Product Brochure (english) for R&

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Product Brochure | 14.01
Test & Measurement
R&S®FSH Handheld
Spectrum Analyzer
Where mobility counts
21.01.2014 11:40:08
R&S®FSH Handheld
Spectrum Analyzer
At a glance
The R&S®FSH spectrum analyzer is rugged, handy
and designed for use in the field. Its low weight,
its simple, well-conceived operation concept and
the large number of measurement functions make
it an indispensable tool for anyone who needs an
efficient measuring instrument for outdoor work.
The R&S®FSH is a handheld spectrum analyzer and –
­depending on the model and the options installed – a
power meter, a cable and antenna tester and a two-port
­vector network analyzer. It provides the three most important RF analysis functions that an RF service technician
or an installation and maintenance team needs to solve
daily routine measurement tasks. For example, it can be
used for maintaining or installing transmitter systems,
checking cables and antennas, assessing signal quality in
­broadcasting, radiocommunications and service, measuring electric field strength or in simple lab applications. The
R&S®FSH can perform any of these tasks quickly, reliably
and with high measurement accuracy.
Weighing only 3 kg, the R&S®FSH is a handy instrument.
All frequently used functions have their own function keys
and are within fingertip reach. The brilliant color display
is easy to read even under poor lighting conditions, and it
has a monochrome mode for extreme conditions.
The capacity of the R&S®FSH battery enables uninterrupted operation for up to 4.5 hours. The battery is changed
within seconds. And if it rains? No problem – all connectors are splash-proof.
The R&S®FSH in operation during installation and maintenance of transmitter stations.
Key facts
❙❙ Frequency range from 9 kHz to 3.6/8/13.6/20 GHz
❙❙ High sensitivity (< –141 dBm (1 Hz),
with preamplifier < –161 dBm (1 Hz)
❙❙ 20 MHz demodulation bandwidth for analyzing
LTE signals
❙❙ Low measurement uncertainty (< 1 dB)
❙❙ Measurement functions for all important measurement
tasks related to the startup and maintenance of
transmitter systems
❙❙ Internal tracking generator and VSWR bridge with built-in
DC voltage supply (bias)
❙❙ Two-port network analyzer
❙❙ Rugged, splash-proof housing for rough work in the field
❙❙ Easy handling due to low weight (3 kg with battery) and
easy-to-reach function keys
❙❙ Easy operation thanks to user configurable, automatic
test sequences (wizard)
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R&S®FSH Handheld
Spectrum Analyzer
Benefits and
key features
Installation and maintenance of transmitter
stations (base stations)
❙❙ Power measurements on pulsed signals
❙❙ Channel power measurements
❙❙ Adjacent channel power measurements
❙❙ Measurements of spurious emissions (spectrum
emission mask)
❙❙ Measurements of the modulation spectrum on pulsed
signals with gated sweep
❙❙ Spectrogram measurements
❙❙ Analysis of transmit signals (connected to BTS or OTA)
■■ GSM/GPRS/EDGE
■■ WCDMA/HSDPA/HSPA+
■■ CDMA2000®
■■ 1xEV-DO
■■ LTE FDD/TDD
■■ TD-SCDMA/HSDPA
❙❙ Distance-to-fault measurements
❙❙ Two-port vector network analysis
❙❙ Scalar network analysis
❙❙ One-port cable loss measurements
❙❙ Vector voltmeter
❙❙ Position finding and increased measurement accuracy
using the GPS receiver
❙❙ Power measurements up to 67 GHz
❙❙ Directional power measurements up to 4 GHz
▷▷ page 4
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Interference analysis and geotagging
❙❙ Interference analysis with R&S®FSH-K15 and directional
antennas
❙❙ Geotagging
▷▷ page 12
Measurements of electromagnetic fields
❙❙ Field strength measurements with directional antennas
❙❙ Field strength measurements with isotropic antennas
▷▷ page 14
Diagnostic applications in the lab or in service
❙❙ General spectrum analysis
❙❙ EMC precompliance measurements and channel scan
❙❙ AM modulation depth measurements
❙❙ Measurements of signal distortions caused by harmonics
❙❙ Location of EMC problems
▷▷ page 16
Easy operation
❙❙ Quick function selection via keypad and rotary knob
❙❙ Optimal reading of measurement results in any situation
❙❙ Test report in just a few steps using the R&S®FSH wizard
❙❙ Setting of frequency via channel tables
❙❙ Operation in different languages
▷▷ page 18
Documentation and remote control
❙❙ R&S®FSH4View software for documenting ­measurement
results
❙❙ Remote control via LAN or USB
▷▷ page 21
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Installation and
maintenance of
transmitter stations
(base stations)
The R&S®FSH is designed for the installation and maintenance of transmitter systems. It provides the following
measurement functions:
❙❙ Checking of signal quality in the spectral and time
domain using channel power measurements and
measurements on pulsed signals
❙❙ Analysis of GSM/GPRS/EDGE, WCDMA/HSDPA/HSPA+,
LTE FDD/TDD, TD-SCDMA/HSDPA, CDMA2000® and
1xEV-DO transmit signals
❙❙ All measurements on transmit signals can be performed
connected to the base station as well as over the air
(OTA).
❙❙ Spectrogram analysis of intermittent faults
❙❙ Distance-to-fault measurements on cables and one-port
cable loss measurements
❙❙ Measuring of antenna match and testing of power
amplifiers using vector network analysis
❙❙ Determination of transmission power using power
sensors
Power measurements on pulsed signals
TDMA power measurement.
By means of the TDMA POWER function, the R&S®FSH
performs time-domain power measurements within a time
division multiple access (TDMA) timeslot. To make work
easier for the user, all required instrument settings are already predefined for the GSM and EDGE standards.
Channel power measurements
The R&S®FSH determines the power of a definable transmission channel by means of the channel power measurement function. A channel power measurement for the LTE,
WCDMA, GSM, TD-SCDMA, cdmaOne, CDMA2000® and
1xEVDO digital mobile communications standards is performed at a keystroke.
Channel power measurement.
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Adjacent channel power measurements
ACLR measurement on a 3GPP WCDMA signal with four carriers.
The ACLR measurement function enables the user to test
how far a base station carrier signal reaches into the adjacent channel. An ACLR value that is too low indicates poor
signal quality and can lead to the interference on the adjacent useful signals.
The adjacent channel power can be displayed as an
­absolute value or relative to the useful carrier. The
R&S®FSH offers predefined settings for ­various transmission standards such as WCDMA, CDMA2000®, 1xEVDO,
TD-SCDMA and LTE, but parameters can also be userdefined. For example, users can enter different channel
widths and spacings for up to 12 channels and up to 12
adjacent channels for the measurement of multicarrier
signals.
Measurements of spurious emissions (spectrum
emission mask)
Spectrum emission mask measurement on an LTE signal.
The R&S®FSH measures spurious emissions of a base station using the spectrum emission mask (SEM) function.
Spurious emissions can interfere with adjacent transmit signals, resulting in reduced signal quality and lower
data rates. By means of the SEM function, the R&S®FSH
tests whether the signal lies within the limits defined by
the wireless communications standard. The R&S®FSH
offers a wide range of predefined masks, e.g. for 3GPP
WCDMA, CDMA2000®, WiMAX™, LTE, TD-SCDMA,
WLAN and WiBro. New masks with user-defined settings
can be created and ­utilized quickly and easily with the
R&S®FSH4View software.
Measurements of the modulation spectrum on
pulsed signals with gated sweep
The gated sweep function is used to measure a pulsed
signal only in the time interval in which the pulse is active.
This method makes it possible, for instance, to display the
modulation spectrum of a GSM signal, a WLAN signal or,
as shown in the example, a pulsed WiMAX™ signal.
Modulation spectrum measurement (yellow trace) on a pulsed
WiMAX™ signal (white trace).
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Spectrogram measurements
Simultaneous display of spectrum and spectrogram.
The R&S®FSH-K14 spectrogram measurements application
allows the R&S®FSH to provide a history of the spectrum.
As a result, intermittent faults or variations in frequency
and level versus time can be analyzed. Specific evaluations
can be made by replaying recorded data and setting time
lines and markers.
