PRODUCT CATALOG 2021 - SATIXFY
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Product Catalog 2021
Company Prof ile SatixFy is the only vertically integrated company that provides products across the entire satellites communications (satcom) value chain. Its products enable critical remote connectivity applications globally and incorporate the latest technological advances. SatixFy designs its own silicon proprietary chips, codes its software, builds its products and designs end-to-end systems for use in various applications and services, such as in-flight connectivity, IoT, communication payloads, consumer broadband, and more. The company leverages its research and development (R&D) and technical capabilities to design standard based communication products and systems with the most desirable qualities, such as: higher capacity, lower power consumption, lower weight, and lower cost. For more information, visit: www.satixfy.com
Table of contents
Chips Modems Antennas Payloads Systems & Hubs
Sx3000 ToM S-IoT Diamond Next Generation LEO Payload Shepherd Hub
Sx3099 S-IDU Aero Antenna Mars CubeSat
Beat SCPC
Prime
Prime 2.0
Sx4000
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Chips Sx3000 Sx3099 Beat Prime Prime 2.0 Sx4000
Sx3000
Ultra-Wideband (System on a Chip) ASIC (Application
Specific IC). The device delivers
Main Features
SDR Modem SoC ultra-wideband performance using
a Software Defined Radio (SDR)
Fully compliant DVB-S2/S2X mod/demod
Wideband 500 Msps HTS transponder support
including time slicing (Annex M)
architecture.
Beam hopping Superframe ready (Annex E)
DVB-S2X/RCS2 Software Defined The Sx-3000 is compliant with 4 Receive channels, incl. Channel Bonding
Radio chip and development package DVB-S2X and RCS2 standards. The Internal 12 bit ADC/DAC or external interface
leading the way to true beam hopping unique architecture offers DSP and (JESD 204B)
HTS terminals. hardware accelerators. Over the Air Very low SNR reception
(OTA) firmware upgrade capability DVB-RCS2 or proprietary MF-TDMA return channel
The satellite equipment industry is also available. The design provides 3x - GbE Gigabit Ethernet ports
Built-in AES 256 encryption engine
is entering a new era. New High support of future advanced satellite
MIPS dual-core host CPU for multiple applications
Throughput (HTS), Low Earth (LEO) technologies. Beam hopping and
Multiple CEVA XC-323 DSPs
satellites and drones have emerged. flexible satellite payload support is
SatixFy's answer to these new available now.
technologies is the Sx-3000 SDR SoC
The Sx-3000 comes in several variants
featuring a combined software and
hardware architecture. The design VLSNR Rx
combines benefits of Software Defined
Radio (SDR) with custom hardware
Demod
accelerators. W ith "Over the Air" (OTA)
capability, firmware upgrades are AFE
field programmable. This assures long CPU & I/O
product life cycle with future proof Demod
upgradability.
Modulator
Fabric
DSPs
Modulator
FEC Rx
Sx3000
Evaluation & Software
Development Package Consumer V-SAT
The Sx-3000 product family is a
Software Defined Radio (SDR) The Sx-3000 SoC ASIC with RF and peripheral devices, integrate
platform. The platform offers signal into a small VSAT modem. SatixFy's small VSAT modem board
path programming in the SDR. fits inside standard indoor and outdoor enclosures. The VSAT
DSP and microprocessor feature modem board design meets consumer low-cost competitive
programming are also available. This market needs. Broadband internet, IoT, M2M and customized
enables a wide range of programming communication format needs are currently available.
capabilities. SatixFy provides a
complete development infrastructure
covering different customizing needs. 1.1AVDD 1.8AVDD 3.3AVDD AGND 1.1DVDD 1.5DVDD 2.5DVDD 3.3DVDD DGND 32 bit DDR (8GB)
Support and training services are also
available. AFE
DVB-S2/S2X
DSP_Rx DSP
DDR3 Controller
DDR
PLL
Technical
Specifications
Acquisition
CPU VIDEO
BB (P) 12-bit ADC PLL PLL TS/ASI TSIF OUT (P/S)
I I
Evaluation package
1080 Msps ASR OUT 0
BB (N) PL Symbol FEC Decoder GSE/TS/ ASI OUT
DFE Processor (LDPC/BCH) BBFrame
BB (P) (PFB) Turbo (GSR)
Forward channel
12-bit ADC Q Q AGC Video Transport
TS/ASI TSIF OUT (P/S)
BB (N) 1080 Msps Module (VTM)
OUT 1 ASI OUT
provides complete infrastructure needed BB (P)
BB (N)
12-bit ADC
270 Msps
I I
ASR PL Symbol FEC Decoder GSE/TS/ TS/ASI TSIF OUT (S)
DVB-S2X, DVB-S2, ACM
to test the chip’s functionality and
DFE Processor (LDPC/BCH) BBFrame OUT 2 ASI OUT
Dual Core
BB (P) 12-bit ADC
270 Msps
Q Q AGC
(PFB) Turbo (GSR)
InterAptive
MIPS
Rate 125 Msps/500 Mbps
BB (N)
demonstrate its performance
TS/ASI TSIF OUT (S)
BB (P) 12-bit ADC I I
OUT 3 ASI OUT L-band: 950-2150 MHz, F-Type,
270 Msps ASR
BB (N)
DFE
PL Symbol
Processor
FEC Decoder
(LDPC/BCH)
GSE/TS/
BBFrame L2 Shared
TS IN TSIF IN (P/S)
75 Ohm Return Channel
BB (P) 12-bit ADC
AGC
(PFB) Turbo (GSR) Memory (512kB)
Q Q
DVB-S2X, DVB-RCS2,
Basic Software development
270 Msps
BB (N)
BB (P) 12-bit ADC
270 Msps
I I
ASR Proprietary (MF-TDMA)
package
BB (N) PL Symbol FEC Decoder GSE/TS/ DMA
DFE Processor (LDPC/BCH) BBFrame
BB (P) 12-bit ADC
270 Msps
Q Q AGC
(PFB) Turbo (GSR)
Rate 10 Msps/20 Mbps
BB (N)
TRANSEC
L-band: 950-2400 MHz,
provides the ability to program the
Data (8 Lanes) Interconnect Bus AES256 Ethernet 1 RGMII/SGMII
204B_Rx
F-Type, 75 Ohm Interfaces
G-MAC
SYSREF_CLK (16-bit ADC)
MUX DVB-S2/S2X/RCS2 Modulator
ASIC’s DSPs and CPU ADC_SYNC
BB (P) 12-bit ADC
RCS SYNC DSP_Tx Ethernet 2
G-MAC
RGMII/SGMII
2 GB Ethernet ports
I I
BB (N) 270 Msps
DSR
PL Framer FEC Encoder BB Ethernet 3
BB (P) DFE (PLF) (LDPC/BCH) Framer RGMII/SGMII
Source code software
12-bit ADC Q Q DSP MAC G-MAC
Turbo
BB (N) 270 Msps RLE PLL PLL
Data (8 Lanes)
package SYSREF_CLK 204B_Rx
(16-bit ADC) OSC XTAL
DAC_SYNC
provides DSP source code written UART SPI I2C IIS GPIO JTAG QSPI SDIO OSC XTAL
Controller
DAC ADC
OSC
PLL PLL
and maintained by SatixFy
XTAL 2xUART 2xSPI 2xI2C Digital Audio 29 GPIO JTAG TAP FLASH SD RESET CLK_OUT
Sx3099
Multi-Orbit, 204 SerDes
Multi-Satellite 1 Sx3099 FLOOR PLAN
GHz LEO/MEO/ AFE DIG
GEO SDR Multi- DFE Tx
Ceva Tx
Modem SoC
DFE Rx
MTX BE
Serials
GEN_CORR
SatixFy's Software Defined Radio chip ETH
with native DVB-S2X/RCS2, is capable PFB GSR
of processing 1 GHz in up to 8 modems Host CPU
ACQ
in Tx and Rx with beam hopping and
outputting over 5 Gbps of user data, FEC Rx
through 10GbE ports. Ceva Rx DDR
DVB-S2X/RCS2 modem SatixFy designed the Sx3099 to
take advantage of all these new
with Software Defined technologies.
