Rohde-Schwarz SFU Datasheet
Test Equipment Solutions Datasheet
Test Equipment Solutions Ltd specialise in the second user sale, rental and distribution of
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Product brochure
Version
02.00
Broadcast Test System ¸SFU
The all-in-one solution for broadcast and mobile TV
Main functions at a glance
◆ TV multistandard platform
◆ Realtime TV signal generation for digital and analog transmission standards
◆ Available as a production solution (non-realtime)
◆ Wide output frequency range from 100 kHz to 3 GHz
◆ Internal digital and analog interferer simulation
◆ Realtime transmission simulations
◆ Bit error ratio (BER) measurement
◆ TS baseband generator
◆ TRP and ETI player, recorder
◆ I/Q arbitrary waveform generator
September
2006
Introduction
The Broadcast Test System ¸SFU
has been designed as a platform for different applications and for future options. It provides a number of instruments and applications in a cabinet of
only four height units and offers unrivaled RF and baseband characteristics.
Due to its modular design, the ¸SFU
can be optimally adapted to the requirements of different applications. It is an
ideal research and development tool
for making improvements to introduced
standards and for generating new standard signals. Applications that previously
required many different instruments are
now fully covered by the ¸SFU.
General characteristics
◆ DTV multistandard platform
◆ ATV signal generation
◆ Output frequency from 100 kHz to
3 GHz
◆ Generation of internal interferers
◆ Fully digital baseband signal processing
◆ Upgradeability to multifunctional
broadcast test system
◆ Easy installation of most options at
customer site
Intuitive, fast and easy operation
◆ Color display with 1024 × 768 pixels
(XVGA format, 8.4”)
◆ Intuitive user interface with
Windows XP Embedded
The modern, intuitive concept of the
R&S®SFU ensures fast and easy operation.
You can easily switch operating parameters (e.g. roll-off, puncturing rate, QAM
mode) and select operating parameters whose values exceed those defined
in the standard for lab applications. For
special tasks such as in DVB-T/H, modulation, individual carriers and carrier groups can be deactivated. Sweeps
across the entire RF range are possible.
Front view of the ¸SFU
Broadcast Test System ¸SFU
◆ Context-sensitive help system
◆ User-definable favorites for fast
­access
◆ Easy software update by means of
USB and Windows
Outstanding signal quality
◆ I/Q modulator with 180 MHz RF bandwidth
◆ Very low SSB phase noise of typ. ­
–135 dBc at 1 GHz (20 kHz carrier offset, 1 Hz measurement bandwidth)
◆ High optional output power of up to
+19 dBm (PEP), overrange +26 dBm
◆ High-stability reference oscillator as
standard
Unrivaled flexibility for research and
development
◆ Expandable multistandard platform
◆ Universal coder for realtime signal
generation
◆ Transmission simulations
◆ TS baseband generator
◆ TRP and ETI player, recorder
◆ Arbitrary waveform generator
with 128 Msample, supported by
­¸WinIQSIM™ software
◆ Variety of signal libraries with waveforms and transport streams
◆ Up to two internal hard disks for storing waveforms and streams
◆ Integrated power measurement with
external power sensors
◆ Minimum space requirements:
TS generator and test transmitter are
accommodated in one instrument of
only four height units
◆ Favorably priced and future-proof
non-realtime production solution,
­since it can be upgraded with software at any time
◆ Fast, flexible software option solutions for new requirements
Easy remote access
◆ Remote control via GPIB and LAN
(VXI 11)
◆ User-friendly remote operation by
VNC or Remote Desktop
◆ USB connectors for keyboard, mouse
and USB memory stick
Ideal for use in production
◆ Wear-free electronic attenuator of up
to 3 GHz over the full level range
Broadcast Test System ¸SFU
One-box solution
Test transmitter
RF signals for a variety of transmission standards
can be transmitted over a wide, ­user-­variable frequency range by the integrated test transmitter. It
is easily possible to switch over between the different standards for terrestrial, satellite or cable transmission. The software is reloaded to provide the
multistandard test transmitter functionality, and a
highly accurate spectrum is generated.
Bit error ratio meter
The integrated BER meter makes it possible to measure and evaluate errors on the transmission link.
A BER value can be determined on the transport
stream in parallel or serially as well as via the serial
data and clock circuits.
Channel simulator
Integrated transmission simulators for AWGN,
phase noise, impulsive noise and fading are available for simulating real and, above all, reproducible
environmental conditions in the lab.
Transport stream signal source
Video and audio applications require baseband
signals. A variety of such signals are available as
transport stream signal sources.
◆ Rohde & Schwarz libraries with ready-to-use special signals for tests and development can be replayed with the transport stream generator.
◆ Customer files can be easily loaded and replayed
with the transport stream player.
◆ The internal transport stream recorder supports
recording of customer transport streams from
any sources.
Broadcast Test System ¸SFU
I/Q signal generator
Customer I/Q waveforms or Rohde & Schwarz waveform libraries for different transmission standards
can be replayed with the arbitrary waveform generator.
Power measurement
High-precision power measurements with ­power
sensors from Rohde & Schwarz can be performed
and displayed on the R&S®SFU's large screen.
High output power
High output levels and signal amplifiers are usually
required in production. The R&S®SFU provides this
high output power with its high power option.
I/Q interface
The digital I/Q interface provides the high-quality
I/Q signals that are required in development as
­input and output signals. The instrument also features an analog I/Q interface and an I/Q wideband
input that allows I/Q signals to be fed directly to the
modulator.
Broadcast Test System ¸SFU
Coders
All coders are software-based; you can
activate them immediately by means of
an enabling code (see right). It is thus
not ­necessary to open the instrument.
Cable standards
DVB-C
The DVB-C coder supports all QAM modulations defined in the EN 300429 standard. The powerful coder hardware is
­also able to cover high-order QAM modulations that have not yet been standardized.
J.83/B
J.83/B is an American cable transmission standard. The coder also supports the standard enhancement with
1024QAM.
020260775421451
PAL B/G
DIRECTV
DIRECTV (and DIRECTV legacy mode) is a
proprietary standard with conditional access that is widely used in America and
primarily in the United States. For transmission, a proprietary transport stream
protocol with 130-byte packets is generated. After conversion to 188 bytes,
­DIRECTV transport streams can be replayed with the ¸SFU-K22 TRP ­player
option.
Terrestrial standards
DVB-T
DVB-T permits high-quality transmission
of digital broadcast signals. Its success
will continue with the conversion from
analog to digital TV.
T-DMB
Satellite standards
DVB-S, DVB-S/DSNG
DVB-S (EN 300421/EN 301210) was introduced in 1994 as a satellite transmission standard. DVB-S uses QPSK modulation. Since its introduction, DVB-S has
established itself as the world's most
widely used satellite transmission standard. DVB-S/DSNG also uses 8PSK and
16QAM.
DVB-S2
DVB-S2 is an innovative and efficient
channel coding method that is used in
combination with high-order modulation modes. The method is very robust,
offers safe reception and provides up
to 30 % higher data transmission rates
than DVB-S. The ¸SFU supports the
broadcast service mode for non-backwards-compatible broadcast services.
Broadcast Test System ¸SFU
ISDB-T
ISDB-T is a Japanese digital standard
for terrestrial transmission of video, audio and data signals by means of 13 segments. ISDB-T with partial reception is
for mobile operation.
DMB-T
Developed in China, DMB-T offers highquality digital TV with excellent characteristics for mobile and portable reception.
8VSB/ATSC
8VSB is a terrestrial DTV standard from
the USA with vestigial sideband modulation. At a bandwidth of 6 MHz, a sideband is suppressed in the spectrum.
DAB
Based on a COFDM
transmission method,
DAB was developed for digital and highquality audio transmission to mobile
­receivers.
ATV
Analog standards such as PAL, NTSC
and SECAM with B/G, D/K, M/N, L and I
transmission systems are also available.
The baseband signal is already integrated, eliminating the need for an additional signal generator.
Video goes mobile
DVB-C
The following standards are terrestrial
transmission methods for broadcast applications with mobile receivers such as
mobile phones and PDAs.
DVB-H
The DVB-T/H coder provides the following functions: the newly introduced 4k
mode, use of the TPS carriers for time
slicing signaling, the additional 5 MHz
channel bandwidth and corresponding
native and in-depth symbol interleavers as well as MPE forward error correction (FEC). Hierarchical coding is also possible.
8VSB
J.83/B
T-DMB/DAB
T-DMB was developed in Korea and is
based on the digital audio broadcasting
(DAB) standard known in Europe, which
was also developed for mobile reception with radios. The T-DMB/DAB coder in the ¸SFU supports both the
­Korean and the European transmission
standards.
ISDB-T (partial reception)
With mobile ISDB-T in accordance with
ARIB 1.5, only one of altogether 13 available segments is used for transmission.
The remaining 12 segments can transmit
TV programs for stationary reception.
MediaFLO™
MediaFLO™ was developed and standardized by the American company
­QUALCOMM. The baseband signal in this
proprietary standard is based on a transport stream with 188 bytes. MediaFLO™
is currently used in a nationwide network in the USA. QPSK and 16QAM methods are used as OFDM modulation at a
bandwidth of 5.5 MHz. The data rates
transmitted to the mobile receiver range
­between 50 kbit/s and 1 Mbit/s.
DMB-TH
DMB-TH is the Chinese DMB-T, which in
a modified version is also used for handheld reception. DMB-TH has evolved
from DMB-T.
ISDB-T
DVB-S2
DVB-T/H
Testing mobile broadcast applications with the ¸SFU and the ¸CMU200
Broadcast Test System ¸SFU
TS generator (¸SFU-K20)
A transport stream generator in the
baseband internally provides test
streams for the realtime coder. For external equipment, the test streams are
made available at an ASI output. An external MPEG-2 generator is therefore no
longer necessary. Furthermore, the number of instruments needed for testing
set-top boxes is reduced and the costs
are minimized.
The transport stream generator allows
you to generate endless and seamless
high-bit-rate MPEG-2 transport streams
for the broadcast range. The SDTV transport stream library included as standard
contains ATSC and DVB test streams.
The numerous transport streams from
Rohde & Schwarz cover a wide range of
applications and test scenarios.
¸SFU transport stream generator
Transport stream libraries
A large number of additional libraries
can be integrated. They make development faster and easier and allow new
products to be tested.
◆
◆
◆
◆
SDTV – test streams for DVB and ATSC
HDTV – tests of HDTV receivers
DVB-H – tests of mobile receivers
ISDB-T – test streams
◆ H.264 – test streams
◆ TCM – STB tests
Further libraries will soon be available.
Example from the
DVB-H transport stream library
Broadcast Test System ¸SFU
Stream generation tools
Stream generation tools provide full
flexibility when generating your own
streams, which can be used with
the ¸SFU-K20 TS generator. The
R&S®DV-ASC advanced stream combiner
allows you to generate your own transport streams, also for DVB-H.
TS recorder (¸SFU-K21)
To enable R&S®SFU-K21, you require the
­Additional Hard Disk R&S®SFU-B6, Memory ­Extension 2 R&S®SFU-B4 and TRP
Player R&S®SFU-K22.
In addition, this TRP player is used to replay T-DMB and DAB ETI streams. For
this purpose, the TRP player can replay
predefined ETI test streams for T-DMB
and DAB from an optional T-DMB/DAB
library (¸SFU-K221).
TRP player (¸SFU-K22)
The TRP player lets you replay your own
transport streams in TRP format. The
transport streams can be copied via the
USB or LAN interface to the ¸SFU
file system and be replayed from there.
To enable the ¸SFU-K22 TRP player option, the Additional Hard Disk
¸SFU-B6 and Memory Extension 2
¸SFU-B4 are required.
A transport stream recorder and player as an expansion of the data source is
available for the ¸SFU. It allows you
to record any externally applied transport streams and ETI data streams at
­data rates between 100 kbit/s and up to
90 Mbit/s.
The available recording formats are TRP
with eight bits (8-bit data) and T10 (10-bit
data, 1-bit data valid, 1-bit packet sync)
and ETI. With the 8-bit and T10 formats,
the parallel SPI (LVDS) interface is used.
The ¸SFU-B11 ETI interface (optional) is required for the ETI format.
The amount of data that can be recorded
is limited only by the size of the hard disk.
The recorded transport streams can be
transferred to other storage media via the
USB or LAN interface. Using the TS recorder, the streams can be replayed endlessly and seamlessly with packet-exact
cutting at the end-of-file/start-of-file transition.
¸DV-ASC advanced stream combiner
Coaxial cable
Multiplexer
¸SFU with set-top box
Recording of an external transport stream with the ¸SFU recorder function
Broadcast Test System ¸SFU
Arbitrary waveform generator
Simulation tools
Technical details
The integrated arbitrary waveform (ARB)
generator of the R&S®SFU opens up a
wide range of additional applications,
such as simulating occupied adjacent
channels, adding interferers to the useful signal and generating user-defined
RF signals (e.g. notched noise).