Analysis of GSM/GPRS/EDGE transmit signals
The R&S®FSH-K10 option demodulates GSM, GPRS and
EDGE base station signals. A fast and accurate signal
­analysis is performed, allowing the user to easily check
and troubleshoot base stations.
The spectrum overview displays the RF channel power and
occupied bandwidth of the signal. If the received p
­ ower
is below the specified limit, it indicates poor link performance. A too high RF channel power would interfere with
other base stations.
Analysis of GSM/GPRS/EDGE transmit signals.
Analysis of a 3GPP WCDMA transmit signal with the R&S®FSH-K44
The result summary displays the main signal parameters
such as RF channel power, burst power, carrier frequency
error, modulation and base station identity code (BSIC).
The current traffic activity indicates whether capacity
­problems or low data rates may be related to an increase
in cell traffic. Modulation accuracy measurements on
GMSK and 8PSK modulated bursts are performed as required in the standard specifications. Poor modulation
accuracy values indicate problems in the BTS transmitter
components.
The power versus time display shows the GSM/EDGE
bursts in the time domain. It is used to check whether the
power and timing of the frame comply with the specifications. Equipped with the R&S®FSH-K10, the R&S®FSH
measurement results allow network operators to adjust
BTS transmit power and frequency settings accurately,
­improving signal quality and out-of-channel emissions.
The result is less interference, higher data rates and more
network capacity.
option.
Analysis of WCDMA/HSDPA/HSPA+ transmit
signals
When commissioning and maintaining base stations, u
­ sers
need a quick overview of the modulation characteristics,
the power of the code channels and the signal quality.
The R&S®FSH-K44 option demodulates 3GPP WCDMA
base station signals and performs a detailed analysis. In
addition to the total power, it measures the power of the
most important code channels such as the common pilot channel (CPICH), the primary common control physical channel (P-CCPCH) and the primary and secondary
­synchronization channels (P-SCH and S-SCH). It also
displays the carrier frequency offset and the error vector magnitude (EVM) which is used to draw conclusions
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The 3GPP WCDMA code domain power measurement provides an
­overview of the key signal parameters.
about signal quality. The ratio of the chip energy (EC) to the
power density of the interference signal (I0) provides information about the signal-to-interference ratio. The scrambling code can be determined at the press of a button and
used automatically for decoding the code channels. For
a quick overview of adjacent base stations, the R&S®FSH
provides up to eight scrambling codes with associated
CPICH power. Equipped with the isotropic antennas of the
R&S®TS-EMF measurement system, the R&S®FSH-K44 can
also measure the electrical field strength of the ­WCDMA
signal.
The R&S®FSH-K44 option is easy to use. Only three operating steps are required to display the measurement results:
❙❙ Select the 3GPP WCDMA function
❙❙ Set the center frequency
❙❙ Start the scrambling code search
Analysis of a CDMA2000® transmit signal with the R&S®FSH-K46 option.
The R&S®FSH-K44E option provides code domain power
measurements for in-depth WCDMA/HSDPA/HSPA+
analyses. This option allows the channel power of occupied and unoccupied code channels to be graphically
displayed. The resulting summary provides an overview
of key signal parameters such as RF channel power, code
channel power and composite EVM. The code domain
channel table contains additional information such as symbol rate, channel number with the associated spreading
factor and automatic detection and display of the channel
type.
Analysis of CDMA2000® transmit signals
The CDMA2000® code domain power measurement provides an o
­ verview
The R&S®FSH-K46 option ideally equips the R&S®FSH for
CDMA2000® base station transmitter measurements. In
addition to total power, the spectrum analyzer determines
the power of the pilot channel (F-PICH) and the synchronization channel (F-SYNC). The carrier frequency offset, the
error vector magnitude (EVM) and Rho are also measured
and displayed. This allows the user to detect transmitter
impairments such as clipping or intermodulation that are
difficult to recognize in the spectrum.
of the key signal parameters.
For in-depth analysis, the R&S®FSH-K46E option is available for code domain power measurements. This option
permits the graphical display of the channel power of occupied an unoccupied channels. The resulting summary
provides and overview of key signal parameters, e.g.
RF channel power, channel power, Rho and EVM. Channel
power is displayed relative to the total power or relative to
the power of the pilot channel.
The code domain channel table contains additional information such as the symbol rate and the channel number
with its Walsh code.
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Analysis of 1xEV-DO transmit signals
Analysis of a 1xEV-DO transmit signal with the R&S®FSH-K47 option.
The R&S®FSH-K47 option equips the R&S®FSH for
1xEV‑DO base station transmitter measurements. The
­analyzer measures all key parameters that provide ­useful
information about the signal quality and the power distribution of various code channels. These include the ­total
power, the ratio of peak power to average power, the
power of the pilot, MAC and data as well as the c
­ arrier
frequency offset, the EVM and Rho. This allows the user
to detect transmitter impairments such as clipping or
intermodulation that are difficult to recognize in the spectrum. In addition, current traffic activity is displayed. This
value shows whether connection problems or low data
rates are caused by high traffic activity.
The R&S®FSH-K47E option enables in-depth 1xEV-DO
measurements. For a quick overview of adjacent base stations, the R&S®FSH provides up to eight PN offsets with
corresponding power. The burst power measurement
in the time domain is used to check whether the power
and timing of the 1xEV-DO frame comply with standard
specifications.
Analysis of an LTE FDD transmit signal using the R&S®FSH-K50 option.
Analysis of LTE FDD/TDD transmit signals
The constellation diagram of the R&S®FSH-K50E option provides a
The R&S®FSH-K50/-K51 1) option equips the R&S®FSH for
measurements on LTE FDD and LTE TDD ­eNodeB transmitters. It can analyze all signal bandwidths up to 20 MHz
that are defined in the LTE standard. Both options support all important LTE measurements – from single input
single output (SISO) to 4x4 multiple input multiple output
(MIMO) transmissions. In addition to the total power, the
R&S®FSH-K50/-K51 determines the power of the reference
signal, the power of the physical control format indicator
channel (PCFICH), the physical broadcast channel (PBCH)
and the two synchronization channels PSYNC and SSYNC.
It also measures and displays the carrier frequency offset
and EVM value of the reference signal and the useful data.
Users can now detect transmitter impairments such as
clipping or intermodulation that are difficult to recognize in
the spectrum.
­graphical overview of the LTE transmit signal quality.
Using the isotropic antennas of the R&S®TS-EMF measurement system, the R&S®FSH K50/K51 can also measure the
electric field strength of the LTE signal.
The R&S®FSH-K50E/R&S®FSH-K51E options are available
for in-depth LTE analysis. In addition to displaying the EVM
value, this option includes a constellation diagram that
graphically displays the quality of the LTE signal. The different modulation types and LTE signal components can
be displayed separately. An LTE BTS scanner is provided
for measurements over the air interface. This scanner
shows the power of the up to eight strongest LTE signals
and provides a quick overview of all LTE base stations in
the surrounding area.
The R&S®FSH‑K50/-K51 options are available for R&S®FSH analyzers with serial
numbers ≥ 105000.
1)
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Analysis of TD-SCDMA/HSDPA transmit signals
Equipped with the R&S®FSH-K48/-K48E measurement applications, the R&S®FSH provides the user with quick overview of the main parameters needed for commissioning
and maintaining TD-SCDMA/HSDPA base stations.
Analysis of TD-SCDMA transmit signals.
The result summary display is available with the
R&S®FSH-K48 measurement application. It shows the carrier frequency error (CFE) and the PCCPCH symbol error
vector magnitude (EVM), which indicate signal quality. The
absolute channel power and the channel power in relation
to the total signal power of the data parts and midamble
parts of a selected timeslot are measured. These measurements provide information about the signal-to-interference
ratio.
TD-SCDMA time domain display is available with the R&S®FSH-K48E
option.
The R&S®FSH-K48E measurement application enables fast
and reliable in-depth analysis of TD-SCDMA/HSDPA signals. The time domain power display shows the received
­power, C/I and composite EVM of each active slot within
the ­TD-SCDMA subframe. The results are simultaneously
displayed in a table and in a diagram. Display lines and
numbering help the user easily check whether the power
and timing of each subframe meet specifications.