Architecture
The ASIC is capable of communicating
The satellite industry is witnessing a simultaneously with multiple
paradigm shift. Capacity is building satellites in multiple orbits and being
up in LEO and MEO orbits which programmed with different waveforms,
complement the existing GEO promoting concepts like roaming and
bandwidth. Modern satellites bring the multi-vendor operations.
promise of targeted high capacity data
to the user through beam forming and
beam hopping.
Sx3099
Evaluation Package High-level architecture
Main Features provides complete infrastructure needed to test the
DDR4
chip’s functionality and demonstrate its performance.
LEO/MEO/GEO chip with full support of LEO/ SX-3099 SDR Modem ASIC
MEO constellations LP DDR4
Controller
Multi-modem chip with 1 – 8 modems aggregated to 1 Basic Software Development Package AFE Multi-channel DVB-S2/S2X Burst Demodulator
Digital tuner
ARM
GHz in Tx and Rx with flexible bandwidth allocation provides the ability to program the ASIC’s DSPs and ASR
Acqusition QUAD-CORE
Full Beam Hopping support of the latest DVB CPU. AGC I PL Symbol FEC Decoder GSE Crypto
S2X 2019 version DFE Processor
(PFB)
(LDPC/BCH)
Turbo
(GSR) Cell
Q
Generates multiple beams with ESMA. 8 beams with Ethernet 1 SG MII/
data and control over a single 10GbE interface port 10G-MAC 10GR
Source Code Software Package LANE 1
The second SatixFy chip with VLSNR support LANE 2 204B
provides DSP source code written and maintained by
Interconnect Bus Ethernet 2
LANE 3 SERDES SG MII/
10G-MAC
10GR
LEO doppler and fade profile handling LANE 4
SatixFy. Multi-channel DVBS2/S2X/RCS2 Burst Modulator
Quad core ARM A53 host processor and PCIe PCIe
Gen3.0
powerful DSPs running at 1GHz clock rate RCS SYNC
Digital rotator
Digital interface to multi-beam electronically I
PL Framer
FEC Encoder
BB
CEVA
DSP
DFE (LDPC/BCH)
steered antennas Q (PLF)
Turbo
Framer
CEVA
DSP
Evaluation & Software
1.8V
Clock GPIO JTAG SDIO
Slow/O
UART SSPI MSPI I2C QSPI
1.5V Generation 1...48 (x3) Controller
Development Package
and Control
0.8V
XTAL nRESET UART SSPI MSPI(x2) I2C(x2) GPIO JTAG FLASH SD/MMC
The Sx3099 ASIC is a Software Defined
Radio (SDR) platform. The platform Technical Specifications
offers built-in standard waveform such
as DVB-S2X and DVB-RCS2 as well as Satellite support.................................................................................LEO/MEO/GEO
Symbol rate...........................................................................................1 Gsps
high capability communications DSPs Terminal on Module (ToM) Carriers.....................................................................................................8 Transmit/Receive
and microprocessor which can be VLSNR/ELSNR......................................................................................Down to >-20dB
programmed at will. SatixFy provides a Sx3099 high density and integration enables building the Modulation............................................................................................BPSK, QPSK, 8PSK, 16 APSK, 32 APSK,
smallest Industry modem available. ToM includes all the core .......................................................................................................................64 APSK, 128 APSK, 256 APSK, VL SNR
complete development infrastructure functionality required for satellite communications. The module Coding......................................................................................................According to S2 and S2x MODCOD
covering different customizing needs. also includes up to 4 GB LPDDR4, up to 1GB Flash, 64GB eMMC .......................................................................................................................definition | Frame length: 16200,
Support and training services are also memory, Ethernet PHY, all relevant power rails, clocks, and all .......................................................................................................................64800, 32400
interface connectors supporting all external interfaces including Beam Hopping...................................................................................Annex E Superframe DVB 2019
available. analog SerDes lines – all on a size not much bigger than a Return channel...................................................................................DVB-RCS2 or SDR based waveform
quarter coin. Data output...........................................................................................2x 10 GigE
Data processing.................................................................................Quad core ARM A53 CPU, CEVA DSPs
Beat
RFIC for Key Features Technical Specifications
Electronically Transmit/receive functionality for full or half
duplex implementations
Supported Ku band frequencies......................................................... RX: 10.7 – 12.75 GHz TX: 13.75 – 14.5 GHz
TX RF Bandwidth........................................................................................... 500 MHz
Steered Antennas
RX RF Bandwidth........................................................................................... 880 MHz
Direct conversion Ku to baseband to be sampled TX P1dB.................................................................................................................. 10 dBm
by PRIME DBF ASIC LNA noise figure (NF).................................................................................. 1.8 dB
Automatic linear and circular polarization control V and H isolation............................................................................................. 25 dB
BEAT is a low SWaP Analog RF Quad PRIME Interface.............................................................................................. analog differential IQ (100 Ω)
Independent V and H channels control Antenna element Interface..................................................................... single-ended 50 Ohms interface (50 Ω)
transceiver, used to interface between
Polarization control....................................................................................... Circular and linear
the electronically steered antenna Digital control Interface............................................................................. SPI
elements and the PRIME Digital Beam
Former ASIC. The RFIC integrates four (4)
Ku RF front-end modules and includes BEAT RFICs are developed for various satellite frequencies in Ku and Ka bands,normal and reverse modes.
