R&S®ZVA Vector Network Analyzer

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Product Brochure | 11.00
Test & Measurement
R&S®ZVA
Vector Network Analyzer
High performance up to
110 GHz with up to
four test ports
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R&S®ZVA Vector
Network Analyzer
At a glance
The R&S®ZVA series is the high-end class of the
­Rohde & Schwarz network analyzers. It combines
operating ease and high measurement speed,
uniformly implemented in the R&S®ZVA, R&S®ZVB
and R&S®ZVT, with exceptional RF characteristics,
a wide scope of functions and high flexibility.
The R&S®ZVA series is an ideal choice for demanding measurements in the lab and in production – from filter measurements requiring maximum dynamic range to linear
and nonlinear measurements on amplifiers and mixers as
well as on receivers and transceivers.
The R&S®ZVA has set milestones for the most challenging
applications:
❙❙ First VNA with four internal sources up to 67 GHz for fast
two-tone measurements on amplifiers and mixers
❙❙ First VNA up to 67 GHz that generates phase-coherent
signals
❙❙ First VNA with IF bandwidths up to 30 MHz for pulsed
measurements on amplifiers and mixers up to 110 GHz
Key facts
❙❙ Linear and nonlinear amplifier and mixer measurements
❙❙ Noise figure measurements
❙❙ Pulse ­profile m
­ easurements with 12.5 ns resolution
❙❙ True differential measurements for reliable
­characterization of active ­devices with balanced ports
❙❙ High output power typ. > 15 dBm
❙❙ Wide dynamic range typ. > 140 dB
❙❙ High measurement speed < 3.5 µs per test point
❙❙ Wide IF bandwidth: 1/5/30 MHz
❙❙ Versatile calibration techniques: TOSM, TRL/LRL, TOM,
TRM, TNA, UOSM
❙❙ Automatic calibration units
❙❙ Phase and group delay measurements on mixers with
and without LO access
❙❙ Frequency range: 300 kHz to 8 GHz (R&S®ZVA8), 10 MHz
to 24/40/50/67/110 GHz (R&S®ZVA24/40/50/67/110)
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R&S®ZVA Vector
Network Analyzer
Benefits and
key features
High measurement throughput
❙❙ Short measurement times due to fast synthesizers,
wide IF bandwidths and high dynamic range)
▷▷ page 6
Ergonomic user interface
❙❙ More than 100 traces and channels
❙❙ Measurement wizard for easy setup of multiport and
balanced measurements
▷▷ page 8
Easy and error-free calibration
❙❙ Versatile calibration techniques for test fixtures as well as
for coaxial and on-wafer applications
❙❙ Automatic calibration with calibration unit
▷▷ page 10
Linear and nonlinear amplifier and mixer
­measurements
❙❙ Simultaneous measurement of noise figure and
S-parameters
❙❙ Wide power sweep range for small and large signal
­analysis in one sweep
❙❙ Second internal source for fast hot S22, IMD and ­mixer
measurements
❙❙ Phase and group delay measurements of the conversion
loss on mixers and converters with and without LO
access
❙❙ Conversion loss measurement of converters with up to
three conversion stages
❙❙ Intermodulation measurements on mixers
▷▷ page 12
Options to enhance flexibility, power and
dynamic range
❙❙ Direct access to the generators and receivers for 30 dBm
output power and 150 dB dynamic range
❙❙ Time domain with linear prediction for increased
­resolution
▷▷ page 15
Convenient handling of pulse profile
measurements
❙❙ Easy setup of pulse profile measurements with 12.5 ns
time resolution and up to 30 MHz measurement
­bandwidth
▷▷ page 17
Quick and reliable measurements on mulitiports
and balanced ­components
Measurements on active devices made easy
❙❙ Virtual and true differential mode for linear and nonlinear
testing of differential components
▷▷ page 11
❙❙ Extension unit for the R&S®ZVA with integrated
combiner, pulse modulators and harmonic filters
▷▷ page 18
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Introduction
Short technology cycles and project-dependent requirements mean that investments need to be made with a
strong focus on flexibility and future-readiness.
At the same time, measurement tasks are becoming more
complex and require higher measurement precision.
The R&S®ZVA family of vector network analyzers meets
these demands by providing excellent measurement
speed, dynamic range and measurement precision.
A ­variety of measurement capabilities build on this solid
base to allow the characterization of various components
and modules. Complex measurements are supported by
measurement wizards to shorten the setup and calibration
time and reduce the probability of operator errors.
The R&S®ZVA hardware platform with up to four independent signal sources and two independent receivers per
test port is the right base for future measurement requirements and secure investments.
Block diagram of the R&S®ZVA8/24/40/50
four-port models
Measurement receiver
Block diagram of the R&S®ZVA24/40 four-source
models and the ZVA67 four-port model
Measurement receiver
Reference receiver
Reference receiver
PORT 4
Measurement receiver
PORT 4
Measurement receiver
Reference receiver
Reference receiver
PORT 3
PORT 3
Measurement receiver
Measurement receiver
Reference receiver
Reference receiver
PORT 2
PORT 2
Measurement receiver
Measurement receiver
Reference receiver
Reference receiver
PORT 1
PORT 1
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Test set design for enhanced performance and
flexibility
Design and operating principle of the
R&S®ZVA110
The test set includes a number of special design features.
There is one measurement channel and one reference
channel for each test port, an RF switch in each generator path and a generator for each pair of test ports. The
R&S®ZVA24/40 four-source models and the R&S®ZVA67
four-port model even have a generator for each test port.
This makes the R&S®ZVA an analyzer of unprecedented
performance and functionality, which is especially true for
the four-port model:
❙ True differential measurements on balanced DUTs
❙ Two or four independent sources, e.g. for LO and RF
signals for fast mixer or intermodulation measurements
❙ Parallel signal output and measurement at the test ports
for measuring two or more DUTs simultaneously
❙ Direct generator/receiver access option to connect
external test setups, e.g. power amplifiers, or use as a
multichannel receiver, e.g. for antenna measurements
❙ Generation of up to four coherent signals for A&D
applications such as measurement of antenna arrays
❙ Extendable to active harmonic load pull solutions (foursource models)
The R&S®ZVA110 consists of an R&S®ZVA67 four-port base
unit that is enhanced by two R&S®ZVA-Z110E W-band
converters with electronic attenuator and diplexer.
The overall system has two test ports with 1 mm connectors located on the diplexer outputs.
In the frequency range from 10 MHz to 67 GHz, the test
signal will be generated in the R&S®ZVA67 four-port
network analyzer and routed to the 1 mm test ports via
diplexers. From 67 GHz to 110 GHz, the diplexers switch
over and the test signal is routed to the test port via the
converters and diplexers.
A bias signal can also be fed to the active components via
the diplexers.
The R&S®ZVA-Z110E converters with electronic attenuators allow both level sweeping with compression point
measurement and level calibration at the input of the
amplifier under test.
R&S®ZVA110 with continuous sweep from 10 MHz to 110 GHz.
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High measurement
throughput
Wide dynamic range for fast and ­accurate
­measurements
The R&S®ZVA sets new standards in measurement speed.
Its large IF bandwidths and fast synthesizers combine
to yield short measurement times and high ­throughput
in manual adjustments and automated production
­sequences. The measurement time per test point is less
than 3.5 µs in the CW mode; a frequency sweep over
200 test points takes less than 5 ms.
Due to the analyzer‘s wide dynamic ­range and low phase
noise, this speed advantage does not compromise measurement accuracy.
Fast switching between instrument setups
Dynamic range between test ports at 10 Hz IF bandwidth.
When analyzing two or more DUTs, the required instrument setups no longer have to be loaded from the hard
disk one after the other. Once called, setups remain available in RAM, including calculated data, e.g. calibration values obtained by interpolation. Switching between setups
can be done virtually without delay, i.e. in less than 10 ms
by r­ emote control. With conventional instruments, recalling setups can take up to one second. Each setup is represented by a separate measurement window.
This design feature also makes it easier to handle large
volumes of measured data. If a display area becomes too
“­crowded“, data can easily be distributed to other windows (setups). You can easily switch between windows by
using the mouse or pressing a key.
Segmented sweep for optimized speed, accuracy
and dynamic range
Switching between setups at the click of a mouse.
The segmented sweep function allows you to divide a
sweep into a virtually u
­ nlimited number of segments.
Sweep parameters such as test point ­spacing, measurement bandwidth and ­generator power can be defined separately for each segment and accurately matched to the
DUT characteristic. Measurement speed and accuracy can
thus be further optimized.
Parallel measurements – up to four ­times faster
In addition to the standard operating mode, the concept of
the R&S®ZVA allows test ports to be organized in groups,
e.g. in two groups of two ports each or in four groups of
one port each. Measurements are carried out on the various groups simultaneously, provided the test parameters
are identical for each group. This means that measuring
two or more DUTs in the parallel mode takes no more time
than measuring a single DUT in the standard mode. Compared to sequential measurements, measurement speed
will therefore double when measuring two two-port DUTs
in parallel and quadruple when measuring four one-port
DUTs in parallel.
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Data transfer simultaneously with sweep
Since trace data is transferred via the IEC/IEEE bus or LAN
at the same time measured data is being captured, data
transfer time on the R&S®ZVA is insignificant.
Channel bits and user port – high-speed control of
external devices
To speed up automatic test cycles even further, a special
port for trigger I/O s­ ignals and status indication is provided
on the rear panel. These signals directly synchronize external devices of a test setup or the settings of a DUT with
the internal measurement sequences of the R&S®ZVA.