The code domain power display shows the active and inactive TD-SCDMA codes within the selected frequency
channel. The channel table display shows the main parameters of the TD-SCDMA and HSDPA channels. The
Sync ID display shows the signals coming from different
base stations.
Two-port vector network analysis
Vector network analysis: simultaneous display of four S-parameters.
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The vector measurements option adds a built-in tracking
generator and an internal VSWR bridge, transforming the
R&S®FSH models into a two-port vector network analyzer.
Matching and transmission characteristics of filters, amplifiers, etc. can be determined quickly and with high accuracy in the forward and reverse direction with only one test
setup. The built-in DC bias supplies power to active DUTs,
such as amplifiers, via the RF cable. This function is especially useful for mast-mounted amplifiers in a base station.
❙❙ Higher measurement accuracy due to vector system
error correction
❙❙ Measurement of magnitude and phase of S-parameters
S11, S21, S12 and S22
❙❙ Simultaneous display of magnitude and phase in splitscreen mode
❙❙ Simultaneous display of four different S-parameters
❙❙ Smith chart with zoom function
❙❙ Support of all conventional marker formats
❙❙ Input of a reference impedance for DUTs with an
impedance other than 50 Ω
❙❙ Electrical length measurement
❙❙ Determination of group delay
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Scalar network analysis
Vector network analysis: measurement with Smith chart.
If you do not need the advantages of vector network
­analysis for reflection and transmission measurements, the
R&S®FSH models featuring a built-in tracking generator are
a more cost-effective solution for determining the transmission characteristics of cables, filters and amplifiers. The
R&S®FSH models with a built-in VSWR bridge (models .24
and .28) can additionally measure the matching (return
loss, reflection coefficient or VSWR), e.g. of an antenna.
One-port cable loss measurements
The R&S®FSH can determine the cable loss of ­installed cables without much effort. Simply connect one end of the
cable to the R&S®FSH measurement port. The other end of
the cable is terminated with a short circuit or left open.
Distance-to-fault measurements
The distance-to-fault, caused by a pinched cable or by
loose or corroded cable connections, is determined quickly
and precisely. The built-in threshold function ensures that
only true cable faults, i.e. faults that exceed a ­tolerance
limit, are listed. This considerably simplifies measurement
evaluation.
Scalar transmission measurement.
Vector voltmeter
The R&S®FSH-K45 vector voltmeter option displays the
magnitude and phase of a DUT at a fixed frequency. Therefore, the R&S®FSH (models .24 and .28) can replace a
conventional vector voltmeter for many applications. Because the required signal source and bridge are already
available in the R&S®FSH, costs are saved and the test
setup is significantly simplified, making the R&S®FSH-K45
the right choice for field use. For relative measurements,
the measurement results of a reference DUT are stored
at the press of a button. Comparison measurements, e.g.
between different RF cables and a reference cable (golden
device), can be quickly and easily performed.
Distance-to-fault measurements (DTF).
Typical applications:
❙❙ Adjustment of electrical cable length
❙❙ Checking of phase-controlled antennas such as used in
an instrument landing system (ILS) in air traffic control
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Vector voltmeter display.
Position finding and increased measurement
accuracy using the GPS receiver
Using the R&S®HA-Z240 GPS receiver, the R&S®FSH documents where a measurement is carried out. The longitude,
latitude and altitude of the position are shown on the display. If required, the position can be stored together with
the measurement results. Moreover, the GPS receiver
increases the frequency measurement accuracy by synchronizing the internal reference oscillator to the GPS
frequency reference. One minute following position finding, the frequency accuracy of the R&S®FSH is 25 ppb
(25 × 10–9). To fasten the GPS receiver on the roof of a car,
for example, the GPS receiver is equipped with a magnet
and a 5 m cable.
Power measurements up to 67 GHz
Display of the current position with the R&S®HA-Z240 GPS receiver
connected.
Equipped with the R&S®FSH-Z1 and the R&S®FSH-Z18
power sensors or the R&S®NRP-Zxx USB power sensors,
the R&S®FSH becomes a highly accurate RF power meter
up 67 GHz with a measurement range from –67 dBm to
+45 dBm.
Directional power measurements up to 4 GHz
The R&S®FSH-Z14 and R&S®FSH-Z44 directional power
sensors transform the R&S®FSH into a full-featured directional power meter for the frequency ranges from 25 MHz
to 1 GHz and from 200 MHz to 4 GHz. The R&S®FSH can
then simultaneously measure the output power and the
matching of transmitter system antennas under operating
conditions. The power sensors measure average power
up to 120 W and normally eliminate the need for any extra
attenuators. They are compatible with the common GSM/
EDGE, 3GPP WCDMA, cdmaOne, CDMA2000® 1x, DVB-T
and DAB standards. In addition, the peak envelope power
(PEP) up to max. 300 W can be determined.
The R&S®FSH and the R&S®FSH-Z1 terminating power sensor.
The R&S®FSH and the R&S®FSH-Z44 directional power sensor.
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Interference
analysis and
geotagging
In wireless systems interference causes low data rates,
dropped calls and poor voice quality, often making it impossible to establish or maintain a connection.
A rugged, lightweight, handheld spectrum analyzer such
as the R&S®FSH is the optimum tool for interference analysis in the field.
Interference analysis with R&S®FSH-K15 and
directional antennas
Equipped with the R&S®FSH-K15 option and a directional
antenna such as the R&S®HL300, the R&S®FSH helps network operators and regulatory bodies to successfully detect and characterize interfering signals and find interference sources.
The RSSI, C/I, C/N and signal strength measurement displays help users to easily find, monitor and characterize
interfering signals.
With the “save on event function”, thresholds can be defined to detect short duration or intermittent signals.
The spectrogram display shows frequency, time and level
information, allowing the time pattern of the interfering signal to be analyzed using the recording and replay
functions.
R&S®FSH with R&S®HL300 antenna.
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The mapping feature uses the triangulation technique to
locate the interferer. Using the R&S®OSM wizard Open
Street Maps (OSM) can be easily downloaded for use with
the R&S®FSH.
The tone feature helps users acoustically find the direction
where the interference is coming from without needing to
constantly look at the map or watch the signal levels.
The R&S®HL300 is the perfect handheld antenna for interference hunting with the R&S®FSH. It covers frequencies between 450 MHz and 8 GHz and is equipped with
GPS and an electronic compass. There is a switch on top
of the R&S®HL300 handle that can be used to trigger a
measurement or switch on the R&S®FSH preamplifier. The
R&S®HL300 weighs only 1 kg and has a small footprint,
which makes it very handy for interference hunting in the
field together with the R&S®FSH.
Geotagging
Display of map triangulation lines with R&S®FSH-K15
When equipped with the R&S®FSH-K16, a GPS receiver
(i.e. R&S®HA-Z240) and an antenna, the R&S®FSH can
analyze the geographical distribution of the received signal
strength, enabling network operators to analyze the coverage conditions around the base station`s coverage area.
The R&S®FSH-K16 geotagging option can also be used by
base station maintenance technicians to document and report on the map the site location where the measurements
were performed.
The measured data can be displayed on Google Earth for
postprocessing, making it easier to recognize areas with
poor coverage or high levels of interference.
Site location display with R&S®FSH-K16
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Measurements of
electromagnetic
fields
The effects of electromagnetic fields (EMF) caused by
transmitter systems can be reliably determined by the
R&S®FSH. Due to its large frequency range of up to
20 GHz, the R&S®FSH covers all common wireless communications services, including GSM, CDMA, WCDMA,
LTE, DECT, Bluetooth®, WLAN (IEEE 802.11a, b, g, n),
WiMAX™, broadcasting and television.
The R&S®FSH is ideally suited for the following
measurements:
❙ Determination of maximum field strength using
directional antennas
❙ Direction-independent field strength measurements
using an isotropic antenna
❙ Determination of electric field strength in a transmission
channel with defined bandwidth (channel power
measurement)
The R&S®FSH with the R&S®HE300 antenna.