state-of-the-art up and down-converters
PA and LNA design. BEAT is designed in
its basic form to support four (4) digital
beam-forming independent linear or
circular elements (V and H ports). Antenna Elements Beat RFIC Beat RFIC Beat RFIC
LNA+D/C PA+U/C LNA+D/C PA+U/C LNA+D/C PA+U/C
CONTROL
CONTROL
CONTROL
ADCs
ADCs
ADCs
D A Cs
D A Cs
D A Cs
ACU / Modem
Beam Beam Beam
CPU CONTROL Formers Formers Formers
BB
Modem D ATA SERDES SERDES SERDES SERDES
1ST PRIME ASIC 2ND PRIME ASIC NTH PRIME ASIC
Prime
True Time frequency response to optimize
antenna performance and compensate High Speed Digital I/F
Delay Digital
Wide BW
the variance of each element in the Tile 1 Tile 2 Low Latency Tile 3
RF chain. SatixFy PRIME Digital Beam-
Beamformer ASIC
Microstrip patch
High BW
Former (DBF) introduce superior Scan: +/-60
0
performance capabilities such as fast
PRIME is fully digital True Time satellite acquisition and tracking, Beam
Delay Beam-Former ASIC, designed steering, Beam Shaping, Nulling, and
for electrically steered multibeam interference cancellation. TX SerDes TX SerDes
PRIME PRIME PRIME
array antennas. The PRIME chips RX SerDes RX SerDes
are cascade-able enabling scalable Antenna arrays Based on PRIME can be
Prime (DBF)
architecture from small to very large constructed as single-board (aperture) Wideband Signal Beamformer
Integrated Antenna
Controller and Modem
arrays (64 up to >100,000 elements). or in a multi-Tile approach. PRIME 32 elements
Multi-beam
TX SerDes Control configuration of DBF, RFIC, SerDes
Calibration
is suitable to fit any fixed or mobile Equalizer/PreEqualizer per chain Antenna Controller
PRIME uses advanced digital signal DPD per chain RX SerDes
Power Control
processing on each receive or transmit application, from IoT and messaging
element to shape the required time terminals, through naval, Aero and
delay, phase shift, amplitude, and landline broadband, very large Gateway Technical Specifications
antenna arrays and satellite payload Operation Modes............................................................................................Full-Duplex (FDD) and Half-Duplex (TDD)
arrays, operating at any polarization Number of beams..........................................................................................1-32 Tx/Rx
(linear/circular) in full and half duplex Total Bandwidth per beam......................................................................1 MHz – 880 MHz (Single Beam)
Polarization..........................................................................................................Linear (Vertical/Horizontal) / Circular(RHCP/LHCP)
modes.The PRIME chip is frequency Beam Hopping support.............................................................................Yes
independent. It operates in baseband AGC support.......................................................................................................Yes, Digital
and connects to band specific RFICs. Beam parameters setup time................................................................≤0.2 μSec
New antenna pattern (tapering) setup time...............................≤0.1 μSec
This PRIME-RFIC mating enables New close direction steering setup time.......................................≤0.1 μSec
the construction of low-cost and low Digital Interface................................................................................................JSED204B, 6 lanes x 12.5 Gbps
power flat antennas, for GEO/MEO/LEO Package.................................................................................................................fcBGA, 19mmx19mm
services, including Make-Before-Break
(MBB) handover support. Key Features Beam-switching < 10 mSec
2GHz Analog baseband interface for RFIC
True Time Delay (TTD) Impairment corrections, using Digital Pre-
Over 1 GHz instantaneous signal bandwidth Distortion and Pre Equalization/Equalization
Multibeam (up to 32 beams) Calibration with built-in Synchronization Engines
Polarization Control (Linear and Circular) Tight integration with SatixFy's SX-3000/3099
ASIC Modems
High resolution beamforming
Support for external modem via L-band interfacePrime 2.0
Digital antenna elements, omitting the need
for power hungry frequency conversion
Technical Specifications
Beamformer and enabling each antenna element
to contribute to all the generated
Operation Modes............................................................................................ Full-Duplex (FDD) and Half-Duplex (TDD)
Number of beams.......................................................................................... 128
ASIC for Flexible
Total Capacity.................................................................................................... 8 GHz Rx & Tx
beams. The use of digital beam forming Bandwidth........................................................................................................... 2.5 GHz
Scalability.............................................................................................................. Digital SERDES connectivity, capacity can be
Satellite Payloads
technology ensures simple multi-beam
............................................................................................................................... expanded to 64 GHz
payload implementation with a single Digitization.......................................................................................................... Direct sampling up to Ka band
port per element. Prime 2.0 supports Beam steering................................................................................................... True Time Delay
functions such as fast beam hopping,
Prime 2.0 offers the lowest size, mass
directing multiple user beams on
and power multi-beam forming
demand according to traffic patterns,
solution for satellite payloads.Prime 2.0
beam tracking of ground cells during
can generate 128 simultaneous beams 16 BF (ADC/DACs)
satellite flight over the earth. Null
in any band up to Ka band and at a
beams can be placed independently
capacity of 8 GHz per beam former.
to reduce interference sources. The
ADAC ADAC ADAC ADAC ADAC ADAC
It uses direct RF sampling of all the BF BF BF BF BF BF
Prime 2.0 solution is highly scalable and
capacity can be increased by cascading
ASICs through a digital interface. ML - SERDES PHY data /8 /8 ML - SERDES PHY data
Main Link (JESD204C) Main Link (JESD204C)
services, including Make-Before-Break /8 RX RX /8
Prime2Prime
(MBB) handover support. RL - SERDES PHY data /8 TX
Subsystem TX /8 RL - SERDES PHY data
Redundant Link (JESD204C) Redundant Link (JESD204C)
/8 /8
Key Features EL - SERDES PHY data extra /8 RX RX /8 EL - SERDES PHY data extra
link (return channel/204B) link (return channel/204B)
/8 TX TX /8
128 simultaneous beams
/1 TX TX /1
Each element contributes to all beams Main+Redundant LW_GbE /1 /1 Main+Redundant LW_GbE
RX RX
Control
Simple implementation, single port per element, (2 Lanes) /1 TX TX /1 (2 Lanes)
no need for phase shifter per element per beam /1 RX RX /1
Direct sampling – no need for frequency
converters BF BF BF BF BF BF
Antenna scalability ADAC ADAC ADAC ADAC ADAC ADAC
Independent dynamic nulling for interference
management
16 BF (ADC/DACs)
Autonomous calibration
Digital pre-distortion per elementSx4000
Regenerative case is utilizing decoding of the signal on
the satellite enabling dynamic routing
Satellite Payload
500 Local User Demob
MHz
GW/ISL
Host 500MHz up to 128 ADC of the traffic either to other satellites in
DAC Channels
Mod
the constellation using inter satellite link
SDR Modem SoC
500
MHz
(ISL) or directly to the gateway (GW) or
Baseband 500MHz User Mod DAC
user links. The SX4000 advanced silicon
Switching Fabric
DVB-S2X/RCS2 Software Defined 500MHz User Mod DAC process ensures it has the best Size,
Radio chip for regenerative on board 500 500MHz User Mod DAC Weight and Power (SWaP) available in
processing satellite systems. Based MHz
GW/ISL
the industry.
ADC Demod 500MHz User Mod DAC
on proven Satixfy’s SDR technology. 500
Suitable for LEO, MEO and GEO
MHz
pansion pansion pansion pansion Software Defined Radio implementation
port port port port
missions. ensure the system is future proof. The
capital investment in the satellite will not
Key Features REGENERATIVE PAYLOAD be lost when newer and more powerful
communication protocols emerge.