No remote control sequences are required, which saves
­execution time. The pins of the USER CONTROL port also
provide information on the net time required for measuring
one point, one sweep or carrying out a partial measurement. This makes it easy to determine net measurement
times and optimize synchronization.
Parallel measurements
The test signals are applied to the
DUTs simultaneously. Measurements
are also carried out ­simultaneously.
Compared to the standard (sequential) mode, measurement throughput
DUT 1
DUT 2
DUT 1
DUT 2
is doubled with the test configuration
shown here.
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Ergonomic
user ­interface
State-of-the-art DUTs feature a steadily increasing number
of complex functions and ports, which also places higher
demands on the instrument‘s display capabilities. The
R&S®ZVA provides highly versatile functions for displaying
results in a straightforward manner.
Virtually unlimited number of ­channels and traces
Over 100 traces can be combined in any manner within
the individual diagrams and assigned to over 100 different channels. DUTs can thus be measured using a wide
variety of stimulus conditions, and all parameters of interest can be displayed on the screen. The names of traces­,
channels and markers can be ­edited and replaced by user-­
specific names to make them easier to identify.
Easy export and import of r­ esults
Equation editor.
The use of the Windows XP Embedded operating system,
in conjunction with a variety of interfaces, makes it easy
to integrate measurement results into documentation by
saving screen contents as *.bmp, *.png, *.jpg or *.emf
files and ­exporting these files to a text processing system.
Trace data can be stored as *.snp, *.csv or *.dat files and
­subsequently analyzed and processed using other tools.
In addition, externally created files such as *.snp and *.csv
files can be imported into the R&S®ZVA as stored trace
data.
Convenient equation editor for complex trace
­mathematics
The R&S®ZVA includes a universal equation editor with
extensive functions for trace mathematics. These functions can be used to link any active traces and stored
traces in a variety of ways in realtime. This makes external
analysis programs unnecessary. Generated equations can
be stored, processed with external tools and reloaded as
required.
Flexible channel and trace layout.
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Typical configuration steps with the measurement wizard.
Measurement wizard – step by step to the test
setup you want
Measuring multiports and balanced DUTs with a network
analyzer usually requires major configuration ­effort on the
part of the user, for example for configuring the port topology, selecting the parameters to be displayed, setting the
sweep mode or choosing the appropriate calibration technique. With the R&S®ZVA, a measurement wizard guides
you step by step through the test setup to create the configuration you want. It queries all necessary inputs and
offers default settings for the measurement task at hand.
Using the wizard, you can e.g. configure the R&S®ZVA
to display all 16 mixed-mode S
­ -parameters of a balanced
two-port in virtually no time.
Embedding/deembedding – ­impedance matching
­using ­virtual networks
Coaxial and balanced components such as SAW filters,
which are used in frontends of mobile phones, for example, must be specified together with the networks that
match them to the impedance of the surrounding circuit.
In addition, parasitic effects, which occur when the DUT is
installed in its operational environment, can be simulated.
Using special algorithms, the R&S®ZVA embeds the DUT
in virtual matching networks and also deembeds it to eliminate parasitic effects such as those caused by strip lines.
The R&S®ZVA offers various types of transformation networks. The values of the network elements can be edited.
If you modify values of individual elements, the R&S®ZVA
immediately recalculates the network and (de)embeds the
DUT in the new network in quasi-­realtime.
Alternatively, you can read *.s2p and *.s4p files g
­ enerated
with EDA tools i­nto the R&S®ZVA and use the data for
­embedding/deembedding.
Parameterizable network for virtual impedance matching.
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Easy and error-free
calibration
Versatile calibration techniques for all fields of
­application
The R&S®ZVA not only offers classic TOSM calibration (Through, Open, Short, Match), but also a variety
of other calibration techniques. Since each test port of
the R&S®ZVA is equipped with a reference receiver of its
own, modern seven‑term calibration techniques can be
used. These include TRL/LRL (Through, Reflect, Line/
Line, ­Reflect, Line), TOM (Through, Open, Match), TNA
(Through, Network, Attenuator) and TRM (Through,
­Reflect, Match), which are suitable for calibration in
test fixtures or on wafers. Since calibration is performed
­directly on the DUT plane, any effects from the test fixture
are eliminated.
Automatic calibration – fast, ­error-free and with
high ­precision
While all manual calibration techniques such as TOSM,
TRM and TRL can be used for multiport measurements,
­they are time-consuming, error-prone and lead to excessive wear of the calibration standard. Rohde & Schwarz
offers an automatic calibration unit for coaxial one-port
and multiport calibration. The unit is ready to operate immediately after being connected and performs complete
four-port calibration covering 201 test points in less than
30 seconds.
The R&S®ZVA allows any combination between the analyzer‘s test port connectors and the connectors of the
calibration unit. The analyzer detects the connections
­automatically. Errors due to wrong connections are a thing
of the past.
Calibration unit.
The R&S®ZVA‘s firmware also allows the recharacterization
of calibration units by the user. Moreover, it is possible to
characterize a calibration unit together with an adapter of
any type. By treating the adapter as part of the calibration
unit, the R&S®ZVA supports any combination of connector types, which means that the calibration unit itself can
be equipped with up to four different connectors. Userspecific adapters can also be placed on the connectors of
the calibration unit, which protects the connectors against
wear.
Adapter removal functionality
The UOSM (Unknown Through, Open, Short, Match) calibration technique allows a through connection with unknown parameters to be used as a calibration standard.
This makes it possible to use any adapter with all types of
connectors as a “U“ (adapter removal functionality), thus
supporting calibration of a DUT with different connector
types.
R&S®ZV-Z4xx verification kits for reliable proof of
measurement accuracy
The R&S®ZV-Z4xx verification kits are used to confirm the
rated specifications and measurement accuracy of the
Rohde & Schwarz vector network analyzers under the given
environmental conditions and test parameters. The kits
include offset short, mismatch, attenuator and stepped
through standards. Both one-port and two-port verification is supported. The verification kits support measurements on directly insertable male-to-female connections.
Male-to-male and female-to-female reference planes can
be verified by using an adapter and adapter deembedding.
The R&S®VNAMUC vector network analyzer measurement
uncertainty calculator is a multifunctional software tool
that offers uncertainty calculation and support of the verification process.
R&S®ZV-Z3xx T-Check verification devices
The R&S®ZV-Z3xx T-Check verification devices are used
to perform a quick and simple plausibility check of the
measurement accuracy. From the S-parameters measured on the R&S®ZV‑Z3xx T-Check verification devices,
the R&S®VNAMUC software calculates the deviation in
percent compared to an “ideal” VNA without any uncertainty. The unique Rohde & Schwarz T-check procedure is
the compromise between reliability, effort and investment,
making it the ideal tool for uncertainty checks and tracing in production lines, or everday lab work. Each device
is designed as a male-to-female component, supporting
verification on directly insertable two-port connections.
Male-to-male and female-to-female reference planes can
be verified by using an adapter and adapter deembedding.
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Quick and reliable
measurements
on multiports
and balanced
components
Virtual differential measurement mode
The R&S®ZVA characterizes balanced DUTs with one or
two balanced ports quickly and accurately. The balanced
DUT is directly connected to the analyzer test ports. Its
unbalanced S-parameters are measured, and the mixedmode S‑parameters are calculated from these values.
The numerous traces and diagrams offered by the
R&S®ZVA provide full characterization of the DUT and
straightforward display of all measurement quantities. No
sophisticated settings are required on the part of the user.
Convenient marker search and analysis functions facilitate
result evaluation especially in the case of filter measurements, for example by determining filter parameters such
as bandwidth, ripple and quality factor.
True differential measurement mode
Active components in particular may show a distinctly
­different response to a stimulus signal, depending on
whether the virtual (standard) or the true differential measurement mode is applied.
To obtain reliable results even for active differential DUTs,
the R&S®ZVA-K6 option provides true differential stimulation and measurements. The test signals delivered by
the two internal generators are applied at the reference
plane simultaneously with 0° or 180° phase difference. The
measurements on the selected test ports are performed
­simultaneously. The R&S®ZVA-K6 option also supports true
phase imbalance and true amplitude imbalance sweeps of
the two stimulus signals.
Display of mixed-mode S-parameters of a SAW filter: A configuration
­wizard configures all 9 or 16 S‑parameters at a few keystrokes.
As with standard measurements, calibration is performed
either manually using a calibration kit or automatically with
a calibration unit.
Stimulus signal for true differential measurements: Output signals of two
R&S®ZVA ports in true differential mode (measured with an oscilloscope)
­using stimulus signals with 0° and 180° phase difference.
Dialog for configuring balanced and measured ports: The true differential
mode is selected at a single mouse click.
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Linear and nonlinear
amplifier and mixer
measurements
The R&S®ZVA system concept, featuring independent
synthesizers, enables measurements on amplifiers and
frequency-converting DUTs such as mixers and frontends.
The measurements stand out for their high versatility, wide
dynamic range, high speed and accuracy.
Internal as well as several external generators can be configured, calibrated and controlled independently of one
another. The high spectral purity of the source signals as
well as the high intercept point and high sensitivity of the
receivers eliminate the need for external filters in multitone
measurements and measurements on frequency-converting DUTs.
Large- and small-signal ­behavior in a single sweep
The analyzer‘s high output power and wide power sweep
range of more than 50 dB (typ. 60 dB) allow the transmission and compression characteristics of amplifiers and
mixers to be determined largely without any additional
preamplifiers. This measurement is carried out simply and
quickly versus frequency and power. The power sweep
range is traversed wear-free and without interruption since
no mechanical attenuators have to be switched. Smalland large-signal behavior can thus be displayed in a single
sweep.