The R&S®SFU allows full use of
R&S®WinIQSIM™ simulation software. All waveforms generated with
R&S®WinIQSIM™ can be loaded into the ARB generator of the ¸SFU.
Other software tools that utilize
R&S®WinIQSIM™ can also be used.
As an I/Q modulation source, the ARB
generator features the following:
◆ 128 Msample memory for I and Q
◆ Up to 100 Msample/s
It is thus possible to generate any externally computed complex modulation
­signals. A hardware resampler and a low
oversampling rate significantly reduce
the memory space needed to store I/Q
waveforms on the hard disk. This allows
you to store a large number of I/Q waveforms directly on the hard disk.
Externally generated I/Q waveform files
can also be loaded into the instrument
and read out via one of the computer
­interfaces such as USB or LAN, or via the
IEC/IEEE bus.
Together with the ¸SFU-K81 option,
which switches off the realtime coder
function, the ARB generator can also be
used for easy, cost-efficient production
solutions. If a wider scope of functions is
required, the realtime coders ­integrated
in the ¸SFU can subsequently be enabled by means of keycode options (see
figure at right).
Waveform libraries
Additional waveform libraries allow
quick evaluation of new modulations. I/Q
waveform libraries are available for the
following signals:
◆
◆
◆
◆
T-DMB/DAB (R&S®SFU-K351)
DVB-T/H (R&S®SFU-K352)
DRM (¸SFU-K353)
Digital/MBRAI interferers
(¸SFU-K354)
Further waveform libraries will soon be
available.
10
Broadcast Test System ¸SFU
Selection of T-DMB waveforms in the ARB generator
Production solution
non-realtime
low-cost
Realtime solution
high-end
¸SFU-K81
Software
options
Hardware
options
Hardware
options
¸SFU
¸SFU-K82
Expansion of a low-cost production solution into a high-end solution
Software
options
BER measurement
Backplane
Data
The BER measurement, which operates
independently of other applications, is
used to check channel conditions. The
integrated BER tester allows you to evaluate a signal demodulated and decoded
by the DUT by means of the BER measurement. Two general methods are
available for this purpose.
A measurement with a pure pseudorandom binary sequence (PRBS) can
check the demodulation section of the
­receiver. A known PRBS-modulated data
sequence is sent to the DUT, which decodes the signal and feeds the ­decoded
data and the associated clock back to
the ¸SFU. If the error ratio of the
decoding branch must also be measured, the MPEG-2 TS can be returned.
In this case, the test signal comprises
an MPEG-2 TS that contains a PRBS as
payload. If path measurements on a live
MPEG-2 signal are to be performed, the
null packets must contain a PRBS payload. The BER tester of the ¸SFU
synchronizes to the returned, known
PRBS and counts the bit errors. The quotient obtained by dividing the number of
­error bits by the total number of bits is
the BER.
¸SFU
Clock
Enable
DUT
RF Out
¸SFU
TS ASI In/SPI In
RF Out
DUT
Block diagram of BER measurement
Power measurement
Power measurement with the ¸SFU and ¸NRP-Z11
To allow you to determine the input
power directly on the DUT, the ¸SFU
provides a power measurement function.
Software is available for controlling and
evaluating the measurement.
Available ¸NRP power sensors:
◆ Average power sensors
¸NRP-Z11
¸NRP-Z21
¸NRP-Z24
¸NRP-Z33
◆ Thermal power sensors
¸NRP-Z51
¸NRP-Z55
Broadcast Test System ¸SFU
11
-40
Signal quality
SSB phase noise / dBc (1 Hz meas. bandwidth)
-40
-60
-70
-80
-90
-100
-110
-120
-130
2.1 GHz
850 MHz
100 MHz
I/Q
-140
-150
-50
SSB phase noise / dBc (1 Hz meas. bandwidth)
High signal quality and digital signal processing in the baseband make for accurate and reproducible measurements.
A new type of digital level control ensures high precision. The overall level
accuracy is less than 0.5 dB. The phase
noise of the ¸SFU synthesizer is
­typically less than –135 dBc/Hz (1 GHz,
20 kHz offset) with minimal modulation
errors in the near-carrier range.
-50
-160
-60
-170
1.0E+00
-70
1.0E+01
1.0E+02
1.0E+03
1.0E+04
-80
1.0E+05
1.0E+06
1.0E+07
Offset frequency / Hz
-90
-100
-110
-120
-130
2.1 GHz
850 MHz
100 MHz
CW
-140
-150
Modulation impairments
-160
-170
1.0E+00
1.0E+01
1.0E+02
1.0E+03
1.0E+04
1.0E+05
1.0E+06
Offset frequency / Hz
You can easily switch operating parameters (e.g. roll-off, puncturing rate, QAM
mode) and select operating parameters
whose values exceed those defined in
the standard for lab applications. Nonideal behavior of the I/Q modulator can
be simulated by selectively changing
amplitude, phase and carrier leakage before the signal enters the I/Q modulator.
AWGN generator
(¸SFU-K40)
The AWGN generator can be used if the
R&S®SFU-K40 software option has been
enabled.
Useful signal with AWGN
Broadcast Test System ¸SFU
Typical phase noise
characteristic
User interface for setting
modulator impairments
The digital additive white Gaussian noise
(AWGN) generator is used as a source
for generating a pure noise signal modulated onto the carrier and for influencing
the actual useful signal. Realistic noise
can be simulated in the transmission
path – via satellite, cable or ­antenna
– by generating a 96 MHz broadband
­AWGN signal with a Gaussian amplitude
distribution in the digital baseband.
12
1.0E+07
Phase noise (¸SFU-K41)
The phase noise of the ¸SFU
synthesizer is typically less than
–135 dBc/Hz (1 GHz, 20 kHz offset). The
¸SFU is therefore ideal for simulating phase noise. The option allows you
to simulate phase noise in oscillators and
phase lock loops. In the setting range from
­–10 dBc/Hz to –110 dBc/Hz, the wanted
phase noise can be loaded as a profile. User-defined profiles can be generated with
conventional simulation programs such as
­MATLAB®, ported as a file to the ¸SFU
by means of a USB stick and stored on
the hard disk. The phase noise functionality can be used if the ¸SFU-K41 software option has been enabled.
Impulsive noise
(¸SFU-K42)
Impulsive noise permits the pulsed addition of an AWGN signal to the useful signal with a settable number of pulses. Implementation is in line with DTG, Dbook
and A/74 with a maximum bandwidth of
96 MHz. In addition, the statistical distribution of the pulse intervals can be selected. The pulse generator required for
the pulses is integrated in the ¸SFU.
An additional external signal generator
and the associated cabling are thus no
longer necessary. The pulse spacing limits, the number of pulses and the burst
duration can be configured very easily.
The impulsive noise functionality can be
used if the ¸SFU-K42 software option
has been enabled.
Phase noise simulation and phase noise with 8PSK
Multinoise use
(¸SFU-K43)
The multinoise use functionality can be
used if the ¸SFU-K43 software option
has been enabled. It permits the simultaneous use of multiple noise sources in the
form of an additive noise signal which, in
turn, can be added to the useful signal.
Impulsive noise with DVB-T
Broadcast Test System ¸SFU
13
Fading simulator
(¸SFU-B30/¸SFU-B31)
The channel simulator (fading simulator)
of the ¸SFU is ideal for realtime simulation of multipath and mobile reception. The basic version (¸SFU-B30)
provides up to 20 paths; with the full
version (¸SFU-B31), up to 40 paths
are available.
Profiles
The fading simulator supports profiles in
accordance with DVB and ATTC. Several
fading profiles per path can be selected
and simulated. You may choose from the
following profiles:
◆
◆
◆
◆
◆
◆
◆
◆
QPSK with Rayleigh profile
Pure Doppler
Rice
Rayleigh
Constant phase
Static phase
Lognormal
Suzuki
Gaussian
Dynamic fading profiles can be used
with the ¸SFU-K30 enhanced fading option.
16QAM with Rice profile
You can vary all fading parameters such
as attenuation, phase, delay and Doppler, speed and direction.
DAB with Gaussian fading
The Gaussian fading (¸SFU-K32)
used for DAB and for the Korean T-DMB
mobile standard is included in the realtime T-DMB/DAB coder (¸SFU-K11)
and in the T-DMB/DAB waveforms option (¸SFU-K351), respectively, and
permits the corresponding channel
simulations.
14
Broadcast Test System ¸SFU
Fading table of the ¸SFU with a selection of fading profiles
Enhanced fading
(¸SFU-K30)
The moving propagation and birth-death
dynamic fading configurations can be
used to increase the resolution of the
fading path delay to simulate ­dynamic
propagation conditions as well as fine
delay configurations. These configurations are provided by the enhanced fading option.
Dynamic fading with moving propagation
The enhanced fading functionality can be
used if the R&S®SFU-K30 software option
has been enabled. It requires an installed
R&S®SFU-B30 option (or R&S®SFU-B30
and R&S®SFU-B31).
P1
–5 –4 –3 –2 –1 0
P2
1
2
3
Dynamic fading with birth-death
P1
4
5
P1
–5 –4 –3 –2 –1 0
P2
1
2
3
P2
4
5
P1
-5 -4 -3 -2 -1 0
P2
1
2
3
4
5
Diversity simulation
When testing diversity receivers, a separate RF receive signal must be provided
for each antenna of the receiver. The receive signals must have the same baseband signal and the RF signal must be
coupled. The noise and fading signals,
however, must show no correlation; this
is only possible with one ¸SFU per
antenna.
¸SFU 1
Coder
Fading
Modulator
Digital
I/Q OUT
DUT
The RF signals of the two ¸SFUs are
coupled as master/slave by means of the
reference frequency.
The digital I/Q baseband signals are interconnected quickly, reliably and without loss of quality via the extended I/Q
interface between the ¸SFUs.
The functions of the digital I/Q interface can be used after the ¸SFU-K80
software option has been activated.
¸SFU 2
Digital
I/Q IN
Fading
Modulator
Setup for testing diversity receivers
.
Broadcast Test System ¸SFU
15
Interferers
Interferers can be added to the useful ­signals at different points along
the transmission path. When adding
the ­interferers, the level can be varied within a wide range. The maximum
­frequency shift to the useful signal can
be ±40 MHz.
Transmission simulations can be used
for the mixed signals. The R&S®SFU can
simulate the impairment of the useful
signal by interferers very compactly and
without requiring any external ­signal
sources.
±40 MHz
In addition to the signals and signal libraries already available from
­Rohde & Schwarz (such as the multi ATV
predefined option with analog TV signals), you can define other interferers
by means of the R&S® WinIQSIM™ software and use them on the ¸SFU.
Interferer libraries
±40 MHz
The following options are available as
signal libraries for analog and digital interferer scenarios in line with IEC 62002
(MBRAI), NORDIG and A/74:
Useful signal with analog (top) and digital interferer
◆ ¸SFU-K199, multi ATV
­predefined, analog interferers
◆ ¸SFU-K354, DTV interferers,
­digital interferers
These libraries also contain test signals
with more than one interference signal.
Interferer GUI
16
Broadcast Test System ¸SFU
Interferer management
LAN
GPIB
The ¸SFU-K37 option permits easy
and straightforward interferer management. Level, frequency, frequency offset
and signal type can be set.
Internal interferers
The ¸SFU-K199/-K354 interferer libraries/signals or any other ARB I/Q signal can be used as internal interferers.
External interferers
External interferers can be applied via
the ¸SFU‑K80 analog or digital I/Q
interface while ARB sequences or analog TV signals can be provided internally.
USB interfaces on the front panel
Connectivity
LAN (100BaseT), GPIB and a USB connector are available as interfaces on
the instrument's rear panel. Files, firmware updates and modulation data can
be loaded fast and easily via these interfaces.
Remote operation and remote
­control
The ¸SFU can be remote-operated
via an Ethernet connection or in a LAN
network over IP and is preconfigured
for DHCP use. The preinstalled Remote
Desktop software or the VNC software
that comes with the instrument makes
this very easy to do.
Remote control is possible by means of
control commands via the IEC/IEEE bus
(GPIB) or LAN. The ¸SFU can thus
be integrated into existing test programs
and remote-controlled.
GPIB/IEEE
LAN/Ethernet
Possible remote control variants with the ¸SFU
Looking forward
The ¸SFU's modular design makes it
a future-proof investment. Options can
usually be activated quickly and conveniently on-site at any time by means of
firmware update and license code.
and its configuration can be tailored to
meet customer-specific needs. It thus
saves a lot of money yet offers full flexibility and openness for new, evolving
fields of application.