SDR MODEM SoC The SX-4000 is based on Satixfy’s proven
Fully compliant DVB-S2/S2X mod/demod
Modulation up to 256 APSK SDR technology implementing a unique
High Throughput Satellites (HTS) bring
GW/ISL link demodulator: 1 GHz / 2x500 MHz /4x250 MHz software/hardware hybrid architecture
new challenges to satellite operators.
GW/ISL link modulator: 1 GHz / 2x500 MHz / 4x250 MHz that combines the benefits of Software
Increase in service capacity require build
User link: 4 modulators 500 MHz / 2x250 MHz or 4x125 MHz Defined Radio (SDR) together with
up of additional and larger teleport
User link: 128 burst demodulators with total bandwidth custom hardware accelerators. Using
stations which becomes a significant
of 500 MHz different software and firmware for each
cost increase both in CAPEX and
4 expansion ports custom application and supporting
OPEX. LEO constellations pose further
Native support in beam hoping (replacing payload Over the Air (OTA) updates ensure long
channelizer) complexity by dynamically directing
product lifecycles with future upgrade
traffic according to the current satellite
capabilities.
OBP OBP orbital position. An On-Board-Processing
ISL Return
(OBP) regenerative payload is addressing
The SX-4000 can scale up in capacity and
ISL Forward
both challenges. The first is resolved
bandwidth as needed using expansion
by decoupling the teleport links from
ports, enabling the system designer to
rn
rn
GW
the user links. Teleports to satellite links
tu
tu
Re
Re
d
d
Re
GW
ar
ar
use the same SX-4000 for different kinds
er
er
tu
rw
rw
Fo
Us
Us
rn
can use higher modulations than user
Fo
Fo
rw
er
er
of satellite systems with a large span of
ar
Us
Us
d
link and hence reduce significantly the
bandwidth and feature requirements.
number of teleports required. The laterModems
ToM
S-IDU
SCPC
SatixFy's modems are all based on proprietary silicon
ASIC technology designed in-house.
Sx3000 and Sx3099 are SatixFy’s dedicated System
on a Chip (SoC) devices for two-way satellite
communication. They are integrated modems based
on Software Defined Radio SDR architecture. They
include 500MHz / 1 GHz modulator and demodulator,
DSPs, a dual core CPU / Quad-core ARM and
dedicated hardware accelerators.
Powered by
Sx3000
&
Sx3099ToM
Terminal on products to market. ToM is packed
with a rich set of interfaces that allows
SX-3099
Next generation
Module the user to design applications that
directly interface to either an analog
satellite modem
ASIC-SoC
As a leading provider of satellite RF (0-7.5GHz) or an Electronically ToM
Steered Multibeam Array (ESMA). Smallest terminal
innovation technology and ASIC module AERO/IFC
designs, SatixFy is the first to deliver ToM integrates 64bit Quad Core GEO/MEO/LEO
the most integrated satellite Terminal ARM Cortex A53, built-in hardware support; ARINC
accelerators, LPDDR4, eMMC Flash, 791/2 compatible
on Module (ToM). ToM brings the COTM
fastest multi gigabits performance eSim, 10Gbps Ethernet Phy and PCIe. Medium data
rates support for
available today in an ultra-small- GEO/MEO/LEO
scale footprint and low power. ToM ToM is the first to commercialize Beam with ESMA
is designed from the ground up to Hopping technology, which is essential
help our customers shorten their for future LEO and MEO applications.
design cycle and quickly deliver ToM is built with the knowledge
that each customer has unique
requirements and therefore, it has a
Consumer
built-in SDR engine and expansion loT/M2M IDU/ODU
Low data rates, Broadband low-
interfaces that give the customers the cost VSAT
support for GEO/MEO/
flexibility to tailor ToM to their own LEO using very small
solutions. TDD antenna SCPC
HIgh data rates
and trunking
support for GEO/
MEO/LEO
Highlights
Technical Specifications
Compact design and small size
Highly integrated CPU Type.................................................................................................64 bit Quad ARM Quad Core A53
DSP.............................................................................................................2 x CEVA
Low power Standard/Waveform........................................................................DVB-S2X, Time Slicing, Superframe, VLSNR, ELSNR DVB-RCS2
Low cost Analog RF...............................................................................................2 x Tx & 2 x Rx with BW 0-7.5GHz
Multi Gigibits throughput Digital "RF..............................................................................................High speed JESD204B
High-Speed Interfaces...................................................................2 x 10Gbps Ethernet Phy and PCIe
SDR to support flexible applications Memory....................................................................................................eMMC, LPDDR4
Wide range of interfaces Simultaneous Tx/Rx Beam Support.....................................Up to 8 beamsS-IDU
Wideband DVB- platform enabling any VSAT manufacturer to easily
port their existing software stack into this small size,
Technical Specifications
S2X VSAT low cost, high performance remote. It also increases
performance and adds capabilities with full support
Forward channel
Standard....................................................................................................DVB-S2X, DVB-S2, ACM
Number of channels.........................................................................1
of DVB-S2X standard and more. Symbol rate.............................................................................................120Ksps – 125Msps (500Mbps)
HTS, LEO and drone land Roll off.........................................................................................................Down to 5%
Modulation..............................................................................................QPSK, 8PSK, 16APSK, 32APSK
terminal platform Wideband and beam hopping ready Coding........................................................................................................LDPC & BCH
The S-IDU terminal brings to market The terminal supports the latest DVB-S2X standard. FEC rates...................................................................................................All DVB-S2 and DVB-S2X rates
a complete integrated VSAT hardware It includes wideband 125MHz signals, time slicing Return channel
product that utilizes technology (DVB-S2X Annex M) and beam-hopping (DVB-S2X Standard....................................................................................................DVB-RCS2 or Proprietary (SDR)
advancements, such as high capacity Annex E). This ensures service providers that S-IDUs Number of channels.........................................................................1
Symbol rate.............................................................................................128Ksps – 10MSps (20Mbps)
and efficient space segment deployed today will continue operating over the new Roll off.........................................................................................................10%, 15%, 20%, 25%, 35%
utilization, enabled by HTS satellites, beam-hopping satellites expected to start operation Modulation..............................................................................................BPSK, QPSK, 8PSK, 16QAM
LEO satellites and drones. in the next coming years. Coding........................................................................................................Turbo 16 state
FEC rates...................................................................................................1/3, 1/2, 2/3, 3/4, 5/6, 6/7
The S-IDU is powered by SatixFy’s SX-
3000 ASIC and is a generic hardware High throughput Interfaces
Data..............................................................................................................Two Ethernet ports: 10/100/1000, RJ-45
S-IDU built-in hardware accelerators assure high Console.......................................................................................................Serial RS-232 using RJ-45 connector
bit rate operation with its AES 256 encryptions and RF (Rx).........................................................................................................L-band: 950 – 2150 MHz
Generic Stream (GSE) decapsulation. RF (Tx)..........................................................................................................L-band: 950 – 2400 MHz
Environmental and Mechanical
Power..........................................................................................................DC power supply 24VDC
Dimensions.............................................................................................185 x 116 x 50 mm
Weight........................................................................................................SCPC
Suited to GSE and Baseband Frame encapsulation options.
