The objective of the activity is to identify and benchmark power efficient radio frequency algorithms on complex System on Chip (SoC) devices. Power efficient algorithms for at least two applications case (e.g. beamforming, decoding/encoding, neural networks...) will be designed, developed and tested and compared to programmable logic only implementation.Targeted Improvements: 50% reductionpower consumption for radio frequency algorithms with…

The objective of the activity is to design a compact L-band RF front-end for telecom applications which is based on a GaN Low NoiseAmplifier (LNA). A breadboard of a GaN microwave monolithic integrated circuit will be developed and tested. The RF front-end including the filtering function shall be modelled.Targeted Improvements: up to 30% mass and volume saving of the RF front-end (LNA and filtering) and 20 dB improvement of the LNA dynamic ra…

The objective is to develop an onboard data handling architecture capable of autonomously acquiring, processing and interpreting housekeeping and telemetry data and taking the required actions without ground intervention. The activity will develop a data handlingsub-system demonstrator to validate the intelligent functionalities, including prognostic and health management (PHM) capabilitiesTargeted Improvements: Enabling technology development…

The objective of this activity is to design, manufacture and test a breadboard of a high-power amplifier in Ku-band or above with 10 W/mm class of power density in continuous wave operation. The selected manufacturing process will allow a smaller chip size with reduced junction temperature, reduced thermal memory effects and improved efficiency.Targeted Improvements:- 3-5 times improvementin power density.- Junction temperature reduction of te…

The objective of the activity is to develop a concept for efficient testing of thrusters for large constellations that reduces the test-setup complexity and test duration by an order of magnitude. The concept shall be implemented and experimentally validated in ascalable testbed for high volume testing of the electric propulsion systems. Targeted Improvements: Increase the number of electricthrusters (minimum of 4 to 8) to be tested simultaneo…

Development of tools and hardware and the execution of a measurement campaign for background light and atmosphere conditions for Quantum Key Distribution (QKD) at urban location (major cities and metropolitan areas) under ARTES 4.0 Space Systems for Safety and Security (4S) Strategic Programme Line. These measurement results are an important check point to validate the design of the SAGA system. The background light and atmosphere metrology ac…

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 develop and test a digital-twin for on-orbit assembly and manufacturing of antennas up to 30-50metres diameter. An end-to-end manufacturing process will be selected and guidance, navigation and control techniques for assembly and manufacturing on-orbit will be developed. A simple large reflector antenna will be designed, and assembly and manufacturing will be evaluated with the developed digital twin.Targete…

Objective: The objective of the activity is to first design a Laser Communication Terminal (LCT) concept suitable for communicationover lunar distances. In a second step, the activity will develop an engineering model of a CCSDS compatible transceiver with critical functions including coding, synchronisation, and modulation. Targeted Improvements: Enabling a European or Canadian lunar communication terminal operating with a data rate one order…

The objective of the activity is to develop, manufacture and test an on-off power switching front end for all platform units, consuming less than 1W when set in standby mode and capable to turn on the unit power converter with a command sent over the power bus.Targeted Improvements:- Reduction of 15% of the platform harness mass, of the AIT operations.- Reduction of the unit mass by 10% and of platform dissipation by 30%-50%.- Simplification o…

The objective of the activity is to design, manufacture and test an accelerometer for drag compensation in Very Low Earth Orbit (VLEO). Targeted Improvements: - Enabling real time compensation of drag by the propulsion system. - Miniaturisation of instrument by a factor 10 compared to existing payload grade accelerometers. - Increase accuracy by factor 10 compared to existing accelerometers used for orbital control.Description: While intere…

Objective: The objective of the activity is to develop, manufacture and test a breadboard of a L- and C-band configurable power amplifier to enable dual band operation of avionic terminals. It shall demonstrate 200W peak power per channel and a 10dB dynamic rangewith a constant average power added efficiency of at least 50% for both bands, without compromising linearity performance. The breadboard shall include driver, main and peak amplifier,…