This feature ensures fast and easy availability without time loss and is a big advantage for use in production and development. The ¸SFU can be adapted
to perfectly match current requirements,
Broadcast Test System ¸SFU
17
Overview of options
Hardware option
Software option
Miscellaneous
¸SFU-K80
extended I/Q
¸SFU-B5
¸SFU-B11
¸SFU-B90
¸SFU-K82
user in/out
ETI input/output
high power
realtime coder enable
¸SFU-K81
realtime coder disable
¸NRP-Z11,-Z21, -Z24,
-Z33, -Z51, -Z55
power sensors
¸SFU-K55
¸SFU-K60
power measurement
BER measurements
Analysis
¸SFU
¸SFU-K35
¸SFU-B3
ARB generator
memory extension 1
¸SFU-K351
¸SFU-K37
T-DMB/DAB
interferer management
¸SFU-K32
¸SFU-K40
included
¸SFU-K352
DVB-H
AWGN
¸SFU-K43
¸SFU-K41
multinoise use
phase noise
¸SFU-K353
¸SFU-K42
DRM
¸SFU-K354
DTV interferer
Simulation
18
Broadcast Test System ¸SFU
impulsive noise
¸SFU-B31
¸SFU-B30
fad. sim. 40 paths
fad. sim. 20 paths
¸SFU-K30
¸SFU-K32
dyn. enhanced fading
Gaussian fading
DV-H264
H.264 streams
¸SFU-K108
AMC (DIRECTV...) coder
Digital modulation
¸SFU-K1
¸SFU-K6
DVB-T/H coder
ISDB-T coder
¸SFU-K2
¸SFU-K11
DVB-C coder
T-DMB/DAB coder
¸SFU-K3
DVB-S/-DSNG coder
¸SFU-K4
ATSC/8VSB coder
¸SFU-K5
J.83/B coder
¸SFU-K8
DVB-S2 coder
¸SFU-K9
DIRECTV coder
¸SFU-K32
¸SFU-K12
included
DMB-TH coder
¸SFU-B1
¸SFU-K7
coder extension 1
DMB-T coder
¸SFU-B10
¸SFU-K10
coder extension 10
MediaFLO™
Analog
modulation
¸SFU-B3
¸SFU-K199
memory extension 1
ATV predefined
¸SFU-K190
¸SFU-K191
¸SFU-K192
¸SFU-K193
¸SFU-K194
ATV-B/G coder
ATV-D/K coder
ATV-I coder
ATV-M/N coder
ATV-L coder
¸SFU-B2
coder extension 2
¸SFU-K20
¸SFU-B6
TS generator
addit. hard disk
SDTV streams
included
¸SFU-K23
video generator incl.
¸ATV
¸SFU-B4
video basic included
memory extension 1
DV-DVBH
DVB-H streams
¸SFU-K22
¸SFU-K21
TRP player
TS recorder
DV-HDTV
HDTV streams
DV-TCM
¸SFU-K221
ETI recorder included
T-DMB/DAB streams
TCM streams
DV-ISDBT
ISDB-T streams
Baseband
Broadcast Test System ¸SFU
19
Certified Environmental System
ISO 9001
ISO 14001
DQS REG. NO 1954 QM
DQS REG. NO 1954 UM
For specifications, see PD 0758.1658.22
and www.rohde-schwarz.com
(search term: SFU)
www.rohde-schwarz.com
Europe: +49 1805 12 4242, [email protected]
USA and Canada: 1-888-837-8772, [email protected]
Asia: +65 65 130 488, [email protected]
¸ is a registered trademark of Rohde & Schwarz GmbH & Co. KG · Trade names are trademarks of the owners · Printed in Germany (Bi bb)
PD 0758.1658.12 · ¸SFU · Version 02.00 · September 2006 · Data without tolerance limits is not binding · Subject to change
Certified Quality System
Specifications
Version
05.01
Broadcast Test System ¸SFU
Specifications
August
2006
CONTENTS
INTRODUCTION ..................................................................................................................................................................................... 4
APPLICATIONS OVERVIEW ...................................................................................................................................................................... 4
KEY FEATURES ..................................................................................................................................................................................... 5
General........................................................................................................................................................................................... 5
Intuitive, fast and easy operation..................................................................................................................................................... 5
Outstanding signal quality............................................................................................................................................................... 5
Unrivaled flexibility for research and development .......................................................................................................................... 5
Ideal for use in production............................................................................................................................................................... 5
Easy remote access........................................................................................................................................................................ 5
RF CHARACTERISTICS ........................................................................................................................................................................... 6
Frequency....................................................................................................................................................................................... 6
Frequency sweep ........................................................................................................................................................................... 6
Reference frequency....................................................................................................................................................................... 6
Level............................................................................................................................................................................................... 6
Spectral purity................................................................................................................................................................................. 7
High power and overvoltage protection (R&S SFU-B90 option)....................................................................................................... 7
I/Q MODULATION ................................................................................................................................................................................... 8
I/Q modulator.................................................................................................................................................................................. 8
External wideband I/Q..................................................................................................................................................................... 8
Internal baseband I/Q ..................................................................................................................................................................... 9
I/Q output........................................................................................................................................................................................ 9
Extended I/Q (R&S SFU-K80 option) .............................................................................................................................................. 9
DIGITAL BASEBAND .............................................................................................................................................................................. 10
Internal test signals....................................................................................................................................................................... 10
MPEG-2 inputs ............................................................................................................................................................................. 10
ETI input/output (R&S SFU-B11 option)........................................................................................................................................ 10
TS generator (R&S SFU-K20 option) ............................................................................................................................................ 11
TS recorder (R&S SFU-K21 option) (see ordering information)..................................................................................................... 11
TRP player (R&S SFU-K22 option) (see ordering information)...................................................................................................... 12
ANALOG BASEBAND ............................................................................................................................................................................. 12
Analog video/audio input............................................................................................................................................................... 12
Internal video/audio signal generator (R&S SFU-K23 option) (see ordering information)............................................................... 13
DIGITAL MODULATION SYSTEMS ............................................................................................................................................................ 14
DVB-T/H (R&S SFU-K1 option)..................................................................................................................................................... 14
DVB-C (R&S SFU-K2 option)........................................................................................................................................................ 14
DVB-S/DVB-DSNG (R&S SFU-K3 option) .................................................................................................................................... 14
DVB-S2 (R&S SFU-K8 option) (see ordering information)............................................................................................................. 15
T-DMB/DAB (R&S SFU-K11 option) ............................................................................................................................................. 15
ATSC/8VSB (R&S SFU-K4 option) ............................................................................................................................................... 15
J.83/B (R&S SFU-K5 option)......................................................................................................................................................... 16
DIRECTV legacy modulation (R&S SFU-K9 option) (see ordering information)............................................................................. 16
AMC (R&S SFU-K108 option) (see ordering information).............................................................................................................. 16
DMB-T (TDS-OFDM, R&S SFU-K7 option) (see ordering information).......................................................................................... 17
DMB-TH (TDS-OFDM, R&S SFU-K12 option) (see ordering information) ..................................................................................... 17
ISDB-T (R&S SFU-K6 option) ....................................................................................................................................................... 17
MediaFLO (FLO, R&S SFU-K10 option) (see ordering information) .............................................................................................. 18
ANALOG MODULATION SYSTEMS ........................................................................................................................................................... 18
Standard B/G (R&S SFU-K190 option) (see ordering information) ................................................................................................ 18
Standard D/K (R&S SFU-K191 option) (see ordering information) ................................................................................................ 19
Standard I (R&S SFU-K192 option) (see ordering information) ..................................................................................................... 19
Standard M/N (R&S SFU-K193 option) (see ordering information)................................................................................................ 20
Standard L (R&S SFU-K194 option) (see ordering information) .................................................................................................... 20
Multi ATV predefined (R&S SFU-K199 option) (see ordering information)..................................................................................... 21
2
Broadcast Test System R&S SFU
Version 05.00, August 2006
SIMULATION ........................................................................................................................................................................................ 23
Arbitrary waveform generator (R&S SFU-K35 option) (see ordering information) .......................................................................... 23
T-DMB/DAB waveforms (R&S SFU-K351 option) ......................................................................................................................... 23
DVB-H waveforms (R&S SFU-K352 option).................................................................................................................................. 23
DRM waveforms (R&S SFU-K353 option)..................................................................................................................................... 24
DTV interferers (R&S SFU-K354 option)....................................................................................................................................... 24
Interferer management (R&S SFU-K37 option)............................................................................................................................. 24
AWGN noise (R&S SFU-K40 option) ............................................................................................................................................ 25
Phase noise (R&S SFU-K41 option) ............................................................................................................................................. 25
Impulsive noise (R&S SFU-K42 option) ........................................................................................................................................ 25
Multinoise use (R&S SFU-K43 option) (see ordering information) ................................................................................................. 25
Fading simulator (R&S SFU-B30 option)....................................................................................................................................... 26
Enhanced fading (R&S SFU-K30 option) (see ordering information) ............................................................................................. 27
Gaussian fading (R&S SFU-K32 option) (see ordering information) .............................................................................................. 28
BER measurements (R&S SFU-K60 option) ................................................................................................................................. 28
TRIGGER INPUTS/OUTPUTS .................................................................................................................................................................. 28
Triggers and connections reserved for future use ......................................................................................................................... 28
GENERAL DATA ................................................................................................................................................................................... 29
System data.................................................................................................................................................................................. 29
Operating data.............................................................................................................................................................................. 29
ORDERING INFORMATION ................................................................................................................................................................. 30
Version 05.00, August 2006
Broadcast Test System R&S SFU
3
Introduction
The Broadcast Test System R&S SFU has been designed as a platform for different applications and for future options. It provides
multiple instrument functionality in a cabinet of only four height units and offers unrivaled RF and baseband characteristics.
Due to its modular design, the R&S SFU can be optimally adapted to the requirements of different applications. It is an ideal research
and development tool for making improvements to introduced standards and for generating new standard signals. Applications that
previously required many different instruments are now fully covered by the R&S SFU. The modern, intuitive concept of the R&S SFU
ensures fast and easy operation.
Applications overview
♦
Broadcast test transmitter with all important digital and analog standards in one box
♦
Wide level range for receiver and chip test applications
♦
Wide range of inputs and outputs for research and development applications
♦
Wide frequency range for limit tests
♦
RF generator and IF generator functionality
♦
Frequency steps of 0.1 Hz and uninterrupted level change for margin tests (PLL, AGC)
♦
Digital noise source with highly precise carrier/noise ratio for channel simulation
♦
Variable noise signal by combining several internal noise sources
♦
Dynamic fading (channel) simulation for testing mobile and multipath reception, diversity simulations
♦
Intelligent interferer management for a variety of sources (ARB, ATV predefined, analog I/Q, digital I/Q)
♦
User-definable signal impairments and signal modifications for research and development
♦
Modifiable standard parameters for research and development
♦
BER measurement on PRBS as well as on MPEG-2 transport streams
♦
Internal transport stream and video generator and special test signals
♦
Internal transport stream and ETI recorder and player for recording and replaying data streams
♦
Internal TRP player for replaying data streams
♦
Internal arbitrary waveform generator together with R&S WinIQSIMTM software
♦
Use of waveform and data stream libraries
♦
Wide choice of DAB (ETI), DVB and ATSC test data streams
♦
Wide choice of T-DMB/DAB test waveforms
♦
Remote control capability for use in production
♦
Wear-free electronic attenuator for use in production
4
Broadcast Test System R&S SFU
Version 05.00, August 2006
Key features
General
♦
♦
♦
♦
♦
♦
ATV and DTV multistandard broadcast test platform
Output frequency from 100 kHz to 3 GHz
Generation of internal noise and interferer signals
Fully digital baseband signal processing
Upgradeability to multifunctional broadcast test system
Easy installation of most options at customer site
Intuitive, fast and easy operation
♦
♦
♦
♦
Color display with 1024 × 768 pixels (XVGA format)
Intuitive user interface with Windows XP Embedded
Context-sensitive help system
User-definable favorites for fast access
Outstanding signal quality
♦
♦
♦
♦
I/Q modulator with 180 MHz RF bandwidth
Very low SSB phase noise of typ. –135 dBc at 1 GHz (20 kHz carrier offset, 1 Hz measurement bandwidth)
High optional output power of up to +19 dBm (PEP), overrange +26 dBm
High-stability reference oscillator as standard
Unrivaled flexibility for research and development
♦
♦
♦
♦
♦
♦
♦
Multistandard platform that supports expansions
Transmission simulations
TS baseband generator and recorder with universal coder for realtime signal generation
TRP baseband player for realtime signal generation
Video generator for realtime signal generation
Arbitrary waveform generator with 64 Msample (128 Msample), supported by R&S WinIQSIMTM software
Internal hard disk as standard for storing waveforms and modulation data
Ideal for use in production
♦
♦
Wear-free electronic attenuator of up to 3 GHz over the full level range
Minimum space requirements: generator and test transmitter are accommodated in one instrument of only four height units
Easy remote access
♦
♦
♦
Remote control via GPIB and LAN
User-friendly remote access by VNC or Remote Desktop
USB connectors for keyboard, mouse and USB memory module
Version 05.00, August 2006
Broadcast Test System R&S SFU
5
Specifications
Specifications apply under the following conditions:
30 minutes warm-up time at ambient temperature, specified environmental conditions met, calibration cycle adhered to and all internal
adjustments performed. Data designated "overrange" or "underrange" and data without tolerance limits is not binding.
