Large antennas of the Deep Space Network [[electronic resource] /] / William A. Imbriale |
Autore | Imbriale W. A (William A.) |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley-Interscience, c2003 |
Descrizione fisica | 1 online resource (319 p.) |
Disciplina |
621.382/54
621.38254 |
Collana | Deep-space communications and navigation series |
Soggetto topico |
Deep Space Network - Equipment and supplies
Satellite dish antennas |
Soggetto genere / forma | Electronic books. |
ISBN |
1-280-27341-0
9786610273416 0-470-32157-1 0-471-72619-2 0-471-72849-7 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Large Antennas of the Deep Space Network; Table of Contents; Foreword; Preface; Acknowledgments; Chapter 1: Introduction; 1.1 Technology Drivers; 1.1.1 Frequency Bands Allocated to the Deep Space Network; 1.2 Analysis Techniques for Designing Reflector Antennas; 1.2.1 Radiation-Pattern Analysis; 1.2.2 Feed-Horn Analysis; 1.2.3 Spherical-Wave Analysis; 1.2.4 Dual Reflector Shaping; 1.2.5 Quasioptical Techniques; 1.2.6 Dichroic Analysis; 1.2.7 Antenna Noise-Temperature Determination; 1.3 Measurement Techniques; 1.3.1 Theodolite Measurements; 1.3.2 Microwave Holography
1.3.3 Aperture Gain and Efficiency Measurements1.3.4 Noise-Temperature Measurements; 1.4 Techniques for Designing Beam-Waveguide Systems; 1.4.1 Highpass Design; 1.4.2 Focal-Plane Matching; 1.4.3 Gaussian-Beam Design; 1.4.4 High-Power Design; 1.5 Summary; References; Chapter 2: Deep Space Station 11 : Pioneer-The First Large Deep Space Network Cassegrain Antenna; 2.1 Introduction to the Cassegrain Concept; 2.2 Factors Influencing Cassegrain Geometry; 2.3 The DSS-11, 26-Meter Cassegrain System; References; Chapter 3: Deep Space Station 12: Echo; 3.1 The S-Band Cassegrain Monopulse Feed Horn 3.2 The 26-Meter S-/X-Band Conversion Project3.2.1 Performance Predictions; 3.2.2 Performance Measurements; 3.3 The Goldstone-Apple Valley Radio Telescope; References; Chapter 4: Deep Space Station 13: Venus; 4.1 The Dual-Mode Conical Feed Horn; 4.2 Gain Calibration; References; Chapter 5: Deep Space Station 14: Mars; 5.1 Antenna Structure; 5.2 S-Band, 1966; 5.3 Performance at X-Band; 5.3.1 Surface Tolerance; 5.3.2 Measured X-Band Performance; 5.4 Tricone Multiple Cassegrain Feed System; 5.4.1 Radio Frequency Performance; 5.4.2 New Wideband Feed Horns; 5.4.3 Dual-Hybrid-Mode Feed Horn 5.5 Reflex-Dichroic Feed System5.6 L-Band; 5.6.1 Design Approach; 5.6.2 Performance Predictions and Measurements; 5.6.3 L-Band System Modifications; 5.7 The Upgrade from 64 Meters to 70 Meters; 5.7.1 Design and Performance Predictions; 5.7.2 S- and X-Band Performance; 5.7.3 Ka-Band Performance; 5.7.4 Adding X-Band Uplink; 5.8 Distortion Compensation; 5.8.1 Deformable Flat Plate; 5.8.2 Array-Feed Compensation System; 5.8.3 The Array-Feed Compensation System-Deformable Flat-Plate Experiment; 5.8.4 Projected Ka-Band Performance; 5.9 Future Interests and Challenges; References Chapter 6: Deep Space Station 15: Uranus-The First 34-Meter High-Efficiency Antenna6.1 The Common-Aperture Feed; 6.2 Dual-Reflector Shaping; 6.3 Computed versus Measured Performance; References; Chapter 7: The 34-Meter Research and Development Beam-Waveguide Antenna; 7.1 New Analytical Techniques; 7.2 Beam-Waveguide Test Facility; 7.3 The New Antenna; 7.3.1 Antenna Design Considerations; 7.3.2 Upper-Mirror Optics Design; 7.3.3 Pedestal Room Optics Design; 7.3.4 Bypass Beam-Waveguide Design; 7.3.5 Theoretical Performance; 7.3.6 Dual-Shaped Reflector Design 7.3.7 The Effect of Using the DSS-15 Main Reflector Panel Molds for Fabricating DSS-13 Panels |
Record Nr. | UNINA-9910146061203321 |
Imbriale W. A (William A.) | ||
