eigenvalues Generated with Noise and Noise Plus Signals; 3.9 IDR Determination Through Eigenvalues; 3.10 MUSIC Method; 3.11 IDR Determined by Frequency Identification3.12 Amplification Required in Front of the ADC3.13 Digitization Effect on Sensitivity as a Function of a Number of Bits; 3.14 Digitization Effect in the Instantaneous Dynamic Range Calculation; 3.15 Curve Fitting for the Instantaneous Dynamic Range; 3.16 IDR Calculated with 128 Data Points and Digitization; 3.17 Generating Very High IDR Using Long Data Length; 3.18 Conclusion; References; Chapter 4 Dynamic Range Study Through Fast Fourier Transform (FFT); 4.1 Introduction; 4.2 Using Simulation Approach to Find the IDR; 4.3 Local Peaks; 4.4 Simulation Procedure; 4.5 Threshold Determination4.6 Windows and Input Frequencies4.7 IDR Results; 4.8 IDR with a Rectangular Window; 4.9 IDR with a Rectangular Window and Close Spaced Frequencies; 4.10 IDR with Hamming Window; 4.11 IDR with Blackman Window; 4.12 IDR with a Chebyshev Window; 4.13 IDR with a Park-McClellan Window; 4.14 Data Length and IDR; 4.15 Receiver Design Considerations; 4.16 Conclusion; 4.17 Remarks; References; Chapter 5 In-Phase and Quadrature Phase (IQ) Study; 5.1 Introduction; 5.2 Approach to Find the IQ Imbalance; 5.3 FFT Output Imbalance Measurement Procedure; 5.4 Results from Measuring FFTOffering engineers a thorough examination of special, more advanced aspects of digital wideband receiver design, this practical book builds on fundamental resources on the topic, helping professionals gain a more comprehensive understanding of the subject. This in-depth volume presents a detailed look at a complete receiver design, including the encoder. Moreover, it discusses the detection of exotic signals and provides authoritative guidance on designing receivers used in electronic warfare. From frequency modulation and biphase shifting keys, to parameter encoders in electronic warfare receivers and the use of the simulation and probability density function to predict the false alarm parameter, this book focuses on critical topics and techniques that help engineers design digital wideband receivers for top performance. The authoritative reference is supported with over 310 illustrations and more than 180 equations.Publisher abstract.Artech House radar library.Broadband communication systemsDesignComputer network architecturesSignal processingDigital techniquesWireless communication systemsDesignBroadband communication systemsDesign.Computer network architectures.Signal processingDigital techniques.Wireless communication systemsDesign.621.38215Tsui James1935-632718CaBNVSLCaBNVSLCaBNVSLBOOK9910825011803321Special design topics in digital wideband receivers4106632UNINA