RF characteristics
Frequency
Range
underrange
Accuracy
Resolution of setting
Resolution of synthesis
standard, fundamental frequency range
750 MHz to 1500 MHz
300 kHz to 3 GHz
100 kHz to <300 kHz
depends on reference frequency
0.1 Hz
5 µHz
Frequency sweep
Digital sweep in discrete steps
operating modes
sweep range
step width (lin)
step width (log)
automatic, single shot, manual or external
trigger, linear or logarithmic
full range
full range
0.01 % to 100 %
Reference frequency
Accuracy
Aging
Temperature effect
Warm-up time
Input for external reference signal
Output for internal reference signal
after 30 days of uninterrupted operation
in operating temperature range 0 °C to
+50 °C, standard
to nominal thermostat temperature
frequency (approx. sinewave)
maximum deviation
input level
limits recommended
input impedance
connector
frequency (approx. sinewave)
level
source impedance
connector
<1 × 10–7
<1 × 10–9/day
<6 × 10–8
≤10 min
5 MHz, 10 MHz or 13 MHz
3 × 10–6
≥–6 dBm to ≤19 dBm
0 dBm to 19 dBm
50 Ω
BNC female, rear
10 MHz or external input frequency
typ. 5 dBm, ±3 dB
50 Ω
BNC female, rear
Level
RF output
Maximum level
Setting range
Level accuracy
Additional uncertainty with ALC OFF,
S&H (sample & hold)
Output impedance
VSWR in 50 Ω system
Uninterrupted level setting
connector
output impedance
without option
with R&S SFU-B90 option (high power
and overvoltage protection)
without option
with R&S SFU-B90 option (high power
and overvoltage protection)
resolution
"auto" attenuator mode,
temperature range +18 °C to +33 °C
f ≤ 3 GHz / level ≥–100 dBm
(This function is needed only for some
special applications.)
ALC state ON, standard
f ≤ 3 GHz
ALC state ON, with R&S SFU-B90 option
"normal" attenuator mode
"high power" attenuator mode
"fixed" attenuator mode, ALC state ON
setting range
N female, front
50 Ω
≥+13 dBm (PEP)1
≥+19 dBm (PEP)
–120 dBm to +20 dBm
–120 dBm to +30 dBm
0.1 dB
<0.5 dB
<0.2 dB
<1.6, typ. <1.4
<1.8, typ. <1.6
<1.9, typ. <1.7
>20 dB
1 PEP = peak envelope power (CW), for other modulation modes depending on crest factor.
6
Broadcast Test System R&S SFU
Version 05.00, August 2006
Back-feed (from ≥50 Ω source)
maximum permissible RF power in output
frequency range of RF path
maximum permissible DC voltage
with R&S SFU-B90 option (high power and
overvoltage protection)
maximum permissible RF power in
output frequency range of RF path
maximum permissible DC voltage
50 W for max. 5 ms, 0.5 W continuous
levels ≤ 8 dBm, CW
levels ≤ 12 dBm with R&S SFU-B90 option,
"high power" attenuator mode, CW
CW, vector modulation (full-scale input),
>10 kHz offset from carrier and outside
the modulation spectrum
0.3 MHz ≤ f ≤ 200 MHz
200 MHz < f ≤ 1.5 GHz
1.5 GHz < f ≤ 3.0 GHz
>850 kHz offset from carrier and outside
the modulation spectrum
0.3 MHz ≤ f ≤ 200 MHz
200 MHz < f ≤ 1.5 GHz
1.5 GHz < f ≤ 3.0 GHz
f > 1.5 GHz to 3.0 GHz
carrier offset > 5 MHz,
measurement bandwidth 1 Hz CW
20 MHz ≤ f ≤ 200 MHz
200 MHz < f ≤ 1.5 GHz
1.5 GHz < f ≤ 3 GHz
vector modulation with full-scale input
I/Q input gain +3 dB
20 MHz ≤ f ≤ 200 MHz
200 MHz < f ≤ 1.5 GHz
1.5 GHz < f ≤ 3 GHz
carrier offset 20 kHz,
measurement bandwidth 1 Hz
20 MHz ≤ f ≤ 200 MHz
f = 1 GHz
f = 2 GHz
f = 3 GHz
rms value at f = 1 GHz
300 Hz to 3 kHz
20 Hz to 23 kHz
rms value 20 Hz to 23 kHz at f = 1 GHz
<–30 dBc
<–30 dBc
20 V
50 W
35 V
Spectral purity
Harmonics
Nonharmonics
Subharmonics
Wideband noise
SSB phase noise
Residual FM
Residual AM
<–77 dBc
<–80 dBc
<–74 dBc
<–77 dBc
<–86 dBc
<–80 dBc
<–74 dBc
<–146 dBc
<–150 dBc
<–150 dBc
<–143 dBc
<–146 dBc
<–146 dBc
<–128 dBc
<–131 dBc
<–125 dBc
<–121 dBc
<1 Hz
<4 Hz
<0.02 %
High power and overvoltage protection (R&S SFU-B90 option)
Extends the output level and protects the instrument against externally applied RF power from a 50 Ω source.
Maximum level
19 dBm
Maximum permissible RF power
50 W
Maximum permissible DC voltage
35 V
Version 05.00, August 2006
Broadcast Test System R&S SFU
7
I/Q modulation
I/Q modulator
Operating modes
Modulation frequency range
I/Q modulation inputs
I/Q wideband
connector
input impedance
VSWR up to 30 MHz
input voltage for full-scale input
minimum input voltage for ALC state ON
external wideband I/Q
internal baseband I/Q
100 MHz
BNC female, front
50 Ω
<1.2
Vi 2 + Vq2 = 0.5 V
0.1 V
Static error vector
Modulation frequency response
Carrier leakage
I/Q impairments
I/Q swap
rms value
f ≤ 200 MHz
f > 200 MHz
peak value
f ≤ 200 MHz
f > 200 MHz
I/Q wideband
up to 50 MHz
up to 5 MHz
without input signal, referenced to
full-scale input2
I offset, Q offset
setting range
resolution
gain imbalance
setting range
resolution
quadrature offset
setting range
resolution
I and Q signals swapped
<0.3 %
<(0.2 % + 0.1 % × f/GHz)
<0.6 %
<(0.4 % + 0.2 % × f/GHz)
<3 dB
<0.6 dB
<–55 dBc
–10 % to +10 %
0.01 %
–1 dB to +1 dB
0.001 dB
–10° to +10°
0.1°
ON, OFF
External wideband I/Q
I/Q inputs (I/Q EXT)
(connector equal to I/Q analog IN)
connector
input impedance
VSWR up to 50 MHz
input voltage for full-scale input
Static error vector
Vi 2 + Vq2 = 0.5 V
minimum input voltage for ALC state ON
0.1 V
100 MHz
without input signal, referenced to
full-scale input2
rms value
f ≤ 200 MHz
f > 200 MHz
peak value
f ≤ 200 MHz
f > 200 MHz
<–55 dBc
Modulation frequency range3
Carrier leakage
BNC female, front
50 Ω
<1.2
<0.3 %
<(0.2 % + 0.1 % × f/GHz)
<0.6 %
<(0.4 % + 0.2 % × f/GHz)
2 Value applies after 1 hour warm-up and recalibration for 4 hours of operation and temperature variations of less than 5 °C.
3 I/Q wideband ON. This frequency response superimposes all frequency responses specified in the data sheet.
8
Broadcast Test System R&S SFU
Version 05.00, August 2006
Internal baseband I/Q
Signal characteristics
D/A converter
data rate
resolution
sampling rate
with amplitude, group delay and
Si correction
bandwidth 0.1 dB
I/Q impairment
I offset, Q offset
setting range
resolution
gain imbalance
setting range
resolution
quadrature offset
setting range
resolution
Internal optimization of RF parameters is always ON.
see digital modulation systems
100 MHz
16 bit
400 MHz
(internal interpolation × 4)
Aliasing filter
40 MHz
–10 % to +10 %
0.01 %
–1 dB to +1 dB
0.01 dB
–10° to +10°
0.1°
I/Q output
I/Q output
connector
output impedance
With RL = 50 Ω, the output voltage
depends on the set modulation signal.
output voltage
Offset
BNC female, rear
50 Ω
0.5 V (VP)
<0.5 mV
Extended I/Q (R&S SFU-K80 option)
The R&S SFU-K80 option allows external analog and digital signals to be fed into the baseband signal processing of the R&S SFU.
Input signals can be faded in and noise signals superimposed if the fading simulator and noise options have been installed. In addition,
the digital baseband signals are available externally.
Analog I/Q IN
I/Q analog inputs (I/Q EXT)
(connector equal to I/Q wideband IN)
connector
BNC female, front
input impedance
VSWR (up to 25 MHz)
50 Ω
<1.2
input voltage for full-scale input
Vi 2 + Vq2 = 0.5 V
frequency response up to 30 MHz
A/D converter
offset
0.5 dB
100 MHz/14 bit
<–55 dBfs
connector
output level
level
word width
analog bandwidth
symbol rate
Mini D Ribbon, 26 pins, rear
channel link
LVDS
16 bit
0 Hz to 31 MHz
3 ksps to 100 Msps
connector
output level
level
word width
symbol rate
Mini D Ribbon, 26 pins, rear
channel link
LVDS
16 bit
100 Msps
Digital I/Q IN
I/Q digital input
I/Q digital modulation inputs
Digital I/Q OUT
I/Q digital output
I/Q digital modulation outputs
Version 05.00, August 2006
Broadcast Test System R&S SFU
9
Digital baseband
Internal test signals
MPEG-2 TS packet
MPEG-specific TS packet
DIRECTV TS packet
DIRECTV-specific TS packet
PRBS
header + 184 byte payload
PID
sync byte + 187 byte payload
header + 127 byte payload
130 byte payload
PRBS in accordance with ITU-T O.151
00 (hex), FF (hex), PRBS (selectable)
NULL (1FFF hex)/variable
00 (hex), FF (hex), PRBS (selectable)
PRBS (DIRECTV only)
PRBS (DIRECTV only)
223–1 / 215–1 (selectable)
connector
input level
input impedance
connector
ASI input level
SMPTE 310 input level
input impedance
ASI data rate
SMPTE 310 data rate
ASI, SMPTE 310, SPI
stuffing packets
D-Sub female, 25 pins, front and rear
LVDS
100 Ω, differential
BNC female, front and rear
200 mV to 880 mV
400 mV to 880 mV
75 Ω
270 Mbit/s
19.392658 Mbit/s
ON/OFF
see MPEG-2 TS packet at “Internal test
signals”
BNC female, rear
TTL, sinewave (0 dBm)
50 Ω
packet length, data rate, useful data rate
MPEG-2 inputs
Parallel SPI input
ASI/SMPTE 310 serial input
Stuffing
TS EXT CLK
Indication
connector
input level
input impedance
measured values
ETI input/output (R&S SFU-B11 option)
The R&S SFU-B11 option allows external ETI data streams to be fed into the baseband signal processing of the R&S SFU.
T-DMB/DAB signals can be faded in and noise signals superimposed if the fading simulator and noise options have been installed.
ETI input/output
Serial ETI input
Serial ETI output
Requires
Coder 2110.3306 with C.I. >4.xx and
R&S SFU-B11 model .03 (2110.3887)
10
Broadcast Test System R&S SFU
in line with ETI NI, ETI NA5592,
ETI NA5376
connector
ETI input level
input impedance
ETI data rate
coding
connector
ETI output level
output impedance
ETI data rate
coding
BNC female, rear
0 V to ±2.37 V (ITU-T G.703/G.704)
75 Ω
2048 kbit/s
HDB3
BNC female, rear
0 V to ±2.37 V (ITU-T G.703/G.704)
75 Ω
2048 kbit/s
HDB3
Version 05.00, August 2006
TS generator (R&S SFU-K20 option)
Serial TS output
Transport stream
mode
connector
output impedance
ASI
output level
data rate
mode
SMPTE 310M
output level
data rate
files
file format
length of transport stream packets
sequence length
data rate
PCR jitter
net data rate
data volume
shape
frequency
amplitude
Signal set
ASI, SMPTE 310M (selectable)
BNC female, rear
75 Ω
200 mV to 880 mV
270 Mbit/s
packet or continuous
400 mV to 880 mV
19.392658 Mbit/s
R&S data streams
generated transport streams (GTS) format
ATSC: 188/208 bytes (selectable)
DVB: 188/204 bytes (selectable)
generation of endless and seamless
transport streams with repetition of video,
audio and data contents
100 kbit/s to 214 Mbit/s (including null
packets)
max. 90 Mbit/s
max. 80 Mbyte payload
sinewave, rectangle, triangle
1 MHz to 100 kHz
0 ms to 1 ms, in increments of 0.1 µs
moving picture sequences and test patterns
with test tones, for 625 and 525 lines;
DVB/ATSC systems, additional signals via
options
TS recorder (R&S SFU-K21 option) (see ordering information)
The TS recorder can be used for recording ETI data streams if the ETI input/output (R&S SFU-B11 option) is installed.