Extended dynamic range of 40 dB SNR enables various
Technical Specifications
operate with modulations from VLSNR (-10 dB) up to 256 APSK. It also
enables unique performance with an implementation
Forward channel (RX)
Standard...............................................................................DVB-S2X, DVB-S2, ACM
GEO/MEO/LEO
Encapsulation..................................................................GSE, Baseband Frame
loss within fraction dB from the implementation Symbol rate........................................................................120Ksps – 118 Msps (125 MHz, RoF=5%)
Bit rate.....................................................................................120 Kbps – 300 Mbps
satellites
guidelines. ACM functionality ensures best throughput
Roll-off.....................................................................................5%, 10%, 15%, 20%, 25%, 30%, 35%
in any link condition. The SCPC Modem is based on SX- Modulation.........................................................................BPSK 1/5 Spreading Factor 2 to 256 APSK
3000 Software Defined Radio (SDR) ASIC and can be Coding.....................................................................................LDPC & BCH
SatixFy SCPC Modem provides high- used for a wide verity of applications. SatixFy also brings FEC rates...............................................................................Per DVB S2/S2X standard
FEC Frame..........................................................................64800; 32400; 16200 bits
end capabilities in a compact design. its high-speed managed MCPC solution in a small-size Return channel (TX)
Each Enterprise 1U unit includes two hub rack, allowing for efficient distribution of trunking Standard...............................................................................DVB-S2X, DVB-S2, ACM
independent modems, supporting services to multiple nodes at an affordable price. Encapsulation..................................................................GSE, MPE, Baseband Frame
Symbol rate........................................................................120 Ksps – 118 Msps (125 MHz, RoF=5%)
a single 125 MHz carrier both in the Bit rate.....................................................................................120 Kbps – 300 Mbps
forward and return links (Point to Roll off......................................................................................5%, 10%, 15%, 20%, 25%, 30%, 35%
Point). The SCPC Modem can operate
APPLICATIONS Modulation.........................................................................BPSK 1/5 Spreading Factor 2 to 256 APSK
IP trunking & IP backhauling Coding.....................................................................................LDPC & BCH
in trunking mode (L2 Bridge) and has FEC rates...............................................................................Per DVB S2/S2X standard
Mobile, GSM/UMTS/LTE backhaul
FEC Frame..........................................................................64800; 32400; 16200 bits
Telco backhaul (STM over the air) Modem Interfaces
Military government communication (AES-256 TRANSEC) Data...........................................................................................Two Ethernet ports: 10/100/1000, RJ-45, Auto-
Disaster Recovery .......................................................................................................negotiation
Ethernet Mode................................................................Layer2 bridge (Ethernet frames over satellite) | L3
Enterprise (broadcasters, corporate, ISP) .......................................................................................................Router
Mission critical M&C...........................................................................................HTTP/S Web based GUI (Locally and remotely OTA),
Maritime, aviation .......................................................................................................SSH | UART Console (COM) | LCD front panel
Power.......................................................................................100-240 VAC / 50-60 Hz
MEO/LEO RF
Rx.................................................................................................950 – 2150 MHz, N-Type, 50Ω
AGC Dynamic Range..........................................60 dB
Highlights LNB Support...............................................................11-24 VDC/0.5A (pass through), DiSEqC 2.0
GEO/MEO/LEO operation Tx..................................................................................................950 – 2400 MHz, N-Type, 50Ω
Output Power............................................................0 dBm (Max); -35 dBm (Min)
Dual modem in a single enclosure BUC Support...............................................................24 VDC/2A, 10/50 MHz Reference signal
High performance 125 MHz Operation (FWD and RTN) Mechanical and Environmental
DVB-S2X fully compliant Size.............................................................................................19" x 1U x 8.8" / 48 cm x 1U x 22.3 cm
Weight....................................................................................1.9 kg / 4.1 Lbs.
Very low SNR support (down to -10 dB) Operating temp.............................................................0 – 50 °C
Low power
Low cost
L2 operation (Bridge mode)Antennas
S-IoT Diamond
Aero Antenna
SatixFy has developed its own family of dedicated
System on a Chip (SoC) devices for two-way satellite
communication. The Beamformer (“Prime”) is an
industry-first SoC implementing True-Time Delay for
pointing and tracking multiple beams from an array
of radiating elements. Each element is connected
to the RFIC chip ("BEAT") which serves as micro LNA
and PA per element.
Powered by
Beat
&
PrimeS-IoT Diamond
S-IoT System Using standard Ku-Band, SatixFy’s IoT
terminals are the smallest VSATs in
IP Capable
SatixFy's S-IoT terminals are IP capable and can
Markets &
Applications
Over Satellite the industry – compact, self-installing
and tracking. The combination of
seamlessly extend the reach of IoT networks. Remote
monitoring and control, fleet management or rural
Electronically Steered Antenna Array gateway deployment can be natively implemented. Mobility
The continuously growing Internet of Fleet Management
and Software Defined Radio (SDR) Low overhead protocols for capacity saving
Things market has created a demand Fishing Boats
modem allows for a small, affordable deployment and minimum processing are also
for new IoT over Satellite equipment Mining Heavy Machinery
enclosure enabled by SatixFy's available.
and services. SatixFy provides a Drone Traffic Control
innovative ASIC SoC.
revolutionary IoT terminal enabling
Privately owned, self-operated
mobility and connectivity at low Fixed
IoT system Satellite Service providers or Private Hub
price per terminal and per megabyte. SatixFy’s IoT Solution Pipeline Monitoring
operators can quickly deploy SatixFy's IoT solution by
Precision Framing & Agriculture
Advantages using their existing assets.
Smart Roadside
Oil & Mining Sites
Ku Band operation On-Board Linux host for user applications
Traditional VSAT: ATM, Petrol
The S-IoT leverages existing Ku GEO or S-IoT terminals use SatixFy’s Sx3099 SoC which Stations
LEO space segment. includes a host processor running Linux. Users can
implement their own functionality on this device,
Smallest Form-Factor enabling support of geo-fencing, bespoke telemetry
SatixFy's S-IoT terminals are the such as alerts, or other edge processing applications.
smallest satellite terminal ever
made for Ku-Band use, comprising
antenna, controller and modem in
one enclosure. This results in increase
mobility, simple installation and
efficient power consumption. Solar or
vehicle powered operation are made
possible.
Technology Made Affordable
The S-IoT's efficient access scheme and
system architecture coupled with self-
install capability, reduce both terminal
(CAPEX) and operating (OPEX) costs.S-IoT Diamond
End-to-End Satellite IoT Technical Specifications
System RF
Antenna.....................................................................................................256 Elements Scanning Aperture
Array.............................................................................................................Interlaced, Shared Tx & Rx
Diamond IoT Terminal Receive.......................................................................................................10.7 to 12.75 GHz
Developed by SatixFy and based on its Transmit.....................................................................................................13.75 to 14.50 GHz
advanced SoC, the Diamond terminal Polarization..............................................................................................Circular or Linear, Selectable
EIRP @ 14GHz, Boresight...............................................................32.0 dbW
is compact, low power, affordable EIRP @ 14GHz, 60 Deg from Boresight...............................28.0 dbW
and easy to install. The terminal uses G/T @ Boresight...................................................................................2.0 dB/°K
electronic antenna array which enables G/T @ 60 Deg from Boresight....................................................-2.0 dB/°K
-3dB Beam width................................................................................+/- 3 Deg
unique IoT/M2M communications, Cross Pol Tx, Rx.....................................................................................20 dB, -20 dB
both in mobile and fixed use cases.
