katalógu 2012

Test & Measurement

Catalog 2012

R&S® is a registered trademark of Rohde & Schwarz GmbH & Co. KG

Trade names are trademarks of the owners | Printed in Germany (kr/ft)

PD 5213.7590.42 | Version 01.00 | December 2011

Subject to change

© 2011 Rohde & Schwarz GmbH & Co. KG | 81671 München, Germany

R&S®FSW

Signal and Spectrum Analyzer – setting standards in RF performance and usability

▷ See page 36

R&S®NRP2

Power Meter

R&S®RTO

Digital Oscilloscope

R&S®ZNB

Vector Network Analyzer

Test & Measurement

Catalog 2012

Dear customer: This catalog will give you an overview of all Rohde & Schwarz test and measurement products. For detailed information, please visit our website www.rohde-schwarz.com and enter the product type as the search term.

Example: R&S®FSW Signal and Spectrum Analyzer

▷ search term = FSW

On our website, you will find this catalog as a PDF file for download. For convenience, this file has navigation functions as well as hyperlinks for quick access to the corresponding product pages on our website.

Chapter Contents

1

2

4

5

6

Company Profile

Aerospace and Defense Test Solutions

Wireless Communications Testers and

Systems

3 Oscilloscopes

Signal and Spectrum Analyzers

Signal Generators

Network Analyzers

7 Drive Test Tools

8 EMC and Field Strength Test  Solutions

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EMI precompliance/compliance

EMS/EMF measurements

EMC software

Broadband amplifiers

EMC accessories

9 Power Meters and Voltmeters

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Power meters

Power sensors

Voltmeters

10 Audio Analyzers

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Audio analyzers, audio switcher

11 Modular Instruments

12 Broadcasting Test and Measurement

Solutions

13 System Components

Appendix

Index

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Our business fields and products

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Radar test systems

ILS test system

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Wireless device testers

Protocol testers

Conformance and preconformance testers

System accessories

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Digital oscilloscopes, probes

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Spectrum analyzers

Signal analyzers

Accessories for R&S ®FSx analyzers

Application firmware

Modulation analyzers

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RF vector signal generators

RF analog signal generators

Microwave signal generators

Baseband signal generators

Application firmware

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Vector network analyzers

Converters

Accessories for network analysis

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Hardware, software, systems

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Open test platform

Infotainment test system

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Video and MPEG TS generators

RF test transmitters

TV analyzers

Video and MPEG TS analyzers

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Open switch and control platform

I/Q data recorder

Step attenuator

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Service and support, trademarks

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Index by type

Page

2

6

10

24

28

58

134

142

146

158

177

182

192

86

96

104

Company Profile

For nearly 80 years, Rohde & Schwarz has stood for quality, precision and

innovation in all fields of wireless

communications.

The privately owned company group has a global

presence. It develops, produces and markets a wide range of electronic capital goods for industry, infrastructure

operators and government agencies.

Numerous subsidiaries and representatives not only

ensure quick and competent on-site support anywhere in the world, but also safeguard customer investments with comprehensive service and support offerings.

Rohde & Schwarz is among the market leaders in all of its business fields, including wireless communications and

RF test and measurement, terrestrial TV broadcasting and technologies related to the interception and analysis of

radio signals.

[email protected]

Our business fields

Test and measurement

T & M instruments and systems for wireless communications, electronics and

microwave applications

Secure communications

(Radio) systems providing encrypted communications for armed forces, government agencies and industry

Radiomonitoring and

radiolocation

Spectrum monitoring systems and radiomonitoring

equipment for homeland and external security

Broadcasting

Sound and TV broadcasting and measuring equipment

2 Rohde & Schwarz Test & Measurement | Catalog 2012

Test and measurement

Rohde & Schwarz is one of the world’s largest manufacturers of electronic test and measurement equipment. Our products set standards in research, development, production and service. As a key partner of industry, network operators and public institutions, we offer a broad spectrum of market-leading solutions for state-of-the-art technologies, including LTE-Advanced, the mobile radio standard of the next generation, as well as for extremely high- frequency applications up to 500 GHz.

Company Profile

New applications in the automotive and aerospace fields, in material research and in video technology promote the trend toward ever higher frequencies in electronics.

Rohde & Schwarz meets the growing demand by offering cutting-edge products for signal generation, signal analysis, network analysis and power measurement. The

company is systematically expanding its oscilloscope portfolio to meet the wide-ranging needs of customers, also in the lower price segment with products from its HAMEG subsidiary that are ideal for general lab applications.

Our test and measurement portfolio

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Test and measurement solutions for mobile radio and wireless technologies

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Wireless device testers

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Infrastructure testers

Protocol testers

Conformance/preconformance testers

Test systems and accessories

Signal and spectrum analyzers

Network analyzers

Oscilloscopes

Signal generators

Coverage measurement systems

EMC and field strength test solutions

Power meters and voltmeters

Audio analyzers

Modular instruments

Power supplies

RF and microwave accessories

System components

Broadcasting and video T & M and monitoring solutions

Test and measurement.

More information | www.rohde-schwarz.com 3

Company Profile

Broadcasting

TV viewers and radio listeners in more than 80 countries receive their programs via transmitters from

Rohde & Schwarz. Our innovative portfolio of broadcasting and measuring equipment drives the development of

digital broadcasting worldwide.

The high demand for DVB-T2 networks in Europe and its commercial success, mainly in Africa and Latin America, more than compensated for last year’s downward trend in the mobile TV market, enabling Rohde & Schwarz to reassert its position as the market leader in terrestrial TV.

Secure communications

Radiocommunications systems Military, government and civil forces must be able to exchange information efficiently and securely. This is crucial for the success of national and international operations. Rohde & Schwarz supplies armed forces with interoperable radiocommunications systems for use on the ground, at sea and in the air. Our solutions use state-of-the-art encryption methods that satisfy the highest national and international security standards. To be able to serve the needs of future networkcentric mission scenarios, Rohde & Schwarz is working intensively on the development of next-generation software defined radio (SDR) systems.

To expand the company’s leading position as a supplier of products for processing, distributing and transmitting broadcast signals, DVS Digital Video Systems AG was integrated into the corporate group. DVS is a leading international manufacturer of hardware and software for professional film and video post production and storage.

Civil air traffic control agencies in 80 countries and at more than 200 locations – both airports and ATC centers – also use Rohde & Schwarz radio systems. By adding voice communications systems to its product portfolio, the company can now offer integrated all-in-one solutions for groundcockpit communications – from the controller working

position to the antenna.

Communications security Rohde & Schwarz SIT

GmbH develops highly secure crypto products and systems for secure voice and data transmission via wireless and fixed links for private industry, government agencies and the military. In addition, the company’s expertise ensures confidentiality of communications when using

Rohde & Schwarz radio equipment and systems.

Our broadcasting portfolio

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Digital and analog TV transmitters for all power classes and all

conventional standards worldwide, including mobile TV

Digital and analog sound broadcast transmitters

Broadcast and video T & M and monitoring solutions

Hardware and software for professional film and video post production

Our secure communications portfolio

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Integrated communications systems for the following

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Civil and military air traffic control (ATC)

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Army

Navy

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Air force

Encryption technology

Broadcasting.

Secure communications.

4 Rohde & Schwarz Test & Measurement | Catalog 2012

Radiomonitoring and radiolocation

The need for mobile, wireless exchange of information is increasing drastically, but the usable frequency spectrum for radiocommunications is limited. Rohde & Schwarz develops and produces stationary and mobile systems for detecting, locating and analyzing radiocommunications signals. These systems allow efficient monitoring and

allocation of the limited radio frequencies.

The company’s receivers, direction finders, signal analyzers, antennas and customized systems have made

Rohde & Schwarz a reliable partner for its customers for many decades. Applications include homeland and external security, radiomonitoring by regulatory agencies and frequency management.

Company Profile

Services

Rohde & Schwarz operates a global service network in

order to safeguard the investments of its customers.

The following on-site services are offered worldwide:

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Calibration

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Maintenance and repair

Product updates and upgrades

With its regional Rohde & Schwarz service centers, plants and specialized subsidiaries, the company can provide a wide range of additional s ervices:

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System integration

System support

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Installation and commissioning

Application support

Development of customized modules, instruments and systems

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Software development

Mechanical and electrical design

Manufacturing to order

Technical documentation

Logistics concepts

Our radiomonitoring and radiolocation portfolio

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Radio intelligence systems

Spectrum monitoring systems

Satellite monitoring systems

Signal analysis systems

Receivers

Direction finders

Antennas

Solutions for analyzing IP data streams

Radiomonitoring and radiolocation.

Services.

Service you can rely on

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Worldwide

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Local and personalized

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Customized and flexible

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Uncompromising quality

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Long-term dependability

More information | www.rohde-schwarz.com 5

Aerospace and Defense Test Solutions

Chapter 1

Aerospace and

Defense Test

Solutions

Radar test solutions from Rohde & Schwarz combine leading-edge performance with expandability for tomorrow’s innovations. Modular designs help maintain the value of your investment in our solutions, and our constant innovation ensures that you are always ahead of the technology curve.

Type

R&S®TS6710

R&S®TS6300

R&S®TS6600

Designation

TRM Radar Test System

ILS Test System

Radar Test Generator

6 Rohde & Schwarz Test & Measurement | Catalog 2012

Description

All-in-one solution for efficient RF characterization

Mobile automatic test solution for ILS ground measurements

Tester for phase-coherent measurements on radar frontends

Page

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8

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R&S®TS6710 TRM Radar Test System

Aerospace and Defense Test Solutions

State-of-the-art AESA radars contain several thousand

TRMs each, and each TRM must be tested separately during development and production. To handle the large number of different measurements and measurement values involved, testing requires a high degree of automation.

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The R&S®TS6710 is an all-in-one solution that offers extremely short test times for ensuring the high throughput required in production. In addition, it allows measurements to be flexibly configured for development. These capabilities help the manufacturer develop modules, reduce production cycles and make production more efficient.

Optimum test performance is achieved by specifically adapting the test cases on the basis of the supplied source code, either by Rohde & Schwarz or by experts of the customer. Since the test details can be adapted by the customer, it is easy for customers to protect their intellectual property rights. Because of the wide parameter ranges, the R&S®TS6710 supports the measurement of TRMs for diverse applications, e.g. due to its wide frequency range for future broadband radar equipment.

All-in-one solution for efficient RF characterization

The R&S®TS6710 test system allows manufacturers of state-of-the-art AESA radar equipment to perform fast, automatic RF measurements on transmit-receive modules

(TRM) in development and production. The test cases supplied with the system are adapted to customer requirements, e.g. to allow automatic control of the module.

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Very short test times, e.g. typ. 15 s per module in production

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Optional extension to eight DUTs per test system

Test sequencer for user-configurable test runs

Standard test cases with complete source code

Custom optimization of tests

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Turnkey solution from a single source

Based on Rohde & Schwarz standard components

R&S®ZVA high-end network analyzer for RF measurements

R&S®CompactTSVP for fast communications with the TRM

R&S®OSP-TRM for RF signal conditioning and

DUT multiplexing

Specifications in brief

RF specifications

Frequency range

Max. output power of TRM

Max. output power of test system

Dynamic range of spurious-emission

measurement

Resolution

Typical test times

TRM control

Digital control of TRM

DUT power supply

5 µs pulse width, max. 2.5 % duty cycle measurement of pulse shape complete characterization

(25 000 measurement values) measurement of key parameters

(2500 measurement values, typ. for production)

1 GHz to 24 GHz

50 W

–2 dBm

≤ –60 dBc

30 ns

< 4 min

< 15 s multichannel with current measurement

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40 MHz clock rate programmable level on-board storage of digital commands up to 64M pattern realtime evaluation of response

≤ 50 V, 50 W

More information | www.rohde-schwarz.com 7

Aerospace and Defense Test Solutions

R&S®TS6300 ILS Test System

more than 50 different values) makes it possible to separately determine and analyze Course and Clearance in a single measurement. Integration and allocation of the GPS data to each measured data record opens up previously unimagined signal analysis possibilities.

The R&S®ILSChecker software was developed in cooperation with the Swiss SKYGUIDE organization. It is used to control the R&S®EVS300 and is based on an elaborate concept that stems from real-world practice (Swiss Air Navigation Services). It has been thoroughly tested by SKYGUIDE and fulfills all the requirements of the ICAO standards.

The system is rounded out by a laptop for measured data acquisition, a GPS receiver, and GPS and ILS antennas. It can be integrated into a vehicle together with a mast. A telescopic mast for Glide Path measurements is available as an option. The complete system is extremely easy to operate and offers very high measurement reproducibility.

Mobile automatic test solution for ILS ground

measurements

The R&S®TS6300 is a modular ILS test system for ILS ground measurements at airports with CAT I to III runways.

ICAO standards (ICAO Annex 10 and Doc. 8071) require that ILS ground measurements be performed at regular intervals. These measurements provide test engineers working at air traffic control (ATC) authorities with important information that can be used to perform preventive and corrective maintenance of transmitting systems.

The R&S®EVS300 ILS/VOR analyzer lies at the heart of the

R&S®TS6300. This analyzer offers outstanding performance, which makes it ideal for carrying out dynamic measurements. The very high measurement rate of 100 Hz

(100 complete data records per second, each containing

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Highly precise measurements, with 100 data records per second (with GPS stamp) independent of weather

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Full support of all required Localizer and Glide Path

measurements

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R&S®ILSChecker software filters the DDM data of

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ICAO  Annex 10 specifications

Significant cost savings through simple “one-man” operation, and reduction of test flights for antenna alignment

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Actual changes in the ILS signal are easy to verify due to the very high measurement reproducibility

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Reproducibility and high accuracy enable good correlation between measurements on the ground and in the air

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Comprehensive analysis capabilities in the test vehicle or in the lab using the R&S®ILSChecker software

Specifications in brief of the R&S®EVS300

Frequency range

Preselection filter ranges marker beacon

ILS LLZ

ILS GS

VOR

Frequency resolution

Absolute level

Maximum input power

Display ranges 1) Low Noise mode (preamplifier ON)

Normal mode (preamplifier OFF)

Low Distortion mode (RF attenuator ON)

Autorange mode

Level resolution

Accuracy

Linearity error

Inherent noise

Spurious response, inherent

Intermodulation

Third-order intercept point (TOI) at –30 dBm in range from –70 dBm to 0 dBm

Low Noise mode without input signal, Low Noise mode

70 MHz to 350 MHz

74.7 MHz to 75.3 MHz

108 MHz to 112 MHz

320 MHz to 340 MHz

108 MHz to 118 MHz

100 Hz

+13 dBm

–120 dBm to –20 dBm

–110 dBm to –10 dBm

–100 dBm to +20 dBm

–120 dBm to +20 dBm

0.1 dB

< 0.8 dB

< 0.5 dB

< –115 dBm

< –90 dBm

2 × 10 dBm, Δf > 200 kHz, Low Distortion mode > 20 dBm

1) Overload display if in-band or out-of-band signals are overloading.

