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The project is aimed to develop a Ka-Band transmit antenna concept able to handle a high number of beams with flexibility-oriented capabilities such us power allocation, null fixing or beam hopping.
It involved a first step of market prospect in order to consolidate the requirements and tailored them to the market needs. After a study of several possible antenna architectures, a lens-based antenna was selected and all its subsystems were preliminary designed.
The most critical elements were fully designed and bread-boarded, and a demonstrator of the concept was designed and built. The results of the RF tests conducted showed good results and correlation between simulations and measurements.
The main objective of the activity was to develop a Transmit Ka-band antenna concept able to handle a high number of steerable spot beams with broadband capability to cope with near-future market needs for systems using DVB-S2 or beam hopping. This objective was broken down into the following points:
This activity has allowed the development of a transmit array antenna architecture able to handle a high number of steerable spot beams with broadband capability and flexible power allocation, among other flexibility-oriented capabilities.
Additionally, with the aim to develop a commercially-oriented product, special attention was payed to the minimization of two critical points of a DRA: mass and consumption. Thermal management was also carefully addressed together with efficiency, dissipation and power distribution (bias of the amplifying elements).
The selected configuration optimises the performances in the main quality factor (ERIP) while minimizing the number of controls needed to handle the required number of beams.
A Ka band transmit array antenna was designed, based on commercially available technologies, following a generic and modular approach in order to minimise the recurring cost and reduce the time to market.
The proposed antenna allows a high number of beams and was designed to have large growth potential. This antenna provides flexibility in terms of power allocation, shaping coverages and null filling. It would be also capable of allowing customer changes during lifetime, such as a different orbital position or new coverage regions.
During this project three key points were accomplished:
The designed 1-m diameter antenna provides the following performances:
Now that the concept has been evaluated and its performance verified thought a DM testing, the next step should cover the selection of flight components and qualification of units, followed by a PFM production for a flight opportunity.
Several mission scenarios in which a DRA antenna could solve the market necessities have been identified and are under investigation to find a flight opportunity.