SATELLITE AIR INTERFACE
Terminal modem model................................................................Built-in SatixFy modem based on Sx3000
Shepherd Management System Hub...............................................................................................................SatixFy Shepherd
SatixFy’s management system, Forward Link..........................................................................................DVB-S2X | VLSNR PLS 129.5, SNR -8dB
including hub and integrated NMS, Return Link..............................................................................................Unslotted ALOHA / RCS2 | VLSNR PLS 129.5, SNR -8dB
Duplexing.................................................................................................Time Division Duplex (same panel for Rx and Tx)
provides users a platform to operate
and manage SatixFy’s modem and POWER
Electronically Steered Antenna Power Options......................................................................................External PS 9V-60V
Power Consumption.........................................................................Sleep: 0.5 W | Idle: 25 mW | Rx: 60 mW | Tx: 90 mW
products based on its Software
Defined Radio ASICs. INTERFACES
Communication Interface.............................................................Wired: LAN RJ45, RS232
Optional Interfaces / Ports............................................................Wireless: WiFi, Bluetooth | Internal extension ready for
other interfaces
M&C..............................................................................................................Ethernet
GNSS............................................................................................................GPS, Galileo, GLONASS, BeiDou
Gyro...............................................................................................................On board
Accelerometers....................................................................................On board
Compass....................................................................................................On board
Host Processor......................................................................................Linux
MECHANICAL WITHOUT BATTERIES
Dimensions.............................................................................................30 x 35 x 3 cm / 12 x 13.5 x 1 in
Weight........................................................................................................3 kg / 6.5 lbs
Sealing........................................................................................................IP67
Operation Ambient Temperature...........................................-40 to +55°C
Storage Temperature.......................................................................-50 to +85°C
Cooling.......................................................................................................Conveyance, fan optionalAero Antenna
Aero Terminal SatixFy's state-of-the-art IFC solution
Core Technology for Software
Aero Terminal is based on SatixFy’s Electronically Steered Defined Antenna
SatixFy’s In-Flight-Connectivity
(IFC) solutions bring to the market Multibeam Antenna Array (ESMA) technology comprising in-house Each module of the aero terminal is an ESMA, containing
disruptive satellite communication development of first of its kind digital beamforming ASIC. SatixFy’s family of dedicated System on a Chip (SoC) devices. The
Beamformer ("Prime") is an industry-new true-time delay for
technology and capabilities for various pointing and tracking multiple beams from an array of radiating
aerial platforms, from business jets At any given time, the Aero terminal simultaneously communicates elements. Each element is connected to the RFIC chip (“Beat”)
to narrow and wide body platforms. with multiple GEO/MEO/LEO satellites, providing broadband IFC to which serves as up and down converter LNA and PA per element.
aircrafts. The terminal supports acquisition and tracking capabilities Together, the Prime and Beat are the basis for the ESMA tile.
SatixFy software defined antenna
solutions present the optimal blendof for multiple beams at multiple polarizations.
thin form factor, lightweight, scalable It integrates SatixFy’s next generation SX-3099 modem baseband Antenna module
size, future-proof, multibeamand multi ASIC for a comprehensive terminal solution and supports any
satellite operation. external modem.
SatixFy’s Aero all-in-one terminal is fully electronic, with no moving
parts, to allow fast and simple installation, keep the highest
reliability and insure low maintenance.
Highlights
All-in-one integrated solution including two antenna apertures (receive and transmit),
Antenna Control Unit (ACU), RF and high-speed Modem
Superior technology based on digital ESMA and true-time delay for digital beamforming
High performance, wide band for simultaneous broadband and live TV connectivity
Multiple satellites and constellations connectivity, with instant in-between RFIC
satellite switching (Beat)
Future proof based on Software Defined Radio (SDR), enabling straightforward
integration with available network or broadcast operators
Ku or Ka band, low profile and low weight
Optimized for simple installation, with quick and automatic self-calibration
Beamformer Baseband Modem
(Prime) (SX-3099)Aero Antenna
Technical
Specifications............................ Commercial Aircraft.............. Business Jets
Wide / Narrow Business Jet Embedded in Aero terminal.......................................................................... Rx array, Tx array, RF (HPA, LNA), ACU, Modem..........................Rx array, Tx array, RF (HPA, LNA), ACU, Modem
Terminal Terminal Steering technology............................................................................................ Fully digital, SatixFy’s Beamforming ASIC..................................... Fully digital, SatixFy’s Beamforming ASIC,
................................................................................................................................... True-Time Delay (TTD) based.................................................................. True-Time Delay (TTD) based
Operation Modes.................................................................................................. Single beam / multibeam.......................................................................... Single beam / multibeam
Polarization................................................................................................................ Ku-band: Linear / Circular; Ka-band: Circular............................... Ku-band: Linear / Circular
Polarization control.............................................................................................. Software configurable................................................................................. Software configurable
Based on ESMA with over High data rate solution (tens Integrated ACU....................................................................................................... Yes.............................................................................................................................. Yes
13,000 radiating elements to hundreds of Mbps.) Integrated Modem............................................................................................... Yes, SatixFy’s multichannel SDR........................................................... Yes, SatixFy’s multichannel SDR
providing real broadband Integrated BUC....................................................................................................... Yes, SatixFy RFIC.............................................................................................. Yes, SatixFy RFIC
experience onboard, with up Serves both line-fit and
RECEIVE
to 1 Gbps data rate. retrofit requirements, offering Rx band [GHz].......................................................................................................... Ku-band: 10.7-12.75; Ka-band: 17.7-20.2............................................... Ku-band: 10.7-12.75
a quick and simple installation Data rate - downlink........................................................................................... Up to 1 Gbps........................................................................................................ Up to 100 Mbps
Receive and transmit arrays and calibration. G/T @boresight [dB/K]....................................................................................... Ku-band: 14; Ka-band: 17 Ku-band: 8