Parallel input
mode
SPI
connector
D-Sub female, 25 pins, front and rear
input impedance
100 Ω, differential
SPI
input level
LVDS
clock
84.375 kHz to 7.5 MHz (60 Mbit/s NTFS)
84.375 kHz to 11.25 MHz (90 Mbit/s CFS)
Serial TS input
mode
ASI, SMPTE 310M, ETI (selectable)
connector
BNC female, front and rear
input impedance
75 Ω
ASI
input level
200 mV to 880 mV
data rate
270 Mbit/s
mode
packet or continuous
SMPTE 310M
input level
400 mV to 880 mV
data rate
19.392658 Mbit/s
Version 05.00, August 2006
Broadcast Test System R&S SFU
11
Recording
mode
TRP
T10
BIN
data rate
data volume
recording time
Replay
Serial TS output
Serial ETI input/output
recording via ASI, SPI, SMPTE 310M or
ETI; check of transport stream structure
and packet size (188/204/208);
SPI 8-bit interface: recording of data as a
function of DVALID signal
recording via SPI or ETI; check of
transport stream structure and packet size
(188/204/208); recording of 8-bit data +
DVALID + PSYNC or recording of 10-bit
raw data
recording via SPI; no checking of transport
stream structure; recording of 8-bit data
100 kbit/s to 90 Mbit/s (including null
packets)
max. data volume for recording limited
only by hard disk size
depends on net data rate of incoming
transport stream and on hard disk size
see R&S SFU-K22 option
see R&S SFU-K22 option
see R&S SFU-B11 option
TRP player (R&S SFU-K22 option) (see ordering information)
To output ETI data streams to external T-DMB/DAB devices, the ETI Input/Output R&S SFU-B11 option is required.
Replay
file format
TRP, T10, BIN, ETI, DAB/DAB_C
(any recorded data streams)
length of transport stream packets
corresponding to externally
applied/recorded transport stream
replay time/sequence length
endless (but not seamless) replay with cut
at transition from end of file to beginning of
file
corresponding to recording data rate and
data rate
setting (100 kbit/s to max. 90 Mbit/s) from
hard disk
corresponding to recorded data volume;
data volume
limited only by hard disk size
Serial TS output
Serial ETI output
mode
connector
output impedance
ASI
output level
data rate
mode
SMPTE 310M
output level
data rate
ASI, SMPTE 310M (selectable)
BNC female, rear
75 Ω
200 mV to 880 mV
270 Mbit/s
packet or continuous
400 mV to 880 mV
19.392658 Mbit/s
see R&S SFU-B11 option
Analog baseband
Analog video/audio input
If the external video/audio inputs are used, the analog I and Q inputs can no longer be assigned.
Currently being prepared
included in R&S SFU-K190 to -K194
Video input
connector
BNC female, front panel, I input with
adapter
Vpp = 1 V
input level CCVS
75 Ω
input impedance
clamping of back porch
DC restoration
Audio input
connector
BNC female, front, Q input
input level
0 dBm
input impedance
50 Ω
12
Broadcast Test System R&S SFU
Version 05.00, August 2006
Internal video/audio signal generator (R&S SFU-K23 option) (see ordering information)
Internal video signal generator
Video signals
Insertion test signal structure
PAL – color bar 75 %
PAL – FuBK
NTSC – color bar 75 %
SECAM – color bar 75 %
Internal audio signal generator
Audio signals
Version 05.00, August 2006
ATV video basic
in line with country-specific standards
first field
lines 8, 10
line 16
lines 17, 18
line 19
lines 20, 21
second field
line 323
line 329
lines 330, 331
line 332
line 333
lines 334, 335
first field
lines 8, 10
line 16
lines 17, 18
line 19
lines 20, 21
second field
line 323
line 329
lines 330, 331
line 332
line 333
lines 334, 335
first field
line 17
line 18
second field
line 17
line 18
first field
lines 7 to 14
line 15
line 17
line 18
second field
lines 320 to 328
line 330
lines 331,332
line 333
number of signals
frequency
level
included in R&S SFU-K190 to -K194
COLORBARS_75 (PAL)
FUBK (PAL)
COLORBARS_75 (NTSC)
COLORBARS_75 (SECAM)
2T pulse
data line 1
CCIR17
CCIR18/2
teletext test line
teletext test line
data line 2
CCIR330/5
CCIR331/1
sinx/x
teletext test line
2T pulse
data line 1
CCIR17
CCIR18/2
teletext test line
teletext test line
data line 2
CCIR330/5
CCIR331/1
sinx/x
teletext test line
NTC7 composite
FCC composite
NTC7 combined
sinx/x
discriminating signal
teletext test line
CCIR17
CCIR18, 6 multiburst packets
discriminating signal
CCIR330
CCIR331
CCIR331/1
included in R&S SFU-K190 to -K194
2, can be set separately
30 Hz to 15 Hz, in 1 Hz steps
–60 dB to +12 dB, in 0.01 dB steps
0 dB corresponds to standard deviation
Broadcast Test System R&S SFU
13
Digital modulation systems
DVB-T/H (R&S SFU-K1 option)
DVB-T/H
Modulation
Coding
in line with DIN EN 300744/DIN EN
302304
mode
bandwidth
MER
modulation frequency response
shoulder attenuation
constellation
code rate
guard interval
FFT mode
interleaver
TPS
carrier modification
Special functions
scrambler, sync byte inversion,
Reed-Solomon encoder, convolutional
interleaver, bit interleaver, symbol
interleaver, guard interval
Test signals
COFDM
5 MHz, 6 MHz, 7 MHz, 8 MHz (settable for
variable bandwidth: 1 MHz to 10 MHz)
>40 dB4
<±0.2 dB
>48 dB
QPSK, 16QAM, 64QAM, hierarchical
coding
1/2, 2/3, 3/4, 5/6, 7/8
1/4, 1/8, 1/16, 1/32
2k, 4k and 8k COFDM
native and in-depth
in line with DVB-T/H
carriers and carrier groups can be
switched off
can be switched off
TS test packet (see "Internal test signals")
PRBS before convolutional encoder
PRBS after convolutional encoder
PRBS before mapper
DVB-C (R&S SFU-K2 option)
DVB-C
Modulation
in line with DIN EN 300429
mode
symbol rate
pulse filtering
Special functions
MER
modulation frequency response
shoulder attenuation
energy dispersal, Reed-Solomon encoder
(204, 188, t = 8), convolutional interleaver
Test signals
16QAM, 32QAM, 64QAM,
128QAM, 256QAM
0.1 Msps to 8 Msps, settable
root raised cosine roll-off, α = 0.15,
variable roll-off (0.1; 0.13; 0.15; 0.18; 0.20)
>40 dB
±0.25 dB
>48 dB
can be switched off
TS test packet (see “Internal test signals”)
PRBS before mapper
DVB-S/DVB-DSNG (R&S SFU-K3 option)
DVB-S/DVB-DSNG
Modulation
Coding
Special functions
Test signals
in line with DIN EN 300421/DIN EN
301210
mode
symbol rate
overrange
pulse filtering
MER
modulation frequency response
shoulder attenuation
code rate
energy dispersal, Reed-Solomon encoder
(204, 188, t = 8), convolutional interleaver
QPSK, 8PSK, 16QAM
0.1 Msps to 45 Msps, settable
>45 Msps to 66 Msps
root raised cosine roll-off, α = 0.35,
variable roll-off (0.25; 0.30; 0.35; 0.40; 0.45)
38 dB (27.5 Msps)
±0.25 dB
>45 dB
QPSK: 1/2, 2/3, 3/4, 5/6, 7/8
8PSK: 2/3, 5/6, 8/9
16QAM: 3/4, 7/8
can be switched off
TS test packet (see “Internal test signals”)
PRBS before convolutional encoder
4 With internal test signals.
14
Broadcast Test System R&S SFU
Version 05.00, August 2006
DVB-S2 (R&S SFU-K8 option) (see ordering information)
DVB-S2
Modulation
Coding
Special function
Test signals
in line with DIN EN 302307, broadcast
services
mode
symbol rate
pulse filtering
MER
modulation frequency response
shoulder attenuation
code rate
FEC frame
pilot insertion
error insertion
QPSK, 8PSK
1 Msps to 30 Msps
root raised cosine roll-off, α = 0.20,
variable roll-off (0.15, 0.20, 0.25, 0.35)
38 dB (20 Msps)
±0.25 dB
>45 dB
QPSK: 1/2, 3/5, 2/3, 3/4, 4/5, 5/6, 8/9, 9/10
8PSK: 3/5, 2/3, 3/4, 5/6, 8/9, 9/10
normal, 64800 bit
can be switched off
after CRC-8, BCH or LDPC
TS test packet (see “Internal test signals”)
T-DMB/DAB (R&S SFU-K11 option)
T-DMB/DAB
Transmission
Single-frequency network
Special functions
in line with T-DMB/DIN EN 300401
modulation
mode
bandwidth
modulation frequency response
shoulder attenuation
network mode
control
external ETI data stream
PRBS
Gaussian fading profiles
Korea/Europe
COFDM
I, II, III, IV
1.536 MHz
<0.2 dB
>45 dB
MFN
MID, manual
requires R&S SFU-B11 option
can be inserted into a subchannel5
included in T-DMB/DAB R&S SFU-K11,
requires R&S SFU-B30 option
ATSC/8VSB (R&S SFU-K4 option)
ATSC/8VSB
Modulation
in line with ATSC Doc. A/53 (8VSB)
mode
bandwidth
symbol rate
range
pilot
range
pulse filtering
MER
modulation frequency response
shoulder attenuation
Coding
Special functions
Test signals
input data rate
randomizer, interleaver
8VSB
6 MHz
10.762 Msps
±5 % settable
1.25 (can be switched off)
settable (from 0 to 5 in steps of 0.001)
root raised cosine roll-off, α = 0.115
>40 dB6
<±0.25 dB
>45 dB
19.392658 Mbit/s
can be switched off
TS test packet (see "Internal test signals")
