The objective of the activity is to develop precoding techniques for the forward link of multi-beam LEO satellite systems operatingin full frequency reuse. The activity will target the conventional single-satellite precoding, as well as precoding across adjacentsatellites having beams with overlapping footprints. The developed techniques will be implemented and tested in a software simulator able to assess the performance at both link level an…

The objective of this activity is to develop and test a Ka-band sparse active transmit antenna breadboard and associated beamforming network for ground terminals to be connected with satellites in orbits ranging from geostationary orbits to low earth orbit orbits. Targeted Improvements: - 25% reduction in the number of active controls.- 5% increase in the DC-to-RF power efficiency at antenna level, due to the reduced exploitation of amplitude…

Objective: The objective of the activity is to design, manufacture and test a magnetic bearing system for high-speed rotary mechanisms in telecommunication spacecraft applications (e.g. reaction wheels or thermal control pumps and compressors). Targeted Improvements:- Increase rotation speed by a factor of 2 (resulting in higher angular momentum capability). - Increase lifetime by a factor of 2 (due to contact-less bearings and no lubrication)…

The objective of this activity is to design, manufacture and test a 500A class power unit capable of supplying DC power for both large on-board and AI processors for use in communication satellites.Targeted Improvements: Improved current supply capability of voltage regulators by a factor of ten enabling the use of high performance AI processors (GPUs and TPUs) in future telecom satellites.Description: Artificial Intelligence (AI) processors,…

The objective of the activity is to identify, design, manufacture and test critical technology and hardware elements needed for a high voltage electric power system (EPS) for high power telecom applications. This shall include typical primary and secondary DCDC converters and protection circuits (e.g. latching current limiters). Targeted Improvements:- Increase bus voltage up to > 300V, enabling direct drive for electric propulsion;- Reduce…

The objective of the activity is to develop and test a prototype of the emergency car light device with direct to satellite communication capability in an emulated environment in laboratory.Procurement Policy: C(1) = Activity restricted to non-prime contractors(incl. SMEs). For additional information please go to:…

The objective of the activity is to design, manufacture and test a highly efficient 20 W S-band Power Amplifier.Targeted Improvements:Efficiency higher than 70% - enabling technology for S-Band automotive applications.Description:Recent studies have shown the potential of satellite communications for 5G-connected cars. Although various frequency bands may be envisaged, the S-band can offer a simple systems architecture as well as a satisfactor…

The objective of this activity is to extend the thruster lifetime and optimise the operating point of the thruster and to develop afinite element model of the grids system together with the plasma in between to allow health checks.Targeted Improvements:- 20%increase in thruster lifetime.- 20% decrease of grid thruster failure probability (erosion).Description: Telecom platforms couldbenefit from gridded ion thrusters in the near future, but c…

The objective of the activity is to design, manufacture and test technologies enabling the removal of failed small satellites (e.g.tumbling) from low earth orbit. Several breadboards will be developed and tested to reduce tumbling and to enable rendezvous and capture.Targeted Improvements: Enabling de-orbiting of large constellations of low Earth orbit telecommunication satellites. Description: In the coming years it is expected that the numbe…

The objective of the activity is to develop and test a breadboard of an electrophoretic panel enabling adaptive thermal control on telecommunication spacecraft. Targeted Improvements:-Enabling technology to allow adaptive control of radiative surfaces.-Reduction in heater power of 40% and in radiator size of 30%. Description: Traditional thermal design balances emissivity and absorption parameters based on surface materials and/or coatings sel…

The objective of the activity is to develop a highly integrated, scalable Ku or Ka-band TX/RX direct radiating array, for versatileconnectivity missions in low earth orbit. Critical breadboarding will be carried out, levering the advances in Mm-wave silicon technologies and advanced packaging techniques to achieve a high degree of integration. Targeted Improvements: Enabling highly integrated combined transmit and receive active antenna with a…

The objective of this activity is to design, develop and test a breadboard of high-power W-band travelling wave tube (TWT) to meet the requirements of Very High Throughput Satellites.Targeted Improvements:Enable a European source of W-band TWT with 5 GHz instantaneous bandwidth, 100 W power output and at least 30% efficiency.Description:High Throughput Satellites (HTS) and Very High Throughput Satellites (VHTS) already use Q/V band frequencies…

The objective of this activity is to design, manufacture and test a W-band/E-band phased array antenna including the passive RF front-end taking advantage of additive and hybrid manufacturing techniques in order to reduce its complexity and mass compared to conventional subtractive techniquesTargeted Improvements: 30% mass reduction, removing screws and assembly interfaces.Description: With the multiplication of broadband communication satelli…