Hoboken, N.J., : Wiley-Interscience, c2003 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Large antennas of the Deep Space Network [[electronic resource] /] / William A. Imbriale |
Autore | Imbriale W. A (William A.) |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley-Interscience, c2003 |
Descrizione fisica | 1 online resource (319 p.) |
Disciplina |
621.382/54
621.38254 |
Collana | Deep-space communications and navigation series |
Soggetto topico |
Deep Space Network - Equipment and supplies
Satellite dish antennas |
ISBN |
1-280-27341-0
9786610273416 0-470-32157-1 0-471-72619-2 0-471-72849-7 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Large Antennas of the Deep Space Network; Table of Contents; Foreword; Preface; Acknowledgments; Chapter 1: Introduction; 1.1 Technology Drivers; 1.1.1 Frequency Bands Allocated to the Deep Space Network; 1.2 Analysis Techniques for Designing Reflector Antennas; 1.2.1 Radiation-Pattern Analysis; 1.2.2 Feed-Horn Analysis; 1.2.3 Spherical-Wave Analysis; 1.2.4 Dual Reflector Shaping; 1.2.5 Quasioptical Techniques; 1.2.6 Dichroic Analysis; 1.2.7 Antenna Noise-Temperature Determination; 1.3 Measurement Techniques; 1.3.1 Theodolite Measurements; 1.3.2 Microwave Holography
1.3.3 Aperture Gain and Efficiency Measurements1.3.4 Noise-Temperature Measurements; 1.4 Techniques for Designing Beam-Waveguide Systems; 1.4.1 Highpass Design; 1.4.2 Focal-Plane Matching; 1.4.3 Gaussian-Beam Design; 1.4.4 High-Power Design; 1.5 Summary; References; Chapter 2: Deep Space Station 11 : Pioneer-The First Large Deep Space Network Cassegrain Antenna; 2.1 Introduction to the Cassegrain Concept; 2.2 Factors Influencing Cassegrain Geometry; 2.3 The DSS-11, 26-Meter Cassegrain System; References; Chapter 3: Deep Space Station 12: Echo; 3.1 The S-Band Cassegrain Monopulse Feed Horn 3.2 The 26-Meter S-/X-Band Conversion Project3.2.1 Performance Predictions; 3.2.2 Performance Measurements; 3.3 The Goldstone-Apple Valley Radio Telescope; References; Chapter 4: Deep Space Station 13: Venus; 4.1 The Dual-Mode Conical Feed Horn; 4.2 Gain Calibration; References; Chapter 5: Deep Space Station 14: Mars; 5.1 Antenna Structure; 5.2 S-Band, 1966; 5.3 Performance at X-Band; 5.3.1 Surface Tolerance; 5.3.2 Measured X-Band Performance; 5.4 Tricone Multiple Cassegrain Feed System; 5.4.1 Radio Frequency Performance; 5.4.2 New Wideband Feed Horns; 5.4.3 Dual-Hybrid-Mode Feed Horn 5.5 Reflex-Dichroic Feed System5.6 L-Band; 5.6.1 Design Approach; 5.6.2 Performance Predictions and Measurements; 5.6.3 L-Band System Modifications; 5.7 The Upgrade from 64 Meters to 70 Meters; 5.7.1 Design and Performance Predictions; 5.7.2 S- and X-Band Performance; 5.7.3 Ka-Band Performance; 5.7.4 Adding X-Band Uplink; 5.8 Distortion Compensation; 5.8.1 Deformable Flat Plate; 5.8.2 Array-Feed Compensation System; 5.8.3 The Array-Feed Compensation System-Deformable Flat-Plate Experiment; 5.8.4 Projected Ka-Band Performance; 5.9 Future Interests and Challenges; References Chapter 6: Deep Space Station 15: Uranus-The First 34-Meter High-Efficiency Antenna6.1 The Common-Aperture Feed; 6.2 Dual-Reflector Shaping; 6.3 Computed versus Measured Performance; References; Chapter 7: The 34-Meter Research and Development Beam-Waveguide Antenna; 7.1 New Analytical Techniques; 7.2 Beam-Waveguide Test Facility; 7.3 The New Antenna; 7.3.1 Antenna Design Considerations; 7.3.2 Upper-Mirror Optics Design; 7.3.3 Pedestal Room Optics Design; 7.3.4 Bypass Beam-Waveguide Design; 7.3.5 Theoretical Performance; 7.3.6 Dual-Shaped Reflector Design 7.3.7 The Effect of Using the DSS-15 Main Reflector Panel Molds for Fabricating DSS-13 Panels |
Record Nr. | UNINA-9910830520303321 |
Imbriale W. A (William A.) | ||