Dialog for configuring multitone measurements.
Simultaneous measurement of noise figure and
S-parameters
The R&S®ZVA receiver architecture, which includes an
­average and an RMS detector, makes it possible to measure the noise figure and the S-parameters of an amplifier
simultaneously without having to modify any connections
on the DUT. The method requires neither a noise source
nor an impedance tuner; all that is needed is a power
­meter for calibration. This simplifies the test ­setup and
­reduces measurement and operator errors.
Easy intermodulation and mixer measurement
with four independent sources
Intermodulation products of a frontend.
The R&S®ZVA24 and R&S®ZVA40 models are available
with four independent sources. The four-port R&S®ZVA67
always offers four independent sources. This allows intermodulation measurements on amplifiers and mixers and
conversion gain measurements on mixers with up to three
conversion stages to be performed without external generators. The R&S®ZVA receivers feature very good powerhandling ­capability and low phase noise, which enables
high-quality intermodulation measurements requiring only
a minimum of external components.
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Hot S-parameter measurements – ­optimization of
amplifiers ­under full load conditions
Power amplifiers must be characterized under full load
conditions to ensure that they are optimally matched to
the load connected to their output. To determine S22 under
­realistic operating conditions, a stimulating signal is applied to the amplifier input. A low-power signal – which is
the actual S22 test signal – is applied to the amplifier output
(i.e. in the reverse direction). To separate the high-power
output signal of the amplifier from the reflected low-power
signal, the two sources are swept in parallel, but with a
small frequency offset. Only the desired S22 measurement
signal passes through the IF filter. The R&S®ZVA performs
this measurement with a wide dynamic range using the
high ­selectivity and sensitivity of its receivers.
Test setup for an amplifier measurement
Conversion gain and intermodulation
measurements on mixers at high speed and with
wide ­dynamic range
The R&S®ZVA8/24/40/50 four-port two-source models require only one additional external source to perform intermodulation measurements on mixers. The R&S®ZVA24/40
four-source models and the R&S®ZVA67 four-port model
do not require any additional source for this measurement. The external source is ­controlled via the analyzer‘s
LAN or IEC/IEEE bus interface. Using the frequency conversion option (R&S®ZVA-K4), you can display a mixer‘s
matching, conversion gain, isolation, group delay and
­intermodulation products versus frequency and power.
Absolute phase measurements on mixers
Any mixer-based receiver system requires that the built-in
mixers have well-controlled amplitude, phase and group
delay responses. The R&S®ZVA-K5 option makes it possible to characterize all four complex S-parameters of a
mixer with LO access, including absolute phase and group
delay of the conversion loss. This measurement uses full
two-port calibration, which yields high measurement
accuracy.
Measurement of intermodulation products, S-parameters,
compression and harmonics
Test setup for a mixer measurement
Group delay measurement on converters without
LO access
RF
LO
IF
The R&S®ZVA offers a new technique for measuring the
group delay and relative phase of frequency converters
without access to the embedded local oscillator or its reference signal. This method requires a four-port R&S®ZVA
with two sources to apply a two-tone signal to the converter. The R&S®ZVA evaluates the group delay by measuring the phase differences between both carriers at the
input and the output of the DUT. Frequency drift or even
frequency modulation of the internal LO does not affect
the measurement result as long as the frequency deviation
is within the measurement bandwidth of the R&S®ZVA.
Measurement of conversion loss, isolation, matching and intermodulation
products with a four-port R&S®ZVA67 offering four sources
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Power measurements and ­scalar network analysis
with the R&S®NRP2
Test setup for scalar mixer measurement
One or more R&S®NRP2 ­power meters can be directly
connected to the R&S®ZVA via the USB ­interface or by
using an active USB hub. The power meters are treated
by the R&S®ZVA like additional test ports. The R&S®ZVA
processes the measured values and displays them as
traces versus frequency or power. Besides adding power
measurement inputs to the R&S®ZVA, this functionality
­allows measurements on frequency-converting DUTs to be
performed without access to, or knowledge of, the DUT‘s
internal LO, in the same way as with a scalar network
analyzer.
R&S®NRP
Feature overview
Features for amplifier measurements
❙❙ Bias-tees at all test ports
❙❙ High output power at all test ports
❙❙ Wide power sweep range
❙❙ High 0.1 dB compression point
❙❙ RMS and peak detector
❙❙ Determination of n-dB compression point
❙❙ Second independent source (four-port model) for
­intermodulation measurements
❙❙ Power added efficiency (PAE) measurement
❙❙ Measurement of efficiency and stability factors
❙❙ DC inputs for measuring supply currents and ­power
­detector characteristics
❙❙ Intermodulation measurement versus frequency and
­power (R&S®ZVA-K4)
❙❙ Hot S-parameter measurements (R&S®ZVA-K4)
❙❙ Generator and receiver step attenuators for ­expanding
the usable power range (R&S®ZVA-B2x/-B3x)
❙❙ Power measurement with the R&S®NRP power meter
❙❙ Measurements on pulsed signals (average pulse,
point-in-pulse, pulse profile (R&S®ZVA-K7/-B7)
❙❙ Noise figure measurements (R&S®ZVAB-K30)
Features for mixer measurements
❙❙ Conversion loss/gain, compression, intermodulation,
­isolation and matching measurements versus frequency
and power (R&S®ZVA-K4)
❙❙ Relative phase and group delay measurements of
conversion loss of mixers with LO access (R&S®ZVA-K4)
❙❙ Magnitude, absolute phase and group delay
­measurements of conversion loss of mixers with
LO ­access (R&S®ZVA-K4, R&S®ZVA-K5, R&S®ZVA-B16);
the ­measurements are vector-error-corrected and thus
very accurate
❙❙ Absolute group delay and relative phase measurements
of conversion loss of converters without LO access
(R&S®ZVA-K4, R&S®ZVA-K9, R&S®ZVA-B16)
❙❙ Second internal source available as LO for conversion
gain measurements
❙❙ Three of four internal sources of the four-source
R&S®ZVA24/40 or the four-port R&S®ZVA67 for
intermodulation measurements
❙❙ Control of external generators from R
­ ohde & Schwarz
and other manufacturers
❙❙ Editable ASCII driver file for creating customized drivers
for SCPI-compatible instruments
❙❙ Scalar network analysis with the R&S®NRP ­power meter
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Options to enhance
flexibility, power
and dynamic range
Direct generator and receiver access for all ports
With the direct generator/receiver ­access options, the signal paths of the receivers and generators are taken directly
to the front panel. You have direct access to the generators and receivers of all reflectometers since the internal
couplers are bypassed. With a fully configured R&S®ZVA,
i.e. with four ports, all eight receivers can capture and process measurement data in parallel.
Generator and receiver step attenuators are optionally
available for each port to expand the usable generator and
receiver power ranges for compression and intermodulation measurements. The output power range at the test
port can be decreased to < –100 dBm; the compressionfree input power range of the receiver will increase to
+27 dBm.
Up to 150 dB dynamic range with ­direct receiver
­access
Direct generator and receiver ­access options (blue);
generator and receiver step attenuator ­options (red)
Measurement receiver
R&S®ZVAx-B32
Reference receiver
From generator
Bias-tee
PORT 2
Bias-tee
PORT 1
R&S®ZVAx-B22
Since the couplers are bypassed and therefore introduce
no attenuation, sensitivity is increased by up to 10 dB in
the direct mode. This means that high-blocking DUTs can
be measured with a dynamic range of up to 150 dB at
1 Hz IF bandwidth.
By connecting suitable external directional couplers, oneand two-port calibration techniques can be used to enhance measurement accuracy without any significant loss
in dynamic range.
Measurement receiver
R&S®ZVAx-B31
Reference receiver
From generator
R&S®ZVAx-B21
¸ZVAx-B16
Typical dynamic range with direct receiver access.
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Output power boosted to +30 dBm for amplifier
­measurements
Direct access to all generator and r­ eceiver paths allows
flexible configuration of complex external test sets. Such
test sets may include filters for ­improved harmonic suppression or amplifiers for boosting the output power. The
output power can be increased to +30 dBm by inserting a
preamplifier in the generator path and inserting suitable attenuators in the measurement and reference paths.
Connecting external components (e.g. amplifiers) ahead
of the reference path eliminates drift and temperature
­response in S-parameter measurements. Moreover, all calibration techniques are available, and the user fully benefits
from the advantages of high measurement accuracy and
long-term stability.
High-speed time domain ­analysis with enhanced
­resolution capability
The R&S®ZVA with external amplifier and harmonic
filter
Using the time domain option, you can, for example,
­locate discontinuities in test fixtures and cables and analyze them, e.g. by means of a gated S-parameter measurement. You can display impedance versus length, which is
of interest in cable measurements. Due to the R&S®ZVA‘s
high computing power, the time domain option barely
slows down sweep speed. Thus, this option allows cavity
resonator filters to be adjusted quickly and easily.
The time domain option can be used in conjunction with
various window functions such as Hamming, Hann,
Bohman or Dolph-Chebyshev.
Measurement receiver
Reference receiver
Generator
Bias-tee
Dialog for time domain measurement configuration.
PORT
With conventional TDR methods, the resolution, i.e. the
width of reflected-signal peaks and the rise time of step
responses, is limited by the network analyzer‘s frequency
range. The R&S®ZVA does away with this limitation. Its
linear prediction function expands the frequency spectrum by way of computation. Using this function, you
can analyze considerably finer structures than was previously possible due to the limitation to the analyzer‘s actual
frequency range. This function also allows narrowband
and frequency-limited DUTs to be measured with higher
­accuracy.