8 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®TS6600 Radar Test Generator

Aerospace and Defense Test Solutions

The R&S®TS6600 test system is an efficient solution for analyzing radar frontends by means of multichannel, phase-coherent signals. High level and phase accuracy, which is required for EUT testing and calibration, is ensured through short recalibration of the test system, which is performed automatically each time the system is started and after each temperature change. In conjunction with the use of all-inclusive test routines, this simplifies tests in production and service. The system is controlled via a GUI or from the customer's main measurement software.

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Flexible signal generation is a key requirement in the creation and simulation of radar scenarios. The

Rohde & Schwarz test system allows the use of predefined, manually created signal sequences or previously recorded sequences. The R&S®TS6600 test system can be precisely configured to match the specific application and the required parameters. Due to its high degree of scalability the system can be tailored to offer the required functionality for any application from development to servicing.

Tester for phase-coherent measurements on radar frontends in development, production and service

To test and calibrate multichannel radar frontends in development, calibration and service, phase-coherent test signals are required. These may be modulated or unmodulated pulse sequences or even complex, real-world scenarios.

Vital requirements for such signals are high level and phase accuracy over a wide dynamic range, high measurement speed and automated test sequences.

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Generation of up to ten phase-coherent, synchronous

RF signals

High-speed level and phase variation over 50 dB dynamic range by means of waveforms loaded into the tester

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(I/Q mode)

CW and pulse mode

Generation of I/Q data or use of existing I/Q data of customer-specific waveforms with up to 120 MHz

bandwidth, as well as playback of realistic reception

scenarios

Analysis of transmit pulses including power measurement

EUT multiplexing

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Rapid, integrated temperature compensation of test

system > 10 s by means of integrated power meter

Full system calibration (level and phase) in less than

40 min by means of power meter and combiner

Software libraries for easy integration into main test

software

Specifications in brief

Frequency range

Signal generation

Maximum number of RF channels

Level range

Phase

Fast leveling mode

Signal types

Signal measurement

Interface to EUT

Interface to test system

Temperature range

1 GHz to 6 GHz

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–135 dBm to –17 dBm

±360°

< 1 μs/step over 50 dB dynamic range with 0.15 dB relative level accuracy (I/Q mode)

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+10 °C to +40 °C

More information | www.rohde-schwarz.com 9

Wireless Communications Testers and Systems

Chapter 2

Wireless

Communications

Testers and Systems

To keep the evolution of wireless communications technology running, innovative mobile devices need to be efficiently developed and manufactured. For the complex measurements involved,

Rohde & Schwarz offers a wide range of instruments and systems such as wireless device RF and protocol testers for R & D, conformance and operator

acceptance tests.

Type Designation Description Page

Wireless device testers

R&S®CMW270

R&S®CMW500

R&S®CMU200

R&S®CMS54/57

R&S®CTH

R&S®CBT/CBT32

Wireless Connectivity Tester

Wideband Radio Communication Tester

Universal Radio Communication Tester

Radiocommunication Service Monitors

Portable Radio Test Set

Bluetooth® Testers

The IEEE 802.16e Mobile WiMAX™ and non-cellular expert

All-in-one test platform for wireless devices

Multitechnology tester for mobile radio devices

Radio testers for service, production and development

Always on duty

Fast and comprehensive RF and audio measurements for

development, production and verification

Protocol testers

R&S®CRTU-W/G

R&S®CMW500-PT

Protocol Test Platform

HSPA+ and LTE Protocol Tester

Family of protocol testers for GSM and WCDMA mobile radio standards

One tester for all phases of development

Conformance and preconformance testers

R&S®TS895xG/W/GW GSM/GPRS/EDGE/WCDMA RF Test System Family Development, precompliance and conformance testing of

mobile phones

R&S®TS8980 RF Test System for LTE and WCDMA Platform for testing needs from development to conformance testing

R&S®TS8991 OTA Performance Test System

R&S®TS8996 RSE Test System

Perfect characterization of wireless products over the air

interface

Fully automatic emission measurements on wireless communications equipment required for R & D and quality assurance

System accessories

R&S®CMW-Z10/-Z11 RF Shielding Box and Antenna Coupler

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R&S®TS712x

R&S®DST200

Shielded RF Test Chambers

RF Diagnostic Chamber

Excellent shielding effectiveness and superior coupling

characteristics

Reliable RF tests on devices with radio interface

Ideal environment for RF analysis during development

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10 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®CMW270 Wireless Connectivity

Tester

Wireless Communications Testers and Systems

The R&S®CMW270 was developed to meet the specific requirements in R & D, production, quality assurance, service and network interoperability testing (IOT) − with a single, tailorable instrument. It is an ideal choice for demanding performance tests and measurements in labs and production − from IP application testing under fully controlled network conditions with a MIMO base station emulator to high-speed RF and baseband alignment with dual-tester configuration.

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The IEEE 802.16e Mobile WiMAX™ and non-cellular expert

The R&S®CMW270 is the ideal test solution for integrated wireless communications solutions in laptops, netbooks, game consoles, data cards and wireless headsets, for example. It is a tailored subset within the R&S®CMW500 product family. Besides Mobile WiMAX™, the

R&S®CMW270 includes generator and analyzer functionality for standards such as WLAN, FM stereo and Bluetooth® as well as for GPS and broadcast technologies.

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Continuous frequency range up to 6 GHz

Multiple standard RF measurements for WiMAX™,

WLAN, FM stereo and Bluetooth®

General-purpose ARB generation for WiMAX™, WLAN,

Bluetooth®, FM stereo, GPS and broadcast technologies

Mobile WiMAX™ base station emulator with MIMO

support for matrix A, matrix B and collaborative

Simultaneous uplink burst measurements during

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signaling connection, PER/BER and message analyzer

IP-based end-to-end test for Mobile WiMAX™

performance verification up to the theoretical limits of 36 Mbit/s

Dual-tester concept with R&S®Multi-Evaluation List mode for speed and cost-optimized production

Specifications in brief

Frequency

Frequency range

Max. frequency drift

R&S®CMW270

R&S®CMW270 base unit

70 MHz to 6 GHz

±1 × 10

–6 with R&S®CMW-B690A option (OCXO extension) ±5 × 10 –8 with R&S®CMW-B690B option (highly stable OCXO extension)

±5 × 10 –9

RF generator

RF output level range

Output level uncertainty

IF bandwidth

RF analyzer

RF input level range

Level uncertainty continuous power (CW), RF1 COM, RF2 COM in temperature range from +20 °C to +35 °C

IF bandwidth

Arbitrary waveform generator (with R&S®CMW-B110A option)

Arbitrary waveform files

Sample rate maximum sample length maximum

Memory size

Mobile WiMAX™ parameters

Digital standard

Physical layer mode

Bandwidth

Frame duration

FFT size

Modulation modes and coding rates

MAC support continuous wave (CW), RF1 OUT, WiMAX™ band 1 –130 dBm to +8 dBm in temperature range from +20 °C to +35 °C, no overranging, output level > –120 dBm

< 0.6 dB (12-month calibration interval)

< 0.8 dB (24-month calibration interval)

70 MHz

–84 dBm to +34 dBm

< 0.5 dB (one-year calibration interval)

< 0.7 dB (two-year calibration interval)

40 MHz

256 Msample

100 MHz min. 1 Gbyte

IEEE 802.16e

OFDMA, TDD

3.5 MHz, 5 MHz, 7 MHz, 8.75 MHz, 10 MHz

5 ms

512, 1024

BPSK, QPSK 1/2, QPSK 3/4, 16QAM 1/2,

16QAM 3/4, 64QAM 1/2, 64QAM 2/3,

64QAM 3/4, 64QAM 5/6

IEEE 802.16e, base station emulation

More information | www.rohde-schwarz.com 11

Wireless Communications Testers and Systems

R&S®CMW500 Wideband Radio

Communication Tester

To adapt the R&S®CMW500 to the requirements of the application, the user simply has to select the appropriate hardware and software components. Rohde & Schwarz offers preconfigured models for a number of important

applications.

All-in-one test platform for wireless devices

The R&S®CMW500 is the universal tester for testing the air interface of wireless devices. The R&S®CMW500 can be used in all phases of product development and production and supports all common cellular and non-cellular wireless technologies. The R&S®CMW500 supports and tests all protocol layers – from the RF to end-to-end data. It is based on a concept implementing scalable options and can be adapted to any application.

The R&S®CMW500 can handle the following:

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Wireless standards and broadcast technologies, e.g.

LTE (incl. MIMO), WLAN or DVB-T and associated

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inter-RAT measurements

All phases of development, verification and production

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All protocol layers, from RF tests and protocol tests to end-to-end application tests

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Module tests, system and integration tests, regression tests, conformance tests and production tests

Models

R&S®CMW500

The all-in-one test platform

R&S®CMW280

The compact RF tester for

production

R&S®CMW270

The expert for WiMAX™ and non-cellular technologies

The R&S®CMW500 is the universal model for virtually all applications.

It offers maximum flexibility – for

development and production, for RF and protocol tests as well as for all technologies.

The R&S®CMW280 is the compact version of the R&S®CMW500 and has

20 % less depth. It can be configured exclusively as a single tester and requires only minimum floor space in classic test concepts.

Specially designed for the WIMAX™,

WLAN, Bluetooth®, GPS, FM radio and broadcast standards, the

R&S®CMW270 is a cost-effective

alternative for the development and production of equipment outside the conventional cellular networks.

R&S®CMWPC

The R&S®CMW tool set for PC

To maximize the efficiency of the

R&S®CMW500 and the R&S®CMW270, any tasks that do not require specialized hardware (e.g. RF converters) can be performed on a PC. The preparation and follow-up of tests or test campaigns or the generation of tests and remote control scripts can be carried out cost-effectively on a standard PC using R&S®CMWPC. R&S®CMWPC is also the basis for virtual protocol testing where the physical layer is

replaced by a software emulation.

Use of the R&S®CMW500 for multiple wireless technologies

Technology RF generator RF analyzer Network emulation Protocol test

LTE FDD ●

LTE TDD (TD-LTE)

Mobile WiMAX™

CDMA2000® 1xRTT

CDMA2000® 1xEV-DO

TD-SCDMA

WCDMA/HSPA+

GSM/GPRS/EDGE/EDGE Evolution ●

GPS

Bluetooth®

WLAN a/b/g/n

DVB-T

T-DMB

MediaFLO™

CMMB

FM stereo

12 Rohde & Schwarz Test & Measurement | Catalog 2012

End-to-end application test

R&S®CMU200 Universal Radio

Communication Tester

Multitechnology tester for mobile radio devices

The R&S®CMU200 ensures premium cost effectiveness through a variety of features, with extremely fast measurement speed and very high accuracy being the two most important ones. In addition, the secondary remote addressing of the tester‘s modular architecture makes for intelligent and autonomous processing of complete measurement tasks and fast control program design.

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Extremely high-speed testing

Highly accurate measurements

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Modular future-ready design

Comprehensive spectrum analyzer

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Fast switching between networks

Wireless Communications Testers and Systems

Supported technologies

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CDMA2000® 1xRTT

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CDMA2000® 1xEV-DO

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WCDMA/HSPA

GSM/GPRS/EDGE

A-GPS

Bluetooth®

Applications

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RF development

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Module design

Module test in production

Adjustment of mobile phones

Final test in production

Functional test

Feature test

High-end service

Quality inspection

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Basis for test systems

Base station simulation

Models

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R&S®CMU200V02 for mobile phone testing with network emulation – the signaling specialist

R&S®CMU200V10 for high-end servicing of mobile

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phones – the service tester specialist

R&S®CMU200V30 for non-signaling production testing of mobile phones – the calibration specialist

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Specifications in brief

RF generator

Frequency range

Frequency resolution

Output level range

Output level uncertainty

Output level resolution

RF analyzer

VSWR

Power meter (wideband)

Frequency range

Level range

Level uncertainty

RF2, 100 kHz to 2.2 GHz

RF2, 2.2 GHz to 2.7 GHz output level ≥ –106 dBm, +20 °C to +35 °C

RF1/2, < 2.2 GHz

100 kHz to 2.7 GHz

0.1 Hz

–130 dBm to –10 dBm

–130 dBm to –16 dBm

< 0.6 dB

0.1 dB

RF1, 10 MHz to 2.0 GHz

RF1, 2.0 GHz to 2.2 GHz

RF2, 10 MHz to 2.2 GHz

< 1.2

< 1.3

< 1.2

100 kHz to 2.7 GHz continuous power, 10 MHz to 2.2 GHz

RF1, 50 W

RF2, 2 W

+6 dBm to +47 dBm

–8 dBm to +33 dBm

+6 dBm to +33 dBm input level, +5 °C to +20 °C or +35 °C

RF2, 50 MHz to 2.7 GHz < 0.5 dB

More information | www.rohde-schwarz.com 13

Wireless Communications Testers and Systems

R&S®CMS54/57 Radiocommunication

Service Monitors

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Frequency range from 400 kHz to 1 GHz

Radio tester family including two models to cover all measurement requirements

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Suitable for every type of radio equipment using AM, FM,

φM as well as SSB

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Transmitter, receiver and duplex measurements on

mobile radio equipment, base stations and RF modules

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Analog signaling

Simultaneous display of settings and results

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Manual and automatic measurements

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Tracking generator

Spectrum monitor

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Stationary and mobile use

Cable fault finder

Radio testers for service, production and

development

The R&S®CMS is the ideal radio tester for use in service, maintenance and test departments. It is suitable for all transceivers using AM, FM or φM as well as SSB. Optional extensions enable the R&S®CMS to satisfy all requirements of radio measurements and even to cover related fields.

