Posted: Wednesday, May 8, 2019
The SX-4000 is designed on an advanced silicon process node that enables higher integration and lower power and mass in space, while meeting space radiation requirements. The SX-4000 uses advanced multi-GHz ADCs and DACs, JESD204C based SerDes interfaces, Quad core ARM A53 running at over 1 GHz and multiple DSPs to support the SDR digital processing functions.
The SX-4000 ASIC enables LEO, MEO and GEO missions to regenerate each satellite links (user, gateway and inter-satellite) independently.
Decoupling of the gateways links from the user links enables an improvement in the gateway link spectral efficiency, reducing the number of gateway locations, and hence CAPEX and OPEX, considerably. Graceful gradual deployment of gateways is easily achieved allowing minimal CAPEX and OPEX during the first years of service ramp up.
Each SX-4000 chip, supports a rate of 1Gsymbol/s which in addition to the improved spectral efficiency at the gateway link, enables operation of a single carrier per RF channel enabling saturation of the satellite PA, which reduces the cost per Mbit/s considerably.
The SX-4000 is compatible with the latest industry standards, such as DVB-S2X/RCS2 and the Annex E super-frame format 4 required for beam hopping.
It supports dynamic and flexible data switching for satellites constellation, and multiple simultaneous channels with flexible bandwidth allocation per channel.
"We are proud to work with Airbus on advanced processing technology," says Yoel Gat CEO of SatixFy group. "We have FPGA platforms and current SDR chips and waveforms that can help de-risk future satellite programs. We will support all DVB S2X/RCS2 functions including the newly SatixFy driven future extension to the DVB S2X standard for Beam Hopping."
"SatixFy represents an opportunity to change not just the system/payload/processor approach but the processes and timelines feasible for such advanced technologies. These approaches will keep Airbus at the forefront of advanced payloads and solutions now and in the future," said Charlie Bloomfield, Head of Communication Products, Airbus.
SatixFy designs next-generation satellite communication systems based on in-house developed chipsets. SatixFy's advanced modems radically increase system performance and reduce the weight and power requirements of terminals, payloads and gateway equipment with full support of advanced standards, such as DVB-S2X. The company delivers among others the industry's smallest VSAT as well as Electronically Steered Multibeam Antennas (ESMA) for a variety of mobility applications and services such as Connected Car, IoT, consumer broadband, in-flight connectivity, communication payloads and more.
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