that feature dynamic
TRANSMIT
operational size, allowing Straightforward integration
Tx band [GHz]........................................................................................................... Ku-band: 13.75-14.5; Ka-band: 27.5-30 ................................................ Ku-band: 13.75-14.5
for turning on/off antenna with available networks or Data rate - uplink.................................................................................................. Up to 100 Mbps................................................................................................. Up to 15 Mbps
components and/or run in a broadcast operators. EIRP @boresight [dBW]................................................................................... Ku-band: 49; Ka-band: 49.......................................................................... Ku-band: 41
duty cycle operation.Adjusted
by software and based on link Single-beam or multibeam MEASUREMENTS (Antenna arrays, RF, ACU & Modems)
Size.................................................................................................................................. 160 x 87 x 5.5 cm / 63 x 34.3 x 2.2” ........................................................ 90 x 50 x 4 cm / 35x 20x 1.5”
performance. operation can also be
Weight.......................................................................................................................... 58 lbs. / 26 kg...................................................................................................... 20lbs. / 9kg
adjusted for optimal link ARINC 791/792 compliant................................................................................ Yes.............................................................................................................................. No
Optimal and most efficient performance, and with
use of terminal resources multi-polarization support - all MODEM
based on aircraft location software configurable. Architecture.............................................................................................................. Multichannel SDR, SX-3099 ASIC based.......................................... Multichannel SDR, SX-3099 ASIC based
Downlink..................................................................................................................... DVB-S2X................................................................................................................. DVB-S2X
and multiple satellite link
Modem - Uplink..................................................................................................... DVB-S2X / RCS2 / proprietary.................................................................. DVB-S2X / RCS2 / proprietary
requirements. Optimized, tailor-made Antenna connectivity......................................................................................... Direct high-speed / SerDes (digital) /................................................ Direct high-speed / SerDes (digital) /
solution ................................................................................................................................... Optional: L-band for external modem.............................................. Optional: L-band for external modem
Software defined antenna Data rates................................................................................................................... Up to 3 Gbps @ 6 b/Hz................................................................................. Up to 3 Gbps @ 6 b/Hz
that supports multiple “Home like experience” N° of channels......................................................................................................... Up to 8..................................................................................................................... Up to 8
satellite operators with its internet connection on-board
ANTENNA PERFORMANCE
future proof SDR modem. business jets. Satellite acquisition............................................................................................. Fully automated............................................................................................... Fully automated
Scan range - azimuth......................................................................................... Automatically adjusted, 0°-360°........................................................... Automatically adjusted, 0°-360°
Embedded LEO/MEO support, Software defined antenna Scan range - elevation....................................................................................... Automatically adjusted, ±10°-90°.......................................................... Automatically adjusted, ±10°-90°
software configurable, that supports multiple Beam / satellite switching time................................................................... < 10 mSec.............................................................................................................. < 10 mSec
allowing the flexibility to satellite operators with its Scanning speed..................................................................................................... > 45°/sec................................................................................................................. > 45°/sec
migrate to new constellations. future proof SDR modem. Pointing error...........................................................................................................Payloads Next Generation LEO Payload Mars CubeSat
Next Generation LEO Payload
Fully Digital LEO Key Features Technical Specifications
Payload Support of DVB-S2X Standard
Beam Hopping
16 beams of 500MHz each
Beam Hopping, On-Board-Processing (including DTP), Digital Beam Forming
VLSNR 2500 elements Tx, 2025 elements Rx
The Satellite industry is going through a
Decoupling of gateway, user and intersatellite links EIRP >57.5dBW @ Boresight
digital revolution.With the introduction
Optimization of each link G/T> 10dB/K @ Boresight
of LEO and MEO constellations as well as
Considerable saving on ground infrastructure 8GHz of On-Board-Processing capacity (forward and return)
VHTS GEO systems, a full digital payload
Onboard packet switching- optimized queueing Tx frequency range: 17.8-20.2GHz
architecture is becoming a must. A
Rx frequency range: 27.5-30.0GHz
silicon-based solution enables a long Digital beam forming Scanning range: ±45°
term economically viable model that Basic configuration of 16x500MHz simultaneous beams Tapering meeting Recommendation ITU-R S.1528 section 1.3
supports ongoing cost per bit reduction. Very low power consumption Total payload power consumption:Mars CubeSat
OBP/OBC Mars CubeSat can act as both a
powerful on-board-computer and
AI tasks. The Mars CubeSat module is
suitable for applications such as Earth
High throughput
CubeSat Module a very high capacity transmission
of massive data produced by
Observation and remote sensing,
telemetry collection, GNSS mission
Mars CubeSat includes built-in
hardware accelerators for high bit-rate
Earth Observation remote sensing and particularly useful for space operation and is capable of Receive/
CubeSat platform equipment, to enable fast decision applications requiring processing Transmit at 4Gbps simultaneously,
making. The Mars CubeSat is equipped before data downlink. The Mars with an ultra-fast acquisition engine
Mars is a CubeSat and SmallSat with a Quad-core ARM processor CubeSat module fulfills the satellite supporting the Doppler tracking for
communications On-Board-Computer and two powerful DSPs providing OBC mission tasks and supports a LEO/MEO mission.
solution featuring a low SWAP data edge computing power to perform two-way communication link used for
processing CPU and high speed data onboard image processing, video payload Data or TT&C.
transfer SDR platform. compression, signal processing, and
Ground Control Modem
The Mars CubeSat is powered by
SatixFy’s Sx3099 SDR ASIC and The ground control modem is a high
provides massive CPU processing data rate DVB-S2X SDR VSAT modem
and flexible SDR two-way modem (4Gbps) controlling the On-Board
communication (4Gbps in each Mars CubeSat module. The modem
direction which can be scaled up in can support any other TT&C waveform
throughput, DSP or CPU) platform protocol using SDR. It controls and
enabling any CubeSat manufacturer monitors all elements composing the
to integrate it in a PC104 10cm x 10cm end to end communication system.