PRBS before convolutional encoder
PRBS after convolutional encoder
PRBS before mapper
5 Can be inserted into an existing, user-selectable subchannel of an incoming, valid ETI data stream.
6 With internal test signals.
Version 05.00, August 2006
Broadcast Test System R&S SFU
15
J.83/B (R&S SFU-K5 option)
J.83/B
Modulation
Coding
Special functions
in line with ITU-T J.83/B
mode
bandwidth
symbol rate
64QAM
256QAM
1024QAM
pulse filtering
MER
modulation frequency response
shoulder attenuation
64QAM
256QAM
1024QAM
input data rate
64QAM
256QAM
1024QAM
data interleaver
randomizer, Reed-Solomon encoder,
interleaver, checksum
Test signals
64QAM, 256QAM, 1024QAM
6 MHz
5.0569 Msps
5.3600 Msps
5.3600 Msps
root raised cosine roll-off,
α = 0.18 (64QAM), 0.12 (256/1024QAM)
>40 dB
±0.25 dB
>50 dB
>45 dB
>45 dB
26.97035 Mbit/s
38.81070 Mbit/s
49.02525 Mbit/s
can be switched off, level 1 and level 2
can be switched off
TS test packet (see "Internal test signals")
PRBS before Trellis enc., PRBS before mapper
DIRECTV legacy modulation (R&S SFU-K9 option) (see ordering information)
DIRECTV legacy modulation
Modulation
Coding
Special function
in line with DIRECTV transmission
specifications
mode
symbol rate
overrange
pulse filtering
MER
modulation frequency response
shoulder attenuation
code rate
customer-specific DIRECTV streams
error insertion
Test signals
QPSK
20 Msps
1 Msps to 30 Msps
root raised cosine roll-off, α = 0.20,
variable roll-off (0.15, 0.20, 0.25, 0.35)
38 dB (20 Msps)
<±0.25 dB
>45 dB
1/2, 2/3, 6/7
can be replayed in 188-byte format, requires
R&S SFU-K21, R&S SFU-K22 option
after convolutional encoder
TS test packet (see "Internal test signals")
AMC (R&S SFU-K108 option) (see ordering information)
AMC (advanced modulation coding)
in line with AMC
Modulation
mode
symbol rate
overrange for DIRECTV
pulse filtering
Coding
Special function
16
Broadcast Test System R&S SFU
MER
modulation frequency response
shoulder attenuation
constellation
code rate
phase noise
supports DIRECTV as well as parts of
DVB-S and phase noise
QPSK, H8PSK
DVB-S: 1 Msps to 36 Msps (and up to
42 Msps depending on code rate)
DIRECTV: 20 Msps
1 Msps to 30 Msps
root raised cosine roll-off, α = 0.20,
variable roll-off (0.15, 0.20, 0.25, 0.35)
38 dB (20 Msps)
<±0.25 dB
>45 dB
QPSK
DIRECTV: 1/2, 2/3, 6/7
DVB-S: 1/2, 2/3, 3/4, 5/6, 7/8
can be switched on
Version 05.00, August 2006
DMB-T (TDS-OFDM, R&S SFU-K7 option) (see ordering information)
DMB-T (TDS-OFDM)
Modulation
Coding
Special functions
Single-frequency network
in line with TDS-OFDM
mode
bandwidth
modulation frequency response
shoulder attenuation
constellation
code rate
guard interval
time interleaver
FFT mode
byte interleaver, randomizer, sync word
randomizer, pilot data, guard interval,
power boost
randomizer restart
network mode
control
Test signals
field trials in China
COFDM
6 MHz, 7 MHz, 8 MHz (settable for variable
bandwidth: 5.6 MHz to 7.962 MHz)
<0.2 dB
>50 dB
QPSK, 16QAM, 64QAM
4/9, 2/3, 8/9
420, 945
48, 240, 720
4k COFDM
can be switched off
packet/frame
MFN
MIP, manual
TS test packet (see “Internal test signals”)
DMB-TH (TDS-OFDM, R&S SFU-K12 option) (see ordering information)
DMB-T (TDS-OFDM)
Modulation
Coding
Special functions
Single-frequency network
in line with TDS-OFDM
mode
bandwidth
modulation frequency response
shoulder attenuation
constellation
code rate
guard interval
time interleaver
FFT mode
GI power boost
LDPC output
QAM and QPSK constellation
network mode
control
Test signals
field trials in China
COFDM
6 MHz, 7 MHz, 8 MHz
<0.2 dB
>50 dB
QPSK, 16QAM, 64QAM
0.4, 0.6, 0.8
420, 945
off, 48, 240, 720 symbols
4k COFDM
can be switched off
I first, Q first, can be switched over, Plus,
Minus
can be switched over
MFN
MIP, manual
TS test packet (see "Internal test signals")
ISDB-T (R&S SFU-K6 option)
ISDB-T
in line with ARIB STD-B31 version 1.1
Modulation
mode
bandwidth
number of segments
MER
modulation frequency response
shoulder attenuation
FFT mode
number of layers
constellation
code rate
guard interval
time interleaver
scrambler, Reed-Solomon, byte interleaver,
bit interleaver, frequency interleaver, guard
interval, pilots, OFDM segments
AC information
Coding
Special functions
Test signals
Version 05.00, August 2006
ARIB STD-B31 version 1.5 (currently being
prepared)
OFDM
6 MHz (settable for var. bandw.: ±1000 ppm)
13
>40 dB
<0.2 dB
>48 dB
2k, 4k and 8k
1 to 3
QPSK, DQPSK, 16QAM, 64QAM
1/2, 2/3, 3/4, 5/6, 7/8
1/4, 1/8, 1/16, 1/32
0, 1, 2, 4, 8, 16
can be switched off
PRBS, all "1"
TS test packet (see "Internal test signals")
Broadcast Test System R&S SFU
17
MediaFLO (FLO, R&S SFU-K10 option) (see ordering information)
MediaFLO
Modulation
Coding
Special function
Test signals
in line with QUALCOMM 80-T0455-1
Rev. E
mode
bandwidth
modulation frequency response
shoulder attenuation
FFT mode
TDM1
COFDM
6 MHz
<0.2 dB
40 dB
4k COFDM
can be switched off
PRBS
Analog modulation systems
Standard B/G (R&S SFU-K190 option) (see ordering information)
Standard B/G
Vision modulation
in line with country-specific standard
modulation
group delay
precorrection
frequency response
vestigial sideband
filtering
amplitude frequency response
Sound modulation
Video signals
Audio signals
18
Broadcast Test System R&S SFU
S/N ratio
video
mode
modulation of sound carrier 1, 2
modulation mode
frequency deviation
preemphasis
vision/sound carrier frequency spacing
vision/sound carrier level spacing
pilot tone
S/N ratio
sound
internal video generator
external video input
internal audio generator
external audio input
B/G
CCIR – B/G Germany (can be switched off)
<20 ns (with/without vestigial sideband
filtering)
can be switched off
<0.5 dB (–0.6 MHz to +4.8 MHz)
(with/without vestigial sideband filtering)
>60 dB weighted
mono, stereo, dual sound,
mono/NICAM (currently being prepared)
FM
75 kHz (settable)
50 μs/75 μs (can be switched off)
5.5 MHz/5.74 MHz (settable)
13 dB/20 dB (settable)
in sound carrier 2 (can be switched off)
>60 dB weighted (CCIR)
see R&S SFU-K23 option
see video input
see R&S SFU-K23 option
see audio input
Version 05.00, August 2006
Standard D/K (R&S SFU-K191 option) (see ordering information)
Standard D/K
Vision modulation
in line with country-specific standard
modulation
group delay
precorrection
frequency response
vestigial sideband
filtering
amplitude frequency response
Sound modulation
Video signals
Audio signals
S/N ratio
video
mode
modulation of sound carrier 1, 2
modulation mode
frequency deviation
preemphasis
vision/sound carrier frequency spacing
vision/sound carrier level spacing
pilot tone
S/N ratio
sound
internal video generator
external video input
internal audio generator
external audio input
D/K
OIRT – D/K (can be switched off)
<20 ns (with/without vestigial sideband
filtering)
can be switched off
<0.5 dB (–1 MHz to +5.8 MHz)
(with/without vestigial sideband filtering)
>60 dB weighted
mono, stereo, dual sound
FM
75 kHz (settable)
50 μs/75 μs (can be switched off)
6.5 MHz/6.74 MHz (settable)
13 dB / 20 dB (settable)
in sound carrier 2 (can be switched off)
>60 dB weighted (CCIR)
see R&S SFU-K23 option
see video input
see R&S SFU-K23 option
see audio input
Standard I (R&S SFU-K192 option) (see ordering information)
Standard I
Vision modulation
in line with country-specific standard
modulation
group delay
precorrection
frequency response
vestigial sideband
filtering
amplitude frequency response
Sound modulation
Video signals
Audio signals
Version 05.00, August 2006
S/N ratio
video
mode
modulation of sound carrier 1
modulation mode
frequency deviation
preemphasis
vision/sound carrier frequency spacing
vision/sound carrier level spacing
modulation of sound carrier 2
modulation mode
NICAM encoder
vision/sound carrier frequency spacing
vision/sound carrier level spacing
S/N ratio
sound
internal video generator
external video input
internal audio generator
external audio input
I
UK – I (can be switched off)
<20 ns (with/without vestigial sideband
filtering)
can be switched off
<0.5 dB (–1 MHz to +4.8 MHz)
(with/without vestigial sideband filtering)
>60 dB weighted
mono, mono/NICAM (currently being
prepared)
FM
75 kHz (settable)
50 μs/75 μs (can be switched off)
6 MHz (settable)
13 dB (settable)
NICAM (PRBS spectrum)
currently being prepared
6.552 MHz (settable)
20 dB (settable)
>60 dB weighted (CCIR)
see R&S SFU-K23 option
see video input
see R&S SFU-K23 option
see audio input
Broadcast Test System R&S SFU
19
Standard M/N (R&S SFU-K193 option) (see ordering information)
Standard M/N
Vision modulation
in line with country-specific standard
modulation
group delay
precorrection
frequency response
vestigial sideband
filtering
amplitude frequency response
Sound modulation
Video signals
Audio signals
S/N ratio
video
mode
modulation of sound carrier 1, 2
modulation mode
frequency deviation
preemphasis
vision/sound carrier frequency spacing
vision/sound carrier level spacing
S/N ratio
sound
internal video generator
external video input
internal audio generator
external audio input
M/N
FCC – M/N (can be switched off)
<20 ns (with/without vestigial sideband
filtering)
can be switched off
<0.5 dB (–0.6 MHz to +4 MHz)
(with/without vestigial sideband filtering)
>60 dB weighted
BTSC mono
BTSC
25 kHz (settable)
50 μs/75 μs (can be switched off)
4.5 MHz (settable)
20 dB (settable)
>60 dB weighted (CCIR)
see R&S SFU-K23 option
see video input
see R&S SFU-K23 option
see audio input
Standard L (R&S SFU-K194 option) (see ordering information)
Standard L
Vision modulation
in line with country-specific standard
modulation
group delay
precorrection
frequency response
vestigial sideband
filtering
amplitude frequency response
Sound modulation
Video signals
Audio signals
20
Broadcast Test System R&S SFU
Mode
modulation of sound carrier 1
modulation mode
preemphasis
vision/sound carrier frequency spacing
vision/sound carrier level spacing
modulation of sound carrier 2
modulation mode
frequency deviation
vision/sound carrier frequency spacing
vision/sound carrier level spacing
internal video generator
external video input
internal audio generator
external audio input
L
CCIR – L (can be switched off)
<20 ns (with/without vestigial sideband
filtering)
can be switched off
<0.5 dB (–1 MHz to +5.8 MHz)
(with/without vestigial sideband filtering)
mono, mono/NICAM (currently being
prepared)
NICAM (currently being prepared)
CCITT J.17
5.85 MHz (settable)
10 dB (settable)
AM
modulation depth 54 % (settable)
6.5 MHz (settable)
10 dB (settable)
see R&S SFU-K23 option
see video input
see R&S SFU-K23 option
see audio input
Version 05.00, August 2006
Multi ATV predefined (R&S SFU-K199 option) (see ordering information)