Low weight, compact size and low power consumption make this instrument particularly suitable for mobile use.

Both testers provide

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Transmitter and receiver testing

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RF spectrum monitor with zero-span to full-span display

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Extremely sensitive RF frequency counter

Transient recorder for frequency versus time and power

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Fully automatic testing

The autorun control and printer interface allows automatic test routines to be easily configured and stored via the front-panel keypad. Tolerances can be inserted into these test routines to determine and log pass/fail limits. Batterybacked memory cards are used as program and test report library. Test reports, program lists and screen hardcopies can be output on a printer.

R&S®CMS54: radio tester for high-end service

Additional equipment:

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Full-span tracking generator from 0.4 MHz to 1000 MHz

Adjacent channel power meter with standard ETSI filters

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Duplex modulation meter

Automatic harmonic measurements

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Cable fault finder

R&S®CMS57: specialist for avionics

Additional equipment:

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VOR/ILS signal generator

Specifications in brief

Basic RF data

Frequency range

Max. input power

RF generator

Output level, RF I/O port

Level accuracy, up to 1 GHz

FM deviation accuracy

FM deviation range

FM modulation frequency

AM depth range

AM modulation frequency

AM accuracy

SSB phase noise

Spectrum analyzer

Accuracy

Dynamic range

(30 kHz) 1 MHz to 1 GHz

50 W, optionally 100 W

–134 dBm to 0 dBm

±3 dB

5 %

0 Hz to 100 kHz

20 Hz to 20 kHz

0 % to 99 %

0 Hz to 10 kHz

5 %

–105 dBc (1 Hz) at 10 kHz

±3 dB

> 65 dB

14 Rohde & Schwarz Test & Measurement | Catalog 2012

Specifications in brief

Broadband power measurement

Range, RF I/O

Accuracy

Analyzer

FM demodulation range

FM demodulation accuracy

AM demodulation range

AM demodulation accuracy

Distortion measurement

Range

Accuracy

Input level

SINAD meter

Frequency

Input level range

Accuracy

5 mW to 100 W

0.45 dB

0 Hz to 100 kHz

±5 %

0 % to 99 %

±7 %

0.1 % to 50 %

±5 %

0.1 V

100 Hz to 5 kHz

100 mV to 30 V

< 1 dB

R&S®CTH Portable Radio Test Set

Wireless Communications Testers and Systems

The R&S®CTH100A/R&S®CTH200A includes all the measurement functions needed for reliable testing of transceivers. The measurement results are clearly presented on a display that is optimized for outdoor use so the measured values are easily readable even under difficult

lighting conditions.

With its high measurement accuracy and straightforward operation, the R&S®CTH100A/R&S®CTH200A delivers

unrivaled performance and functionality for its class.

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Frequency measurement

Power measurement

Over-the-air measurement (R&S®CTH200A)

Distance-to-fault measurement (R&S®CTH200A)

Voice reporting (R&S®CTH200A)

Handy and ergonomic

Rugged and all-weatherproof

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Always on duty

The R&S®CTH allows dependable testing of analog FM radio systems even under challenging environmental

conditions. The radio test set was designed especially for outdoor use.

Ensuring the smooth functioning of transceivers is the key to successful communications. The R&S®CTH100A/

R&S®CTH200A performs this type of work without requiring expert knowledge. The user can simply connect the device under test (DUT) to the R&S®CTH100A/

R&S®CTH200A and immediately begin transmitter and

receiver measurements.

Model overview

R&S®CTH100A

Transmitter measurements

Forward power

Reflected power

Frequency counter •

FM receiver measurements

Squelch

Demodulation

Additional measurements

Over the air –

Distance to fault –

Voice reporting –

Specifications in brief

Generator

Frequency range

Power level

FM modulation

Level uncertainty

Power measurement

Measurement range

Measurement uncertainty

Frequency measurement

Measurement range

Measurement uncertainty in fixed steps of 5 MHz (R&S®CTH100A), in adjustable steps of 100/200/500 kHz/1/2/5 MHz

(R&S®CTH200A)

30 MHz to 512 MHz fixed level (R&S®CTH100A) adjustable level (R&S®CTH200A) audio squelch

–97 dBm

–120 dBm to –97 dBm

900 Hz

150 Hz

3 dB forward and reflected power

0.1 W to 50 W

20 %

30 MHz to 512 MHz

2 kHz

R&S®CTH200A

More information | www.rohde-schwarz.com 15

Wireless Communications Testers and Systems

R&S®CBT/CBT32 Bluetooth® Testers

Fast and comprehensive RF and audio measurements for development, production and verification

The R&S®CBT testers perform Bluetooth® RF tests on all channels in hopping or non-hopping mode. They offer a large number of statistical monitoring and measurement functions. It is possible, for instance, to define tolerances for each measured value, or to stop a measurement sequence after a certain number of measurements or when a tolerance has been exceeded.

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Highly flexible troubleshooting in R & D

Very short measurement times for high throughput in

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Integrated spectrum measurements

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R&S®CBTGo software supporting 18 Bluetooth® RF test cases

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Bluetooth® audio profiles (handsfree, headset and A2DP)

Dual-channel audio generator and analyzer

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Bluetooth® low energy RF tests

High-speed Bluetooth® tests in production

The R&S®CBT uses parallel signal processing and therefore performs Bluetooth® tests in production lines at extremely high speed. While conventional Bluetooth® testers sequentially measure power, modulation, frequency accuracy and frequency drift, the R&S®CBT performs all these measurements in a single test cycle.

The highly flexible remote control programming makes it easy to adapt measurement configurations to any specific test requirements. For example, if measurements are to be carried out on five channels instead of the three channels used by conventional testers, the R&S®CBT remote control program can easily be modified to include two more channels. In the case of other testers, this would require running the entire test sequence a second time, which would considerably slow down the measurement process.

R&S®CBT and R&S®CBT32 – the perfect combination for R & D and production

Featuring a wide range of control options and a large display, the R&S®CBT is the ideal choice for R & D applications in the lab. When a product is transferred to production, the remote control program for the tester can be created conveniently on the R&S®CBT, which allows every test step to be verified in manual operation. Later, in the production line, the more favorably priced R&S®CBT32 can be used, which is intended exclusively for remote control and optimized for 19" racks. The R&S®CBT and the R&S®CBT32 have identical hardware and software, the main difference being that the R&S®CBT32 has no control elements.

Specifications in brief

RF generator

Frequency range

Frequency offset range

Output level range, RF IN/OUT

GFSK modulation

DPSK modulation

RF menu

Bluetooth® menu

Bluetooth® LE menu

2398 MHz to 2499 MHz

2402 MHz to 2495 MHz

2402 MHz to 2480 MHz

±250 kHz

–90 dBm to +0 dBm

–90 dBm to –3 dBm for basic rate packets and for Bluetooth® low energy packets for EDR packets (2-DHx, 3-DHx)

GFSK bit rate, DHx packet types 1 Mbps, B × T = 0.5

modulation index range, 100 kHz to 220 kHz frequency deviation 0.20 to 0.44

π/4DQPSK bit rate, 2-DHx packet types

8DPSK bit rate, 3-DHx packet types

2 Mbps

3 Mbps

Power meter

Level range, RF IN/OUT continuous power peak envelope power (PEP)

Modulation analyzer

Total measurement range for frequency offset and frequency deviation (GFSK)

Frequency resolution (GFSK/DPSK)

Bluetooth® menu frequency offset < maximum deviation

Bluetooth® LE menu frequency offset < maximum deviation manual mode remote control mode

–40 dBm to +22 dBm

+26 dBm (400 mW)

–250 kHz to +250 kHz

–350 kHz to +350 kHz

1 kHz

1 Hz

16 Rohde & Schwarz Test & Measurement | Catalog 2012

Wireless Communications Testers and Systems

R&S®CRTU-W/G Protocol Test Platform

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Detailed signaling analysis

Full test case coverage for mobile certification according to GCF and PTCRB

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Fully automatic test cycles

Channel extension to up to ten physical channels

Ciphering available

Windows operating system

Upgradeable to RRM and RF conformance test systems

Members of the R&S®CRTU family

R&S®CRTU-G

The R&S®CRTU-G simulates a GSM base station with two completely independent RF channels. The

GSM400/850/900/1800/1900 networks are supported.

Family of protocol testers for GSM and WCDMA

mobile radio standards

The R&S®CRTU-W/G is the unique signaling and protocol test solution for GSM/WCDMA multimode terminals. It provides a maximum level of flexibility from early design and development through to comprehensive conformance and certification testing.

R&S®CRTU-S

The R&S®CRTU-S was designed as a dual-channel RF expansion for an R&S®CRTU-G acting as master. It comes with all available frequency bands and signaling options and performs all functions supported by the master,

requiring no extra options.

Powerful tools enable the user to define and execute test cases in line with 3GPP test specifications TS51.010 and

TS34.123 and to visualize the test results. In addition,

customer-specific test scenarios can be implemented in

TTCN or C++. Two independent RF channels allow the simulation of two independent cells at the same or at different RF frequencies, which is an indispensable prerequisite for performing WCDMA handovers.

R&S®CRTU-W

The R&S®CRTU-W is a highly versatile signaling protocol tester for WCDMA and dual-mode mobile phones. An existing R&S®CRTU GSM protocol tester can be expanded easily and cost-effectively to create a UMTS protocol tester while maintaining its GSM test functionality.

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Protocol analyzer and system simulator for

(E)GPRS/GSM/ HSPA/WCDMA FDD

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Support of all specified frequency bands

Use in protocol stack R & D and conformance testing

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Complete and convenient tool chain from test generation to result analysis

R&S®CRTU-M

Some test cases require more than two UMTS cells. The

R&S®CRTU platform concept allows cascading of up to three UMTS protocol testers. An R&S®CRTU-W master can be connected to up to two R&S®CRTU-M slaves to form a multicell system that simulates as many as six UMTS cells.

Specifications in brief

RF generator (CW signals)

Frequency range

Frequency resolution

Output level uncertainty (RF1/2)

Output level resolution

RF generator (GSM)

Supported bands

Output level range (RF2)

Output level uncertainty (RF1/2)

RF generator (WCDMA)

Supported bands

Output level range (RF2, RMS value)

Output level uncertainty (RF1/2)

10 MHz to 2.2 GHz, level ≥ –106 dBm,

+20 °C to +35 °C

GMSK

8PSK level ≥ –117 dBm, +20 °C to +35 °C max. value depends on channel configuration level ≥ –120 dBm, f < 2200 MHz,

+20 °C to +35 °C

100 kHz to 2700 MHz

0.1 Hz

< 0.8 dB

0.1 dB

GSM400/850/900/1800/1900

–130 dBm to –16 dBm

–130 dBm to –20 dBm

< 0.7 dB band I, II, III, IV, V, VI, VII, VIII, IX

–120 dBm to –20 dBm

< 0.8 dB

More information | www.rohde-schwarz.com 17

Wireless Communications Testers and Systems

R&S®CMW500-PT HSPA+ and LTE

Protocol Tester

One tester for all phases of development

The R&S®CMW500-PT is the ideal UMTS long term evolution (LTE) protocol tester, as it provides developers of wireless devices with a radio access network simulation.

Equipped with powerful hardware and various interfaces to wireless devices, the R&S®CMW500-PT can be used throughout all phases of LTE device development – from the initial software module test to the integration of software and chipset, as well as for conformance and performance tests of the protocol stack of 3GPP-compliant

wireless devices.

The R&S®CMW500-PT provides developers of LTE protocols with a specification-conforming reference implementation of the air interface. The comprehensive functions of the programming interfaces and the highly detailed representation in the analysis tools can be used to quickly detect discrepancies in the DUT protocol stack.

Hardware platform

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LTE protocol tester with a layer 1 to layer 3 protocol stack implementation in accordance with 3GPP Rel. 8

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specifications TS 36.302, TS 36.321, TS 36.322, TS 36.323,

TS 36.331

Future-ready, powerful RF hardware that supports the

3GPP-defined LTE bandwidths from 1.4 MHz to 20 MHz

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Data rates up to 100 Mbps in the downlink and

50 Mbps in the uplink

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Integration of the DUT via an RF interface or digital

I/Q interface (realtime, reduced clock); adaptation to

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customer-specific digital I/Q standards via an external adapter unit (future release)

Digital baseband fading by means of the R&S®AMU200 fading simulator

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2x2 MIMO and 4x2 MIMO (future release)

Multicell and multi-RAT capability for LTE intracell,

intercell and inter-RAT handover tests (future release)

Software components

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Development environment for layer 1 to layer 3 signaling scenarios with automatic configuration of the layers

below

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TTCN3 libraries and software tools for developing

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LTE signaling conformance test cases (future release)

Extensive library with preconfigured messages and

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signaling scenarios for speeding up test development

Practice-proven software tools for carrying out, working

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Optional emulation of the physical layer for the development of layer 2 and layer 3 protocol software on PCs

Specifications in brief

Physical layer

Frequency range

Physical layer mode

Duplexing

Data rate

Layer 2 MAC

Transport channels

Logical channels

Modes

PDU operations

Procedures all 3GPP frequency bands up to 6 GHz

SISO

2x2 MIMO from V 1.30

FDD mode

100 Mbps DL, 50 Mbps UL

25 Mbps DL, 25 Mbps UL in V 1.00

BCH, DL-SCH, UL-SCH, PCH, RACH, PDCCH, PUCCH, PCFICH (V 1.10)

DTCH, BCCH, DCCH, PCCH, CCCH (V1.10) unacknowledged mode, transparent mode, acknowledged mode (V 1.10) assembly, disassembly, multiplexing, demultiplexing, padding duplicate detection, error detection and recovery, discard and reset

procedure

18 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®TS895xG/W/GW GSM/GPRS/EDGE/

WCDMA RF Test System Family

Wireless Communications Testers and Systems

The R&S®TS895x family

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R&S®TS8950G: GSM RF full conformance tests

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R&S®TS8950W: WCDMA RF full conformance tests

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R&S®TS8950GW: dual-mode GSM/WCDMA RF full

conformance tests

R&S®TS8952G: GSM RF receiver conformance tests

R&S®TS8955G: GSM RF precompliance/R & D tests

R&S®TS8955GW: WCDMA RF precompliance/R & D tests

System upgrades are possible at any time with only small add-ons, because the R&S®TS895x platform is nearly identical for GSM and WCDMA applications.