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Field strength measurements with directional
antennas
Field strength measurements with isotropic
antennas
When measuring electric field strength, the R&S®FSH
takes into account the specific antenna factors of the connected antenna. The field strength is displayed directly in
dBμV/m. If W/m2 is selected, the power flux density is calculated and displayed. In addition, frequency-dependent
loss or gain, e.g. of a cable or amplifier, can be corrected.
For simple result analysis, the R&S®FSH provides two userdefinable limit lines with automatic limit monitoring.
Equipped with the isotropic antennas of the R&S®TS-EMF
measurement system, the R&S®FSH can determine the
direction-independent resultant field strength in the frequency range from 9 kHz to 6 GHz. The antenna includes
three orthogonally arranged antenna elements for measuring the resultant field strength. The R&S®FSH sequentially
activates the three antenna elements and calculates the
resultant field strength, taking into ­account the antenna
factors for each antenna element as well as the cable loss
of the connection cable.
The R&S®FSH with isotropic antennas.
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Diagnostic
applications in the
lab or in service
The fold-out stand turns the R&S®FSH into a desktop
analyzer for work in the lab or in service.
The R&S®FSH is suitable, for example, for the ­following
measurements:
❙❙ Frequency and level measurements
❙❙ Power measurements up to 67 GHz with the accuracy of
a power meter
❙❙ Measurements on amplifiers, filters, etc. using vector
network analysis
❙❙ Automated generation of test sequences by remote
control via LAN or USB
EMC precompliance measurements and channel
scan
Equipped with the R&S®FSH-K43 option, the R&S®FSH can
be operated as a receiver for precompliance EMC applications and monitoring tasks. Measurements are performed
at a predefined frequency with adjustable measurement
time.
In the channel scan mode, the R&S®FSH sequentially
measures the levels at various frequencies defined in a
channel table. The channel tables are generated with the
R&S®FSH4 View software and loaded into the R&S®FSH.
There are predefined tables for a large number of mobile
communications standards and TV transmitters. CISPR
bandwidths of 200 Hz, 9 kHz, 120 kHz, and 1 MHz are
available for EMI emission measurements. Peak, average,
RMS and quasi-peak detectors can be selected.
EMC precompliance measurement at a fixed frequency with adjustable
measurement time.
Channel scan of a 3GPP WCDMA frequency band.
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AM modulation depth measurements
The R&S®FSH measures the modulation depth of an AMmodulated signal at the push of a button. The AM modulation depth measurement function positions one marker
each on the carrier, the upper sideband and the lower sideband, and uses sideband suppression to determine the
modulation depth. The modulation frequency can be predefined to selectively determine the modulation depth of
a two-tone signal, for example by starting with the 90 Hz
sideband and then moving to the 150 Hz sideband of an
ILS signal.
Measurements of signal distortions caused by
harmonics
The R&S®FSH determines the harmonics of a device under
test, e.g. an amplifier, with the harmonic distortion measurement function. In addition to the graphical display of
the harmonics, the R&S®FSH also calculates and displays
the total harmonic distortion (THD).
Location of EMC problems
The R&S®HZ-15 near-field probes are used as diagnostic
tools for locating EMC problems, e.g. on circuit boards,
integrated circuits, cables and shielding. The R&S®HZ-15
near-field probe set is ideal for emission measurements
from 30 MHz to 3 GHz. The R&S®HZ-16 preamplifier improves measurement sensitivity up to 3 GHz, with approx.
20 dB gain and a noise figure of 4.5 dB. In combination
with the R&S®FSH, the preamplifier and near-field probe
set are a cost-effective means of analyzing and locating
disturbance sources during development.
The R&S®FSH with near-field probes and DUT.
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Easy operation
All frequently used functions, such as reference
level, bandwidths and frequency, can be set directly
via keys.
Quick function selection via keypad and rotary
knob
The R&S®FSH is operated via the keypad and rotary knob.
The selected function can be activated directly using the
Enter button integrated into the rotary knob. The vertical
design puts all operating elements within fingertip reach.
The MODE key is used to switch between the various operating modes such as “spectrum analyzer“, “vector network analyzer“, “digital modulation analysis“ and “power
meter“.
All basic settings can be conveniently made in a straightforward list. Measurement results, including instrument
settings, are saved to the internal memory, the replaceable SD memory card or a USB stick. Predefined instrument settings can be locked to prevent them from being
changed unintentionally. This reduces the risk of incorrect
measurements.
The USER key allows frequently required measurements
to be collected in a single menu. User-defined instrument
setups are assigned to softkeys under a user-definable
name.
All operating elements are within fingertip reach.
For documentation purposes, the contents of a screenshot
can be saved as a graphics file – with a single keystroke.
Optimal reading of measurement results in any
situation
The measurement results are easy to read on the brilliant,
clearly laid out 6.5" VGA color display. The backlighting of
the display can be adjusted to the ambient lighting conditions. For use in extremely strong sunlight, a special
monochrome mode provides optimal contrast.
Test report in just a few steps using the R&S®FSH
wizard
When an antenna is installed or a transmit station is commissioned, the customer usually requests a test report.
The required measurements are defined in test instructions. The R&S®FSH wizard makes this procedure easy for
the user and eliminates the need to consult the installation instructions. The dialog-based wizard guides the user
through the measurements and automatically saves the
results.
The advantages for the user:
❙ Easy creation of test sequences using the wizard
❙ Incorrect measurements are prevented thanks to
predefined test sequences
❙ No need to consult test instructions
❙ Reproducible measurement results
❙ Time is saved by speeding up the installation process
❙ All members of an installation team use the same test
sequence
❙ Uniform test report format
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Setting of frequency via channel tables
Easy configuration of instrument setup.
As an alternative to entering a frequency, the R&S®FSH
can be tuned using channel numbers. The channel number is displayed instead of the center frequency. Users
who are familiar with the channel assignments commonly
used in wireless communications or TV/broadcast applications can operate the R&S®FSH even more easily. TV channel tables for a large number of countries are supplied
with the R&S®FSH.
Operation in different languages
The user interface of the R&S®FSH is available in various
languages. Almost all of the softkeys, operating instructions and messages will then be displayed in the selected
language. The R&S®FSH supports the following languages:
English, German, Korean, Japanese, Chinese, Russian,
­Italian, Spanish, Portuguese, French and Hungarian.
Selecting the channel table.
Straightforward menus for easy selection of functions.
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Easy-to-access, well-protected connectors
Additional inputs/outputs such as the DC voltage supply
(bias), LAN and USB interfaces and the SD memory card
are easily accessible under dust-proof hinged covers on
the side of the instrument.
Additional connectors (e.g. for LAN and USB) are protected by
hinged covers.
Front view
RF input
Tracking generator output
Connector for headphones
Connector for power sensor
Ext. trigger input
Ext. reference input
IF output/video output
Bias input
Connector for accessories
USB interface, type A 1)
SD memory card
Color LCD (640 × 480 pixel), can be switched
to high-contrast monochrome display in
extreme sunlight
LAN/USB interface
Simple menu-based
operation via softkeys
Selection between different operating modes
(”spectrum analyzer”, “vector network
analyzer”, “power meter”, etc.)
Function keys
Selection of the measurement function
(channel power, occupied bandwidth, etc.)
Kensington lock
Call-up of user-defined
settings
General instrument setup
Screenshot
Rotary knob with Enter button
Cursor keys
1)
Interface integrated into instruments with serial numbers ≥ 105000.
For connecting the R&S®NRP-Zxx power sensors and USB sticks.
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Documentation and
remote control
The supplied R&S®FSH4View software makes it easy
to document measurement results and manage
instrument settings.
The R&S®FSH with laptop.
