LIST OF ILLUSTRATIONS -- Continued Figure 6-1 Fraction of Total Power in Sectors of Prescribed Radii 6-2 6-2 Sidelobe Level and Beamwidths 6-3 6-3 Pattern Efficiency for Uniform Illumination (0 dB Taper) 6-5 6-4 Pattern Efficiency for Uniform Illumination (5 dB Taper) 6-5 6-5 Pattern Efficiency for Uniform Illumination (10 dB Taper) 6-6 6-6 Pattern Efficiency for Uniform Illumination (15 dB Taper) 6-6 6-7 Taper Effect on Pattern and Efficiency 6-7 6-8 First Sidelobe Level Vs Truncated Gaussian Taper 6-8 6-9 Antenna Sizes for Truncated Gaussian Tapers 6-9 6-10 Array-Subarray Organization 6-10 6-11 Beam Efficiency - Truncated Gaussian Distribution (5 dB Edge Taper) 6-11 6-12 Beam Efficiency - Truncated Gaussian Distribution (10 dB Edge Taper) 6-11 6-13 Relative Sidelobes - Truncated Gaussian Distribution (5 dB Edge Taper) 6-12 6-14 Relative Sidelobes - Truncated Gaussian Distribution (10 dB Edge Taper) 6-12 6-15 Outage of a Single DC Filter 6-13 6-16 MPTS Concept 6-13 6-17 Alternative Array Types 6-14 6-18 Space Fed Array 6-15 6-19 Feed Illumination (Array Focused at Feed) 6-15 6-20 Subarray Types 6-17 6-21 Subarray Types 6-17 6-22 Subarray Size Considerations 6-18 6-23 SPS Incremental Cost Vs Subarray Size 6-20 6-24 Three Subarray Layout Approaches 6-21 6-25 Subarray Right End Termination Approaches 6-23 6-26 Two Slotted Waveguide Designs 6-25 6-27 Amplitron Thermal Model 6-30 6-28 Amplitron Thermal Analysis 6-31 6-29 6 kW Klystron Configuration 6-33
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