04566nam 22005651 450 991100655690332120230721030347.01-5231-3213-21-61353-132-X(CKB)1000000000393325(EBL)1389429(SSID)ssj0000384318(PQKBManifestationID)11249339(PQKBTitleCode)TC0000384318(PQKBWorkID)10354631(PQKB)10996442(MiAaPQ)EBC1389429(EXLCZ)99100000000039332520070417d2007 uy 0engur|n|---|||||txtccrDesign of multi-frequency CW radars /M. JankiramanRaleigh, NC :SciTech Pub.,2007.1 online resource (374 p.)Description based upon print version of record.1-891121-56-1 Includes bibliographical references and index.Contents; Preface; Acknowledgments; List of Acronyms; Description of Software in CD; Part I: Fundamentals of CW Radar; Chapter 1: Frequency Modulated Continuous (FMCW) Wave Radar; 1.1 FMCW Radar Characteristics; 1.2 Range Equation for FMCW Radar; 1.3 Intercept Range of FMCW Radar; 1.4 Commercial FMCW Radars; 1.4.1 The PILOT Radar; 1.5 Experimental Air Search CW Radar; 1.5.1 Miscellaneous Uses of LPI Radars; 1.6 A Survey Of This Book; Chapter 2: Radar Waveforms and Processing; 2.1 Radar Signals; 2.2 CW Waveform; 2.3 Range Resolution; 2.3.1 Amplitude Modulation2.3.2 Frequency and Phase Modulation2.3.2.1 Frequency Modulated Continuous Wave; 2.3.3 Stepped Frequency Waveform; 2.3.4 Phase-Coded Signal Compression; 2.3.5 Stretch; 2.3.6 Interrupted FMCW; 2.3.7 Side Lobes and Weighting for Linear FM Systems; 2.3.8 Linear Frequency Modulation Waveforms; 2.4 Matched Filter; Chapter 3: The Radar Ambiguity Function; 3.1 INTRODUCTION; 3.2 EXAMPLES OF AMBIGUITY FUNCTIONS; 3.2.1 Single-Frequency Pulse; 3.2.2 Linear FM Pulse; 3.2.3 Stepped Frequency Waveform; Chapter 4: FMCW Waveform; 4.1 INTRODUCTION; 4.2 WAVEFORM COMPRESSION; 4.2.1 Time-Bandwidth Product4.2.2 LFM Waveform Compression4.3 FMCW SYSTEM; 4.4 ADVANTAGES OF AN FMCW SYSTEM; 4.5 BASIC EQUATIONS OF FMCW RADARS; 4.5.1 The FMCW Equation; 4.6 TRIANGULAR WAVEFORM; 4.7 EFFECT OF SWEEP TIME ON RANCE RESOLUTION; 4.8 EFFECT OF RECEIVER FREQUENCY RESOLUTION AND TARGET SPECTRAL WIDTHON RANGE RESOLUTION; 4.9 CONCEPT OF INSTRUMENTED RANGE; 4.10 NON-LINEARITY IN FM WAVEFORMS; 4.10.1 Coherent Processing Interval; 4.11 IT ALL COMES TOGETHER. APPLICATION: BRIMSTONE ANTITANK MISSILE; 4.11.1 System Specifi cations; 4.11.2 Seeker Specifi cations (Known; 4.11.3 Operational Procedure4.11.4 System Performance (Speculated)4.12 SUMMARY; Chapter 5: Phase-Coded Waveform; 5.1 INTRODUCTION; 5.2 PHASE-CODED RADAR SIGNALS; 5.2.1 Barker Coding; 5.2.2 Frank Codes; 5.3 PERIODIC AMBIGUITY FUNCTION; 5.4 PERIODIC AUTOCORRELATION FUNCTION; 5.5 CUTS OF PAF ALONG DELAY AND DOPPLER AXES; 5.6 PAF AND PACF OF FRANK CODES; 5.7 MATCHED FILTER FOR PHASE-CODED SIGNALS; 5.8 POLYPHASE CODES; 5.8.1 P1 Codes; 5.8.2 P2 Codes; 5.8.3 P3 Codes; 5.8.4 P4 Codes; 5.9 PERFORMANCE ANALYSIS OF PHASE-CODED SIGNALS; Chapter 6: Frequency Hopped Waveform; 6.1 INTRODUCTIN6.2 FREQUENCY HOPPED SIGNALS AS LPI SIGNALS6.3 STEPPED FREQUENCY WAVEFORM; 6.3.1 Range Resolution and Range Ambiguity; 6.3.2 Effect of Target Velocity; 6.4 RANDOM FREQUENCY HOPPED WAVEFORMS; 6.5 TECHNOLOGY FOR SFCW; 6.6 HYBRID FSK/LFM TECHNIQUE; Part II: Theory and Design of Calypso FMCW Radar; Chapter 7 Calypso FMCW Radar*; 7.1 Introduction; 7.2 Calypso Design Parameters; 7.3 Doppler Tolerance; 7.4 Beam Patterns/Coverage Diagram; 7.5 FMCW Description; 7.6 Receiver Noise Figure; 7.7 AM Noise Cancellation; 7.8 FM Noise Cancellation; 7.9 IF Amplifier; 7.10 ANTI-ALIAS FILTER AND ADC7.11 Control CircuitryThis book deals with the basic theory for design and analysis of Low Probability of Intercept (LPI) radar systems. The design of one such multi-frequency high resolution LPI radar, PANDORA, is covered. Shortwave radioRadarShortwave radio.Radar.621.3848Jankiraman Mohinder1824511MiAaPQMiAaPQMiAaPQBOOK9911006556903321Design of multi-frequency CW radars4391682UNINA