Multi ATV predefined
Modulation
Standard PAL B/G
Standard PAL B/G + NICAM
Standard PAL I
Standard PAL D/K
Standard NTSC M
Standard SECAM L
in line with country-specific standards and
MBRAI
standards
signals
implementation
video test signal
insertion test signal structure
sound subcarrier
sound 1
sound 2
audio coding
left
right
group delay precorrection
implementation
video test signal
insertion test signal structure
sound subcarrier
sound 1
sound 2
audio coding
sound 1
group delay precorrection
implementation
video test signal
insertion test signal structure
sound subcarrier
sound 1
sound 2
audio coding
sound 1
group delay precorrection
video test signal
insertion test signal structure
sound subcarrier
sound 1
sound 2
audio coding
left
right
group delay precorrection
video test signal
insertion test signal structure
sound subcarrier
audio coding
left
right
group delay precorrection
implementation
video test signal
insertion test signal structure
sound subcarrier
sound 1
sound 2
audio coding
sound 1
sound 2
group delay precorrection
B/G, B/G N, I, D/K, M/N, L
one defined ATV signal per standard
in line with MBRAI PAL B/G with A2
PAL B/G – color bar 75 %
see below
FM 50 kHz deviation/5.5 MHz/13 dB
FM 50 kHz deviation/5.742 MHz/20 dB
stereo
1 kHz
1 kHz
CCIR B/G Germany
in line with MBRAI PAL B/G with NICAM
PAL B/G – color bar 75 %
see below
FM 50 kHz deviation/5.5 MHz/13 dB
NICAM7 roll-off = 40 %/5.85 MHz/20 dB
mono
1 kHz
CCIR B/G Germany
in line with MBRAI PAL I1
PAL I – color bar 75 %
see below
FM 50 kHz deviation/6.0 MHz/13 dB
NICAM7 roll-off = 100 %/6.552 MHz/20 dB
mono
1 kHz
flat
PAL D/K – FuBK8
see below
FM 50 kHz deviation/6.5 MHz/13 dB
FM 50 kHz deviation/6.74 MHz/20 dB
stereo
1 kHz
1 kHz
flat
NTSC M – color bar 75 % with PLUGE
see below
BTSC/ FM 73 kHz deviation/4.5 MHz/20 dB
stereo + SAP
0.98 kHz
0.98 kHz
5 MHz/FCC
in line with MBRAI SECAM L
SECAM L – color bar 75 %
see below
NICAM7 roll-off = 40 %/5.85 MHz/27 dB
AM modulation depth = 54 %/6.5 MHz/10 dB
mono
1 kHz
flat
7 Simulation of NICAM spectrum by means of PN sequence and appropriate pulse shaping.
8 FuBK: Federal German authority for television transmission.
Version 05.00, August 2006
Broadcast Test System R&S SFU
21
Insertion test signal structure
Insertion test signal structure
Standards B/G,B/G N, I, D/K
Standard IEC 62002 with
2 CH. PAL B (MBRAI)
2 CH. PAL G (MBRAI)
2 CH. PAL B N (MBRAI)
2 CH. PAL G N (MBRAI)
2 CH. PAL I1 (MBRAI)
DVB-T + PAL B (MBRAI)
DVB-T + PAL G (MBRAI)
DVB-T + PAL B N (MBRAI),
DVB-T + PAL G N (MBRAI)
DVB-T + PAL I1 (MBRAI)
Standards M/N
Standards L and
standard IEC 62002 with
DVB-T + SECAM L (MBRAI),
2 CH. SECAM L (MBRAI)
in line with country-specific standards
first field
lines 8, 10
line 16
lines 17, 18
line 19
lines 20, 21
second field
line 323
line 329
lines 330, 331
line 332
line 333
lines 334, 335
first field
line 17
line 18
second field
line 17
line 18
first field
lines 7 to 14
line 15
line 17
line 18
second field
lines 320 to 328
line 330
lines 331, 332
line 333
2T pulse
data line 1
CCIR17
CCIR18/2
teletext test line
teletext test line
data line 2
CCIR330/5
CCIR331/1
sinx/x
teletext test line
NTC7 composite
FCC composite
NTC7 combined
sinx/x
discriminating signal
teletext test line
CCIR17
CCIR18, 6 multiburst packets
discriminating signal
CCIR330
CCIR331
CCIR331/1
MBRAI signal combinations
Signal combinations
Digital/analog multi-interferer
Analog multi-interferer
22
Broadcast Test System R&S SFU
in line with standard IEC 62002 (MBRAI)
pattern L1
digital N+2/analog N+4 signal
pattern L2
2 analog N+2 / N+4 signals
DVB-T + PAL B (MBRAI)
DVB-T + PAL G (MBRAI)
DVB-T + PAL B N (MBRAI)
DVB-T + PAL G N (MBRAI)
DVB-T + PAL I1 (MBRAI)
DVB-T + SECAM L (MBRAI)
2 CH. PAL B (MBRAI)
2 CH. PAL G (MBRAI)
2 CH. PAL B N (MBRAI)
2 CH. PAL G N (MBRAI)
2 CH. PAL I1 (MBRAI)
2 CH. SECAM L (MBRAI)
Version 05.00, August 2006
Simulation
Arbitrary waveform generator (R&S SFU-K35 option) (see ordering information)
Waveform memory
Clock generation
Interpolation
length
resolution
loading time for 10 Msample
nonvolatile memory
clock rate
accuracy
operating mode
frequency accuracy (internal)
bandwidth
with clock rate = 100 MHz
(no interpolation), bandwidth 0.1 dB
with clock rate <100 MHz,
bandwidth −0.1 dB
sampling rate
Special function
512 sample to 128 Msample
in one-sample steps
16 bit
3s
hard disk
400 Hz to 100 MHz
0.001 Hz
internal, external
accuracy of reference frequency
40 MHz
0.31 × clock rate
automatically interpolated to the internal
100 MHz data rate
can be used with R&S WinIQSIMTM 9
T-DMB/DAB waveforms (R&S SFU-K351 option)
T-DMB/DAB waveforms
Waveforms
Transmission
Signal set
Special function
I/Q sequences with audio and video contents
length
resolution
loading time for 64 Msample
nonvolatile memory
modulation
video
resolution
sequences
audio
audio program service
signal
level
sampling rate
mode
data rate
Gaussian fading profiles
for details see description of option
512 sample to 128 Msample
16 bit
20 s
hard disk
I, II
CIF (352 × 288), QCIF (176 × 144),
QVGA (320 × 240)
diver, fishes
background music
1 kHz sinewave
0 dBfs
48 kHz
stereo
192 kbit/s
R&S SFU-K32 option included, can be
used with R&S SFU-B30 option
DVB-H waveforms (R&S SFU-K352 option)
DVB-H waveforms
Waveforms
Transmission
Signal set
I/Q sequences with audio and video
contents
length
resolution
loading time for 64 Msample
nonvolatile memory
mode
video/audio
for details see description of option
512 sample to 128 Msample
16 bit
20 s
hard disk
different DVB-H modes
different resolutions and sequences
9 With R&S WinIQSIMTM: Software version 4.24 or later supports the download of I/Q data and the control of the R&S SFU-K35.
Version 05.00, August 2006
Broadcast Test System R&S SFU
23
DRM waveforms (R&S SFU-K353 option)
DRM waveforms
Waveforms
Transmission
Signal set
I/Q sequences with audio contents
length
resolution
loading time for 64 Msample
nonvolatile memory
mode
constellation
bandwidth
sampling rate
audio
signal
level
mode
coding
data rate
for details see description of option
512 sample to 128 Msample
16 bit
20 s
hard disk
A, B, C and D
4QAM, 16QAM and 64QAM (OFDM)
4.5 kHz, 5 kHz, 9 kHz, 10 kHz, 18 kHz,
20 kHz
12 kHz, 48 kHz
different sequences
–10 dBfs, –12 dBfs
mono
MPEG-4 AAC, MPEG-4 CELP
4.8 kbit/s to 30.6 kbit/s
DTV interferers (R&S SFU-K354 option)
DTV interferers
Waveforms
Signal set
DVB-T standard
ATSC/8VSB standard
T-DMB/DAB standard
I/Q sequences in line with country-specific
standards,
IEC 62002 MBRAI, NORDIG, Dbook, A.74
length
resolution
loading time for 64 Msample
nonvolatile memory
standards
length
single interferer sequence
bandwidths
FFT mode
constellation
code rate
guard interval
multi-interferer sequence
pattern
bandwidths
FFT mode
constellation
code rate
guard interval
length
sequences
length
sequences
MediaFLO standard
for details see description of option
512 sample to 128 Msample
16 bit
20 s
hard disk
DVB-T, ATSC/8VSB, T-DMB/DAB,
MediaFLO
super frame
5 MHz, 6 MHz, 7 MHz and 8 MHz
8k
16QAM
2/3
1/8
pattern L3 (2 DVB-T signals N+2/N+4)
8 MHz
8k
16QAM
2/3
1/8
field sync
center frequency, pilot frequency
frame
mode I, mode II
currently being prepared
Interferer management (R&S SFU-K37 option)
Interferer
Mode
bandwidth
level setting range
frequency offset
points for adding interferer signals
Signal set
ARB, ATV predefined, analog I/Q,
digital I/Q
<±40 MHz (referenced to useful signal)
–60 dB to +60 dB (relative to useful
signal)10
–40 MHz to +40 MHz (relative to useful
signal frequency)
before noise addition/after noise addition
activated options and waveforms,
customer-specific waveforms
10 High interferer power is at the expense of diminished useful signal values.
24
Broadcast Test System R&S SFU
Version 05.00, August 2006
AWGN noise (R&S SFU-K40 option)
RF bandwidth
Noise
C/N
System bandwidth
3 dB spectrum (AWGN)
density distribution function
crest factor
setting range
resolution
uncertainty for system bandwidth =
symbol rate and C/N <20 dB
(bandwidth for calculating the noise
power)
range
>96 MHz
Gaussian, statistical, separate for I and Q
18 dB
–30 dB to +60 dB
0.1 dB
<0.2 dB
100 kHz to 80 MHz
Phase noise (R&S SFU-K41 option)
Phase noise
System bandwidth
Profile files
frequency response
amplitude at fcarrier ±100 Hz
setting range
resolution
max. phase angle
density distribution function
sampling rate
phase noise masks
format
Special function
selection from profile files
–10.0 dBc/Hz to –110.0 dBc/Hz,
depending on selected profile
0.1 dB
±180°
Gaussian
10 MHz
min. 8 predefined files
text files, editable
customer-specific files can be used
Impulsive noise (R&S SFU-K42 option)
Pulsed addition of an AWGN signal to the useful signal with settable number of pulses per frame and within settable limits of randomly
distributed pulse intervals.
AWGN signal (not pulsed)
data
see R&S SFU-K40 option
Pulse generator
Frame
duration
10 ms, 100 ms, 1000 ms
Pulse
duration
0.25 µs, fixed
Pulses per frame
setting range
1 to 40000
Minimum pulse interval
for number of pulses >1
setting range
0.25 µs to 16 ms
resolution
0.25 µs
Maximum pulse interval
for number of pulses >1
setting range
0.25 µs to 16 ms
0.25 µs
resolution
Distribution of pulse intervals
function
PRBS
Multinoise use (R&S SFU-K43 option) (see ordering information)
Selectable noise sources can be added up to form a cumulative noise signal, which is then added to the useful signal. The C/N and
level can be set for the overall signal. R&S SFU broadcast test systems delivered before May 2006 require a hardware
extension11.
Signal sources
AWGN noise
see R&S SFU-K40 option
phase noise
see R&S SFU-K41 option
impulsive noise
see R&S SFU-K42 option
Cumulative signal
signal sources that can be combined
depending on options installed
AWGN noise
addition can be activated
phase noise
addition can be activated
impulsive noise
addition can be activated
C/N setting for cumulative signal
setting range
–30 dB to +60 dB
resolution
0.1 dB
uncertainty for system bandwidth =
<0.2 dB
symbol rate and C/N <20 dB
11 Check in SETUP -> HARDWARE INFO. Status of installed hardware extension: D/A Converter Board 2110.3406 model .03 required.
Version 05.00, August 2006
Broadcast Test System R&S SFU
25
Fading simulator (R&S SFU-B30 option)
Number of paths
with R&S SFU-B31 option
System bandwidth
Path loss
Path delay
Delay groups
Speed range
Doppler frequency range
range
resolution
accuracy
range
resolution
with R&S SFU-K30 option
maximum number
with R&S SFU-B30 option
with R&S SFU-B31 option
allowed delay differences
range
accuracy
setting range
accuracy
Restart
Insertion loss
Correlation
correlation
correlation coefficient
setting range
resolution
correlation phase
setting range
resolution
20
40
80 MHz
0 dB to 50 dB
0.01 dB
<0.01 dB
0 ms to 5.242 ms
10 ns
0.01 ns
4
8
<40 µs per group
0 km/h to 1725 km/h for 1 GHz
<0.128 %
0 Hz to 1600 Hz
<0.1 %
automatic, manual
–3 dB to 18 dB, automatic or user-defined,
with clipping indication
with R&S SFU-B31 option; two faded
channels can be correlated in pairs
0 % to 100 %
5%
0° to 360°
1°
Fading profiles
Pure Doppler
Static and constant phase
Rayleigh fading
Rice fading
Lognormal fading
frequency ratio
resolution
path loss
phase
resolution
pseudo noise interval
combination of Rayleigh fading and pure
Doppler
power ratio12
standard deviation
resolution
local constant
(–1 to +1) × current Doppler frequency
0.01 × current Doppler frequency
0 dB to 50 dB
0° to 360°
1°
>93 h
–30 dB to +30 dB
0 dB to 12 dB
1 dB
12 m to 200 m for fRF = 1 GHz
12 Ratio of discrete component to distributed component.
26
Broadcast Test System R&S SFU
Version 05.00, August 2006
Enhanced fading (R&S SFU-K30 option) (see ordering information)
30 MHz fine delay mode
50 MHz fine delay mode
Moving delay mode
Birth-death mode
Two-path dynamic delay
number of paths
system bandwidth
path delay
resolution
number of paths
system bandwidth
path delay
resolution
system bandwidth
fading
number of fading paths
profile
reference path
delay
resolution
moving delay path
mean delay
delay variation
resolution
variation period
system bandwidth
fading
number of fading paths
profile
speed range
Doppler frequency range
delay
minimum delay
delay grid
resolution
grid positions
hopping parameters
start offset
hopping dwell time
total (start offset + hopping dwell time)
resolution
system bandwidth
fading
number of fading paths
moving mode
hopping positions
sliding function
profile
speed range
Doppler frequency range
delay
reference path (statistically in delay)
moving path
minimum delay
maximum delay
resolution
hopping dwell time
sliding period
resolution
12, 24 (with R&S SFU-B31 option)
30 MHz
see R&S SFU-B30 option
0.01 ns
8, 16 (with R&S SFU-B31 option)
50 MHz
see R&S SFU-B30 option
0.01 ns
50 MHz
2 per signal path
none
0 µs to 40 µs
10 ns
150 ns to 39.85 µs
0.3 µs to 40 µs
10 ns
10 s to 500 s in steps of 100 ms
50 MHz
2 per signal path
pure Doppler
see R&S SFU-B30 option
see R&S SFU-B30 option
0 µs to 40 µs13
100 ns to 40/3 µs13
1 ns
3 to 5013
0 s to 429 s
1 ms to 429 s
max. 429 s
100 ns
50 MHz
2 per signal path
hopping/sliding
2/alternating
sinusoidal
static, pure Doppler, Rayleigh
see R&S SFU-B30 option
see R&S SFU-B30 option
0 s to 1638.00 µs
0 s to 1000.00 µs
0 s to 1000.00 µs
10 ns
100 ms to 10 s
50 s to 1000 s
10 ms
13 The maximum delay range of 40 µs must not be exceeded.
Version 05.00, August 2006
Broadcast Test System R&S SFU
27
Gaussian fading (R&S SFU-K32 option) (see ordering information)
Additional fading profiles
Gaus1
in line with DIN EN 50248
amplitude distribution
power density function
Gaus2
amplitude distribution
power density function
GausDAB
amplitude distribution
power density function
pseudo noise interval >93 h
S( τi,f) = G (A, –0.8fd, 0.05fd) + G (A1,
+0.4fd, 0.1fd), where A1 is 10 dB less than
A
pseudo noise interval >93 h
S( τi,f) = G (B, +0.7fd, 0.1fd) + G (B1,
–0.4fd, 0.15fd), where B1 is 15 dB less
than B
pseudo noise interval >93 h
S( τi,f) = G (A, ±0.7fd, 0.1fd)
where +0.7fd is used for paths of even
path number, and
–0.7fd is used for paths of uneven path
number;
path 1 is an exception and is
parameterized with +0.7fd
BER measurements (R&S SFU-K60 option)
For DVB-S2, DIRECTV, DMB-TH and MediaFLO, BER measurements are possible only to a limited extent or not possible at all.