R&S®FSH4View software for documenting
measurement results
❙ Fast data exchange between the R&S®FSH and a PC via a
USB or LAN connection
❙ Easy processing of measurement results thanks to data
export in ASCII or Excel format
❙ Storage of graphics data in .bmp, .pcx, .png and .wmf
format
❙ Printout of all relevant data via Windows PC
❙ Remote signal monitoring via LAN by means of
permanent and continuous transfer of sweeps
❙ Simple comparison of measurement results
❙ Automatic storage of measurement results at selectable
intervals
❙ Subsequent analysis of measurement results by
displaying/hiding and shifting markers
❙ Subsequent display of limit lines
❙ Generation of cable data using an integrated cable editor
and downloading to the R&S®FSH for distance-to-fault
measurement
❙ Editor for generating limit lines, antenna factors and
transducer factors for external attenuators and amplifiers
as well as channel lists
❙ Compatible with Windows XP, Windows Vista (32/64 bit
version) and Windows 7 (32/64 bit version)
Remote control via LAN or USB
The R&S®FSH can be remotely controlled via the USB or
LAN interface and integrated into user-specific programs.
The SCPI-compatible remote control commands are activated by the R&S®FSH-K40 option.
The R&S®FSH4View software.
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System
configuration
Options and
applications
Altogether eight R&S®FSH models for different applications and frequency ranges are available (models .04/.08
/.14/.18/.24/.28/.13/.20). The R&S®FSH can perform measurements up to an upper frequency limit of 3.6 GHz,
8 GHz, 13.6 GHz or 20 GHz. Models featuring a built-in
tracking generator can also be used to determine the
transmission characteristics of cables, filters, amplifiers,
etc.
Additional models with built-in tracking generator and
internal VSWR bridge are available for distance-to-fault
(DTF) measurements, matching measurements and vector
network analysis.
All models have an adjustable preamplifier, making them
suitable for measuring very small signals. Two power sensors are available as accessories – for precise terminating
power measurements up to 18 GHz and for directional
power measurements up to 4 GHz.
The following tables show possible configurations for different standard functions and applications as well as an
overview of available models.
Easy-to-replace lithium ion battery for up to 4.5 h of operation.
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R&S®FSH standard functions
TDMA power measurements
Models
.04/.08/.13/.20
•
Models .14/.18
Models .24/.28
Models .23/.30
•
•
•
Channel power measurements
•
•
•
•
Field strength measurements/measurements
with i­sotropic antennas
Occupied bandwidth measurements
•
•
•
•
•
•
•
•
Frequency settings via channel tables
•
•
•
•
Scalar transmission measurements
–
•
•
–
Scalar reflection measurements
–
–
•
–
Vector transmission (S12) and reflection (S22)
measurements
One port cable loss measurements
–
–
–
•
–
–
–
•
Models .14/.18
Models .24/.28
Models .23/.30
Spectrogram measurements
Models
.04/.08/.13/.20
R&S®FSH-K14
R&S®FSH-K14
R&S®FSH-K14
R&S®FSH-K14
Interference Analysis
R&S®FSH-K15
R&S®FSH-K15
R&S®FSH-K15
R&S®FSH-K15
R&S®FSH options
Geotagging
R&S®FSH-K16
R&S®FSH-K16
R&S®FSH-K16
R&S®FSH-K16
Receiver mode and channel scan measurements
R&S®FSH-K43
R&S®FSH-K43
R&S®FSH-K43
R&S®FSH-K43
Analysis of GSM/GPRS/EDGE transmit signals
R&S®FSH-K10
R&S®FSH-K10
R&S®FSH-K10
R&S®FSH-K10
Analysis of WCDMA/HSDPA/HSPA+ transmit signals
R&S®FSH-K44/
R&S®FSH-K44E
R&S®FSH-K46/
R&S®FSH-K46E
R&S®FSH-K47/
R&S®FSH-K47E
R&S®FSH-K48/
R&S®FSH-K48E
R&S®FSH-K50 1)/
R&S®FSH-K50E
R&S®FSH-K51 1)/
R&S®FSH-K51E
–
R&S®FSH-K44/
R&S®FSH-K44E
R&S®FSH-K46/
R&S®FSH-K46E
R&S®FSH-K47/
R&S®FSH-K47E
R&S®FSH-K48/
R&S®FSH-K48E
R&S®FSH-K50 1)/
R&S®FSH-K50E
R&S®FSH-K51 1)/
R&S®FSH-K51E
–
R&S®FSH-K44/
R&S®FSH-K44E
R&S®FSH-K46/
R&S®FSH-K46E
R&S®FSH-K47/
R&S®FSH-K47E
R&S®FSH-K48/
R&S®FSH-K48E
R&S®FSH-K50 1)/
R&S®FSH-K50E
R&S®FSH-K51 1)/
R&S®FSH-K51E
R&S®FSH-K41
R&S®FSH-K44/
R&S®FSH-K44E
R&S®FSH-K46/
R&S®FSH-K46E
R&S®FSH-K47/
R&S®FSH-K47E
R&S®FSH-K48/
R&S®FSH-K48E
R&S®FSH-K50 1)/
R&S®FSH-K50E
R&S®FSH-K51 1)/
R&S®FSH-K51E
R&S®FSH-K41
–
–
R&S®FSH-K42
–
Analysis of CDMA2000® signals
Analysis of 1xEV-DO signals
Analysis of TD-SCDMA/HSDPA signals
Analysis of LTE FDD signals
Analysis of LTE TDD signals
Distance-to-fault (DTF) measurements
Vector reflection and transmission measurements
(S11, S22, S21, S12)
One-port cable loss measurements
–
–
R&S®FSH-K42
–
Vector voltmeter
–
–
R&S®FSH-K45
R&S®FSH-K45
Power measurements up to 67 GHz
see power sensors on page 27
Directional power measurements up to 1 GHz/4 GHz
R&S®FSH-Z14/
R&S®FSH-Z44
R&S®FSH-K40
R&S®FSH-Z14/
R&S®FSH-Z44
R&S®FSH-K40
R&S®FSH-Z14/
R&S®FSH-Z44
R&S®FSH-K40
Remote control via LAN or USB
R&S®FSH-Z14/
R&S®FSH-Z44
R&S®FSH-K40
Models
R&S®FSH4, model .04
Frequency range
Preamplifier
Tracking generator
9 kHz to 3.6 GHz
•
–
Built-in VSWR bridge DC voltage supply
(bias) for port 1/2
–
–
R&S®FSH4, model .14
9 kHz to 3.6 GHz
•
•
–
–
R&S®FSH4, model .24
100 kHz to 3.6 GHz
•
•
•
•
R&S®FSH8, model .08
9 kHz to 8 GHz
•
–
–
–
R&S®FSH8, model .18
9 kHz to 8 GHz
•
•
–
–
R&S®FSH8, model .28
100 kHz to 8 GHz
•
•
•
•
R&S®FSH13, model .13 9 kHz to 13.6 GHz
•
–
–
–
R&S®FSH20, model .23 9 kHz to 13.6 GHz
•
•
•
–
R&S®FSH20, model .20 9 kHz to 20 GHz
•
–
–
–
R&S®FSH20, model .30 9 kHz to 20 GHz
•
•
•
–
Available for R&S®FSH analyzers with serial numbers ≥ 105000.
1)
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Specifications in brief
Spectrum analysis
Frequency range
models .04/.14/.08/.18/
.13/.23/.20/.30
models .24/.28
Resolution bandwidths
Displayed average noise
level
R&S®FSH4
R&S®FSH8
R&S®FSH13
R&S®FSH20
9 kHz to 3.6 GHz
9 kHz to 8 GHz
9 kHz to 13.6 GHz
9 kHz to 20 GHz
100 kHz to 3.6 GHz
100 kHz to 8 GHz
–
–
1 Hz to 3 MHz
without preamplifier, RBW = 1 Hz (normalized)
9 kHz to 100 kHz
< –108 dBm, –118 dBm typ.
(models .04/.14/.08/.18 only)
100 kHz to 1 MHz
< –115 dBm, –125 dBm typ.
1 MHz to 10 MHz
< –136 dBm, –144 dBm typ.
10 MHz to 2 GHz
< –141 dBm, –146 dBm typ.
2 GHz to 3.6 GHz
< –138 dBm, –143 dBm typ.
3.6 GHz to 5 GHz
–
< –96 dBm, –106 dBm typ.
< –142 dBm, –146 dBm typ.
5 GHz to 6.5 GHz
–
< –140 dBm, –144 dBm typ.
