ARQUIMEA develops agricultural sustainability projects. It commits to hydrothermal carbonisation technology (HTC) for the treatment of agricultural waste and its subsequent valorisation as a renewable fuel or for improving soil.
ARQUIMEA develops agricultural sustainability projects. It works towards the valorisation of agricultural waste and its transformation into bioplastics for animal production. The bioproduct, obtained will be employed to produce new materials for use in artificially inseminating pigs.
ARQUIMEA develops agricultural sustainability projects. It researches to obtain a novel bioproduct capable of enhancing plant growth, fighting pathogen agents, binding nitrogen, dissolving phosphor and plant resistance to stress caused by drought.
Biocontrol of algae, a project for the recovery of water for irrigation purposes. Agricultural sustainability
ARQUIMEA develops agricultural sustainability projects. It researches to obtain a product of natural origin with the capacity to eliminate the algae that grow in irrigation reservoirs. Additionally, this bioproduct could replace current chemical treatments used to combat algae.
ARQUIMEA develops agricultural sustainability projects. It researches to obtain a compound of natural origin, formed by microorganisms, with the capacity to combat and eliminate the main plant pathogens that affect the Dehesas (pasturelands).
ARQUIMEA develops agricultural sustainability projects. It researches to transform livestock waste into renewable energies, through the development of solar panels based on microbial fuel cells.
Industrialisation of the cameras of the Large-Sized Telescopes (LST) of the northern Cherenkov Telescope Array (CTA) observatory
ARQUIMEA collaborates in the industrialisation of the cameras of the Large-Sized Telescopes (LST) of the northern Cherenkov Telescope Array (CTA) observatory.
Safe and reliable maintenance and inspection in wind farms is a challenge. To face it we bring MIDAAS an automatic system to develop this works.
ARQUIMEA's HDRM and DEM (deployment mechanism) proved to be the right solution for the solar array deployment for the ESA Project μHETsat microsatellite.
The solution is based on a set of libraries adaptable to the cobot programming language that allows a fast and easy parametrization of the desired sanding or polishing process to be done. The operator just provides the desired parameters of force, velocity, trajectory characteristics using the teach pendant of the cobot.
ARQ-RSB02 is a Full CMOS device designed by ARQUIMEA using the DARE180 rad-hard standard cell library under the QUANTUM project. The new digital ASIC allows controlling and managing the RF subassemblies of the ELSA+ phased array active antenna and enabling fast beam hopping.
ARQUIMEA solution for ESAIL project consisted of four devices per solar array, so a total of eight Flight Models plus one spare unit were provided to LuxSpace.
MAQUETTE is a turnkey project (engineering, procurement, construction, installation, operation and maintenance) for ANDRA which showed an excellent behavior and observations pointed out that the rock cracking was reached.
ARQUIMEA's PRE2POS Gimbal is the right solution for the target applications in small sats. It is a standard product, cost affordable and which successfully delivery in due time and form of the EQM model.
ARQUIMEA led a consortium that carried out the design of rad-hard integrated circuits running on the RTG4, as well as verification tools to prove the equivalence of the designs with and without SEE mitigation techniques.
European Commission under the Horizon 2020 program aims to reduce the dependence from non‐European sources on a critical space technology. Thus, ARQUIMEA's REACT developed three different HDRMs (5 KN, 15 KN and 35KN) and proved their qualification.
ARQUIMEA implemented a solution based on the company’s HDRM, together with an electronic system for the controlled actuation of the devices. The system is formed by two REACT 5kN Standard Temperature units and the electronics for synchronized and near-simultaneous activation (
SAM is a high-precision robot that performs different types of measurements inside High Level disposal cell casing which has been designed for ANDRA. The system shown an excellent behavior and was delivered succesfully in due time and form.
JUICE (JUpiter ICy Moons Explorer) is an ESA Mission where ARQUIMEA proposed the use of their space-qualified release nut REACT 15KN extended operation temperature range and proved to be the optimal solution.
LEA project was looking for a fully European solution for the release nuts part of the HDRM. They had to be used for both the release of the arm and the deployable reflector.ARQUIMEA proposed the use of their space-qualified release nut REACT 15KN extended operation temperature range.
The development of a complex mixed-signal product like SEPHY based on the IEEE802.3 commercial Ethernet standard, relies not only on its implementation (trade-off between rad-hard design and performances) but also on a good understanding of the application requirements and the related market.
ARQUIMEA implemented the required logic into FPGAs which were assembled in the GEO-SCAU system and the EUTELSAT QUANTUM satellite completed the qualification phase. The FPGA firmware hardware validation done at AIRBUS facilities and successfully delivered.
REDSAT ASIC for Electronically Steerable Antenna (ELSA) is the first space microelectronics project awarded to ARQUIMEA which radiation characterization ands qualification were successful. Thousands of flight models were selected from the WAT and delivered to the customer.