Test applications for RF test

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R&S®TS8950G: GSM, GPRS, AMR, DARP, EGPRS

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12/13/14/16/18/21

R&S®TS8950W: WCDMA FDD 1 to FDD 11 in line with

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3G TS 34.121, HSDPA, Rel. 7; sections 5/6/7/9/10

R&S®TS8955G: GSM, GPRS, AMR, DARP and EGPRS in line with 3G TS 51.010-1; sections 12/13/14/21

R&S®TS8955W: WCDMA FDD 1 to FDD 11 in line with

3G TS 34.121, HSDPA, Rel. 6; sections 5/6/7/9/10

Development, precompliance and conformance

testing of mobile phones

The R&S®TS895x family consists of a full range of highly configurable RF test systems for user equipment (UE) and mobile phones. The R&S®TS8950 represents the top end of the new, third generation of RF test systems from

Rohde & Schwarz that fulfills all requirements for RF conformance tests on 2G, 2.5G and 3G devices.

Radio resource management tests, section 8, are available in a separate test setup or as an extension to the

R&S®TS8950W or R&S®TS8950GW. All test cases are implemented based on test methods. The test methods are generic test applications with parameter sets that can be edited via an intuitive Windows user interface.

Customized and standard solutions for R & D, development and precompliance testing are available with the

R&S®TS8955x test solutions, i.e. the R&S®TS8955G,

R&S®TS8955W and R&S®TS8955GW in various configurations depending on the required functionalities. The

R&S®TS8955 uses the same application software as the

R&S®TS8950.

The R&S®TS8950 systems feature fully automatic path calibration routines that run with minimum manual intervention and without the need for any external equipment.

RF tests for the development of GERAN and UTRAN mobile phones and user equipment

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User-configurable test scenarios based on supplied test methods

Different system configurations available depending on customer requirements

Support of customer climatic chambers to run tests

under different temperature conditions

Conformance tests

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Using sets of validated test cases

Using a validated test platform

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Precompliance tests

Testing against modified conformance tests

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Testing against custom tests based on the

Rohde & Schwarz test methods

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R & D tests

Margin testing, e.g. absolute sensitivity of receiver

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Quality assurance

Sample test

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More information | www.rohde-schwarz.com 19

Wireless Communications Testers and Systems

R&S®TS8980 RF Test System for LTE and

WCDMA

Platform for testing needs from development to

conformance testing

The R&S®TS8980 RF test system family covers the testing needs from R & D to conformance for WCDMA and LTE chipsets and mobile stations. It is modular and fully automated for RF transmitter, receiver and performance measurements. The scalable hardware and software allows cost-efficient solutions in R & D and can be upgraded for precompliance and full conformance testing.

Different setups of the R&S®TS8980 for different

requirements

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Layer 1 tests (LTE) (R&S®TS8980S)

R & D applications to create user-specific test scenarios

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(LTE) (R&S®TS8980S)

Precompliance tests in line with 3GPP TS 36.521-1 (LTE) and 3GPP TS 34.121-1 (WCDMA) (R&S®TS8980S)

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Full conformance testing in line with 3GPP TS 36.521-1

(LTE) and 3GPP TS 34.121-1 (WCDMA) (R&S®TS8980IB,

R&S®TS8980FTA)

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Network-operator-specific tests (AT&T, Sprint, US Cellular,

Verizon Wireless etc.) (R&S®TS8980IB, R&S®TS8980FTA)

Reusable structure supports upgrading

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Performance quality analysis (PQA) as software upgrade

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Radio resource management (TS-RRM)

R&S®CONTEST software platform

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R & D applications to create user-specific test scenarios

Debugging with breakpoints, step-by-step execution

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Easy-to-use graphical parameterization of test cases

Sequencer tool

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DUT services such as graphical antenna configurations

Online report with status of progress and pie diagram

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Summary report with filter for report explorer

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Test results in HTML, XML or CSV format and internal and external database access

Consistent RF tests

The hardware can be expanded to create a conformance test system. This, together with the uniform tester software, ensures optimal results in applications ranging from development to final testing.

Reduced development times

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Efficient tools

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Individual definition of tests

Test methods included

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Individual or sequential execution of tests

Precise, reproducible measurement results

The fully automated path calibration used in the

R&S®TS8980 LTE RF test system and high-speed self-test mechanisms deliver maximum accuracy and reproducibility of measurement results.

Low cost of ownership

Scalable configurations starting with the R&S®TS8980S ensure an optimum match of budget and functionality. The instruments used in the system require calibration only every 24 months. Between calibrations, automatic path

calibration ensures optimum measurement accuracy.

Efficient use of test system through automation

RF tests can be fully automated if required. This makes it possible to use the system continuously, independent of working hours. An optional extension further increases the level of automation by allowing sequential testing of multiple devices under test on one system.

20 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®TS8991 OTA Performance Test

System

Wireless Communications Testers and Systems

CTIA-compliant OTA measurements – LTE and

MIMO inside

Over-the-air (OTA) measurements are an essential part of the certification testing of wireless devices that require an omnidirectional antenna radiation pattern. The

R&S®TS8991 OTA performance test system measures the spatial radiation and sensitivity characteristic as specified by CTIA and 3GPP. MIMO OTA testing is also supported by the R&S®TS8991.

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The R&S®AMS32 system software provides ready-to-use test templates for OTA measurements and supports all common wireless standards. The integrated report function collects all measured test data such as graphics or numeric results, test environments, EUT information and hardware setup in one document.

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Measurement of OTA performance in line with CTIA,

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Wi-Fi Alliance, CWG, PTCRB standards and test cases and WiMAX Forum®

For all important wireless technologies, including LTE,

MIMO and A-GPS

Time-optimized, configurable test sequences for qualification and development, based on R&S®AMS32 system software

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Can be combined with radiated spurious emission and

EMC test systems

Two different test methods: great circle and conical cut

Turnkey solution including OTA chamber and

EUT positioner

Cost-effective OTA verification of MIMO-enabled devices with easy-to-use test setup

Configuration example: conical cut solution

¸AMS32

OTA software

¸CMU200 universal radio communication tester

¸CMW500 wideband radio communication tester

¸PTW70 WLAN protocol tester

¸CBT32

Bluetooth® tester

¸PSL1 + A-GPS industrial controller

¸OSP120/150 open switch and control platform

¸SMU200A vector signal generator

¸FSL6 spectrum analyzer

3D device controller

Elevation Θ

Link antenna

Dual-polarized antenna

Azimuth Φ

Cartridge cable

More information | www.rohde-schwarz.com 21

Wireless Communications Testers and Systems

R&S®TS8996 RSE Test System

R&S ®TS8996 RSE test system with R&S®OSP-F7x filter bank, R&S®R-Line compact RF chamber or separate R&S ®TS-MAPD positioner.

Fully automatic emission measurements on wireless communications equipment required for R & D and quality assurance

The R&S®TS8996 RSE test system is used for EMI and spurious emission measurements on wireless communications equipment during EMC and type approval testing.

Typical DUTs are mobile phones, base stations, radio sets and short-range devices.

The relevant standards stipulate a wide variety of measurements in a very wide frequency range, all of which can be covered with the R&S®TS8996. For some radiocommunications systems (i.e. short-range devices), higher frequency limits (i.e. 40 GHz) are already stipulated for spurious emission measurements. The R&S®TS8996 can be easily adapted to customer requirements.

The modular design of the R&S ®OSP-F7x filter unit for carrier frequency suppression allows flexible configuration and easy expansion for various frequency bands. For measuring radiated spurious emissions from radiocommunications equipment, filter configurations for the following technologies are prepared: GSM, Bluetooth ®, WLAN,

WiMAX™, WCDMA (UMTS) and LTE. Others are available on request.

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Frequency range from 30 MHz to 18 (40) GHz

Radiated measurements in line with ETSI EN 301489,

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FCC part 15 and 3GPP TS51.010 standards

Conducted spurious emission measurements from

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100 kHz to 12.75 GHz on antenna connector of DUT

Measurement of spurious emissions from

radiocommunications equipment

System software

The R&S®EMC32 software enables fully automatic simple testing. The R&S®EMC32-K2 option offers special features:

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Automatic setup and control of wireless link

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Control of different 3D EUT manipulators

ERP/EIRP measurement

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Automatic suppression of carrier signal by R&S®T8996 filter unit

The predefined test sequences allow a high degree of automation. Users are freed from tedious extra work, and incorrect settings or signal connections can be avoided right from the start. Our product managers assist costumers with option selection and system configuration.

22 Rohde & Schwarz Test & Measurement | Catalog 2012

Wireless Communications Testers and Systems

System accessories

R&S®CMW-Z10/-Z11 RF Shielding Box and Antenna Coupler

Excellent shielding effectiveness and

superior coupling characteristics

The R&S®CMW-Z10 RF shielding box and the

R&S®CMW-Z11 antenna coupler offer excellent shielding effectiveness and superior coupling characteristics. Both devices can be used for frequencies up to 6 GHz. These outstanding features combine with a modular options concept to make the R&S®CMW-Z10 and R&S®CMW-Z11 indispensable for any radiocommunications tester.

Specifications in brief

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Shielding effectiveness

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0.4 GHz to 4 GHz: > 80 dB

4 GHz to 6 GHz: > 60 dB

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Outer dimensions (W × H × D):

320.9 mm × 267.5 mm x 527.7mm

(12.6 in × 10.5 in x 20.8 in)

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Weight: 9 kg (19.8 lb)

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Excellent shielding characteristics

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Ultralow reflections

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Broadband spiral antenna allowing a wide

variety of applications

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Optimized antenna structure for extremely good RF coupling

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Designed for harsh, continuous duty and

ergonomic operation

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Modular options concept and flexible

assignment of modules

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Large area for optimum positioning, even of large DUTs

R&S®TS712x Shielded RF Test Chambers

Reliable RF tests on devices with radio

interface

The R&S®TS712x family of RF test chambers has been designed to meet the requirements of automatic production lines. These include long life, rugged design and automatic opening and closing of the RF chamber. Featuring high

shielding effectiveness over a wide frequency range, the RF test chambers perform tests on modules and devices with a radio interface in

accordance with a wide variety of standards such as ISM, GSM/CDMA2000®/WCDMA,

WLAN, Bluetooth®, ZigBee, WiMAX™ and LTE.

R&S®TS7121A and R&S®TS7123M

The R&S®TS712x family includes two base models that differ mainly in width. An automatic and a manual version of each model are also available. The automatic R&S®TS712xA RF test chamber is mainly used in production. The

R&S®TS712xM manual version is particularly suited for applications in service, quality assurance and development.

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Rugged design for long life

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High shielding effectiveness up to 14 GHz

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Low reflection due to use of absorbent material

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Integrated RF connectors and filter feedthroughs

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Variety of options to support application- specific configurations

The R&S®TS712xA and R&S®TS712xM automatic and manual versions of the RF test chambers have the same basic design, ensuring the same test functionality for both versions in development, production and service. The exchangeable connector plate allows the user to add

application-specific feedthroughs without having to modify the RF test chamber.

R&S®DST200 RF Diagnostic Chamber

Ideal environment for RF analysis during

development

The R&S®DST200 RF diagnostic chamber supports a wide range of radiated test applications for wireless devices. It fits on the workbench of every R & D lab and is therefore always available during the product design and optimization phase. The R&S®DST200 effectively assists in achieving high first-time pass rates at final type approval, which saves time and money.

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Anechoic RF chamber with highly effective shielding > 110 dB for interference-free testing in unshielded environments

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Wide frequency range from 700 MHz to 6 GHz covering all important wireless standards

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High reproducibility due to excellent uniformity of field distribution at equipment under test

(EUT) location

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Small size suitable for any lab environment

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Matchless mechanical design provides long-term stability and maintains the shielding effectiveness

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Easy opening and closing of door: no need for pneumatic components

Specifications in brief

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Frequency range: 700 MHz to 6 GHz

(higher frequencies on request)

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Antenna polarization: circular

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Shielding effectiveness

(base unit with R&S®DST-B102 option)

W

700 MHz ≤ f ≤ 3 GHz: > 110 dB

W

3 GHz < f ≤ 6 GHz: > 100 dB

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Quiet zone (above EUT table, ∅ × H):

200 mm × 30 mm (7.9 in × 1.2 in)

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Field uniformity

(max. field variation in quiet zone):

< 3.2 dB (meas.)

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RF feedthrough connectors

(R&S®DST-B102 option): 2 × N, female

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Test antenna connector: 1 × N, female

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Dimensions (W × H × D, with locking handle):

770 mm × 760 mm × 695 mm

(30.3 in × 29.9 in × 27.4 in)

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Max. EUT dimensions (W × H × D):

400 mm × 330 mm × 400 mm

(15.7 in × 13.0 in × 15.7 in)

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Weight: approx. 55 kg (121 lb)

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Max. EUT weight: 3 kg (6.6 lb)

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More information | www.rohde-schwarz.com 23

Oscilloscopes

Chapter 3

Oscilloscopes

What customers have often requested is finally available: oscilloscopes from Rohde & Schwarz.

As always, users benefit from the high quality and in-depth development and production expertise at

Rohde & Schwarz.

Everything takes place in-house: analog, mixed signal and digital integration; software, RF and digital development; production from printed board to finished product. The result: two new oscilloscope families covering bandwidths from 500 MHz to 2 GHz.