BER measurements
for all digital modulation modes
Display
measured value
BER
error count
measurement time
Start/restart
manual
PRBS measurements
Inputs for BER clock, BER data, BER
connectors
BNC female, rear
enable
input impedance
50 Ω
input level
HCT
BER data
input data rate
up to 90 Mbit/s
PRBS
223–1 / 215–1 (in line with ITU-T O.151)
BER clock, BER data
polarity
normal, inverted
BER enable
always, active high, active low
Output for BER error
connector
BNC female, rear
output impedance
50 Ω
output level
HCT
MPEG-2 TS measurements
Input
input interfaces
ASI, SPI (stuffing off), SMPTE 310 (see
MPEG-2 inputs)
input signal
TS packet (see “Internal test signals”)
payload (PRBS in line with ITU-T O.151)
223–1 / 215–1
NULL (1FFF (hex)), variable
PID
DATA VALID
applicable to SPI interface
active
always
Trigger inputs/outputs
Triggers and connections reserved for future use
Triggers 1 to 10
Main trigger IN
Main trigger OUT
28
Broadcast Test System R&S SFU
connector
input impedance
input level
connector
input impedance
input level
D-Sub female, 25 pins, rear
high
HCT
BNC female, rear
50 Ω
HCT
Version 05.00, August 2006
General data
System data
System
Local control
External control
Remote control
Connectors
operating system
memories for settings
display
controls
controls
command set
IEC/IEEE
address range
IEC/IEEE interface functions
Ethernet
USB
IEC/IEEE
Ethernet
USB
AC supply input
PC platform
Windows XP Embedded
internal hard disk
50
XVGA 1024 × 768
rotary knob, hardkeys and softkeys
external mouse and keyboard via USB
SCPI 1999.5
IEC 60625 (IEEE 488)
1 to 30
SH1, AH1, T6, L4, SR1, RL1, PP1, DC1,
DT1, C0
10/100BaseT
1.1 (full speed)
Amphenol, 24 pins, rear
RJ-45, rear
USB, front and rear
IEC 60320 C14, rear
Operating data
Power supply
input voltage range,
AC, nominal
AC supply frequency
power factor correction
EMC
Immunity to interfering field strength
Environmental conditions
operating temperature range
Mechanical resistance
storage temperature range
climatic resistance, 95 % rel. humidity,
cyclic test at +25 °C/+40 °C
vibration, sinusoidal
vibration, random
shock
Electrical safety
Dimensions
Weight
W×H×D
W×H×D
fully equipped in kg
fully equipped in lb
Recommended calibration interval
Standard warranty period
100 V to 240 V
3.6 A to 1.3 A
47 Hz to 63 Hz
in line with DIN EN 61000-3-2
in line with DIN EN 55011 class B,
DIN EN 61326
up to 10 V/m
+5 °C to +45 °C14
in line with DIN 60068-2-1,
DIN 60068-2-2
–20 °C to +60 °C
in line with DIN 60068-2-3,
DIN EN 60068-2-30
5 Hz to 150 Hz, max. 2 g at 55 Hz,
55 Hz to 150 Hz, 0.5 g const.,
in line with DIN 60068-2-6
10 Hz to 300 Hz, acceleration 1.2 g (rms),
in line with DIN 60068-2-64
40 g shock spectrum,
in line with DIN 60068-2-27, MIL-STD-810E
in line with IEC 61010-1, 61010-1, and
UL 61010B-1, CSA C22.2 No. 1010.1
435 mm × 192 mm × 460 mm (4 HU)
17.14 in × 7.56 in × 18.12 in (4 HU)
15
33.1
3 years
1 year
14 Reduced brightness of LCD at higher operating temperatures.
Version 05.00, August 2006
Broadcast Test System R&S SFU
29
Ordering information
Option identification: R&S SFU-Bxy = hardware option, R&S SFU-Kxy = software option.
Delivery of R&S SFU base unit only with minimum of one coder or with the R&S SFU-K81 option installed.
If the R&S SFU-K81 option is installed, no digital or analog modulation system can be used.
Designation
Broadcast Test System
including power cable, hardcopy of quick start guide,
CD-ROM (includes operating manuals and quick start
guide)
Options
Basic configuration
Realtime Disabled
(option available only at initial delivery)
Realtime Enabled
(only if R&S SFU-K81 is installed)
RF path
High Power and Overvoltage Protection
Digital modulation systems
DVB-T/H Coder
DVB-C Coder
DVB-S/DVB-DSNG Coder
DVB-S2 Coder
(requires an installed R&S SFU-B1 or R&S SFU-B10)
ATSC/8VSB Coder
J.83/B Coder
ISDB-T Coder
MediaFLO Coder
(requires an installed R&S SFU-B10)
T-DMB/DAB Coder including Gaussian fading profiles
DMB-T (TDS-OFDM) Coder
(requires an installed R&S SFU-B1 or R&S SFU-B10)
DMB-TH (TDS-OFDM) Coder
(requires an installed R&S SFU-B1 or R&S SFU-B10)
DIRECTV Legacy Modulation Coder
(requires an installed R&S SFU-B1 or R&S SFU-B10)
AMC Coder
(requires an installed R&S SFU-K8 (DVB-S2)
and an installed R&S SFU-B1 or R&S SFU-B10)
Coder Extension 1
Coder Extension 10
Analog modulation systems
ATV Standard B/G Coder
(requires an installed R&S SFU-B2)
ATV Standard D/K Coder
(requires an installed R&S SFU-B2)
ATV Standard I Coder
(requires an installed R&S SFU-B2)
ATV Standard M/N Coder
(requires an installed R&S SFU-B2)
ATV Standard L Coder
(requires an installed R&S SFU-B2)
Multi ATV Predefined
(requires an installed R&S SFU-B3)
Coder Extension 2
Simulation
Fading Simulator
Fading Simulator Extension to 40 Paths
(requires an installed R&S SFU-B30)
Enhanced Fading
(requires an installed R&S SFU-B30)
DAB Gaussian Fading
(requires an installed R&S SFU-B30)
(included in R&S SFU-K11 and R&S SFU-K351)
ARB Generator
(requires an installed R&S SFU-B3)
30
Broadcast Test System R&S SFU
Type
R&S SFU
Order No.
2110.2500.02
R&S SFU-K81
2110.7960.02
R&S SFU-K82
2110.7976.02
R&S SFU-B90
2110.8008.02
R&S SFU-K1
R&S SFU-K2
R&S SFU-K3
R&S SFU-K8
2110.7301.02
2110.7324.02
2110.7330.02
2110.7399.02
R&S SFU-K4
R&S SFU-K5
R&S SFU-K6
R&S SFU-K10
2110.7353.02
2110.7360.02
2110.7376.02
2110.7524.02
R&S SFU-K11
R&S SFU-K7
2110.7518.02
2110.7382.02
R&S SFU-K12
2110.7760.02
R&S SFU-K9
2110.7401.02
R&S SFU-K108
only on request
R&S SFU-B1
R&S SFU-B10
2110.7424.02
2110.7747.02
R&S SFU-K190
2110.8050.02
R&S SFU-K191
2110.8037.02
R&S SFU-K192
2110.8043.02
R&S SFU-K193
2110.8066.02
R&S SFU-K194
2110.8072.02
R&S SFU-K199
2110.8089.02
R&S SFU-B2
2110.7430.02
R&S SFU-B30
R&S SFU-B31
2110.7530.02
2110.7547.02
R&S SFU-K30
2110.7560.02
R&S SFU-K32
2110.7630.02
R&S SFU-K35
2110.7601.02
Version 05.00, August 2006
Memory Extension 1
T-DMB/DAB Waveforms incl. Gaussian fading profiles
(requires an installed R&S SFU-K35 and, for using
Gaussian fading profiles, an installed R&S SFU-B30)
DVB-H Waveforms
(can be used with R&S SFU-K35)
DRM Waveforms
(can be used with R&S SFU-K35)
DTV Interferers
(can be used with R&S SFU-K35)
Interferer Management
Noise AWGN
Phase Noise
Impulsive Noise
Multinoise Use
(requires minimum of one installed R&S SFU-K40,
R&S SFU-K41 or R&S SFU-K42)
R&S SFU-B3
R&S SFU-K351
2110.7447.02
2110.4277.02
R&S SFU-K352
2110.4425.02
R&S SFU-K353
2110.4554.02
R&S SFU-K354
2110.4690.02
R&S SFU-K37
R&S SFU-K40
R&S SFU-K41
R&S SFU-K42
R&S SFU-K43
2110.7647.02
2110.7653.02
2110.7660.02
2110.7676.02
2110.7682.02
Extended I/Q
ETI Input/Output
Digital baseband
R&S SFU-K80
R&S SFU-B11
2110.7953.02
2110.7553.03
TS Generator including SDTV streams
DVB-H Stream Library
(requires an installed R&S SFU-K20)
Test Card M Streams
(requires an installed R&S SFU-K20)
HDTV Sequences
(requires an installed R&S SFU-K20)
H.264 Stream Library
(requires an installed R&S SFU-K20)
ISDB-T Stream Library
(requires an installed R&S SFU-K20)
TRP Player
(requires an installed R&S SFU-B6 and an installed
R&S SFU-B4)
TS Recorder
(requires an installed R&S SFU-K22, R&S SFU-B6
and R&S SFU-B4)
Memory Extension 2
Additional Hard Disk
for instruments with serial numbers <101000
Additional Hard Disk
for instruments with serial numbers >101000
T-DMB/DAB Streams
(requires an installed R&S SFU-K21 or
R&S SFU-K22)
Analog baseband
R&S SFU-K20
R&S DV-DVBH
2110.7476.02
2085.8704.02
R&S DV-TCM
2085.7708.02
R&S DV-HDTV
2085.7650.02
R&S DV-H264
2085.9052.02
R&S DV-ISDBT
2085.9146.02
R&S SFU-K22
2110.7499.02
R&S SFU-K21
2110.7482.02
R&S SFU-B4
R&S SFU-B6
2110.7453.02
2110.7501.02
R&S SFU-B6
2110.7501.03
R&S SFU-K221
2110.4348.02
Video Generator
(included in R&S SFU-K190 to -K194)
Measurement and analysis functions
R&S SFU-K23
2110.7799.02
BER Measurements
(possible only to a limited extent or not possible for
DVB-S2 and DIRECTV)
Other expansions
User I/O (additional input/output)
Upgrade Kit for R&S SFU-K43
Recommended extras
Hardcopy of operating manuals; includes quick start
guide (in English)
19" Rack Adapter
Adapter for Telescopic Sliders
Keyboard with USB Interface (US assignment)
Mouse with USB Interface, optical
External USB CD-RW Drive
R&S SFU-K60
2110.7782.02
R&S SFU-B5
R&S SFU-U43
2110.7460.02
2110.7699.02
Baseband inputs/outputs
Version 05.00, August 2006
2110.2522.12
R&S ZZA-411
R&S ZZA-T45
R&S PSL-Z2
R&S PSL-Z10
R&S PSP-B6
1096.3283.00
1109.3774.00
1157.6870.03
1157.7060.02
1134.8201.12
Broadcast Test System R&S SFU
31
Certified Environmental System
ISO 9001
ISO 14001
DQS REG. NO 1954 QM
DQS REG. NO 1954 UM
For product brochure, see PD 0758.1658.12
and www.rohde-schwarz.com
(search term: SFU)
www.rohde-schwarz.com
R&S® is a registered trademark of Rohde&Schwarz
Europe: +49 1805
GmbH&Co.
12 4242,KG
[email protected]
· Trade names are trademarks of the owners · Printed in Germany (Bi bb)
PD 0758.1658.22 · ¸SFU
USA and
· Version
Canada:05.00
+1-888-837-8772,
· August 2006 [email protected]
· Data without tolerance limits is not binding · Subject to change
Asia: +65 65130488, e-mail: [email protected]
R&S® is a registered trademark of Rohde&Schwarz GmbH&Co. KG · Trade names are trademarks of the owners · Printed in Germany (U bb)
PD 0758.1658.22 · ¸SFU · Version 05.00 · August 2006 · Data without tolerance limits is not binding · Subject to change
Certified Quality System
Overview of R&S SFU options
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