6.5 GHz to 13.6 GHz
–
< –136 dBm, –141 dBm typ.
13.6 GHz to 18 GHz
–
–
–
18 GHz to 20 GHz
–
–
–
< –134 dBm,
–139 dBm typ.
< –130 dBm,
–135 dBm typ.
with preamplifier, RBW = 1 Hz (normalized)
100 kHz to 1 MHz
1 MHz to 10 MHz
< –157 dBm, –161 dBm typ.
< –155 dBm, –160 dBm typ.
< –161 dBm, –165 dBm typ.
–
–
2 GHz to 3.6 GHz
< –159 dBm, –163 dBm typ.
3.6 GHz to 5 GHz
–
< –155 dBm, –159 dBm typ.
5 GHz to 6.5 GHz
–
< –151 dBm, –155 dBm typ.
6.5 GHz to 8 GHz
–
< –147 dBm, –150 dBm typ.
8 GHz to 13.6 GHz
–
–
< –158 dBm, –162 dBm typ.
13.6 GHz to 18 GHz
–
–
< –155 dBm, –160 dBm typ.
18 GHz to 20 GHz
–
–
–
3.6 GHz to 20 GHz
Weight
–
> 3 dBm, +10 dBm typ.
< –95 dBc (1 Hz), –105 dBc (1 Hz) typ.
100 kHz carrier offset
< –100 dBc (1 Hz), –110 dBc (1 Hz) typ.
1 MHz carrier offset
< –120 dBc (1 Hz), –127 dBc (1 Hz) typ.
sample, max. peak, min. peak, auto peak, RMS
10 MHz < f ≤ 3.6 GHz
3.6 GHz < f ≤ 20 GHz
Dimensions (W × H × D)
> 10 dBm, +15 dBm typ.
30 kHz carrier offset
Display
Battery operating time
(without tracking
generator)
< –150 dBm,
–155 dBm typ.
frequency 500 MHz
Detectors
Level measurement
uncertainty
–
10 MHz to 2 GHz
Third-order intercept (IP3) 300 MHz to 3.6 GHz
Phase noise
< –133 dBm, –143 dBm typ.
< 1 dB, typ. 0.5 dB
–
< 1.5 dB, 1 dB typ.
6.5" color LCD with VGA resolution
R&S®HA-Z204, 4.5 Ah
up to 3 h
R&S®HA-Z206, 6.75 Ah
up to 4.5 h
194 mm × 300 mm × 69 mm (144 mm) 1)
7.6 in × 11.8 in × 2.7 in (5.7 in) 3 kg (6.6 lb)
With carrying handle.
1)
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Vector network analysis 1)/vector voltmeter 2)
Frequency range
models .24/.28/.23/.30
R&S®FSH4
R&S®FSH8
R&S®FSH13/20
300 kHz to 3.6 GHz
300 kHz to 8 GHz
300 kHz to 8 GHz
Output power (port 1)
0 dBm to –40 dBm
–
Output power (port 2)
0 dBm to –40 dBm
0 dBm to –40 dBm
Reflection measurements (S11, S22)
Directivity
Display modes
300 kHz to 3 GHz
> 43 dB nominal
> 43 dB nominal
> 43 dB nominal 3)
3 GHz to 3.6 GHz
> 37 dB nominal
> 37 dB nominal
> 37 dB nominal 3)
3.6 GHz to 6 GHz
–
> 37 dB nominal
> 37 dB nominal 3)
6 GHz to 8 GHz
–
> 31 dB nominal
> 31 dB nominal 3)
vector reflection and transmission measurement
(R&S®FSH-K42)
vector voltmeter
(R&S®FSH-K45)
magnitude, phase, magnitude + phase, Smith chart, VSWR, reflection coefficient, mρ,
one-port cable loss, electrical length, group delay
100 kHz to 300 kHz
70 dB typ.
70 dB typ.
–
300 kHz to 3.6 GHz
> 70 dB, 90 dB typ.
> 70 dB, 90 dB typ.
–
3.6 GHz to 6 GHz
–
> 70 dB, 90 dB typ.
–
6 GHz to 8 GHz
–
50 dB typ.
–
100 kHz to 300 kHz
80 dB typ.
typ. 80 dB
typ. 80 dB
300 kHz to 3.6 GHz
> 80 dB, 100 dB typ.
> 80 dB, 100 dB typ.
> 80 dB, 100 dB typ.
3.6 GHz to 6 GHz
–
> 80 dB, 100 dB typ.
> 80 dB, 100 dB typ.
6 GHz to 8 GHz
–
60 dB typ.
60 dB typ.
vector reflection and transmission measurement
(R&S®FSH-K42)
vector voltmeter
(R&S®FSH-K45)
magnitude (attenuation, gain), phase, magnitude + phase, electrical length, group delay
magnitude + phase, Smith chart
Transmission measurements
Dynamic range (S21)
Dynamic range (S12)
Display modes
1)
2)
3)
magnitude + phase
Available for models .24/.28/.23/.30 only; models .24/.28 require R&S®FSH-K42 additionally.
For models .24/.28/.23/.30 only, requires R&S®FSH-K45.
Only S22-measurements.
For data sheet, see PD 5214.0482.22 and www.rohde-schwarz.com
The R&S®FSH with fold-out stand for desktop use.
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Ordering information
Designation
Type
Order No.
Handheld Spectrum Analyzer, 9 kHz to 3.6 GHz, with preamplifier
R&S®FSH4
1309.6000.04
Handheld Spectrum Analyzer, 9 kHz to 3.6 GHz, with preamplifier and tracking generator
R&S®FSH4
1309.6000.14
Handheld Spectrum Analyzer, 100 kHz to 3.6 GHz, with preamplifier, tracking generator
and internal VSWR bridge
Handheld Spectrum Analyzer, 9 kHz to 8 GHz, with preamplifier
R&S®FSH4
1309.6000.24
R&S®FSH8
1309.6000.08
Handheld Spectrum Analyzer, 9 kHz to 8 GHz, with preamplifier and tracking generator
R&S®FSH8
1309.6000.18
Handheld Spectrum Analyzer, 100 kHz to 8 GHz, with preamplifier, tracking generator and internal VSWR bridge R&S®FSH8
1309.6000.28
Handheld Spectrum Analyzer, 9 kHz to 13.6 GHz, with preamplifier
R&S®FSH13
1314.2000.13
Handheld spectrum analyzer, 9 kHz to 13.6 GHz, with preamplifier, tracking generator 300 kHz to 8 GHz and
VSWR-Bridge
Handheld Spectrum Analyzer, 9 kHz to 20 GHz, with preamplifier
R&S®FSH13
1314.2000.23
R&S®FSH20
1314.2000.20
Handheld spectrum analyzer, 9 kHz to 20 GHz, with preamplifier, tracking generator 300 kHz to 8 GHz and
VSWR-Bridge
Accessories supplied
R&S®FSH20
1314.2000.30
Base unit
Li-ion battery pack, USB cable, LAN cable, AC power supply, CD-ROM with R&S®FSH4View software and documentation, quick start guide
Hardware option
Li-Ion Battery Pack, 6.75 Ah (factory installed)
R&S®FSH-B106
1304.5958.02
Spectrogram Measurement Application
R&S®FSH-K14
1304.5770.02
Interference Analysis Measurement Application (software license)
R&S®FSH-K15
1309.7488.02
Geotagging Measurement Application (software license)
R&S®FSH-K16
1309.7494.02
Remote Control via LAN or USB
R&S®FSH-K40
1304.5606.02
Distance-to-Fault Measurement (for models .24/.28/.23/.30 only, requires R&S®FSH-Z320 or R&S®FSH-Z321 and
R&S®FSH-Z28 or R&S®FSH-Z29)
Vector Reflection and Transmission Measurements
(for models .24/.28/.23/.30 only, requires R&S®FSH-Z28 or R&S®FSH-Z29)
Vector Voltmeter (for models .24/.28/.23/.30 only, requires R&S®FSH-Z28 or R&S®FSH-Z29)
R&S®FSH-K41
1304.5612.02
R&S®FSH-K42
1304.5629.02
R&S®FSH-K45
1304.5658.02
GSM, EDGE Measurement Application
R&S®FSH-K10
1304.5864.02
3GPP WCDMA BTS/NodeB Pilot Channel and EVM Measurement Application
R&S®FSH-K44
1304.5641.02
3GPP WCDMA BTS/NodeB Code Domain Power Measurement Application (R&S®FSH-K44 required)
R&S®FSH-K44E
1304.5758.02
CDMA2000® BTS Pilot Channel and EVM Measurement Application
R&S®FSH-K46
1304.5729.02
CDMA2000® BTS Code Domain Power Measurement Application (R&S®FSH-K46 required)
R&S®FSH-K46E
1304.5764.02
1xEV-DO BTS Pilot Channel and EVM Measurement Application
R&S®FSH-K47
1304.5787.02
1xEV-DO BTS PN Scanner and Time Domain Power Measurement Application (R&S®FSH-K47 required)
R&S®FSH-K47E
1304.5806.02
TD-SCDMA BTS Power and EVM Measurements
R&S®FSH-K48
1304.5841.02
TD-SCDMA/HSDPA BTS Power and EVM Measurements (R&S®FSH-K48 required)
R&S®FSH-K48E
1304.5858.02
LTE FDD Downlink Pilot Channel and EVM Measurement Application 1)
R&S®FSH-K50
1304.5735.02
LTE FDD Downlink Extended Channel and Modulation Measurement Application 1) (R&S®FSH-K50 required)
R&S®FSH-K50E
1304.5793.02
LTE TDD Downlink Pilot Channel and EVM Measurement Application 1)
R&S®FSH-K51
1304.5812.02
LTE TDD Downlink Extended Channel and Modulation Measurement Application 1) (R&S®FSH-K51 required)
R&S®FSH-K51E
1304.5829.02
Receiver Mode and Channel Scan Measurement Application
R&S®FSH-K43
1304.5635.02
Software options (usually firmware)
26
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Designation
Type
Order No.