5 MHz receiver bandwidth
The R&S®ZVA has a maximum IF bandwidth of 1 MHz as
standard. To reduce measurement times even further, the
R&S®ZVA-K17 software option offers IF bandwidths up
to 5 MHz. This reduces the net sampling time per point
to approximately 430 ns. The option not only speeds up
measurements in the frequency domain, it also provides
improved performance for point-in-pulse and pulse profile
measurements on pulses of a few microseconds´ length
by means of easy-to-configure standard CW or time
sweeps, where the S-parameters or amplitudes of pulses
are measured as a function of time.
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Convenient ­handling
of pulse profile
­measurements
Principle of pulse profile measurement
IF BW
30 MHz
IF
Sampling rate
80 MHz
IF
D
DSP hardware
A
NCO
DSP software
External trigger
Internal trigger
The R&S®ZVA performs typical pulsed measurements
such as point-in-pulse or high-PRF-mode measurements
by means of the direct generator/receiver access option.
The R&S®ZVA-K7 and R&S®ZVA-B7 pulsed measurements
options provide a convenient, high-performance solution
especially for pulse profile measurements: Even the profiles of very short pulses with a duration far below 100 ns
are represented with a resolution of 12.5 ns in the time
domain. Traces are updated at a high rate, which greatly
facilitates adjustment procedures.
The R&S®ZVA displays amplitude characteristics (the powers measured in the measurement and the reference channels, and their ratios), as well as S-parameters in magnitude and phase. Single pulses, double pulses and pulse
­trains up to 3 ms length (R&S®ZVA‑K7) or 25 ms length
(R&S®ZVA-B7) can easily be measured. The options include
­methods for compensating for the group delay of the DUT,
which makes it possible to measure pulses whose length
is shorter than the group delay of the DUT. IF bandwidths
up to 30 MHz are available for short pulses.
Principle of pulse profile ­measurements
The A/D converter outputs uncorrected sampling values,
which are first stored in a high-speed buffer (RAM) and
then digitally processed block by block by the software
(see blue arrows in block diagram). Therefore, with sampling performed independently of signal processing, the
pulse signal can be sampled at the converter‘s maximum
rate of 80 MHz.
RAM
LO
Pulse profile measurement; input power, output power and S-parameter
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Measurements on
active devices made
easy
The R&S®ZVAX24 extension unit for the R&S®ZVA simplifies advanced measurements on active devices such as
amplifiers. Depending on the measurement tasks, it can
be configured with a combiner, harmonic filters, pulse
modulators or high-power couplers. It is directly controlled
by the R&S®ZVA via a graphical user interface.
The combination of an R&S®ZVA and the R&S®ZVAX24
behaves like a fully integrated single box. However, if multiple R&S®ZVAs are being used in a lab, they can share
the ­extension unit. This leads to an optimum utilization of
­investment.
Combiner for fast and accurate IMD
measurements
Convenient control via a graphical user interface.
An internal combiner provides a two-tone signal, ­using
both sources of a four-port R&S®ZVA or a two-port
R&S®ZVA with an external generator. Together with the
R&S®ZVA analyzer’s intermodulation wizard, it simplifies
the setup for measuring the intermodulation parameters
versus frequency and power.
Pulse modulators for all pulsed RF applications
Two pulse modulators in the source paths allow pulsed
measurements on TX/RX modules, amplifiers and mixers.
A third modulator in the receiver path allows gating of the
receiver to prevent compression caused by crosstalk, e.g.
for pulsed RCS measurements. Two pulse generators in
the R&S®ZVA control the modulators.
Harmonic filters for spurious and harmonic
testing
Two harmonic filters in the source paths improve the spectral purity of the generator signal. An additional harmonic
filter in the receiver path extends the dynamic range for
harmonic and spurious testing.
Setup for S-parameter, harmonic, intermodulation and pulsed
­measurements.
Coupler for monitoring and high-power
applications
A coupler in the measurement path allows parallel
monitoring of the measurement signal at port 2 of the
R&S®ZVA, e.g. with a spectrum analyzer. Two high-power
couplers of the R&S®ZVA are installed to handle power
­levels up to 43 dBm.
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Front view
User-friendly front panel
More than 100 channels and traces
Display of measurement parameters using a variety
of stimulus conditions
Control by mouse or hardkeys/softkeys
Convenient user interface with wizards, context menus
and extensive analysis functions
Undo/Redo
Cancels the last one to six
entries
Online help
Context-sensitive including
remote control commands
Measurement wizard
Guides you step by step
through the test setup you
want
Connector for the R&S®NRP
Power calibration and scalar
network analysis
Up to four independent generators
Simple test configuration, high speed for mixer,
intermodulation and true differential measurements
Wide range of connectors and interfaces
Connector for a calibration unit
Error-free automatic calibration
Direct access to all generator and receiver paths
Enhanced sensitivity and dynamic range for the connection of
external test sets, e.g. for high-power applications
❙
❙
❙
❙
❙
LAN
IEC/IEEE
USB
VGA
USER CONTROL
(for synchronizing external components, e.g.
handlers, with the analyzer's internal measurement sequences)
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Rear view
Interface description
PORT BIAS
DC power input for supply of amplifiers
via inner conductor of test port; one input and fuse per RF port; BNC connectors
IEC/IEEE BUS
Remote control of the
R&S®ZVA
MONITOR
For external VGA monitor;
­standard VGA connector
EXT TRIGGER
Input of external TTL trigger
­signal for starting a sweep, sweep
­segment, test point or partial
­measurement; BNC connector
LAN 1
Control of the R&S®ZVA
or a subnetwork with the
R&S®ZVA as the master;
8-pin RJ-45 ­connector
LAN 2
Control of the R&S®ZVA
or a subnetwork with the
R&S®ZVA as the master;
8-pin RJ-45 ­connector
USB
Standard 1.1 USB double port
(for mouse, keyboard, printer,
storage media, etc.)
DC MEAS
Measurement inputs for DC
voltage and PAE measurements;
input voltage ­ranges ±1 V and
±10 V; mini DIN connectors;
required ­cable: R&S®ZV-Z71
(option)
USER CONTROL
PULSE GENERATOR OUTPUT
TTL I/O signals: sweep status indication,
(CASCADE)
pass/fail indication, indication of active test port,
Output of two pulse generator
indication of active channel by channel bits,
signals
­trigger signals for fast control of external ­devices,
e.g. generators, handshake with handlers,
­sequence control without programming effort;
25-pin D-Sub connector
10 MHz REF
Reference frequency I/O:
10 MHz reference can be ­input
from or output to e­ xternal
­devices; BNC ­connector
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Technologies
Standard functions
Function
Description
Two or four test ports, one generator
for each pair of test ports; the foursource models of R&S®ZVA24/40 and
the R&S®ZVA67 have one generator
per test port
Integrated bidirectional RF test ports; test set configuration depends on analyzer model and is provided as
­standard in each case
Measured quantities
Complete S-parameter matrix, wave quantities, wave quantity ratios, impedances, admittances, Z- and
Y-parameters of multiport DUTs, stability factors
Balanced measurements
(standard mode)
Mixed-mode S-parameters, mixed-mode Z- and Y-parameters, impedances and admittances of balanced DUTs
Pulsed measurements
High PRF mode, point-in-pulse, pulse profile measurements with pulse duration of approx. 10 µs to 100 µs and
longer, by means of CW or time sweep; use of the R&S®ZVAxy-B16 and R&S®ZVA-K4 options recommended
Calibration techniques
TOSM, TRL/LRL, TOM, TRM, TNA, normalization, one-path two-port; UOSM for calibration with an unknown
through connection (includes adapter removal function); automatic calibration (R&S®ZN-Z51, ZV-Z52/-Z53/-Z54)
Power calibration
Enhanced power accuracy; calibration of test sets and preamplifiers; for frequency and power sweeps; requires
an external power meter; maximum convenience with R&S®NRP-Zxx power sensors with USB interface
Power measurement and scalar
­network analysis
R&S®NRP power sensors can be connected directly to the USB ports and are treated like additional test inputs;
display of power versus frequency or versus power; enables wideband scalar network analysis
Automatic level control (ALC)
Controls the output power by means of the signal fed to the reference channel; corrects preamplifier drift
as well as power uncertainty due to mismatch; provides enhanced power accuracy and linearity
Active test set (PORT BIAS)
Input of DC power for supply of amplifiers via inner conductor of test port; requires external DC power supply
DC inputs
Measurement inputs for DC voltage, enabling PAE measurements
User support for calibration
Calibration manager; performance of selective calibration steps instead of complete recalibration; definition of
calibration kits by means of equivalent circuit model or using S-parameters of calibration standards
Large number of diagrams, traces and More than 100 traces and channels can be created and assigned to diagrams as required
channels
Preloading of setups; setup swap
Simultaneous loading of several instrument setups into RAM; fast switchover between instrument setups,
­manually or by IEC/IEEE bus control
Segmented sweep, lin/log sweep
Optimization of sweeps for important DUT measurement parameters
Power sweep, compression
­measurements
50 dB power sweep range for compression measurements
CW mode
Sweeps with fixed power and frequency; shortest measurement time less than 3.5 µs per test point;
for measuring pulsed components or settling times
Time sweep
Determination of measured quantities as a function of time
60 001 points per trace
(100 001 points on request)
High sweep resolution, narrow test point grid
IF bandwidths 1 Hz to 1 MHz
Optimization of measurement speed and dynamic range
Online support functions
Context-sensitive online help; undo function for canceling the last user operations; Windows XP key for
­accessing the operating system; complete listing of current instrument setup including calibration
User guidance
Step-by-step guidance to desired instrument setup, including calibration if required (measurement wizard)
Convenient execution of control
­software
Execution of macros, control and analysis programs at a keystroke
Trace mathematics, equation editor
Functions for online computation of measured data using complex equations, for adjustments and for
statistical evaluation (RMS, max. hold, etc.)