The objective of the activity is to develop and test a multifunctional hinge technology to accommodate a large multi panel active antenna array on a spacecraft platform, with integrated sensing to avoid adverse local deflections due to spacecraft dynamics.Targeted Improvements:Enabling technology for very large active antennas with disperse panels to be accommodated on a spacecraft platformfor future 5G/6G (direct to handheld) satellitesDescri…

The objective of this activity is to design, manufacture and test two breadboards corresponding to a reconfigurable 4-channel 30 GHz low power Combiner Frequency Multiplexer (CMUX) and a 4-channel 20 GHz low power frequency Demultiplexer (DMUX). Targeted Improvements: Replacement of conventional fixed-bandwidth CMUX and DMUX equipment with a tuneable solution capable of supporting agile traffic management.Description: Current broadband satelli…

The objective of the activity is to investigate, develop and test conformal Printed Circuit Board (PCB) technology using a novel approach, such as additive manufacturing to "print" the antenna for the automotive market. Targeted Improvements: Enabling conformal board of patches with distribution feed and integration of amplifiers on the reverse side, able to follow the shape of a car roof. Description: Conventional PCB technology is…

Objective: The objective of the activity is to develop and test a system simulator testbed capable of modelling and assessing the performance of communication satellite constellations operating in Very Low Earth Orbit (VLEO). This includes the assessment of the emerging waveforms (5G NTN, European Protected Waveform).Targeted Improvements: Enable the design and assess the constellation system performance of communication satellites operating i…

The objective of the activity is to select an off the shelf European slipring technology for terrestrial applications and demonstrate its suitability for Satcom applicationTargeted Improvements: Improving by 20% of power density, lifetime, mass, volume, and lead time.Description: Solar Array Drive Mechanism (SADM) require complex slip-ring technology often leading to long delivery times. However, slipring technologies for terrestrial applicati…

The objective is to develop and test a Ku or Ka band transparent phased array antenna to provide broadband connectivity on board cars. Targeted Improvements: Develop a new class of phased array antennas for cars able to guarantee a seamless broadband connectivitywith LEO satellites. Description: There is today a significant interest to provide broadband connectivity to cars. This request is associated to the need to guarantee emergency service…

Upon Delegation Request (*) The objective of the activity is to develop, manufacture and test an integrated automotive S-band antenna that combines satellite IoT and 5G terrestrial communications. Targeted Improvements: Reduction of antenna form factor from a protruding antenna (e.g. shark fin shape) to planar antenna fully integrated in the car roof. Bandwidth increase from 30 to 90 MHz for satellite and 5G communications. Description: The In…

The objective of the activity is to de-risk software mitigation techniques for radiation effects on a family of high-performance processors embedded in System on Chip (SoC) components. The activity will identify, on one or more processors of interest for the industry, radiation-induced failure modes and will implement appropriate software mitigation techniques with reuse or development of small FPGA IPs if needed. Targeted Improvements: Enable…

Objective: The objective is to develop, manufacture and test a breadboard of a lightweight, rollable, passive reflect-array or transmit-array deployed antenna. This shall operate at L- or Sband and have an aperture area of at least 5 square metre.Targeted Improvements: Enabling technology for large aperture deployable antennas based on a simple, reliable and robust mechanical deployment scheme, not existing today in ESA member states.Descripti…

The objective of this activity is to develop, manufacture and test a highly efficient Q-band spatial power divider and combiner forapplication in Q-band Solid State Power Amplifiers (SSPA). Experimental performance verification shall be carried out on a 40 - 60 W (nominal operating point) Q-band SSPA breadboard. Targeted Improvements: Improved power added efficiency of 5 - 10% of Q-band SSPAs in comparison to the state of the art. Description:…

The objective of the activity is to design, manufacture and test a thruster switching unit facilitating the connection of multiple electric propulsion thrusters to one or more power processing units for redundancy or configuration purposes optimising the system architecture.Targeted Improvements: - Improved efficiency (10% increase with respect to solid state solution).- Increased reliability with respect to a relay-based solution.- Reduced le…

Objective:The objective of the activity is to analyse and demonstrate the benefits of replacing coaxial cables/waveguides with fibre optics in large RF phased array antennas. The activity shall identify the best technologies to be employed and it will design, manufacture and test 2 breadboard demonstrators covering both analogue and digital transmission.Targeted Improvements:Order of magnitude mass and volume reduction by substituting the pass…