Power Sensor, 10 MHz to 8 GHz
R&S®FSH-Z1
1155.4505.02
Power Sensor, 10 MHz to 18 GHz
R&S®FSH-Z18
1165.1909.02
Directional Power Sensor, 25 MHz to 1 GHz
R&S®FSH-Z14
1120.6001.02
Directional Power Sensor, 200 MHz to 4 GHz
R&S®FSH-Z44
1165.2305.02
Accessories
USB Adapter Cable for R&S FSH-Z1/-Z18, length: 1.8 m
R&S FSH-Z101
1164.6242.02
Precision Frequency Reference, aging: < 3.6 × 10–9 /year
R&S®FSH-Z114
1304.5935.02
USB Adapter Cable for R&S®FSH-Z14/-Z44, length: 1.8 m
R&S®FSH-Z144
1145.5909.02
Universal Power Sensor, 200 pW to 200 mW, 10 MHz to 8 GHz 1) 2)
R&S®NRP-Z11
1138.3004.02
Universal Power Sensor, 1 nW to 100 mW, 10 MHz to 8 GHz 1) 2)
R&S®NRP-Z211
1417.0409.02
Universal Power Sensor, 200 pW to 200 mW, 10 MHz to 18 GHz 1) 2)
R&S®NRP-Z21
1137.6000.02
Universal Power Sensor, 1 nW to 100 mW, 10 MHz to 18 GHz
R&S®NRP-Z221
1417.0309.02
Universal Power Sensor, 2 nW to 2 W, 10 MHz to 18 GHz 1) 2)
R&S®NRP-Z22
1137.7506.02
Universal Power Sensor, 20 nW to 15 W, 10 MHz to 18 GHz 1) 2)
R&S®NRP-Z23
1137.8002.02
Universal Power Sensor, 60 nW to 30 W, 10 MHz to 18 GHz 1) 2)
R&S®NRP-Z24
1137.8502.02
Universal Power Sensor, 200 pW to 200 mW, 10 MHz to 33 GHz 1) 2)
R&S®NRP-Z31
1169.2400.02
1) 2)
Wideband Power Sensor, 1 nW to 100 mW, 50 MHz to 18 GHz R&S®NRP-Z81
1137.9009.02
Thermal Power Sensor, 1 µW to 100 mW, DC to 18 GHz 1) 2)
R&S®NRP-Z51
1138.0005.02
Thermal Power Sensor, 1 µW to 100 mW, DC to 40 GHz 1) 2)
R&S®NRP-Z55
1138.2008.02
Thermal Power Sensor, 300 nW to 100 mW, DC to 50 GHz 1) 2)
R&S®NRP-Z56
1171.8201.02
Thermal Power Sensor, 300 nW to 100 mW, DC to 67 GHz 1) 2)
R&S®NRP-Z57
1171.8401.02
1) 2)
Average Power Sensor, 200 pW to 200 mW, 9 kHz to 6 GHz R&S®NRP-Z91
1168.8004.02
Average Power Sensor, 2 nW to 2 W, 9 kHz to 6 GHz 1) 2)
R&S®NRP-Z92
1171.7005.02
USB Adapter (passive), for connecting R&S®NRP-Zxx power sensors to the R&S®ZVH
R&S-NRP-Z4
1146.8001.02
RF Cable (1 m), N male/N female, for R&S®FSH-K41 option, DC to 8 GHz
R&S®FSH-Z320
1309.6600.00
RF Cable (3 m), N male/N female, for R&S®FSH-K41 option, DC to 8 GHz
R&S®FSH-Z321
1309.6617.00
Combined Open/Short/50 Ω Load Calibration Standard, for calibrating VSWR and DTF measurements,
DC to 3.6 GHz
Combined Open/Short/50 Ω Load Calibration Standard, for calibrating VSWR and DTF measurements,
DC to 8 GHz
Calibration Kit, 3.5 mm male, Open/Short/50 Ω Load/Through combination, 0 Hz to 15 GHz
R&S®FSH-Z29
1300.7510.03
R&S®FSH-Z28
1300.7810.03
R&S®ZV-Z135
1317.7677.02
Calibration Kit, 3.5 mm female, Open/Short/50 Ω Load/Through combination, 0 Hz to 15 GHz
R&S®ZV-Z135
1317.7677.03
Calibration Kit, N male, Open/Short/50 Ω Load/Through combination, 0 Hz to 9 GHz
R&S®ZV-Z170
1164.0496.02
Calibration Kit, N female, Open/Short/50 Ω Load/Through combination, 0 Hz to 9 GHz
R&S®ZV-Z170
1164.0496.03
Matching Pad, 50 Ω/75 Ω, bidirectional, 0 Hz to 2.7 GHz, N female/N male, load capacity 2 W
R&S®RAZ
0358.5714.02
Matching Pad, 50 Ω/75 Ω, bidirectional, 0 Hz to 2.7 GHz, N female/N male, load capacity 2 W
R&S®RAM
0358.5414.02
Matching Pad, 50 Ω/75 Ω, bidirectional, 0 Hz to 1 GHz, BNC female/N male, load capacity 1 W
R&S®FSH-Z38
1300.7740.02
1) 2)
Adapter, N male/BNC female
0118.2812.00
Adapter, N male/N male
0092.6581.00
Adapter, N male/SMA female
4012.5837.00
Adapter, N male/7/16 female
3530.6646.00
Adapter, N male/7/16 male
3530.6630.00
Adapter, N male/FME female
4048.9790.00
Adapter, BNC male/banana female
Attenuator, 50 W, 20 dB, 50 Ω, DC to 6 GHz, N female/N male
FSH_bro_en_5214-0482-12.indd 27
0017.6742.00
R&S®RDL50
1035.1700.52
Rohde & Schwarz R&S®FSH Handheld Spectrum Analyzer 27
21.01.2014 11:40:39
Designation
Type
Order No.