Type Designation Bandwidth/channels Description

Oscilloscopes

R&S®RTO

R&S®RTM

Digital Oscilloscope

Digital Oscilloscope

600 MHz/2 or 4 channels

1 GHz/2 or 4 channels

2 GHz/2 or 4 channels

High performance in the 600 MHz to 2 GHz class

500 MHz/2 or 4 channels Compact, precise, versatile

Probes for the R&S®RTO and R&S®RTM oscilloscope families

R&S®RT-ZP10

R&S®RTM-ZP10

R&S®RT-ZS10

Passive Voltage Probe

Passive Voltage Probe

Active Voltage Probe

500 MHz

500 MHz

1 GHz

R&S®RT-ZS10E

R&S®RT-ZS20

R&S®RT-ZS30

Active Voltage Probe

Active Voltage Probe

Active Voltage Probe

1 GHz

1.5 GHz

3 GHz

R&S®RT-ZD20

R&S®RT-ZD30

R&S®RT-ZH10

R&S®RT-ZH11

Differential Voltage Probe 1.5 GHz

Differential Voltage Probe 3 GHz

Passive High-Voltage Probe 400 MHz

Passive High-Voltage Probe 400 MHz

Passive, high-impedance

Passive, high-impedance

Active, single-ended, with R&S®ProbeMeter and micro button

Active, single-ended

Active, single-ended, with R&S®ProbeMeter and micro button

Active, single-ended, with R&S®ProbeMeter and micro button

Active, differential, with R&S®ProbeMeter and micro button

Active, differential, with R&S®ProbeMeter and micro button

Passive, high-voltage, single-ended

Passive, high-voltage, single-ended

Page

25

26

27

27

27

27

27

27

27

27

27

27

24 Rohde & Schwarz Test & Measurement | Catalog 2012

Oscilloscopes

R&S®RTO Digital Oscilloscope

High performance in the 600 MHz to 2 GHz class

The R&S®RTO oscilloscopes combine excellent signal fidelity, high acquisition rate and the world’s first realtime digital trigger system with a compact device format in the

600 MHz to 2 GHz class. They offer hardware-accelerated measurement and analysis functions.

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Fast finding of signal faults

Hardware-accelerated analysis

Highly accurate digital trigger system

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New ease of operation

Convincing accuracy

Triggering and decoding of serial protocols

Logic analysis with the MSO option

3

Specifications in brief of the base unit

Vertical system

Input channels

Bandwidth (–3 dB) at 50 Ω

Input impedance

Input sensitivity

Effective number of bits (ENOB) of the

A/D  converter

Acquisition system

Max. sampling rate (realtime)

Memory depth

Max. acquisition rate

Decimation modes

R&S®RTO1002/RTO1012/RTO1022

R&S®RTO1004/RTO1014/RTO1024

R&S®RTO1002 and R&S®RTO1004

R&S®RTO1012 and R&S®RTO1014

R&S®RTO1022 and R&S®RTO1024 2 GHz

50 Ω ± 1.5 %, 1 MΩ ± 1 % with 15 pF (meas.) max. bandwidth in all ranges 50 Ω: 1 mV/div to 1 V/div, 1 MΩ: 1 mV/div to 10 V/div full-scale sine, frequency < –3 dB bandwidth > 7 bit (meas.) standard configuration, per channel/1 channel active max. upgrade (R&S®RTO-B102 option), per channel/1 channel active continuous aquisition and display,

10 Gsample/s, 1 ksample any combination of decimation mode and waveform arithmetics on up to 3 waveforms per channel

2

4

600 MHz

1 GHz

10 Gsample/s per channel

R&S®RTO 2-channel model: 20/40 Msample

R&S®RTO 4-channel model: 20/80 Msample

R&S®RTO 2-channel model: 100/200 Msample

R&S®RTO 4-channel model: 100/400 Msample

1 000 000 waveforms/s

Sample, Peak Detect, High Resolution,

Root Mean Square

Waveform arithmetics

Interpolation modes

Horizontal system

Time base range

Time base accuracy

Off, Envelope, Average

Linear, Sin(x)/x, Sample & Hold after delivery/calibration

25 ps/div to 50 s/div

±5 ppm after delivery/calibration (R&S®RTO-B4 option) ±0.02 ppm

Trigger system

Trigger types definition of trigger hysteresis

Edge, Glitch, Width, Runt, Window, Time-out,

Interval, Slew Rate, Data2Clock, Pattern, State,

Serial Pattern, I 2

CAN, FlexRay

C, SPI, optional: UART/RS-232, LIN, settable (automatic/manual) from 0.1 div to 5 div

100 ps

Sensitivity

Min. detectable glitch

Waveform mathematics

Algebraic categories

Hardware-accelerated mathematics

Analysis and measurement functions

Hardware-accelerated analysis

Hardware-accelerated measurements mathematics, logical operations, comparison, frequency domain, digital filter

+, –, *, 1/x, |x|, derivative, log

10

, ln, log

2

, scaling, FIR, FFT magnitude spectrum, histogram, mask test, cursor amplitude measurements, time measurements

More information | www.rohde-schwarz.com 25

Oscilloscopes

R&S®RTM Digital Oscilloscope

Compact, precise, versatile

Due to their excellent measurement properties and wide variety of practical functions, the R&S®RTM oscilloscopes facilitate daily work, whether in product development or service. Their compact dimensions, simple operation and brilliant display make them the first choice for everyday test and measurement tasks.

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Finding signal faults quickly and effectively

Tools for fast signal analysis

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Smart operating concept

Reliable results for stringent demands

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Triggering and decoding of serial protocols

Specifications in brief

Vertical system

Input channels

Bandwidth (–3 dB) at 50 Ω

Rise time (calculated)

Input impedance

Input sensitivity

Resolution

Acquisition system

Max. sampling rate (realtime)

Memory depth

Decimation modes

Waveform arithmetics

Interpolation

Horizontal system

Time base range

Time base accuracy

Trigger system

Trigger types

Analysis and measurement functions

QuickMeas

Automatic measurements

Cursor measurements

Waveforms mathematics

R&S®RTM1052

R&S®RTM1054 max. bandwidth in all ranges combination of decimation mode and waveform arithmetics possible at the push of a button, internally available

measurement values are written directly onto the waveform and updated continuously

2

4

500 MHz

700 ps

50 Ω ± 1.5 % or 1 MΩ ± 1 % with 12 pF ± 1 pF

50 Ω: 1 mV/div to 1 V/div

1 MΩ: 1 mV/div to 10 V/div

8 bit

2.5 Gsample/s; 5 Gsample/s interleaved

4 Msample; 8 Msample interleaved

Sample, Peak Detect, High Resolution

Off, Envelope, Average, Smooth

Sin(x)/x

1 ns/div to 50 s/div

10 ppm

Edge, Width, Video, Pattern, B-Trigger; optional: I 2 C, SPI, UART/RS-232 peak-to-peak voltage, pos. peak, neg. peak, rise time, fall time, mean value, RMS value, period, frequency mean value, RMS value, amplitude, top level, base level, peak-to-peak voltage, pos. peak, neg. peak, period, frequency, number of pulses, number of neg. pulses, number of rising edges, number of falling edges, pulse width, inverted pulse width, duty cycle, neg. duty cycle, rise time, fall time,

trigger period, trigger frequency voltage, time, ratio X, ratio Y, number of pulses, peak value, RMS value, mean value, rise time, fall time, vertical marker addition, subtraction, multiplication, division, maximum, minimum, square, square root, magnitude, positive wave, negative wave, reciprocal, inverse, integral, differentiation, log highpass filter, FFT

10

, ln, lowpass filter,

26 Rohde & Schwarz Test & Measurement | Catalog 2012

Oscilloscopes

R&S®RTO/RTM Probes

R&S®RTO/RTM probe families

The high-quality active probes from Rohde & Schwarz enable full use of the maximum bandwidths of the R&S®RTO oscilloscopes. Besides their excellent specifications, they feature impressive reliability and ease of use.

Rohde & Schwarz offers an entire family of high-quality

active probes. Passive probes are suited for general measurements on low-frequency signals with less stringent accuracy requirements. A passive probe for each oscilloscope channel is included as standard equipment.

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High signal fidelity due to excellent specifications

Easy to use, robust and ergonomic

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Micro button for convenient instrument control

R&S®RT-ZS20/-ZS30 active probes (1.5 GHz/3.0 GHz).

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Extensive standard accessories for the R&S®RT-ZS20/-ZS30 active probes.

R&S®RT-ZP10 passive probe (500 MHz).

R&S®RTO/RTM probe family

Probe

R&S®RT-ZP10

Type

R&S®RTM-ZP10 passive, high-impedance 500 MHz

R&S®RT-ZS10

passive, high-impedance 500 MHz active, single-ended

Bandwidth Input resistance Input capacitance Dynamic range Extras

1 GHz

1 MΩ

1 MΩ

1 MΩ

~ 10 pF

~ 10 pF

0.8 pF

400 V (V

±8 V

RMS

400 V (V

RMS

)

)

R&S®ProbeMeter, micro button

R&S®RT-ZS10E

active, single-ended

R&S®RT-ZS20

active, single-ended

R&S®RT-ZS30

active, single-ended

R&S®RT-ZD20

active, differential

R&S®RT-ZD30

active, differential

R&S®RT-ZH10

high-voltage, 100:1

R&S®RT-ZH11

high-voltage, 1000:1

1 GHz

1.5 GHz

3 GHz

1.5 GHz

3 GHz

400 MHz

400 MHz

1 MΩ

1 MΩ

1 MΩ

1 MΩ

1 MΩ

50 MΩ

50 MΩ

0.8 pF

0.8 pF

0.8 pF

±8 V

±8 V

±8 V

0.6 pF (differential) ±5 V

0.6 pF (differential) ±5 V

7.5 pF

7.5 pF

1 kV

1 kV

R&S®ProbeMeter, micro button

R&S®ProbeMeter, micro button

R&S®ProbeMeter, micro button

R&S®ProbeMeter, micro button

More information | www.rohde-schwarz.com 27

Signal and Spectrum Analyzers

Chapter 4

Signal and

Spectrum Analyzers

Since 1986 Rohde & Schwarz has been standing for innovative test equipment for signal and spectrum measurements. Customers from all over the world rely on the accuracy of spectrum analyzers, signal analyzers and vector signal analyzers from

Rohde & Schwarz.

Type Designation Frequency range Description Page

Signal and spectrum analyzers

R&S®FSH3/18

R&S®FSH4/8

Handheld Spectrum Analyzer 100 kHz to 3 GHz

10 MHz to 18 GHz

Handheld Spectrum Analyzer 9 kHz to 3.6/8 GHz

R&S®ZVH

R&S®FSC

R&S®FSL

R&S®FSV

R&S®FSVR

Cable and Antenna Analyzer

Spectrum Analyzer

Spectrum Analyzer

100 kHz to 3.6/8 GHz

9 kHz to 3/6 GHz

9 kHz to 3/6/18 GHz

Compact, flexible, professional and economically priced solutions

Where mobility counts

The new benchmark for efficiency in the field

Compact, cost-efficient solution

High-end functions in a lightweight, compact package

Signal and Spectrum Analyzer 10 Hz to 3.6/7/13.6/30/40 GHz Signal analysis at its best

Real-Time Spectrum Analyzer 10 Hz to 3.6/7/13.6/30/40 GHz Combines a full-featured signal and spectrum analyzer with a realtime spectrum analyzer

R&S®FSW

R&S®FSU

R&S®FSG

R&S®FSQ

R&S®FSUP

R&S®FMU36

R&S®FSMR

Signal and Spectrum Analyzer 2 Hz to 8/13.6/26.5 GHz

Spectrum Analyzer 20 Hz to

3.6/8/26.5/43/46/50/67 GHz

Spectrum Analyzer 9 kHz to 8/13.6 GHz

Signal Analyzer

Signal Source Analyzer

Baseband Signal Analyzer

Measuring Receiver

Setting standards in RF performance and usability

High-end spectrum analyzer with unmatched performance

20 Hz to 3.6/8/26.5/40 GHz

20 Hz to 8/26.5/50 GHz

Full-fledged high-performance spectrum analyzer

Signal and spectrum analysis in a single unit

Phase noise tester, high-end spectrum and signal analyzer

36 MHz I/Q bandwidth Universal analyzer for analog baseband signals

20 Hz to 3.6/26.5/43/50 GHz One-box solution for calibrating generators and attenuators

Accessories for R&S®FSx analyzers

R&S®FS-Z10

R&S®FS-Zxx

Coherence Unit

External Mixers

100 MHz to 6 GHz

40 GHz to 110 GHz

Phase-coherent RF measurements with two analyzers

Spectrum analysis in the waveguide bands above 40 GHz

Application firmware

Application firm ware packages for R&S

®FSx analyzers: see overview on page 44 and description on page 45 ff

Modulation analyzers

R&S®EVS300 VOR/ILS Analyzer

R&S®FMAx Modulation Analyzers

70 MHz to 350 MHz

50 kHz to 1.36 GHz

Precision level and modulation analysis

Fast and accurate analysis of analog modulated signals

38

39

40

41

42

43

43

56

57

29

30

31

32

33

34

35

36

37

28 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®FSH3/18 Handheld Spectrum

Analyzer

Signal and Spectrum Analyzers

Compact, flexible, professional and economically priced solutions

The R&S®FSH3/FSH18 are rugged, handheld spectrum analyzers designed for measurement tasks in the field. The functionality of the analyzers matches that of conventional lab instruments.