Marker functions, trace statistics, ­
limit lines
Ten markers per trace, individually configurable; comprehensive analysis functions and online trace data
­evaluation; generation of limit lines from traces, data import and export for limit lines
Trigger functions
Triggers for sweeps, sweep segments, test points or partial measurements
Interfaces (2 × LAN, 4 × USB,
IEC BUS, MHZ REF, MONITOR,
USER CONTROL, DIGITAL INTERFACE, EXT TRIGGER)
Control of the R&S®ZVA; control of external devices or handlers using the R&S®ZVA; fast TTL handler and
sequence control; connection of peripherals, e.g. printer or storage media (see also interface description);
­indication of measurement time
Embedding/deembedding
Inclusion of virtual matching networks, parasitic effects, etc.; correction of the influence of test set components;
parameterizable predefined networks and/or import of S-parameter files in order to define (matching) networks
Enables calibration using different types of connectors in the reference planes, e.g. N to 3.5 mm; this function
is possible by applying the UOSM calibration technique, which allows an adapter with unknown parameters
to be used as a through connection (“Unknown Through”); O, S and M calibration is required for the different
­connector types at both ends
Adapter removal
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Options
Designation
Type
Function
Oven Quartz (OCXO)
R&S®ZVAB-B4
Enhanced frequency accuracy
Time Domain (TDR)
R&S®ZVAB-K2
Converter Control Software
Location of discontinuities and determination of impedance characteristic v
­ ersus time/length,
reflection and transmission measurements, gating function for e
­ liminating discontinuities,
linear prediction function for enhanced resolution
R&S®ZVA8-B21/22/23/24 Generator step attenuators
R&S®ZVA24-B21/22/23/24 70 dB in steps of 10 dB; Pmin = < –100 dBm (R&S®ZVA8, R&S®ZVA24, R&S®ZVA40)
R&S®ZVA40-B21/22/23/24 50 dB in steps of 10 dB; Pmin = < –80 dBm (R&S®ZVA50, R&S®ZVA67)
R&S®ZVA50-B21/22/23/24
R&S®ZVA67-B21/22
R&S®ZVA8-B31/32/33/34 Receiver step attenuators
R&S®ZVA24-B31/32/33/34 35 dB in steps of 5 dB; Pmax = 27 dBm
R&S®ZVA40-B31/32/33/34
R&S®ZVA50-B31/32/33/34
R&S®ZVA67-B31/32/33/34
R&S®ZVAxx-B16
Direct access to the R&S®ZVA internal generators and receivers for all ports of the a
­ nalyzer
(internal couplers are bypassed)
R&S®ZVA-K4
Measurements on frequency-converting DUTs: conversion gain, harmonics, hot S22 and
­intermodulation measurements on mixers and amplifiers;
requires R&S®ZVAB-B44 or VISA I/O BIB to control e
­ xternal generators
R&S®ZVA-K5
Measurement of absolute phase and group delay of mixers with access to the LO; r­ equires
R&S®ZVA-B16 and R&S®ZVA-K4
R&S®ZVA-K9
Measurement of group delay and relative phase of frequency converters without a
­ ccess to
the internal LO; requires R&S®ZVA four-port model, R&S®ZVA-K4 and R
­ &S®ZVA-B16
R&S®ZVA-B9
Set of cables for the R&S®ZVA-K9 to use the internal coupler of R&S®ZVA to g
­ enerate the
two-tone signal
R&S®ZVA-K17
Offers up to 5 MHz IF bandwidth, thus providing shorter measurement times for frequency,
time and CW sweeps; enhanced performance for point-in-pulse m
­ easurements
R&S®ZVA-K7
Enables pulse profile measurements: up to 3 ms recording of pulse profile v
­ ersus time with
12.5 ns resolution; measurement of magnitude and phase of S
­ ‑parameters; offers up to
30 MHz IF bandwidth; includes R&S®ZVA-K17
R&S®ZVA-B7
Enables pulse profile measurements: up to 25 ms recording of pulse profile ­­
versus time with 12.5 ns resolution; includes R&S®ZVA-K7
R&S®ZVA-K27
Two pulse generators, e.g. for controlling the pulse modulators of the R&S®ZVAX24;
­generation of single pulses, double pulses and pulse trains
R&S®ZVA-K6
Stimulation of balanced devices using true 0° and 180° phase-locked differential signals
­supplied by the two internal generators of the R&S®ZVA four-port model; measures mixedmode S-parameters, phase, etc.; supports –180° to +180° true phase and amplitude imbalance sweeps of the stimulus signals
R&S®ZVAB-B44
Adapter and driver software for controlling external generators with the R&S®ZVA via the
GPIB interface; required, for example, for use with the R&S®ZVA-K4
VISA I/O BIB
Software library for controlling external generators with the R&S®ZVA via the LAN interface;
required, for example, for use with the R&S®ZVA-K4
R&S®ZVA-B8
Control of the electronic attenuators of an R&S®ZV-Z90E/110E converter, e.g. for a
­ ccurate
power leveling after power calibration or for performing power sweeps
R&S®ZVA-K8
Includes R&S®ZVA-K4
Converter
50 GHz to 75 GHz
60 GHz to 90 GHz
75 GHz to 110 GHz
90 GHz to 140 GHz
110 GHz to 170 GHz
140 GHz to 220 GHz
220 GHz to 325 GHz
325 GHz to 500 GHz
Extension Unit
R&S®ZVA-Z75
R&S®ZVA-Z90E
R&S®ZVA-Z110/E
R&S®ZVA-Z140
R&S®ZVA-Z170
R&S®ZVA-Z220
R&S®ZVA-Z325
R&S®ZVA-Z500
R&S®ZVAX24
Noise Figure Measurements
R&S®ZVAB-K30
Generator Step Attenuator
for Port 1/2/3/4
Receiver Step Attenuator
for Port 1/2/3/4
Direct Generator/Receiver
Access
Frequency Conversion
Vector Corrected Mixer
­Measurements
Embedded LO Mixer Delay
­Measurements
Cable Set for R&S®ZVA-K9
5 MHz Receiver Bandwidth
Pulsed Measurements
Pulsed Measurements
Internal Pulse Generators
True Differential
Measurements
USB-to-IEC/IEEE Adapter
National Instruments VISA
I/O Library
External Attenuator Control
Frequency Converting Noise R&S®ZVA-K31
Figure Measurements
Universal Interface
R&S®ZVAB-B14
Group Delay (internal LO)
R&S®ZVA-K10
Converts the frequency range of an R&S®ZVA24, R&S®ZVA40, R&S®ZVA50 or R&S®ZVA67
­vector network analyzer to frequency ranges up to 500 GHz; one or more external converters
may be required; bidirectional measurements on two-port DUTs, for example, require two
converters
Additional requirements: cable sets, waveguide calibration kits, R&S®ZVA-K8 converter
­control software (for details, see the R&S®ZVA-Zxx data sheet)
External box that can be equipped with options such as combiner, pulse modulators,
­harmonic filters and high-power couplers to perform harmonic, intermodulation, high-power
and pulsed measurements with the R&S®ZVA
Measures the noise figure of an amplifier simultaneously with its S-parameters or any other
quantities without reconnecting the DUT; requires a power meter for calibration, e.g. the
R&S®NRP
Measures the noise figure of frequency converting devices; requires options R&S®ZVA-K4
and R&S®ZVAB-K30
I/O port for handler, digital I/Os
Measurement of group delay of frequency converters without LO access for long distances
using two R&S®ZVA or R&S®ZVT; requires R&S®ZVA/T-B16, R&S®ZVA-K4, R&S®ZVA-K9
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Ordering information
Designation
Type
Frequency range
Order No.
