Add to ORKGThe results of a study to determine the feasibility of using array feed techniques to improve the performance of the 70 m antenna at 32 GHz are presented. Changing from 8.4 to 32 GHz has the potential of increasing the gain by 11.6 dB, but recent measurements indicate that additional losses of from 3 to 7 dB occur at 32 GHz, depending on the elevation angle. Array feeds were proposed to recover some of the losses by compensating for surface distortions that contribute to these losses. Results for both surface distortion compensation and pointing error correction are discussed. These initial studies, however, had one significant restriction: The mechanical finite element model was used to characterize the surface distortions, not the measure...
A 32-GHz six-element linear transmitter array utilizing monolithic microwave integrated circuit (MMI...
Within the past several years, the Jet Propulsion Laboratory has designed and built major ground ant...
The X-band feed assemblies in the 64 meter antennas were redesigned to accommodate the upgrading to ...
A series of calculations that were carried out in order to determine the performance of the new dual...
Two models are provided of the Deep Space Network (DSN) 70 m antenna performance at Ka-band (32 GHz)...
The results of preliminary 32 GHz calibrations of the 70 meter antenna at Goldstone are presented. M...
A 21-element phased array transmit feed was demonstrated as part of an effort to develop and evaluat...
A comparative analysis was performed, using both the Geometrical Theory of Diffraction (GTD) and tra...
The design optimizations associated with the microwave and structural upgrade of the DSN 64-m antenn...
The measured Deep Space Network (DSN) 70-meter antenna performance at S- and X-bands is compared wit...
The dimensional stability of the surface of a large reflector antenna is important when high gain or...
Described here is the application of the microwave holography technique to Deep Space Station (DSS) ...
Surface errors on parabolic reflector antennas degrade the overall performance of the antenna. The e...
Aperture efficiency measurements made during 1988 on the three 70-m stations (DSS-14, DSS-43, and DS...
The performance of X-band (8.5-GHz) and 32-GHz telemetry links is compared on the basis of the total...
A 32-GHz six-element linear transmitter array utilizing monolithic microwave integrated circuit (MMI...
Within the past several years, the Jet Propulsion Laboratory has designed and built major ground ant...
The X-band feed assemblies in the 64 meter antennas were redesigned to accommodate the upgrading to ...
A series of calculations that were carried out in order to determine the performance of the new dual...
Two models are provided of the Deep Space Network (DSN) 70 m antenna performance at Ka-band (32 GHz)...
The results of preliminary 32 GHz calibrations of the 70 meter antenna at Goldstone are presented. M...
A 21-element phased array transmit feed was demonstrated as part of an effort to develop and evaluat...
A comparative analysis was performed, using both the Geometrical Theory of Diffraction (GTD) and tra...
The design optimizations associated with the microwave and structural upgrade of the DSN 64-m antenn...
The measured Deep Space Network (DSN) 70-meter antenna performance at S- and X-bands is compared wit...
The dimensional stability of the surface of a large reflector antenna is important when high gain or...
Described here is the application of the microwave holography technique to Deep Space Station (DSS) ...
Surface errors on parabolic reflector antennas degrade the overall performance of the antenna. The e...
Aperture efficiency measurements made during 1988 on the three 70-m stations (DSS-14, DSS-43, and DS...
The performance of X-band (8.5-GHz) and 32-GHz telemetry links is compared on the basis of the total...
A 32-GHz six-element linear transmitter array utilizing monolithic microwave integrated circuit (MMI...
Within the past several years, the Jet Propulsion Laboratory has designed and built major ground ant...
The X-band feed assemblies in the 64 meter antennas were redesigned to accommodate the upgrading to ...