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Frequency range up to 3/18 GHz

Easy operation, low weight and rugged design for field use

Channel power measurements, burst power

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measurements in time domain

RMS detector

Quasi-peak detector

AM/FM audio demodulator

Field-strength measurements with directional and

isotropic antenna

Receiver mode

Terminating power sensors up to 18 GHz

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Directional power sensors up to 4 GHz

Test system for EMF measurements (R&S®TS-EMF)

Easy data transfer to PC

Up to four hours battery operating time

4

Specifications in brief

Spectrum analysis

Frequency range

Resolution bandwidths

Video bandwidths

Displayed average noise level (DANL)

TOI

SSB phase noise at 100 kHz carrier offset

Detectors

Level measurement uncertainty

Dimensions

Weight

R&S®FSH3 R&S®FSH18

100 kHz to 3 GHz

100 Hz to 1 MHz

10 Hz to 1 MHz typ. –135 dBm (100 Hz)

10 MHz to 18 GHz typ. –128 dBm (100 Hz) typ. 13 dBm

< –100 dBc (1 Hz) typ. 7 dBm

≤ –90 dBc (1 Hz)

Sample, Max Peak, Min Peak, Auto Peak, RMS, Average, Quasi Peak

< 1.5 dB, typ. 0.5 dB < 1.5 dB up to 6 GHz

< 2.5 dB up to 16 GHz

< 3 dB up to 18 GHz

170 mm × 120 mm × 270 mm (6.7 in × 4.2 in × 10.6 in)

2.5 kg (5.5 lb)

More information | www.rohde-schwarz.com 29

Signal and Spectrum Analyzers

R&S®FSH4/8 Handheld Spectrum Analyzer

Where mobility counts

The R&S®FSH4/FSH8 are rugged, handy spectrum analyzers designed for use in the field. Their low weight, their simple, well-conceived operation and the large number of measurement functions make them indispensable tools for anyone who needs efficient measuring instruments for outdoor work.

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Frequency range up to 3.6/8 GHz

High sensitivity (< –141 dBm (1 Hz), with preamplifier

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< –161 dBm (1 Hz))

20 MHz demodulation bandwidth for analyzing

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LTE signals

Low measurement uncertainty (< 1 dB)

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Measurement functions for all important measurement tasks during startup and maintenance of transmitter

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systems

Analysis of 3GPP WCDMA, CDMA2000®, 1xEV-DO and

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LTE FDD/TDD transmit signals

Internal tracking generator and VSWR bridge with built-in

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DC voltage supply (bias)

Two-port network analyzer

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Easy-to-replace Li-ion battery for up to 4.5 h of operation

Rugged, splash-proof housing for use in the field

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Easy handling due to low weight (3 kg with battery) and

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R&S®FSH4View software for simple documentation of measurement results

Specifications in brief

Spectrum analysis

Frequency range, model .04/.14 or model .08/.18

Frequency range, model .24 or model .28

Phase noise (f = 500 MHz)

Resolution bandwidths

DANL (f = 2 GHz), without preamplifier

DANL (f = 2 GHz), with preamplifier

TOI, 300 MHz to 3.6 GHz

TOI, 3.6 GHz to 8 GHz

Total measurement uncertainty, 10 MHz to 3.6 GHz

Total measurement uncertainty, 3.6 GHz to 8 GHz

Detectors

Vector network analysis

Frequency range

Reflection measurement (S

11

, S

22

)

Directivity (f = 3 GHz)

Display modes

Transmission measurement (S

21

, S

12

)

Dynamic range (f = 3 GHz)

Display modes

Battery operating time (without tracking generator)

Weight

30 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®FSH4 R&S®FSH8

9 kHz to 3.6 GHz

100 kHz to 3.6 GHz

–95 dBc (1 Hz) at 30 kHz carrier offset

1 Hz to 3 MHz

< –141 dBm, typ. –146 dBm

< –161 dBm, typ. –65 dBm

9 kHz to 8 GHz

100 kHz to 8 GHz

> +10 dBm, typ. +15 dBm

– > +3 dBm, typ. +10 dBm

< 1 dB, typ. 0.5 dB

– < 1.5 dB, typ. 1 dB

Sample, Max Peak, Min Peak, Auto Peak, RMS

model .24 only

300 kHz to 3.6 GHz

model .28 only

300 kHz to 8 GHz

> 43 dB magnitude, phase, magnitude and phase, Smith chart, VSWR, return loss (dB), reflection coefficient, mρ typ. 100 dB magnitude (loss, gain), phase, magnitude + phase up to 4.5 h

3 kg (6.6 lb)

R&S®ZVH Cable and Antenna Analyzer

Signal and Spectrum Analyzers

The new benchmark for efficiency in the field

The R&S®ZVH cable and antenna analyzer is rugged, handy and designed for use in the field. Its low weight and simple operation make it indispensable for anyone who needs an efficient measuring instrument outdoors for the installation and maintenance of antenna systems.

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Frequency range from 100 kHz to 3.6 GHz or 8 GHz

100 dB (typ.) dynamic range for filter and antenna

isolation measurements

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Built-in DC voltage supply (bias) for active components such as amplifiers

Power meter option

Saving of measurement results on SD memory card or

USB memory stick

Easy operation with configurable test sequences (wizard)

Easy-to-replace Li-ion battery for up to 4.5 h of operation

Rugged, splash-proof housing for rough work in the field

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Easy handling due to low weight (3 kg with battery) and easy-to-reach function keys

Spectrum analyzer option

Vector network analyzer option

Specifications in brief

Frequency range

Standard measurement functions

Output power (port 1, port 2)

Maximum permissible spurious signal level

R&S®ZVH4

100 kHz to 3.6 GHz

R&S®ZVH8

100 kHz to 8 GHz reflection, distance-to-fault, one-port cable loss measurement

0 dBm to –40 dBm (nominal), in 1 dB steps

Number of points

Distance-to-fault (DTF) measurement

Display modes

Resolution in meters

+17 dBm (nominal)

101, 201, 401, 601, 631, 801, 1001, 1201 return loss (dB), VSWR

(1.58 × velocity factor/span)

3 m to 1500 m Horizontal display range

Reflection measurement

Directivity

Display modes

100 kHz to 3 GHz (nominal)

3 GHz to 3.6 GHz

3.6 GHz to 6 GHz

6 GHz to 8 GHz vector network analysis (R&S®ZVH-K42)

> 43 dB (nominal)

> 37 dB (nominal)

> 37 dB (nominal)

> 31 dB (nominal)

S

11

, return loss (dB), VSWR, one-port cable loss

S

11

, S

22

, magnitude, phase, magnitude + phase, Smith chart, VSWR,

reflection coefficient, mρ, one-port cable loss, electrical length, group delay magnitude + phase, Smith chart vector voltmeter (R&S®ZVH-K45)

Transmission measurement (with R&S®ZVH-K39 or R&S®ZVH-K42)

Dynamic range (S

21

)

Display modes

100 kHz to 300 kHz

300 kHz to 2.5 GHz

> 50 dB (nominal)

> 80 dB, typ. 100 dB

2.5 GHz to 3.6 GHz

3.6 GHz to 6 GHz

6 GHz to 8 GHz

> 70 dB, typ. 90 dB

> 70 dB, typ. 90 dB

> 50 dB (nominal) transmission measurement (R&S®ZVH-K39) S

21

, magnitude in dB (loss, gain) vector network analysis (R&S®ZVH-K42) S

21

, S

12

, magnitude, phase, magnitude + phase, electrical length, group delay vector voltmeter (R&S®ZVH-K45) magnitude + phase

DC voltage supply (DC bias, port 1 and port 2)

Voltage range internal voltage supply

Maximum output power/current

Maximum voltage/current external voltage supply

+12 V to +32 V, in 1 V steps

4 W (battery), 10 W (AC supply)/500 mA

50 V/600 mA

4

More information | www.rohde-schwarz.com 31

Signal and Spectrum Analyzers

R&S®FSC Spectrum Analyzer

The R&S®FSC features a wealth of functions for simplifying and speeding up the development and testing of RF products. Its good RF characteristics and its high measurement accuracy help to ensure reliable and reproducible measurement results.

Compact, cost-efficient solution

The R&S®FSC is a compact, cost-efficient solution that offers all essential features of a professional spectrum analyzer with Rohde & Schwarz quality. It covers a wide range of applications from simple development tasks to production, or can be used for training RF professionals. Moreover, it is ideal for applications in service or maintenance.

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Frequency range from 9 kHz to 3 GHz or 6 GHz

Resolution bandwidths from 10 Hz to 3 MHz

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High sensitivity (< –141 dBm (1 Hz), with optional preamplifier < –161 dBm (1 Hz ))

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High third order intercept (> 10 dBm, typ. 15 dBm)

Low measurement uncertainty (< 1 dB)

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Precise power measurement with external R&S®NRP-Zxx

USB power sensors

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Internal tracking generator (model .13/.16)

Storage of measurement results on USB stick

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LAN and USB interface for remote control and transfer of measurement data

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R&S®FSCView software for simple documentation of measurement results

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Compact dimensions

Low power consumption (12 W)

Specifications in brief

Frequency range

Resolution bandwidth

Displayed average noise level

TOI

Phase noise

Detectors

Level measurement uncertainty

Display

R&S®FSC3

9 kHz to 3 GHz

10 Hz to 3 MHz

R&S®FSC6

9 kHz to 6 GHz without preamplifier, RBW = 1 Hz

10 MHz to 2 GHz

2 GHz to 3 GHz

3 GHz to 3.6 GHz

3.6 GHz to 5 GHz

< –141 dBm, typ. –146 dBm

< –138 dBm, typ. –143 dBm

5 GHz to 6 GHz – with R&S®FSC-B22 preamplifier option, RBW = 1 Hz

10 MHz to 1 GHz

1 GHz to 2 GHz

< –161 dBm, typ. –165 dBm

< –159 dBm, typ. –163 dBm

2 GHz to 3 GHz

3 GHz to 5 GHz

5 GHz to 6 GHz

< –155 dBm, typ. –159 dBm

1 GHz frequency

500 MHz frequency

30 kHz carrier offset

100 kHz carrier offset

1 MHz carrier offset

10 MHz < f ≤ 3 GHz

3 GHz < f < 3.6 GHz

3.6 GHz < f ≤ 6 GHz typ. 15 dBm

< –95 dBc (1 Hz)

< –100 dBc (1 Hz)

< –120 dBc (1 Hz)

Sample, Max/Min Peak, Auto Peak, RMS

< 1 dB, typ. 0.5 dB

< –138 dBm, typ. –143 dBm

< –142 dBm, typ. –146 dBm

< –140 dBm, typ. –144 dBm

< –155 dBm, typ. –159 dBm

< –151 dBm, typ. –155 dBm

< 1 dB, typ. 0.5 dB

< 1.5 dB, typ. 1 dB

Tracking generator (model .13/.16)

Frequency range

Output power

Dynamic range (transmission) 100 kHz < f < 300 kHz

300 kHz < f < 3 GHz

3 GHz < f < 6 GHz

100 kHz to 3 GHz

0 dBm (nominal)

> 60 dB, typ. 80 dB

> 70 dB, typ. 90 dB

100 kHz to 6 GHz

> 70 dB, typ. 90 dB

5.7" (14.5 cm) color LCD with VGA resolution

32 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®FSL Spectrum Analyzer

Signal and Spectrum Analyzers

The R&S®FSL is the only instrument in its class that features a tracking generator up to 18 GHz and can analyze signals with a bandwidth of 28 MHz. In addition, the

R&S®FSL18, which operates at frequencies up to 18 GHz, supports applications in the microwave range.

Best performance in its class

The R&S®FSL is an extremely lightweight, compact spectrum analyzer that is ideal for a large number of applications in development, service and production. Though compact, it offers a wealth of functions more typical of the high-end range, ensuring an excellent price/performance ratio.

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Frequency range from 9 kHz to 3/6/18 GHz

All 18 GHz models with and without tracking generator

Best RF characteristics in its class

Largest signal analysis bandwidth in its class (28 MHz)

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Low measurement uncertainty, even in microwave range

High resolution filter accuracy owing to all-digital

implementation

Robust and compact

Carrying handle and low weight (< 8 kg (18 lb))

Optional battery operation

Wide range of functions, simple operation

Easy on-site upgrading with options

4

Specifications in brief

R&S®FSL3, model .03

R&S®FSL3, model .13

R&S®FSL6, model .06

R&S®FSL6, model .16

R&S®FSL18 model .18

R&S®FSL18 model .28

Frequency range

Frequency accuracy

With R&S®FSL-B4, OCXO

Resolution bandwidths

Standard

With R&S®FSL-B7

Video bandwidths

9 kHz to 3 GHz

1 × 10

–6

1 × 10

–7

9 kHz to 3 GHz 9 kHz to 6 GHz 9 kHz to 6 GHz

300 Hz to 10 MHz in 1/3 sequence, zero span additionally 20 MHz

10 Hz to 10 MHz in 1/3 sequence, additionally 1 Hz (FFT filter)

10 Hz to 10 MHz

9 kHz to 18 GHz (20 GHz in overrange) standard with the R&S®FSL18

Signal analysis bandwidth

Phase noise

28 MHz typ. –103 dBc (1 Hz) at 10 kHz from carrier, 1 GHz

Displayed average noise level (DANL)

With 300 Hz RBW typ. –117 dBm

With 1 Hz FFT RBW and

preamplifier (R&S®FSL-B7,

R&S®FSL-B22 options)

Third order intercept (TOI)

500 MHz: typ. –162 dBm,

3 GHz: typ. –158 dBm

Detectors typ. +18 dBm

Pos/Neg Peak, Auto Peak, RMS, Quasi Peak, Average, Sample

Level measurement uncertainty < 0.5 dB (30 kHz ≤ f ≤ 3 GHz), < 0.8 dB (3 GHz < f ≤ 6 GHz), < 1.2 dB (6 GHz < f ≤ 18 GHz)

Tracking generator

Frequency range

Output level no

– yes

1 MHz to 3 GHz no

–20 dBm to 0 dBm – yes

1 MHz to 6 GHz no

–20 dBm to 0 dBm – yes

10 MHz to 18 GHz

–30 dBm to –10 dBm

More information | www.rohde-schwarz.com 33

Signal and Spectrum Analyzers

R&S®FSV Signal and Spectrum Analyzer

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Frequency range up to 3.6/7/13.6/30/40 GHz

40 MHz analysis bandwidth

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0.4 dB level measurement uncertainty up to 7 GHz

Signal analysis at its best

The R&S®FSV is an exceptionally fast and versatile signal and spectrum analyzer for performance-oriented, costconscious users working in the development, production, installation and servicing of RF systems.