Vector Network Analyzer, Two Ports, 8 GHz, N
R&S®ZVA8
300 kHz to 8 GHz
1145.1110.08
Vector Network Analyzer, Four Ports, 8 GHz, N
R&S®ZVA8
300 kHz to 8 GHz
1145.1110.10
Vector Network Analyzer, Two Ports, 24 GHz, 3.5 mm
R&S®ZVA24
10 MHz to 24 GHz
1145.1110.24
Vector Network Analyzer, Four Ports, 24 GHz, 3.5 mm
R&S®ZVA24
10 MHz to 24 GHz
1145.1110.26
Vector Network Analyzer, Four Ports, Four Sources, 24 GHz, 3.5 mm
R&S®ZVA24
10 MHz to 24 GHz
1145.1110.28
Vector Network Analyzer, Two Ports, 40 GHz, 2.4 mm
R&S®ZVA40
10 MHz to 40 GHz
1145.1110.43
Vector Network Analyzer, Two Ports, 40 GHz, 2.92 mm
R&S®ZVA40
10 MHz to 40 GHz
1145.1110.40
Vector Network Analyzer, Four Ports, 40 GHz, 2.4 mm
R&S®ZVA40
10 MHz to 40 GHz
1145.1110.45
Vector Network Analyzer, Four Ports, 40 GHz, 2.92 mm
R&S®ZVA40
10 MHz to 40 GHz
1145.1110.42
Vector Network Analyzer, Four Ports, Four Sources, 40 GHz, 2.92 mm
R&S®ZVA40
10 MHz to 40 GHz
1145.1110.48
Vector Network Analyzer, Two Ports, 50 GHz, 2.4 mm
R&S®ZVA50
10 MHz to 50 GHz
1145.1110.50
Vector Network Analyzer, Four Ports, 50 GHz, 2.4 mm
R&S®ZVA50
10 MHz to 50 GHz
1145.1110.52
Vector Network Analyzer, Two Ports, 67 GHz, 1.85 mm
R&S®ZVA67
10 MHz to 67 GHz
1305.7002.02
Vector Network Analyzer, Four Ports, 67 GHz, 1.85 mm
R&S®ZVA67
10 MHz to 67 GHz
1305.7002.04
Vector Network Analyzer, Two Ports, 110 GHz, 1 mm 2)
R&S®ZVA110
10 MHz to 110 GHz
1312.7004.03
R&S®ZVA110
10 MHz to 110 GHz
1312.7004.05
Direct Generator/Receiver Access, Two-Port Model, 8 GHz
R&S®ZVA8-B16
300 kHz to 8 GHz
1164.0209.08
Direct Generator/Receiver Access, Four-Port Model, 8 GHz
R&S®ZVA8-B16
300 kHz to 8 GHz
1164.0209.10
Direct Generator/Receiver Access, Two-Port Model, 24 GHz
R&S®ZVA24-B16
10 MHz to 24 GHz
1164.0209.24
Direct Generator/Receiver Access, Four-Port Model, 24 GHz
R&S®ZVA24-B16
10 MHz to 24 GHz
1164.0209.26
Direct Generator/Receiver Access, Two-Port Model, 40 GHz
R&S®ZVA40-B16
10 MHz to 40 GHz
1164.0209.40
Direct Generator/Receiver Access, Four-Port Model, 40 GHz
R&S®ZVA40-B16
10 MHz to 40 GHz
1164.0209.42
Direct Generator/Receiver Access, Two-Port Model, 50 GHz
R&S®ZVA50-B16
10 MHz to 50 GHz
1164.0209.50
Direct Generator/Receiver Access, Four-Port Model, 50 GHz
R&S®ZVA50-B16
10 MHz to 50 GHz
1164.0209.52
Direct Generator/Receiver Access, Two-Port Model, 67 GHz
R&S®ZVA67-B16
10 MHz to 67 GHz
1164.0209.67
Direct Generator/Receiver Access, Four-Port Model, 67 GHz
R&S®ZVA67-B16
10 MHz to 67 GHz
1164.0209.69
Generator Step Attenuator, Port 1, for R&S®ZVA8
R&S®ZVA8-B21
300 kHz to 8 GHz
1164.0009.02
Generator Step Attenuator, Port 2, for R&S®ZVA8
R&S®ZVA8-B22
300 kHz to 8 GHz
1164.0015.02
Generator Step Attenuator, Port 3, for R&S®ZVA8
R&S®ZVA8-B23
300 kHz to 8 GHz
1164.0021.02
Generator Step Attenuator, Port 4, for R&S®ZVA8
R&S®ZVA8-B24
300 kHz to 8 GHz
1164.0038.02
Generator Step Attenuator, Port 1, for R&S®ZVA24
R&S®ZVA24-B21
10 MHz to 24 GHz
1164.0109.02
Generator Step Attenuator, Port 2, for R&S®ZVA24
R&S®ZVA24-B22
10 MHz to 24 GHz
1164.0115.02
Generator Step Attenuator, Port 3, for R&S®ZVA24
R&S®ZVA24-B23
10 MHz to 24 GHz
1164.0121.02
Generator Step Attenuator, Port 4, for R&S®ZVA24
R&S®ZVA24-B24
10 MHz to 24 GHz
1164.0138.02
Generator Step Attenuator, Port 1, for R&S®ZVA40
R&S®ZVA40-B21
10 MHz to 40 GHz
1302.5409.02
Generator Step Attenuator, Port 2, for R&S®ZVA40
R&S®ZVA40-B22
10 MHz to 40 GHz
1302.5415.02
Generator Step Attenuator, Port 3, for R&S®ZVA40
R&S®ZVA40-B23
10 MHz to 40 GHz
1302.5421.02
Generator Step Attenuator, Port 4, for R&S®ZVA40
R&S®ZVA40-B24
10 MHz to 40 GHz
1302.5438.02
Generator Step Attenuator, Port 1, for R&S®ZVA50
R&S®ZVA50-B21
10 MHz to 50 GHz
1305.5616.02
Generator Step Attenuator, Port 2, for R&S®ZVA50
R&S®ZVA50-B22
10 MHz to 50 GHz
1305.5622.02
Generator Step Attenuator, Port 3, for R&S®ZVA50
R&S®ZVA50-B23
10 MHz to 50 GHz
1305.5639.02
Generator Step Attenuator, Port 4, for R&S®ZVA50
R&S®ZVA50-B24
10 MHz to 50 GHz
1305.5645.02
Generator Step Attenuator, Port 1, for R&S®ZVA67
R&S®ZVA67-B21
10 MHz to 67 GHz
1305.7077.02
Generator Step Attenuator, Port 2, for R&S®ZVA67
R&S®ZVA67-B22
10 MHz to 67 GHz
1305.7083.02
Generator Step Attenuator, Port 3, for R&S®ZVA67
R&S®ZVA67-B23
10 MHz to 67 GHz
1305.7090.02
Generator Step Attenuator, Port 4, for R&S®ZVA67
R&S®ZVA67-B24
10 MHz to 67 GHz
1305.7102.02
Receiver Step Attenuator, Port 1, for R&S®ZVA8
R&S®ZVA8-B31
300 kHz to 8 GHz
1164.0044.02
Receiver Step Attenuator, Port 2, for R&S®ZVA8
R&S®ZVA8-B32
300 kHz to 8 GHz
1164.0050.02
Base units 1)
Vector Network Analyzer, Two Ports, 110 GHz, 1 mm, without cables 2)
Options
ZVA_bro_en_5213-5680-12_v1100.indd 23
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Designation
Type
Frequency range
Order No.
Receiver Step Attenuator, Port 3, for R&S®ZVA8
R&S®ZVA8-B33
300 kHz to 8 GHz
1164.0067.02
Receiver Step Attenuator, Port 4, for R&S®ZVA8
R&S®ZVA8-B34
300 kHz to 8 GHz
1164.0073.02
Receiver Step Attenuator, Port 1, for R&S®ZVA24
R&S®ZVA24-B31
10 MHz to 24 GHz
1164.0144.02
Receiver Step Attenuator, Port 2, for R&S®ZVA24
R&S®ZVA24-B32
10 MHz to 24 GHz
1164.0150.02
Receiver Step Attenuator, Port 3, for R&S®ZVA24
R&S®ZVA24-B33
10 MHz to 24 GHz
1164.0167.02
Receiver Step Attenuator, Port 4, for R&S®ZVA24
R&S®ZVA24-B34
10 MHz to 24 GHz
1164.0173.02
Receiver Step Attenuator, Port 1, for R&S®ZVA40
R&S®ZVA40-B31
10 MHz to 40 GHz
1302.5444.02
Receiver Step Attenuator, Port 2, for R&S®ZVA40
R&S®ZVA40-B32
10 MHz to 40 GHz
1302.5450.02
Receiver Step Attenuator, Port 3, for R&S®ZVA40
R&S®ZVA40-B33
10 MHz to 40 GHz
1302.5467.02
Receiver Step Attenuator, Port 4, for R&S®ZVA40
R&S®ZVA40-B34
10 MHz to 40 GHz
1302.5473.02
Receiver Step Attenuator, Port 1, for R&S®ZVA50
R&S®ZVA50-B31
10 MHz to 50 GHz
1305.5716.02
Receiver Step Attenuator, Port 2, for R&S®ZVA50
R&S®ZVA50-B32
10 MHz to 50 GHz
1305.5722.02
Receiver Step Attenuator, Port 3, for R&S®ZVA50
R&S®ZVA50-B33
10 MHz to 50 GHz
1305.5739.02
Receiver Step Attenuator, Port 4, for R&S®ZVA50
R&S®ZVA50-B34
10 MHz to 50 GHz
1305.5745.02
Receiver Step Attenuator, Port 1, for R&S®ZVA67
R&S®ZVA67-B31
10 MHz to 67 GHz
1305.7119.02
Receiver Step Attenuator, Port 2, for R&S®ZVA67
R&S®ZVA67-B32
10 MHz to 67 GHz
1305.7125.02
Receiver Step Attenuator, Port 3, for R&S®ZVA67
R&S®ZVA67-B33
10 MHz to 67 GHz
1305.7131.02
Receiver Step Attenuator, Port 4, for R&S®ZVA67
R&S®ZVA67-B34
10 MHz to 67 GHz
1305.7148.02
Converter WR15 (one unit) 3)
R&S®ZVA-Z75
50 GHz to 75 GHz
1307.7400.02
Converter WR12 (one unit) 3), 4)
R&S®ZVA-Z90E
60 GHz to 90 GHz
1307.7600.02
Converter WR10 (one unit) 3)
R&S®ZVA-Z110
75 GHz to 110 GHz
1307.7000.03
Converter WR10 (one unit) 3), 4)
R&S®ZVA-Z110E
75 GHz to 110 GHz
1307.7000.40
3)
Converter WR08 (one unit) R&S®ZVA-Z140
90 GHz to 140 GHz
1307.7800.02
Converter WR06 (one unit) 3)
R&S®ZVA-Z170
110 GHz to 170 GHz
1311.8707.02
Converter WR05 (one unit) 3)
R&S®ZVA-Z220
140 GHz to 220 GHz
1307.8006.02
Converter WR03 (one unit) 3)
R&S®ZVA-Z325
220 GHz to 325 GHz
1317.0514.02
Converter WR02 (one unit) 3)
R&S®ZVA-Z500
325 GHz to 500 GHz
Converter Control Software 5)
R&S®ZVA-K8
1317.0520.02
1307.7022.02
External Attenuator Control 6)
R&S®ZVA-B8
1307.6026.02
Oven Quartz (OCXO)
R&S®ZVAB-B4
1164.1757.02
Time Domain (TDR)
R&S®ZVAB-K2
1164.1657.02
Noise Figure Measurements 7)
R&S®ZVAB-K30
1164.1828.02
Frequency Converting Noise Figure Measurements 7)
R&S®ZVA-K31
1317.8938.02
Frequency Conversion Measurements R&S®ZVA-K4
1164.1863.02
Vector Corrected Mixer Measurements 9)
R&S®ZVA-K5
1311.3134.02
Embedded LO Mixer Delay Measurements 10)
R&S®ZVA-K9
1311.3128.02
Pulsed Measurements, 3 ms recording time,
for all R&S®ZVA 11)
Pulsed Measurements, 25 ms recording time,
for all two-port R&S®ZVA 11)
Pulsed Measurements, 25 ms recording time,
for all four-port R&S®ZVA 11)
Cable Set for R&S®ZVA-K9
R&S®ZVA-K7
1164.1511.02
R&S®ZVA-B7
1164.1492.02
R&S®ZVA-B7
1164.1492.03
R&S®ZVA-B9
1305.6541.0x 12)
8)
Internal Pulse Generators
R&S®ZVA-K27
1164.1892.02
5 MHz Receiver Bandwidth
R&S®ZVA-K17
1164.1070.02
True Differential Measurements 13)
R&S®ZVA-K6
1164.1540.02
USB-to-IEC/IEEE Adapter
R&S®ZVAB-B44
1302.5544.02
National Instruments VISA I/O Library
Universal Interface (I/O port for handler, digital I/Os)
Group Delay (frequency converters with internal LO) 14)
Extras
VISA I/O BIB
R&S®ZVAB-B14
R&S®ZVA-K10
1310.0054.02
1305.6306.02
1164.1805.02
Calibration kits
Calibration Kit, N (m), 50 Ω
R&S®ZV-Z170
0 Hz to 9 GHz
1317.7683.02
Calibration Kit, N (f), 50 Ω
R&S®ZV-Z170
0 Hz to 9 GHz
1317.7683.03
Calibration Kit, 3.5 mm (m), 50 Ω
R&S®ZV-Z135
0 Hz to 15 GHz
1317.7677.02
Calibration Kit, 3.5 mm (f), 50 Ω
R&S®ZV-Z135
0 Hz to 15 GHz
1317.7677.03
24
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Designation
Type
Frequency range
Order No.