form factor. Developers can augment
the smallsat’s functionality by
integrating their software applications Highlights
ported on the SDR ASIC, using the
Sx3099 Software Development kit. Data rates up to 4Gbps
The module interfaces seamlessly to DVB-S2 & DVB-S2X waveforms and CCSDS over
the antenna module digitally via the S2Xprotocol
SerDes interface or L-band interface. VL-SNR and Beam-hopping support
Direct L-band support
H.265/HVAC image & video compression
Interfaces: UART, CAN, I2C & SPI, Gigabit Ethernet,
JESD204BMars CubeSat
Applications Technical Specifications
Modem Technology..........................................................Multichannel SDR-HW Hybrid
On-Board-Controller enabling IoT edge/cloud computing by host application updgrade Transmit channel
Pre-distortion Standard........................................................................................ EN 302 307-1/2 DVB-S2/X-ACM, CCSDS ACM
Number of channels............................................................. up to 8
Low-power mode, low SWaP Symbol-rate................................................................................. 128 Ksps – 1Gsps
Redundancy (dual flash boot) Bit rate............................................................................................ 9.2 Kbps – 4Gbps
Modulation & Coding............................................................ Normal Frame (64800 bits): QPSK 13/45, 9/20, 11/20, 1/4, 1/3, 2/5, 1/2, 3/5, 2/3, 3/4, 4/5, 5/6,
Radiation tolerant (automotive parts) ..................................................................................................... 8/9, 9/10 QPSK 2/9 (VLSNR) | 8PSK 23/36, 25/36, 13/18, 8PSK 3/5, 2/3, 3/4, 5/6, 8/9, 9/10
-20 to +70° C operation ..................................................................................................... | 8APSK-L 5/9, 26/45 | 16APSK 26/45, 3/5, 28/45, 23/36, 25/36, 13/18, 7/9,77/90 |
..................................................................................................... 16APSK-L 5/9, 8/15, 1/2, 3/5, 2/3, 3/4, 4/5, 5/6, 8/9, 9/10 | 32APSK 32/45, 11/15, 7/9, 3/4, 4/5,
On-Board-Controller smallsat and Cubesat missions ..................................................................................................... 5/6, 8/9, 9/10 | 32APSK-L 2/3 | 64APSK 11/15, 7/9, 4/5, 5/6 | 64APSK-L 32/45 | 128APSK
Navigation and control ..................................................................................................... 3/4, 7/9 | 256APSK 32/45, 3/4 | 256APSK-L 29/45, 2/3, 31/45, 11/15 Short Frame (16200
..................................................................................................... bits): BPSK 1/5, 4/15, 1/3 (VLSNR) | BPSK-S 1/5, 11/45 (VLSNR) | QPSK 11/45, 4/15, 14/45,
Software Defined Radio payload TT&C ..................................................................................................... 7/15, 8/15, 32/45 | 8PSK 7/15, 8/15, 26/45, 32/45 | 16APSK 7/15, 8/15, 26/45, 3/5, 32/45 |
..................................................................................................... 32APSK 2/3, 32/45 Medium Frame: BPSK 1/5, 11/45 (VLSNR)
On-Board signal processing and Artificial Intelligence applications
Roll off............................................................................................. 5%, 10%, 15%, 20%, 25%, 30%, 35%
Unmanned UAV
Receive channel
GNSS, Earth Observation, SIGINT, M2M missions Standard........................................................................................ EN 302 307-1/2 DVB-S2/X, CCSDS
Number of channels............................................................. up to 8
Symbol rate................................................................................. 128 Ksps – 1Gsps
Bit rate............................................................................................ 9.2 Kbps – 4Gbps
Modulation & Coding............................................................ Identical to the Transmit spec
SatixCube Roll off............................................................................................. 5% 10%, 15%, 20%, 25%, 30%, 35%
FEC frames.................................................................................. 64800; 16200 bits
Bus Power SNR threshold........................................................................... -10dB
Doppler shift............................................................................... Built in Doppler Compensation
ANT PWR FET DC/DC DC/DC DC/DC
Mission Edge Computer.................................................Onboard Computer (OBC)
Main Processor (OBC).......................................................... Quad-core ARM Cortex-A53 @ 1 GHz
DSPs................................................................................................. 2x CEVA-XC323 DSP @ 1 GHz
TCXO CLOCK GEN LPDDR4 FLASH Image & video compression............................................ H.264/H.265 (HEVC) in SW
Interfaces
PC/104
DRAM I/F QSPI I/F Satellite bus................................................................................. PC/104 (DC, I2C, SPI, UART, CAN, GPIOs)
Antenna Interface REF_CLK UART UART Module Interface Digital RF...................................................................................... JESD 204B 1GHz BW
TX IF PA DAC SPI SPI
RF (Rx)............................................................................................. 950-1500 MHz (L-band), SMA, 50Ω | S, X, Ku and Ka-band (with external up/down
..................................................................................................... frequency conversion & amp’)
I2C I2C
RF (Tx).............................................................................................. 950-1500 MHz (L-band), SMA, 50Ω | S, X, Ku and Ka-band (with external up/down
|-204B-|
|-204B-|
|-204B-|
SERDES PRIME SX-3099 GPIO PLSY NC ..................................................................................................... frequency conversion & amp’)
AGC GPIO 1PPS TT&C.................................................................................................. Monitor and configuration of the satellite modem over the T&C uplink built-in web server
RX IF LN A ADC RST PIO
Environmental and Mechanical
GbE GbE Radiation Tolerance ............................................................. High-reliability silicon process (22DFX) | Automotive components | Radiation
GbE UART
DC ..................................................................................................... absorbent | Flash Redundancy and Software error management
PHY
Input Voltage............................................................................. +12 VDC ±10%
DC
Power consumption.............................................................Systems & Hubs Shepherd Hub
Shepherd Hub
Shepherd MCPC as they expand. Stand-alone SCPC
terminals can be upgraded and added to
Technical Specifications
System a network which shares efficiently satellite
resources. High bandwidth 500 MHz
FORWARD LINK
Waveform.............................................................................................................DVBS2, DVBS2X (incl. VLSNR)
Symbol Rate........................................................................................................Max: 500Msps | Min: 1Msps
forward channel can fill even the most Data Rate..............................................................................................................1 Gbps
SatixFy’s managed MCPC system Encapsulation....................................................................................................GSE
demanding transponders with a single
provides users a platform to operate Adaptation...........................................................................................................ACM
carrier and ensure a growth strategy for
and manage the advanced modem and
any network. Fully standard DVB-S2X bi- RETURN LINK
Electronically Steered Antenna products, Waveform.............................................................................................................DVBS2, DVBS2X (incl. VLSNR)
directional waveform provides efficient
based on SatixFy’s Software Defined Symbol Rate (per channel/terminal).................................................Max: 50Msps | Min: 1Msps
and robust modulations coupled with Data Rate (per channel/terminal)........................................................200 Mbps
Radio ASICs. The system is designed
ACM technology. Satellite resources Encapsulation....................................................................................................RLE
with a cloud-ready architecture in mind. Adaptation...........................................................................................................ACM
are allocated on demand according to
It utilizes a friendly and modern, easy to Access Scheme.................................................................................................Continuous channel, allocated on demand
customer operational needs and Channel Allocation Triggers....................................................................IP address, TCP/UDP port, Scheduled
use management for both equipment
traffic requirements.
and satellite resources. Customers can HUB STRUCTURE
start with a small network and grow Modulator.............................................................................................................Application specific hardware, 19” rack mounted
Highlights De-modulator....................................................................................................Application specific hardware, 19" rack mounted
Pay as you grow infrastructure Packet Processors...........................................................................................Intel based servers
Shared DVB-S2X 500 MHz forward carrier HUB INTERFACES
On Demand DVB-S2X 50 MHz return channels Network Side......................................................................................................10Gbps Ethernet
VLSNR to 256 APSK RF Side....................................................................................................................L-Band interface
Efficient space segment resource management NETWORKING
Network management and control Networking Model..........................................................................................IPv4 Routing
Operates with SatixFy modems and electronically Routing Protocol.............................................................................................Static, RIP, OSPF, BGP
steered antenna products
REMOTE TERMINAL NETWORKING FUNCTIONS
Cloud-ready distributed architecture Router.....................................................................................................................IPv4 router, supporting static routing, RIP and OSPF
Home Gateway.................................................................................................NAT, DHCP, DNS
APPLICATIONS
SCALABILITY
Cellular backhaul Number of Terminals....................................................................................16,000
Aero Number of Return Link Channels.......................................................1000
IP Trunking (continuous channels)
Maritime MANAGEMENT
Oil & Gas Integrated NMS................................................................................................Configuration, control and monitoring
Government Northbound Interface..................................................................................REST, SNMP
GEO, nGSO readywww.satixfy.com
info@satixfy.com
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