Add to ORKGA 21-element phased array transmit feed was demonstrated as part of an effort to develop and evaluate state-of-the-art transmitter and receiver components at 32 and 34 GHz for future deep-space missions. Antenna pattern measurements demonstrating electronic beam steering of the two-dimensional array are reported and compared with predictions based on measured performance of MMIC-based phase shifter and amplifier modules and Vivaldi slotline radiating elements
This paper presents a progress summary of NASA's efforts in developing 20 and 30 GHz GaAs MMIC devic...
Far field patterns, element design, and feed systems for electronically steerable antenna system
The formalism of the sidelobe suppression algorithm and the method used to calculate the system nois...
A 32-GHz six-element linear transmitter array utilizing monolithic microwave integrated circuit (MMI...
A road map for the development of a protoflight 32 GHz spacecraft solid state transmitter is given. ...
The results of a study to determine the feasibility of using array feed techniques to improve the pe...
In a recent technology assessment of alternative communication systems for the space exploration ini...
JPL/NASA is currently developing microspacecraft systems for future deep space applications. One of ...
Increased capacity in future satellite systems can be achieved through antenna systems which provide...
Phased-array antenna systems offer many advantages to low-Earth-orbiting satellite systems. Their la...
Future rapid deployment of low- and medium-Earth-orbit satellite constellations that will offer vari...
A large multi-function antenna aperture and related components are described which will perform elec...
The results of preliminary 32 GHz calibrations of the 70 meter antenna at Goldstone are presented. M...
Design concepts under development utilize two separate spacecraft antenna systems, one uplink at 30 ...
A 1.5-W solid-state power amplifier (SSPA) has been demonstrated as part of an effort to develop and...
This paper presents a progress summary of NASA's efforts in developing 20 and 30 GHz GaAs MMIC devic...
Far field patterns, element design, and feed systems for electronically steerable antenna system
The formalism of the sidelobe suppression algorithm and the method used to calculate the system nois...
A 32-GHz six-element linear transmitter array utilizing monolithic microwave integrated circuit (MMI...
A road map for the development of a protoflight 32 GHz spacecraft solid state transmitter is given. ...
The results of a study to determine the feasibility of using array feed techniques to improve the pe...
In a recent technology assessment of alternative communication systems for the space exploration ini...
JPL/NASA is currently developing microspacecraft systems for future deep space applications. One of ...
Increased capacity in future satellite systems can be achieved through antenna systems which provide...
Phased-array antenna systems offer many advantages to low-Earth-orbiting satellite systems. Their la...
Future rapid deployment of low- and medium-Earth-orbit satellite constellations that will offer vari...
A large multi-function antenna aperture and related components are described which will perform elec...
The results of preliminary 32 GHz calibrations of the 70 meter antenna at Goldstone are presented. M...
Design concepts under development utilize two separate spacecraft antenna systems, one uplink at 30 ...
A 1.5-W solid-state power amplifier (SSPA) has been demonstrated as part of an effort to develop and...
This paper presents a progress summary of NASA's efforts in developing 20 and 30 GHz GaAs MMIC devic...
Far field patterns, element design, and feed systems for electronically steerable antenna system
The formalism of the sidelobe suppression algorithm and the method used to calculate the system nois...