Calibration Kit, 2.92 mm (m), 50 Ω
R&S®ZV-Z129
0 Hz to 40 GHz
1322.7471.02
Calibration Kit, 2.92 mm (f), 50 Ω
R&S®ZV-Z129
0 Hz to 40 GHz
1322.7471.03
Calibration Kit, N, 50 Ω
R&S®ZCAN
0 Hz to 3 GHz
0800.8515.52
Calibration Kit, N, 50 Ω
R&S®ZV-Z270
0 Hz to 18 GHz
5011.6536.02
Calibration Kit, 3.5 mm
R&S®ZV-Z235
0 Hz to 26.5 GHz
5011.6542.02
Calibration Kit, 2.92 mm
R&S®ZV-Z229
0 Hz to 40 GHz
5011.6559.02
Calibration Kit, 2.4 mm
R&S®ZV-Z224
0 Hz to 50 GHz
5011.6565.02
Calibration Kit, 1.85 mm
R&S®ZV-Z218
0 Hz to 67 GHz
5011.6571.02
Calibration Kit, 1 mm
R&S®ZV-Z210
0 Hz to 110 GHz
5011.6588.02
Waveguide Calibration Kit WR15 (without sliding match)
R&S®ZV-WR15
50 GHz to 75 GHz
1307.7500.30
Waveguide Calibration Kit WR15 (with sliding match)
R&S®ZV-WR15
50 GHz to 75 GHz
1307.7500.31
Waveguide Calibration Kit WR12 (without sliding match)
R&S®ZV-WR12
60 GHz to 90 GHz
1307.7700.10
Waveguide Calibration Kit WR12 (with sliding match)
R&S®ZV-WR12
60 GHz to 90 GHz
1307.7700.11
Waveguide Calibration Kit WR10 (without sliding match)
R&S®ZV-WR10
75 GHz to 110 GHz
1307.7100.10
Waveguide Calibration Kit WR10 (with sliding match)
R&S®ZV-WR10
75 GHz to 110 GHz
1307.7100.11
Waveguide Calibration Kit WR08 (without sliding match)
R&S®ZV-WR08
90 GHz to 140 GHz
1307.7900.10
Waveguide Calibration Kit WR08 (with sliding match)
R&S®ZV-WR08
90 GHz to 140 GHz
1307.7900.11
Waveguide Calibration Kit WR06 (without sliding match)
R&S®ZV-WR06
110 GHz to 170 GHz
1311.8807.10
Waveguide Calibration Kit WR06 (with sliding match)
R&S®ZV-WR06
110 GHz to 170 GHz
1311.8807.11
Waveguide Calibration Kit WR05 (without sliding match)
R&S®ZV-WR05
140 GHz to 220 GHz
1307.8106.10
Waveguide Calibration Kit WR05 (with sliding match)
R&S®ZV-WR05
140 GHz to 220 GHz
1307.8106.11
Waveguide Calibration Kit WR03 (without sliding match)
R&S®ZV-WR03
220 GHz to 325 GHz
1307.7300.30
Waveguide Calibration Kit WR03 (with sliding match)
R&S®ZV-WR03
220 GHz to 325 GHz
1307.7300.31
Waveguide Calibration Kit WR02 (without sliding match)
R&S®ZV-WR02
325 GHz to 500 GHz
1314.5550.10
Calibration Unit, Two Ports, 3.5 mm (f)
R&S®ZN-Z51
100 kHz to 8.5 GHz
1319.5507.32
Calibration Unit, Two Ports, N (f)
R&S®ZN-Z51
100 kHz to 8.5 GHz
1319.5507.72
Calibration Unit, Four Ports, 3.5 mm (f)
R&S®ZN-Z51
100 kHz to 8.5 GHz
1319.5507.34
Calibration Unit, Four Ports, N (f)
R&S®ZN-Z51
100 kHz to 8.5 GHz
1319.5507.74
Calibration Unit, Four Ports, 3.5 mm (f)
R&S®ZV-Z52
10 MHz to 24 GHz
1164.0521.30
Calibration Unit, Two Ports, N (f)
R&S®ZV-Z53
300 kHz to 18 GHz
1164.0473.72
Calibration Unit, Two Ports, 3.5 mm (f)
R&S®ZV-Z53
300 kHz to 24 GHz
1164.0473.32
Calibration Unit, Two Ports, 2.92 mm (f)
R&S®ZV-Z54
10 MHz to 40 GHz
1164.0467.92
Calibration Unit, Two Ports, 2.4 mm (f)
R&S®ZV-Z55
10 MHz to 50 GHz
1164.0480.42
T-Check Verification Device, N (f to m)
R&S®ZV-Z370
45 MHz to 18 GHz
1319.1001.02
T-Check Verification Device, 3.5 mm (f to m)
R&S®ZV-Z335
45 MHz to 26.5 GHz
1319.1018.02
T-Check Verification Device, 2.92 mm (f to m)
R&S®ZV-Z329
45 MHz to 40 GHz
1319.1024.02
T-Check Verification Device, 2.4 mm (f to m)
R&S®ZV-Z324
45 MHz to 50 GHz
1319.1030.02
Verification Kit, N
R&S®ZV-Z470
45 MHz to 18 GHz
1319.1053.02
Verification Kit, 3.5 mm
R&S®ZV-Z435
45 MHz to 26.5 GHz
1319.1060.02
Verification Kit, 2.92 mm
R&S®ZV-Z429
45 MHz to 40 GHz
1319.1076.02
Verification Kit, 2.4 mm
R&S®ZV-Z424
45 MHz to 50 GHz
1319.1082.02
Extension Unit 15)
R&S®ZVAX24
10 MHz to 24 GHz
1311.2509.02
Monitor Output Port 2 16)
R&S®ZVAX-B210
500 MHz to 24 GHz
1311.2521.02
Combiner 15)
R&S®ZVAX-B211
10 MHz to 24 GHz
1311.2538.02
Harmonic Filter Generator Port 1 16)
R&S®ZVAX-B251
1 GHz to 23 GHz
1311.2544.02
Harmonic Filter Receiver Port 2 16)
R&S®ZVAX-B252
1 GHz to 23 GHz
1311.2550.02
Harmonic Filter Generator Port 3 R&S®ZVAX-B253
1 GHz to 23 GHz
1311.2567.02
Pulse Modulator Generator Port 1 16)
R&S®ZVAX-B271
10 MHz to 24 GHz
1311.2573.02
Pulse Modulator Receiver Port 2 16)
R&S®ZVAX-B272
10 MHz to 24 GHz
1311.2580.02
Pulse Modulator Generator Port 3 16)
R&S®ZVAX-B273
10 MHz to 24 GHz
1311.2596.02
High Power Coupler Port 1 16)
R&S®ZVAX-B291
10 MHz to 24 GHz
1311.2609.02
High Power Coupler Port 2 R&S®ZVAX-B292
10 MHz to 24 GHz
1311.2615.02
Verification kits
Extension unit
16)
16)
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Designation
Type
Frequency range
Order No.