Hoboken, N.J., : Wiley-Interscience, c2003 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Large antennas of the Deep Space Network [[electronic resource] /] / William A. Imbriale |
Autore | Imbriale W. A (William A.) |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley-Interscience, c2003 |
Descrizione fisica | 1 online resource (319 p.) |
Disciplina |
621.382/54
621.38254 |
Collana | Deep-space communications and navigation series |
Soggetto topico |
Deep Space Network - Equipment and supplies
Satellite dish antennas |
ISBN |
1-280-27341-0
9786610273416 0-470-32157-1 0-471-72619-2 0-471-72849-7 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Large Antennas of the Deep Space Network; Table of Contents; Foreword; Preface; Acknowledgments; Chapter 1: Introduction; 1.1 Technology Drivers; 1.1.1 Frequency Bands Allocated to the Deep Space Network; 1.2 Analysis Techniques for Designing Reflector Antennas; 1.2.1 Radiation-Pattern Analysis; 1.2.2 Feed-Horn Analysis; 1.2.3 Spherical-Wave Analysis; 1.2.4 Dual Reflector Shaping; 1.2.5 Quasioptical Techniques; 1.2.6 Dichroic Analysis; 1.2.7 Antenna Noise-Temperature Determination; 1.3 Measurement Techniques; 1.3.1 Theodolite Measurements; 1.3.2 Microwave Holography
1.3.3 Aperture Gain and Efficiency Measurements1.3.4 Noise-Temperature Measurements; 1.4 Techniques for Designing Beam-Waveguide Systems; 1.4.1 Highpass Design; 1.4.2 Focal-Plane Matching; 1.4.3 Gaussian-Beam Design; 1.4.4 High-Power Design; 1.5 Summary; References; Chapter 2: Deep Space Station 11 : Pioneer-The First Large Deep Space Network Cassegrain Antenna; 2.1 Introduction to the Cassegrain Concept; 2.2 Factors Influencing Cassegrain Geometry; 2.3 The DSS-11, 26-Meter Cassegrain System; References; Chapter 3: Deep Space Station 12: Echo; 3.1 The S-Band Cassegrain Monopulse Feed Horn 3.2 The 26-Meter S-/X-Band Conversion Project3.2.1 Performance Predictions; 3.2.2 Performance Measurements; 3.3 The Goldstone-Apple Valley Radio Telescope; References; Chapter 4: Deep Space Station 13: Venus; 4.1 The Dual-Mode Conical Feed Horn; 4.2 Gain Calibration; References; Chapter 5: Deep Space Station 14: Mars; 5.1 Antenna Structure; 5.2 S-Band, 1966; 5.3 Performance at X-Band; 5.3.1 Surface Tolerance; 5.3.2 Measured X-Band Performance; 5.4 Tricone Multiple Cassegrain Feed System; 5.4.1 Radio Frequency Performance; 5.4.2 New Wideband Feed Horns; 5.4.3 Dual-Hybrid-Mode Feed Horn 5.5 Reflex-Dichroic Feed System5.6 L-Band; 5.6.1 Design Approach; 5.6.2 Performance Predictions and Measurements; 5.6.3 L-Band System Modifications; 5.7 The Upgrade from 64 Meters to 70 Meters; 5.7.1 Design and Performance Predictions; 5.7.2 S- and X-Band Performance; 5.7.3 Ka-Band Performance; 5.7.4 Adding X-Band Uplink; 5.8 Distortion Compensation; 5.8.1 Deformable Flat Plate; 5.8.2 Array-Feed Compensation System; 5.8.3 The Array-Feed Compensation System-Deformable Flat-Plate Experiment; 5.8.4 Projected Ka-Band Performance; 5.9 Future Interests and Challenges; References Chapter 6: Deep Space Station 15: Uranus-The First 34-Meter High-Efficiency Antenna6.1 The Common-Aperture Feed; 6.2 Dual-Reflector Shaping; 6.3 Computed versus Measured Performance; References; Chapter 7: The 34-Meter Research and Development Beam-Waveguide Antenna; 7.1 New Analytical Techniques; 7.2 Beam-Waveguide Test Facility; 7.3 The New Antenna; 7.3.1 Antenna Design Considerations; 7.3.2 Upper-Mirror Optics Design; 7.3.3 Pedestal Room Optics Design; 7.3.4 Bypass Beam-Waveguide Design; 7.3.5 Theoretical Performance; 7.3.6 Dual-Shaped Reflector Design 7.3.7 The Effect of Using the DSS-15 Main Reflector Panel Molds for Fabricating DSS-13 Panels |
Record Nr. | UNINA-9910840730503321 |
Imbriale W. A (William A.) | ||
Hoboken, N.J., : Wiley-Interscience, c2003 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|