SatixFy Introducing Wideband 500 MHz DVB-S2X SDR
Modem with Record 2.4 Gbps Throughput
SatixFy is introducing its first Wideband 500 MHz
DVB-S2X Software Defined Radio (SDR) modem. SatixFy
is demonstrating operation of its modem based on its
SX-3000 chip at Satellite 2018. The product sets a
record in terms of throughput, demonstrating 2.4
Gbps in 64 APSK with no time slicing or 256 APSK
with 30% time slicing. The new Wideband SDR modem is
the only one in the market today supporting Beam
Hopping and VLSNR.
The new modem's single carrier and Beam Hopping
architecture enables substantially higher throughput
from wideband (500 MHz) satellite transponders to
enable superior connectivity. With SatixFy's modem,
through single 500 MHz carrier and Beam Hopping
capability, satellite operators and service
providers will be able to get significantly higher
throughput for applications requiring it, such as
trunking, enterprise, and backhauling. A 1U rack
mount Enterprise model is available today and a
Consumer Unit will be available in Q4 2018.
“SatixFy is pleased to introduce our first Wideband
modem and demonstrate the unbeatable performance of
our SX-3000 chip in terms of QEF performance with a
fraction of dB from DVB-S2X guidelines with over 2
Gbps throughput per 500 MHz transponder. Our team is
first in reaching industry leading benchmarks that
until now were out of the industry's grasps. This
modem demonstrates our advantages over our
competition. It is the only one in the market that
supports Beam Hopping and VLSNR, and is the only SoC
that supports the demodulator, modulator, dual core
host CPU and 3 DSPs, with periphery of three 1 GB
Ethernet ports, UART and many peripheral
interfaces," said Yoel Gat, SatixFy CEO.
The Wideband SDR modem demonstration using the
R&S®SMW200A vector signal generator from Rohde &
Schwarz shows no errors at -2 dB SNR with DVB-S2
QPSK rate ¼. The R&S®SMW200A single-instrument
solution simplifies the testing of components, modem
devices and satellite payloads. The vector signal
generator supports DVB-S2/DVB-S2X and the latest
satellite standard of a mega constellation. It is
the first fully calibrated wideband solution with an
RF modulation bandwidth of 2 GHz on the market and
generates signals across all frequencies and
satellite bands up to 40 GHz in the Ka-band.
Another demonstration is based on TeamCast TYGER, a
wideband, DVB-S2/S2X compliant modulator offering
high rates (up to 480 Mbaud, i.e. up to 2 Gbps),
Time Slicing (Annex M), CID management and GSE IP
encapsulation for maximizing, payload, operational
flexibility, and return on investment. For IP
transport, the use of the GSE adaptation algorithm
insures lower overhead and maximized capacity and
spectrum efficiency. By meeting the requirements of
the DVB “Annex M”, TYGER enables the mixing of
services (broadcast and broadband) over the same
satellite carrier. Specifically, it supports
Time-Slicing, a process to split a wideband signal -
up to 2 Gbps - into a number of independent low
rates services, to keep the receiver IC complexity
and price low, which is a mandatory requirement for
a mass market adoption.
“We are pleased to be able to show how simple and
powerful an end-to-end wideband transmission can be
using state–of-the-art DVB-S2X features of the
satellite technology, including Time-Slicing (Annex
M),” said Christophe Trolet, Head of the Satellite
Business Unit at TeamCast.