Attenuator, 100 W, 20 dB, 50 Ω, DC to 2 GHz, N female/N male
R&S®RBU100
1073.8495.20
Attenuator, 100 W, 30 dB, 50 Ω, DC to 2 GHz, N female/N male
R&S®RBU100
1073.8495.30
Li-Ion Battery Pack, 4.5 Ah
R&S®HA-Z204
1309.6130.00
Li-Ion Battery Pack, 6.75 Ah
R&S®HA-Z206
1309.6146.00
Battery Charger, for Li-ion battery pack, 4.5 Ah/6.75 Ah R&S®HA-Z203
1309.6123.00
12 V Car Adapter
R&S®HA-Z202
1309.6117.00
Soft Carrying Bag (W × H × D: 260 mm × 360 mm × 280 mm; 10.2 in × 14.2 in × 11.0 in)
R&S®HA-Z220
1309.6175.00
Hard Case
R&S®HA-Z221
1309.6181.00
Carrying Holster, including chest harness and rain cover
R&S®HA-Z222
1309.6198.00
3)
Shoulder Strap for Carrying Holster
R&S®HA-Z223
1309.6075.00
SD Memory Card, 4 Gbyte 4)
R&S®HA-Z232
1309.6223.00
GPS Receiver
R&S®HA-Z240
1309.6700.03
Headphones
R&S®FSH-Z36
1145.5838.02
GSM/UMTS/CDMA Antenna, with magnetic mount 850/900/1800/1900/2100 band, N connector
R&S®TS95A16
1118.6943.16
Active Directional Antenna, 20 MHz to 7.5 GHz, with mechanical compass
R&S®HE300
4067.5900.02
Active Directional Antenna, 20 MHz to 7.5 GHz, with GPS and electronic compass
R&S®HE300
4067.5900.03
Loop Antenna for R&S®HE300, 9 kHz to 20 MHz
R&S®HE300-HF
4067.6806.02
Handheld Directional Antenna R&S®HL300, 450 MHz to 8 GHz
R&S®HL300
4097.3005.02
Isotropic Antenna, 30 MHz to 3 GHz, for R&S®TS-EMF
R&S®TSEMF-B1
1074.5719.02
Isotropic Antenna, 700 MHz to 6 GHz, for R&S®TS-EMF
R&S®TSEMF-B2
1074.5702.02
Isotropic Antenna, 9 kHz to 200 MHz, for R&S®TS-EMF
R&S®TSEMF-B3
1074.5690.02
Near Field Probe Set
R&S®HZ-15
1147.2736.02
Preamplifier for R&S®HZ-15
R&S®HZ-16
1147.2720.02
Spare USB Cable
R&S®HA-Z211
1309.6169.00
Spare LAN Cable
R&S®HA-Z210
1309.6152.00
Spare AC Adapter
R&S®HA-Z201
1309.6100.00
Spare CD-ROM, with R&S®FSH4View software and R&S®FSH documentation
R&S®FSH-Z45
1309.6246.00
Quick Start Manual for R&S®FSH, printed version, English
R&S®FSH-Z46
1309.6269.12
Quick Start Manual for R&S®FSH, printed version, German
R&S®FSH-Z47
1309.6269.11
3)
4)
1)
2)
Only for R&S®FSH analyzers with serial numbers ≥ 105000.
For the R&S®NRP-Zxx power sensors, the R&S®NRP-Z4 USB adapter is also required.
Required to charge the battery pack outside the R&S®FSH.
R&S®FSH analyzers with serial numbers ≤ 105000 require an SD memory card for a firmware update.
Service options
Extended Warranty, one year
R&S®WE1
Extended Warranty, two years
R&S®WE2
Extended Warranty, three years
R&S®WE3
Extended Warranty, four years
R&S®WE4
Extended Warranty with Calibration Coverage, one year
R&S®CW1
Extended Warranty with Calibration Coverage, two years
R&S®CW2
Extended Warranty with Calibration Coverage, three years
R&S®CW3
Extended Warranty with Calibration Coverage, four years
R&S®CW4
Please contact your local
­Rohde & Schwarz sales office.
The Bluetooth® word mark and logos are registered trademarks owned by B
­ luetooth SIG, Inc. and any use of such marks by Rohde & Schwarz is under license.
CDMA2000® is a registered trademark of the Telecommunications Industry A
­ ssociation (TIA-USA).
“WiMAX Forum“ is a registered trademark of the WiMAX Forum. “WiMAX“, the WiMAX Forum logo, “WiMAX Forum Certified“, and the WiMAX Forum Certified logo are
trademarks of the WiMAX Forum.
FSH_bro_en_5214-0482-12.indd 28
Rohde & Schwarz R&S®FSH Handheld Spectrum Analyzer 28
21.01.2014 11:40:39
From pre-sale
to ­service.
At your doorstep.
The Rohde & Schwarz network in over 70 countries ensures
optimum on-site support by highly qualified experts.
User risks are reduced to a minimum at all stages of the
project:
❙❙ Solution finding/purchase
❙❙ Technical startup/application development/integration
❙❙ Training
❙❙ Operation/calibration/repair
Finland
Norway
Sweden
Estonia
Latvia
Lithuania
Denmark
United
Kingdom
Russian
Federation
Poland
Netherlands
Czech Republic
Belgium
France
Austria
Switzerland
Italy
Ukraine
Hungary
Slovenia Romania
Bulgaria
Serbia
Spain
Azerbaijan
Portugal
Greece
Malta
Canada
Germany
Cologne
Munich
Portland
Kazakhstan
Turkey
Cyprus
Mongolia
Azerbaijan
Beijing
USA
Columbia/Maryland
Los Angeles
Dallas
Algeria
Tunisia
Israel
Egypt
Mexico
South
Korea
China
Jordan
Chengdu
Pakistan
Saudi
Arabia
UAE
Oman
New Delhi
India
Hyderabad
Senegal
Nigeria
Vietnam
Thailand
Bangalore
Japan
Shanghai
Taiwan
Shenzhen
Hong Kong
Philippines
Malaysia
Sales level
Colombia
Kenya
Sales locations
Singapore
Indonesia
Service level
Brazil
Backup service
Area support center
Local service center
Calibration and maintenance with
standardized automatic calibration systems
Calibration and maintenance
Maintenance
South Africa
Chile
Australia
Uruguay
Argentina
New Zealand
FSH_bro_en_5214-0482-12.indd 29
Rohde & Schwarz R&S®FSH Handheld Spectrum Analyzer 29
21.01.2014 11:40:39
Service that adds value
❙
❙
❙
❙
❙
Worldwide
Local and personalized
Customized and flexible
Uncompromising quality
Long-term dependability
About Rohde & Schwarz
Rohde & Schwarz is an independent group of companies
specializing in electronics. It is a leading supplier of solutions in the fields of test and measurement, b
­ roadcasting,
radiomonitoring and radiolocation, as well as secure
communications. Established more than 80 years ago,
­Rohde & Schwarz has a global presence and a dedicated
service network in over 70 countries. Company headquarters are in Munich, Germany.
Quality management and environmental
management
Rohde & Schwarz is certified in line with the ISO 9001 and
ISO 14001 management systems.
Certified Quality Management
ISO 9001
Certified Environmental Management
ISO 14001
Rohde & Schwarz GmbH & Co. KG
www.rohde-schwarz.com
R&S® is a registered trademark of Rohde & Schwarz GmbH & Co. KG
Trade names are trademarks of the owners
PD 5214.0482.12 | Version 14.01 | January 2014 (as)
R&S®FSH Handheld Spectrum Analyzer
Data without tolerance limits is not binding | Subject to change
© 2008 - 2014 Rohde & Schwarz GmbH & Co. KG | 81671 München, Germany
5214.0482.12 14.01 PDP 1 en
For more information contact us at sales@testforce.com, or
call us toll-free at 1(888)880-6804. www.testforce.com
Regional contact
❙❙ Europe, Africa, Middle East | +49 89 4129 12345
customersupport@rohde-schwarz.com
❙❙ North America | 1 888 TEST RSA (1 888 837 87 72)
customer.support@rsa.rohde-schwarz.com
❙❙ Latin America | +1 410 910 79 88
customersupport.la@rohde-schwarz.com
❙❙ Asia/Pacific | +65 65 13 04 88
customersupport.asia@rohde-schwarz.com
❙❙ China | +86 800 810 8228/+86 400 650 5896
customersupport.china@rohde-schwarz.com
5214048212
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