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 design a system concept based on distinct transmit-only and receive-only satellites for the user link. The goal is to enable at the system level simultaneous two-way low data rate communication services such as Internet of Things, messaging, and VDES operating in frequency range from VHF to C-band. The system concept will be implemented and tested in an end-to-end system testbed. This includes the user termi…

Objective: The objective of the activity is to develop and test a laser safety system for Optical Feeder Link (OFL) operations based on AI/ML techniques. The activity shall emphasise on airspace safety measures to handle uplink operations with significant opticalpower. The safety system shall be capable to operate autonomously. Implementation shall be based on commercially available hardwareplatforms. The activity will also provide the testbed…

Objective: the objective of the activity is the development and testing of a multi-purpose ground Quantum Key Distribution (QKD) Optical Receiver including a compact decoding set-up for secure key material generation. Key output is the standardization of interfaces a) from the telescope of the optical ground station and b) to the customer key management system.Targeted Improvements: The main target improvement of this activity is the optimisa…

The objective of this activity is to develop radiation tolerant platform technologies and semi-autonomous orbit transfer capabilityfor small satellite platforms. An experimental small satellite will be designed, manufactured and launched. The satellite will feature the platform technologies developed as well as a simple telecommunication payload allowing experiments during orbit raising to GEO as well as in GSO. Targeted Improvements: Enabling…

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…

The objective of this activity is to design, develop and test channel estimation and adaptation techniques as needed for Q/V band feeder links of LEO/MEO constellation with regenerative on-board processors. An end-to-end system testbed will be developed that includes varying channel, antenna and hardware impairments in the downlink and uplink depending on the elevation angle. The testbed willinclude the baseband, analogue and RF domain to test…

The objective of the activity is to design, manufacture and test a tribology-free mechanism breadboard for both platform and payload pointing applications on telecom satellites. The lifetime of the developed mechanism shall be assessed, and endurance testing shall be carried out. Targeted Improvements: Enabling a European source of compact, tribology-free pointing mechanisms with no backlash or friction hysteresis effects. Description: Today p…

The objective of the activity is to design, manufacture and test an integrated W-band transceiver Radio Frequency Integrated Circuit (RFIC) configurable as transmitter and receiver covering the 71-86 GHz band for aeronautical satcom applications. Targeted Improvements: Enable satellite aeronautical broadband services in W-band. Description: The maturity of Silicon technologies allows for the implementation of multifunctional and reconfigurable…

The objective of this activity to design, manufacture and test a Ku- or Ka-band faceted reconfigurable reflect array operating in receive band for reconfigurable coverage applications. RF and thermo-elastic performance shall be experimentally evaluated.TargetedImprovements: - Reduction up to 20% the reflector aperture diameter in comparison to today's shape reflector technology.- Improvement of the directivity performance at the edge of t…

The objective of this activity is to develop the software protocol stack for Release 18 enhancements related to 5G New for Radio (NR) for Non-Terrestrial Networks. The software protocol stack development shall be based on a testbed considering both the User Equipment (UE) and g-NodeB (gNB) features and operational procedures.Targeted Improvements:Enable 5G NR NTN system performance simulations with the latest Release 18 modifications.Descripti…

The objective of this activity is to design, develop and test a high-power Tx/Rx W-band diplexer for ground terminals.Targeted Improvements:Enabling technology for ground stations W-band gateway links with high power handling and low PIM.Description:The useof the available spectrum in W-band (71-76 GHz for downlink and 81-86 GHz for uplink) is attractive to satcom systems asit could beadopted in the gateway of Very High Throughput Satellites (…

The objective of the activity is to design, manufacture and test a set of highly efficient (minimum 25% power added efficiency) Q-band Monolithic Microwave Integrated Circuits (MMIC) for active antenna applications in GEO, MEO and LEO. The packaged devices will be based on European technology covering the 10 Watt power class (GEO) down to a few 100mWs for LEO applications. Targeted Improvements: Enabling critical building block technology deve…