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Measurement applications for GSM/EDGE (including

EDGE Evolution), WCDMA/HSPA+, LTE, WiMAX™,

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WLAN, CDMA2000®, 1xEV-DO

Easy on-site upgrading with options

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–110 dBc (1 Hz) phase noise at 10 kHz frequency offset

+15 dBm third order intercept (TOI)

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Displayed average noise level (DANL) in 1 Hz bandwidth:

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–155 dBm at 1 GHz, –147 dBm at 30 GHz, with R&S®FSV-B24 preamplifier: –162 dBm at 30 GHz

Exchangeable hard disk for applications that involve the use of confidential data

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Frequency range up to 110 GHz with the R&S®FSV-B21

option integrated in the R&S®FSV30/40 and the

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R&S®FS-Z60/-Z75/-Z90/-Z110 harmonic mixers

Measurement applications for vector signal analysis

Specifications in brief

Frequency

Frequency range

Aging of frequency reference

Resolution bandwidths

Video filter

Signal analysis bandwidth

Displayed average noise level (DANL)

DANL (1 Hz bandwidth) without/with R&S®FSV-B70 option

Third order intercept (TOI)

Dynamic range (WCDMA ACLR)

Phase noise

1 GHz carrier frequency

1 GHz/1 GHz with preamplifier (R&S®FSV-B22)

3 GHz/3 GHz with preamplifier (R&S®FSV-B22)

–152 dBm, typ. –155 dBm/–162 dBm, typ. –165 dBm

–150 dBm, typ. –153 dBm/–160 dBm, typ. –163 dBm

7 GHz/7 GHz with preamplifier (R&S®FSV-B22) –146 dBm, typ. –149 dBm/–156 dBm, typ. –159 dBm

13 GHz/10 GHz with preamplifier (R&S®FSV-B24) –148 dBm, typ. –151 dBm/–164 dBm, typ. –167 dBm

30 GHz/30 GHz with preamplifier (R&S®FSV-B24) –144 dBm, typ. –147 dBm/–159 dBm, typ. –162 dBm

40 GHz/40 GHz with preamplifier (R&S®FSV-B24) –136 dBm, typ. –139 dBm/–154 dBm, typ. –156 dBm f < 3.6 GHz/3.6 GHz to 30 GHz +13 dBm, typ. +16 dBm/+15 dBm, typ. +18 dBm without/with noise compensation 70 dB/73 dB

Total measurement uncertainty

R&S®FSV-B9 tracking generator

Frequency range

Frequency offset without/with R&S®FSV-B4 option frequency domain zero span channel filter

10 kHz offset from carrier

100 kHz offset from carrier

1 MHz offset from carrier

3.6 GHz/7 GHz

R&S®FSV3

R&S®FSV7/13/30/40

10 Hz to 3.6/7/13.6/30/40 GHz

1 × 10

–6

/1 × 10

–7

1 Hz to 10 MHz

1 Hz to 10/20/28 MHz

1)

, optionally 40 MHz

100 Hz to 5 MHz

1 Hz to 10/20/28 MHz, 40 MHz 1)

28 MHz 1) /40 MHz 2)

–106 dBc (1 Hz), typ. –110 dBc (1 Hz)

–115 dBc (1 Hz)

–134 dBc (1 Hz)

0.29 dB/0.39 dB

100 kHz to 3.6 GHz

100 kHz to 7 GHz up to 1 GHz

1)

Max. bandwidth of the R&S®FSV40 (1307.9002.39): 10 MHz.

2) Not for the R&S®FSV40 (1307.9002.39).

34 Rohde & Schwarz Test & Measurement | Catalog 2012

Signal and Spectrum Analyzers

R&S®FSVR Real-Time Spectrum Analyzer

In realtime operation, the R&S®FSVR seamlessly measures and displays the spectrum in the time domain with a span of up to 40 MHz. As a result, it captures every event for analysis, no matter how brief that event might be.

Discover the unseen

The R&S®FSVR combines a full-featured signal and spectrum analyzer with a realtime spectrum analyzer. Therefore, it provides all the capabilities and features that modern T & M instruments of this kind have to offer.

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Frequency range from 10 Hz to 7/13.6/30/40 GHz

40 MHz realtime analysis bandwidth for:

Spectrum with persistence function

Spectrogram display

Display of power versus time

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Triggering on frequency masks

Full-featured signal and spectrum analyzer with

analysis software for GSM/EDGE, WCDMA/HSPA+,

LTE, WiMAX™, WLAN, analog and digital modulation

methods, noise figure and phase noise measurements

Exchangeable hard disk for applications that involve the use of confidential data

4

Specifications in brief

Frequency

Frequency range

Aging of frequency reference

Realtime spectrum analyzer

Realtime RF bandwidth

A/D converter

Windowing

Measurement points per trace

Resolution bandwidth

Number of spectra per second

Spectrogram update rate

Screen update rate

Detectors

Trace functions

FMT

Frequency resolution

Trigger span

Dynamic range

Spectrum analyzer

Resolution bandwidths without/with R&S®FSV-B4 option

Video filter

I/Q demodulation bandwidth

Displayed average noise level (DANL)

With R&S®FSV-B22/-B24 preamplifier

TOI

Dynamic range (WCDMA ACLR)

Phase noise (1 GHz carrier frequency)

Total measurement uncertainty frequency domain zero span channel filter

1 GHz/30 GHz

1 GHz/30 GHz f < 3.6 GHz without/with noise compensation

10 kHz offset from carrier

100 kHz offset from carrier

1 MHz offset from carrier f < 7 GHz

10 Hz to 7/13.6/30/40 GHz

1 × 10 –6 /1 × 10 –7

100 Hz to 40 MHz

128 Msample/s, 16 bit

Blackman Harris, Gauss, flat top, rectangular, Hanning, Kaiser

801 realtime RF bandwidth/(100 to 400), depending on windowing

250 000/s

10 000/s

30/s

Average (linear or RMS), Max Peak, Min Peak, Sample

Max Hold, Min Hold, Average realtime bandwidth/801 realtime RF bandwidth

0 dB to –80 dB below reference level

1 Hz to 10 MHz

1 Hz to 10/20/40 MHz

100 Hz to 5 MHz

1 Hz to 10/20/28/40 MHz

40 MHz

–152 dBm (1 Hz)/–150 dBm

–163 dBm/–162 dBm

16 dBm

70 dB/73 dB

–106 dBc (1 Hz)

–115 dBc (1 Hz)

–134 dBc (1 Hz)

0.4 dB

More information | www.rohde-schwarz.com 35

Signal and Spectrum Analyzers

R&S®FSW Signal and Spectrum Analyzer

The R&S®FSW offers up to 160 MHz analysis bandwidth for measuring wideband-modulated or frequency-agile signals. Currently, signal and spectrum analyzers measure different standards (GSM, CDMA, WCDMA, LTE) separately.

The R&S®FSW takes analysis to the next level, providing capability to measure multiple standards simultaneously.

Users can quickly and easily detect and eliminate errors caused by interaction between signals.

Setting standards in RF performance and usability

The new high-performance R&S®FSW signal and spectrum analyzer was developed to meet demanding customer requirements. Offering low phase noise, wide analysis bandwidth and straightforward and intuitive operation, the analyzer makes measurements fast and easy.

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Frequency range from 2 Hz to 8/13.6/26.5 GHz

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Low phase noise of –137 dBc (1 Hz) at 10 kHz offset

(1 GHz carrier)

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–88 dBc dynamic range (with noise cancellation) for

WCDMA ACLR measurements

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Up to 160 MHz analysis bandwidth

0.4 dB total measurement uncertainty up to 8 GHz

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High-resolution 12.1" (31 cm) touchscreen for convenient operation

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Multiple measurement applications can be run and

displayed in parallel

Specifications in brief

Frequency range

Aging of frequency reference

Bandwidths

Resolution bandwidths with R&S®FSW-B4 option standard filter

RRC filter channel filter video filter

I/Q demodulation bandwidth

Displayed average noise level (DANL)

with R&S®FSW-B28 option with R&S®FSW-B40 option with R&S®FSW-B80 option with R&S®FSW-B160 option

2 GHz with R&S®FSW-B13 option

DANL with preamplifier (R&S®FSW-B24 option) 8 GHz

26 GHz

DANL with noise cancellation, preamplifier off,

2 GHz

8 GHz

25 GHz

Intermodulation

Third order intercept (TOI) f < 1 GHz f < 3 GHz

8 GHz to 26 GHz with noise cancellation

WCDMA ACLR dynamic range

Phase noise

10 kHz offset from carrier

Total measurement uncertainty

500 MHz carrier

1 GHz carrier

10 GHz carrier

8 GHz

36 Rohde & Schwarz Test & Measurement | Catalog 2012

2 Hz to 8/13.6/26.5 GHz

1 × 10

–7

/year

3 × 10 –8 /year

1 Hz to 10 MHz

18 kHz (NADC), 24.3 kHz (TETRA),

3.84 MHz (3GPP)

100 Hz to 5 MHz

1 Hz to 10 MHz

10 MHz

28 MHz

40 MHz

80 MHz

160 MHz typ. –156 dBm (1 Hz) typ. –159 dBm (1 Hz) typ. –156 dBm (1 Hz) typ. –150 dBm (1 Hz) typ. –169 dBm (1 Hz) typ. –161 dBm (1 Hz) typ. –169 dBm (1 Hz) typ. +30 dBm typ. +25 dBm

+17 dBm

88 dB typ. –140 dBc (1 Hz) typ. –137 dBc (1 Hz) typ. –128 dBc (1 Hz)

0.4 dB

R&S®FSU Spectrum Analyzer

Signal and Spectrum Analyzers

The ¸FSU67 is the first spectrum analyzer with a direct frequency range up to 67 GHz and fundamental mixing. It allows measurements up to 67 GHz without cumbersome setups with external mixers.

High-end spectrum analyzer with unmatched

performance

The R&S®FSU spectrum analyzers are performance leaders in dynamic range, phase noise, level accuracy and resolution bandwidth – all factors that are essential for the user’s ability to design, characterize and manufacture next- generation wireless elements.

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R&S®FSU67 – first spectrum analyzer with a direct

frequency range up to 67 GHz and fundamental mixing

High measurement speed

Unmatched number of features

Wide selection of standards

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Frequency range from 20 Hz to

3.6/8/26.5/43/46/50/67 GHz

Displayed average noise level of –158 dBm (1 Hz)

Phase noise of typ. –133 dBc ( 1 Hz) at 10 kHz

TOI of typ. +25 dBm

1 dB compression point of typ. 13 dBm

WCDMA ACLR dynamic range of 77.5 dB/84 dB with noise correction

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Resolution bandwidth from 1 Hz to 50 MHz

Displayed average noise level with R&S®FSU-B24

preamplifier: typ. –168 dBm (1 Hz) at 20 GHz, typ. –155 dBm (1 Hz) at 50 GHz

4

Specifications in brief

Frequency range

Reference frequency

Spectral purity

Phase noise

Sweep time

Span ≥ 10 Hz

Span = 0 Hz (zero span)

Resolution bandwidth

Video bandwidth

Display range

1 µs to 16 000 s

10 Hz to 50 MHz (¸FSU43: 10 Hz to 10 MHz), FFT filter: 1 Hz to 30 kHz, channel filter, EMI bandwidth

1 Hz to 10 MHz displayed average noise level to +30 dBm

Displayed average noise level (1 Hz RBW)

1 GHz typ. –158 dBm

7 GHz – typ. –154 dBm typ. –156 dBm typ. –156 dBm typ. –153 dBm typ. –152 dBm typ. –148 dBm

13 GHz

26 GHz

40 GHz

50 GHz

65 GHz

Displayed average noise level with preamplifier ON

(¸FSU-B25), 1 GHz, 1 Hz

RBW

Displayed average noise level with preamplifier ON

(¸FSU-B24), 26 GHz,

10 Hz RBW

Trace detectors

Total measurement error, f < 3.6 GHz

Display linearity

¸FSU3 ¸FSU8 ¸FSU26 ¸FSU43

20 Hz to

3.6 GHz

20 Hz to

8 GHz

20 Hz to

26.5 GHz

20 Hz to

43 GHz aging: 1 × 10

–7

/year; with ¸FSU-B4 option: 3 × 10

–8

/year typ. –133 dBc (1 Hz) at 640 MHz at 10 kHz from carrier

2.5 ms to 16 000 s

< –162 dBm

Max Peak, Min Peak, Auto Peak, Sample, RMS, Average, Quasi Peak, CISPR-average, CISPR-RMS

0.3 dB

0.1 dB (0 dB to –70 dB)

– typ. –153 dBm

– typ. –166 dBm typ. –148 dBm typ. –143 dBm

¸FSU46

20 Hz to

46 GHz

¸FSU50

20 Hz to

50 GHz

¸FSU67

20 Hz to

67 GHz typ. –148 dBm typ. –142 dBm typ. –136 dBm typ. –142 dBm typ. –131 dBm typ. –140 dBm

– typ. –132 dBm

More information | www.rohde-schwarz.com 37

Signal and Spectrum Analyzers

R&S®FSG Spectrum Analyzer

Full-fledged high-performance spectrum analyzer

The R&S®FSG supports frequencies up to 13.6 GHz and excels due to its high measurement speed and its performance, which is optimized for applications in mobile radio and wireless communications.