N (m)/N (m), 50 Ω, length 0.6 m/1 m
R&S®ZV-Z91
0 Hz to 18 GHz
1301.7572.25/38
N (m)/3.5 mm (m), 50 Ω, length 0.6 m/1 m
R&S®ZV-Z92
0 Hz to 18 GHz
1301.7589.25/38
3.5 mm (f)/3.5 mm (m), length 0.6 m/1 m
R&S®ZV-Z93
0 Hz to 26.5 GHz
1301.7595.25/38
2.92 mm (f)/2.92 mm (m), length 0.6 m/1 m
R&S®ZV-Z95
0 Hz to 40 GHz
1301.7608.25/38
2.4 mm (f)/2.4 mm (m), length 0.6 m
R&S®ZV-Z97
0 Hz to 50 GHz
1301.7637.25
1.85 mm (f)/1.85 mm (m), length 0.6 m
R&S®ZV-Z96
0 Hz to 67 GHz
1301.7614.25
N (m)/N (m), 50 Ω, length 0.6 m/0.9 m
R&S®ZV-Z191
0 Hz to 18 GHz
1306.4507.24/36
N (m)/3.5 mm (m), 50 Ω, length 0.6 m/0.9 m
R&S®ZV-Z192
0 Hz to 18 GHz
1306.4513.24/36
3.5 mm (f)/3.5 mm (m), length 0.6 m/0.9 m/1.5 m
R&S®ZV-Z193
0 Hz to 26.5 GHz
1306.4520.24/36/60
2.92 mm (f)/2.92 mm (m), length 0.6 m/0.9 m
R&S®ZV-Z195
0 Hz to 40 GHz
1306.4536.24/36
1.85 mm (f)/1.85 mm (m), length 0.6 m/0.9 m
R&S®ZV-Z196
0 Hz to 67 GHz
1306.4559.24/36
1.0 mm (f)/1.0 mm (m), length 0.16 m
R&S®ZV-Z198
0 Hz to 110 GHz
1306.4565.06
N (m), 50 Ω
R&S®ZV-Z41
1.7 GHz to 18 GHz
1085.8095.02
N (f), 50 Ω
R&S®ZV-Z41
1.7 GHz to 18 GHz
1085.8095.03
3.5 mm (m/f pair)
R&S®ZV-Z42
2 GHz to 26.5 GHz
1128.3524.02
2.92 mm (m/f pair)
R&S®ZV-Z44
4 GHz to 40 GHz
1128.3553.02
Test Cables 17)
Sliding Matches
Hardware and measurement add-ons
USB Keyboard
R&S®PSL-Z2
1157.6870.04
USB Mouse
R&S®PSL-Z10
1157.7060.03
Cable for DC Input
R&S®ZV-Z71
1164.1005.02
19" Rack Adapter
R&S®ZZA-611
1096.3302.00
Removable Flash Disk, 4 Gbyte (for R&S®FMR7/3, R&S®FMR7/6) 18)
R&S®ZVAB-B18
1164.0715.03
Removable Hard Disk, 160 Gbyte (for R&S®FMR7/3, R&S®FMR7/6) 18)
R&S®ZVAB-B18
1164.0715.04
Additional Removable Flash Disk, 4 Gbyte (for R&S®FMR7/3,
R&S®FMR7/6)
Additional Removable Hard Disk, 160 Gbyte (for R&S®FMR7/3,
R&S®FMR7/6)
Additional Removable Hard Disk, 160 Gbyte (for R&S®FMR9)
R&S®ZVAB-B19
1164.1111.03
R&S®ZVAB-B19
1164.1111.04
R&S®ZVAB-B19
Two-Way Wilkinson Power Divider
R&S®ZV-Z1227
1164.1111.05
4 GHz to 27 GHz
1307.0886.02
Adapter 1.85 mm (f) to 2.92 mm (m)
R&S®ZV-Z1829
1307.8212.00
Adapter 2.92 mm (f) to 1.85 mm (m)
R&S®ZV-Z2918
1307.8229.00
Adapter Angle SMA (m) to SMA (m)
R&S®ZV-Z1118
1314.5373.00
Adapter Angle SMA (m) to SMA (f)
R&S®ZV-Z1218
1314.5380.00
Upgrade Kit for Control Unit (R&S®FMR6/5 to R&S®FMR7/6) 18)
R&S®ZVx-U1
1305.4610.02
Upgrade Kit for Control Unit (R&S®FMR7/3 to R&S®FMR7/6) 18)
R&S®ZVAB-U76
1305.4610.04
R&S®FMR7/6 Control Unit, ex factory
R&S®ZVAB-B76
1305.4610.03
Upgrade for R&S®ZVA24 model .26 to .28, four sources
R&S®ZVA24-U5
1312.7710.28
Upgrade for R&S®ZVA40 model .42 to .48, four sources
R&S®ZVA40-U5
1312.7710.48
Manual (in printed form)
1145.1084.12
26
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Service options
Extended Warranty, one year
Extended Warranty, two years
Extended Warranty, three years
Extended Warranty, four years
Extended Warranty with Calibration Coverage, one year
Extended Warranty with Calibration Coverage, two years
Extended Warranty with Calibration Coverage, three years
Extended Warranty with Calibration Coverage, four years
R&S®WE1ZVA
R&S®WE2ZVA
R&S®WE3ZVA
R&S®WE4ZVA
R&S®CW1ZVA
R&S®CW2ZVA
R&S®CW3ZVA
R&S®CW4ZVA
Please contact your local
­Rohde & Schwarz sales office.
Operating manual on CD ROM and quick start guide supplied with the R&S®ZVA.
The R&S®ZVA110 can be equipped with the following options: R&S®ZVAB-K2, R&S®ZVA-K5, R&S®ZVA-K7/-B7, R&S®ZVA-K17/-K27, R&S®ZVAB-B4, R&S®ZVA-B18/-B19.
3)
Requires R&S®ZVA-K8. In case an external generator is used for the LO signal, the R&S®ZVAB-B44 option is required for controlling external generators via GPIB;
the VISA I/O BIB option is required for controlling external generators via LAN.
4)
Requires R&S®ZVA-B8.
5)
Includes R&S®ZVA-K4.
6)
Control unit, installed in floppy drive slot. Required once per VNA.
7)
A suitable preamplifier and highpass filter, depending on the R&S®ZVA model and frequency range might be necessary.
Includes the R&S®ZVA-K17 option, 5 MHz measurement bandwidth. For R&S®ZVA67 noise figure measurement only > 1.5 GHz.
8)
The R&S®ZVAB-B44 option is required for controlling external generators via GPIB; the VISA I/O BIB option is required for controlling external generators via LAN.
9)
Requires R&S®ZVA-B16 and R&S®ZVA-K4.
10)
Requires R&S®ZVA four-port model, R&S®ZVA-B16 and R&S®ZVA-K4; R&S®ZVA-K5 and R&S®ZVA-B9 recommended.
11)
R&S®ZVA-B16 recommended. Includes R&S®ZVA-K17.
12)
x = 2 for R&S®ZVA8, x = 3 for R&S®ZVA24 and R&S®ZVA40 2.92 mm, x = 4 for R&S®ZVA50 and R&S®ZVA67.
13)
Requires R&S®ZVA four-port model.
14)
Requires VISA I/O BIB.
15)
Requires R&S®ZVA-B16.
16)
Requires R&S®ZVAX24.
17)
One cable.
18)
All R&S®ZVA analyzers are equipped as standard with an R&S®FMR7/3 control unit as of 09/2007. The R&S®FMR7/6 control unit with higher performance can be ­installed
optionally.
1)
2)
For data sheet, see PD 5213.5680.22 and www.rohde-schwarz.com
Your local Rohde & Schwarz expert will help you determine the optimum solution for your requirements.
To find your nearest Rohde & Schwarz representative, visit
www.sales.rohde-schwarz.com
ZVA_bro_en_5213-5680-12_v1100.indd 27
Rohde & Schwarz R&S®ZVA Vector Network Analyzer 27
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Service that adds value
❙
❙
❙
❙
❙
Worldwide
Local and personalized
Customized and flexible
Uncompromising quality
Long-term dependability
About Rohde & Schwarz
The Rohde & Schwarz electronics group is a leading
­supplier of solutions in the fields of test and measurement,
broadcasting, secure communications, and radiomonitor­
ing and radiolocation. Founded more than 80 years ago,
this independent global company has an extensive sales
network and is present in more than 70 countries.
The company is headquartered in Munich, Germany.
Sustainable product design
❙❙ Environmental compatibility and eco-footprint
❙❙ Energy efficiency and low emissions
❙❙ Longevity and optimized total cost of ownership
Certified Quality Management
ISO 9001
Certified Environmental Management
ISO 14001
Rohde & Schwarz GmbH & Co. KG
www.rohde-schwarz.com
Regional contact
❙❙ Europe, Africa, Middle East | +49 89 4129 12345
❙❙ North America | 1 888 TEST RSA (1 888 837 87 72)
❙❙ Latin America | +1 410 910 79 88
❙❙ Asia Pacific | +65 65 13 04 88
❙❙ China | +86 800 810 8228 | +86 400 650 5896
R&S® is a registered trademark of Rohde & Schwarz GmbH & Co. KG
Trade names are trademarks of the owners
PD 5213.5680.12 | Version 11.00 | July 2014 (fi)
R&S®ZVA Vector Network Analyzer
Data without tolerance limits is not binding | Subject to change
© 2005 - 2014 Rohde & Schwarz GmbH & Co. KG | 81671 Munich, Germany
5213.5680.12 11.00 PDP 1 en
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5213568012
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