Have a look at our IoT platform, and the amazing low-power solutions you can around it.
Industry 4.0 will require more processing power and faster communication networks. We can take you there.
We can help you bring to life high-performance systems to provide all kinds of novel satellite services.
We provide best-in-class product development services by an experienced R&D engineering team, using the latest technologies and modern tools.
We offer our expertise in different industries and technologies to help you define the best solution for your specific needs.
Our work in this project consisted in developing an FPGA core for a high-performance acquisition board, used as part of the Test Equipment for a Synthetic Aperture Radar. The Core acquires radar pulses and generates echoes for these pulses to emulate several targets responses. The echoes are controlled precisely in amplitude, delay and phase, based on the targets distances to the radar’s moving antenna and other scenario characteristics. Gaussian noise can be added to emulate channel noise. The FPGA core performs very intensive DSP calculations on the acquired data to achieve the expected deformations in the generated echoes, which are then used to test and calibrate the radar.
Verificationof the System On Chip (SoC) designed to be the main controller of a CriticalSystem and implemented into a multimillion gate FPGA. The SoC incorporates ageneral purpose processor, several application specific cores and controllers;all connected with a multi-master AXI bus and fault detection & recoveryresources. It also handles several dedicated interfaces with stringent timingconstraints, as well as standard IO for DRAM, SRAM, Ethernet, USB and I2C interfaces.
This board is intended for Argetina’s nextmissions’ OBC. It is composed of a set of base and mezzanine boards, which includea Microsemi rad-hard RG4 FPGA, analog and digital signal conditioning, A/D conversionand interface connectors, as well as interfaces to the OBC backplane. The board is prepared for space applications,including the possibility of isolation and redundancy to account forradiation-induced and other failures, as well as thermal dissipation. 12 layers. 90 temperature inputs, 32differential analog inputs, 24 digital inputs, 8 digital outputs, 56 high poweroutputs. Signal integrity and part stress analysis, FMEA.
With our platform we have made three different solutions to the agriculture.
Feedlot
Greenhouse
Ìnvap designs and builds complex technological systems for nuclear, aerospace & defense industries.
Newsan Produces, markets and distributes consumer electronics and home appliances.
Hellastorm is developing a revolutionary hardware and software platform to store and stream thousands of videos efficiently at very low power.
BioDrone is a start-up developing an integrated detection, evaluation and immediate application system that combines electronic sensor technologies with applicator drones.
Novo Space is a US start-up developing an ecosystem of SpaceVPX high-performance electronics components for the next generation of space electronics.
Tecno Accion develops technology systems for the gaming industry.