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Fast, fully integrated vector signal analysis

28 MHz I/Q demodulation bandwidth

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4 Msample I and Q memory

I/Q data extraction, e.g. for MCPA adjustment

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Dynamic range of a high-end spectrum analyzer

TOI: typ. +25 dBm

1 dB compression: +13 dBm

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84 dB ACLR/3GPP with noise correction

Full choice of detectors for adaptation to a wide range of

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RMS detector with 100 dB dynamic range

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Auto Peak, Max Peak, Min Peak, Sample, Average

Large range of resolution filters

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Highly selective digital filters from 10 Hz to 100 kHz

Standard resolution filters from 10 Hz to 10 MHz

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1 Hz to 10 MHz resolution bandwidth (RBW)

FFT filters from 1 Hz to 30 kHz

Five-pole filter in line with GSM specifications

Specifications in brief

¸FSG8

9 kHz to 8 GHz aging: 1 × 10

–7

/year

Frequency range

Reference frequency

Spectral purity

Phase noise

Sweep time

Span >10 Hz

Span = 0 Hz (zero span)

Resolution bandwidth (RBW)

Video bandwidth (VBW)

Display range

Displayed average noise level (DANL) (1 Hz RBW)

1 GHz

7 GHz

13 GHz

DANL with preamplifier ON (¸FSU-B25), 1 GHz, 1 Hz RBW

TOI

Total measurement uncertainty

Signal analysis bandwidth

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High measurement speed

Up to 80 measurements/s in manual mode

Up to 50/70 measurements/s in GPIB mode

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Fast FFT filters from 1 Hz to 30 kHz

2.5 ms sweep time in frequency domain

1 µs sweep time in time domain

Fast ACP measurement in time domain

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Full range of analysis functions

Time-selective spectrum analysis with gating function

Harmonic distortion measurement

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Statistical signal analysis with CCDF function

Spurious emission measurements with up to 100 001 points, in up to 20 segments

Full-fledged channel power meter due to time domain power capability

TOI marker, noise/phase-noise marker

Versatile (multicarrier) channel/adjacent-channel power measurement functions with wide selection of

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standards; user-configurable

Power sensor compatibilty

Spectrum and code domain power measurements for 3GPP FDD/HSPA/HSPA+, CDMA2000® 1xRTT,

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CDMA2000® 1xEV-DV, CDMA2000® 1xEV-DO, TD-SCDMA

Spectrum and modulation measurements for GSM/EDGE/EDGE Evolution, Bluetooth®,

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WLAN IEEE 802.11a/b/g/j/n, WiMAX™, 3GPP LTE;

support of MIMO measurements

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Versatile documentation and networking capabilities

GPIB interface, IEEE 488.2

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SCPI-compatible GPIB command set

RS-232-C serial interface, 9-pin D-Sub

100BaseT LAN interface

USB connector

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VGA output, 15-pin D-Sub

PC-compatible screenshots on USB or hard disk

2.5 ms to 16 000 s

1 µs to 16 000 s

1 Hz to 10 MHz

1 Hz to 30 MHz

DANL to +30 dBm typ. –155 dBm typ. –154 dBm

–162 dBm typ. 25 dBm

0.3 dB

28 MHz

¸FSG13

9 kHz to 13.6 GHz typ. –114 dBc (1 Hz) at 10 kHz carrier offset typ. –156 dBm typ. –155 dBm typ. –151 dBm

38 Rohde & Schwarz Test & Measurement | Catalog 2012

Signal and Spectrum Analyzers

R&S®FSQ Signal Analyzer

Signal and spectrum analysis in a single unit

The R&S®FSQ combines the outstanding spectrum analyzer features and functions of the R&S®FSU with a demodulation bandwidth up to 120 MHz. It is ideal for applications in development and production (wireless LAN (WLAN)/3GPP and GSM-MCPA). The R&S®FSQ additionally supports measurements on 2G, 2.5G and 3G mobile radio systems when equipped with suitable application firmware. In addition to broadband demodulation capabilities, the R&S®FSQ provides the dynamic range that is required for multicarrier measurements or the measurement of spurious emissions at base transceiver stations (BTS).

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Signal analyzer for fast measurement and high accuracy

28 MHz I/Q demodulation bandwidth

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14 bit A/D converter: 81.6 MHz

16 Msample I and Q memory, expandable up to

705 Msample

Digital hardware re-sampler to match the sampling rate to the signal

Sampling rate from 10 kHz to 81.6 MHz, adaptable to

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W modulation rate

SFDR > 80 dBFS

Digital downconversion to baseband with high output bandwidth (28 MHz referenced to RF)

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Dynamic range of a high-end spectrum analyzer

TOI: typ. +25 dBm

1 dB compression: +13 dBm

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84 dB ACLR/3GPP with noise correction

Displayed average noise level: –158 dBm (1 Hz)

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Phase noise: –160 dBc (1 Hz) at 10 MHz carrier offset

Full choice of detectors

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RMS (100 dB dynamic range)

Sample, Average, Auto/Max/Peak, Quasi Peak (QPK)

Most versatile resolution filter characteristics and largest

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W bandwidth

Standard resolution filters from 10 Hz to 50 MHz

FFT filters from 1 Hz to 30 kHz

32 channel filters, bandwidths from 100 Hz to 5 MHz

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RRC filters for NADC, TETRA and 3GPP

200 Hz, 9 kHz, 120 kHz EMI filters

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Full range of analysis functions

Time domain power capability and channel or RRC

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filters make the R&S®FSQ a full-fledged channel power meter

Code domain power measurement for 3GPP WCDMA

(optional)

TOI marker, noise/phase-noise marker

Versatile channel/adjacent-channel power measurement functions with wide selection of standards

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Statistical signal analysis with CCDF function

High measurement speed

2.5 ms sweep time in frequency domain

1 µs sweep time in time domain

Number of measurement points/trace selectable

between 155 and 10 001

Up to 30 measurements/s (GPIB mode)

Fast ACP measurement in time domain

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Flexible data interchangeability

LAN interface (10/100 BaseT)

Special RSIB interface/VXI-1

GPIB interface, IEEE 488.2

SCPI-compatible GPIB command set

R&S®FSE/R&S®FSIQ compatible GPIB command set

LXI class C

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Specifications in brief

Frequency range

Reference frequency

Spectral purity

SSB phase noise

Residual FM

Sweep

Span >10 Hz

Span = 0 Hz (zero span)

Resolution bandwidths

Video bandwidths

Display range

R&S®FSQ3

20 Hz to 3.6 GHz

R&S®FSQ8

20 Hz to 8 GHz

R&S®FSQ26

20 Hz to 26.5 GHz aging 1 × 10

–7

/year, with R&S®FSU-B4 option: 2 × 10

–8 typ. –133 dBc (1 Hz) at 10 kHz carrier offset

1 Hz

2.5 ms to 16 000 s

1 µs to 16 000 s

10 Hz to 50 MHz, FFT filter: 1 Hz to 30 kHz, channel filter, EMI bandwidths

1 Hz to 10 MHz displayed average noise level up to +30 dBm

R&S®FSQ40

20 Hz to 40 GHz

More information | www.rohde-schwarz.com 39

Signal and Spectrum Analyzers

R&S®FSUP Signal Source Analyzer

Phase noise tester, high-end spectrum and signal analyzer in a single box

The R&S®FSUP combines the functionality of a high-end spectrum and signal analyzer with the advantages of a pure phase noise tester. The instrument is a unique and easy-to-use single-box solution for measuring oscillators and synthesizers in development and production applications. In addition, it leads to enormous cost reductions.

One of the primary tasks in developing transmit and receive modules is to measure oscillator phase noise. This is necessary not only in the development and production of state-of-the-art communications and broadcast systems, but also in special high-tech applications such as radar.

Apart from phase noise, other parameters that need to be measured when characterizing oscillators include tuning slope, transient response, power, harmonics and spurious emissions. Amplifier noise is of significant interest as well. All of these measurements can be carried out with the R&S®FSUP, the only signal source analyzer that covers the frequencies up to the microwave range in a single box.

The R&S®FSUP also features very-low-noise DC sources to enable a wide range of measurements.

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Frequency range up to 8/26.5/50 GHz

Up to 110 GHz with external mixers

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Low-noise DC outputs for supply and tuning voltages

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Maximum flexibility for phase noise measurements

Noise figure and gain measurements

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Oscillator characterization

Analysis of digital and analog modulated signals

Specifications in brief

Operating modes

signal source analyzer spectrum analyzer

1 MHz to 8/26.5/50 GHz

20 Hz to 8/26.5/50 GHz

Signal source analyzer

Phase noise measurement

Transients measurement with spectrum analyzer with phase comparator internal reference external reference with phase comparator and cross-correlation min. frequency offset max. frequency offset with phase comparator

10 MHz to 8/26.5/50 GHz

1 MHz to 8/26.5/50 GHz

1 MHz to 8/26.5/50 GHz

1 MHz to 8 GHz

1 MHz to 8/26/50 GHz

10 mHz

30 MHz

1 MHz to 8 GHz

1) see diode datasheet

Residual noise

AM noise

1)

If the internal phase detector is used.

Sensitivity (typical values)

Sensitivity with internal reference and internal phase detector.

Input level > +10 dBm, spurious and harmonics < –30 dBc, mode “averaged”, +20 °C to +30 °C. LNA gain 40 dB, loop bandwidth ≤ 10 × frequency

offset, max. 1 kHz. With the R&S®FSUP-B60 low phase noise option and the R&S®FSUP-B61 correlation extension option.

Frequency offset

1 Hz

10 Hz

100 Hz

1 kHz

10 kHz

100 kHz

1 MHz

10 MHz

30 MHz

Input frequency, values in dBc (1 Hz)

R&S®FSUP8/26/50

5 MHz

–114

–136

–143

–157

–165

–171

10 MHz

–116

–135

–146

–161

–168

–170

–175

100 MHz

–87

–110

–134

–160

–168

–176

–177

–179

–179

1 GHz

–75

–91

–115

–134

–143

–158

–165

–172

–172

3 GHz

–62

–87

–106

–123

–131

–139

–160

–170

–170

7 GHz

–55

–80

–97

–118

–129

–140

–155

–170

–170

R&S®FSUP26/50

10 GHz

–52

–77

–95

–116

–126

–138

–150

–167

–170

20 GHz

–48

–71

–89

–112

–120

–132

–146

–161

–165

R&S®FSUP50

40 GHz

–42

–65

–83

–106

–114

–126

–140

–155

–159

40 Rohde & Schwarz Test & Measurement | Catalog 2012

Signal and Spectrum Analyzers

R&S®FMU36 Baseband Signal Analyzer

Universal analyzer for analog baseband signals

The ¸FMU36 comes equipped with the high-performance ¸FSQ-K70 vector signal analyzer, adding universal demodulation and analysis down to the bit stream level for digital signals. For maximum flexibility, mappings, receive filters and transmit filters can be designed externally, using free-of-charge tools

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Operation of analog inputs either as single-ended or

balanced

Impedance setting to either 50 Ω or 1 MΩ to match

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DUT impedance

Markers, delta markers, noise markers, phase noise markers

Measurement functions for adjacent channel power,

carrier to noise, third order intercept point, occupied bandwidth, modulation depth

Trace operations such as Average, Max Hold or Min Hold

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Detectors: RMS, Average, Sample, Positive and Negative Peak

Filters from 10 Hz to 20 MHz in 1-2-3-5-10 steps

Flattop, Gaussian, rectangular, Hamming, Hanning,

Chebyshev windowing functions

Number of measurement points/trace selectable between

155 and 30 001

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Specifications in brief

Frequency range

Frequency display

Marker resolution

DC to 36 MHz with marker span/624

Display range for frequency axis (frequency span)

Real signal 0 Hz, 10 Hz to 36 MHz

Complex signal 0 Hz, 10 Hz to 72 MHz

Spectral purity, SSB phase noise (1 Hz), f = 10 MHz

Carrier offset = 100 Hz

Carrier offset = 1 kHz

Carrier offset ≥10 kHz

Sweep

–115 dBc

–135 dBc

–143 dBc

Sweep time, time domain

(span = 0 Hz)

1 µs to 16 000 s in 5 % steps, max. 800 000/RBW

Measurement in time domain with marker and cursor lines

(24 ns resolution)

Resolution bandwidths

FFT filters , equivalent noise bandwidths (ENBW)

Window functions

0.5 Hz to 20 MHz stepped in

1/2/3/5 sequence or any value within this range by entering a bandwidth directly

Flattop, Gaussian, Hamming,

Hanning, Chebyshev, rectangular

Shape factor 60 dB:3 dB

Flattop window

Gaussian window

Chebyshev window

3 dB bandwidth/ENBW

Flattop window

Gaussian window

Chebyshev window

Hamming window

Hanning window

Rectangular window

2.4, nominal

4.4, nominal

0.96, nominal

0.99, nominal

0.94, nominal

0.96, nominal

0.97, nominal

0.97, nominal

0.89, nominal

Specifications in brief

Level

Maximum safe input level, 50 Ω,

CW power

+30 dBm (1 W)

1 MΩ input impedance, peak

Level uncertainty at 1 MHz (full scale)

I/Q imbalance at 1 MHz

±5 V

< 0.25 dB

50 Ω: DC to 36 MHz

Spurious without input signal

< 0.1 dB

Signal to noise ratio, reference level = +10 dBm, signal level equal to reference level

> 139 dBc (1 Hz)

Spurious with input signal equal to reference level

< –55 dBc

> 250 kHz < –80 dBRef

Intermodulation distortion (2nd and 3rd order), 2 signals, level equal to

–6 dB reference level

50 Ω: DC to 20 MHz

I/Q crosstalk (DC to 36 MHz)

I/Q data

Interface

Sampling rate

< –70 dBc

–70 dB

GPIB or LAN interface programmable: 10 kHz to

81.6 MHz in 0.1 Hz steps

ADC sampling rate

ADC resolution

81.6 MHz

14 bit

I/Q memory

Standard

¸FSQ-B100 option

¸FSQ-B100/-B102 options

16 Msample each for I and Q data

235 Msample each for I and Q data

705 Msample each for I and Q data

Frequency range, useful bandwidth with flat frequency response as specified (f s

= sampling rate) f s

= 40.8 MHz to 81.6 MHz f s

> 20.4 MHz to < 40.8 MHz f s

= 10 kHz to 20.4 MHz

DC to 0.441 × f s

DC to 0.34 × f s

DC to 0.40 × f s

More information | www.rohde-schwarz.com 41

Signal and Spectrum Analyzers

R&S®FSMR Measuring Receiver

J

Audio analyzer with total harmonic distortion (THD) and

SINAD measurement functionality

J

Power meter for connecting R&S®NRP-Zxx power sensors

J

High level linearity of 0.005 dB per 10 dB step for precise level and attenuation calibration

J

Wide level measurement range from +30 dBm to

130 dBm

J

Measurement of modulation depth, frequency deviation and phase deviation with < 1 % measurement uncertainty

J

Fast RF frequency counter with 0.01 Hz resolution

J

Separate audio input

Combines the functions of multiple instruments

The R&S®FSMR measuring receiver has been specially

designed to handle the measurement tasks involved in the calibration of signal generators and fixed or adjustable

attenuators.

J

J

J

High-end spectrum analyzer

High-precision level calibration tool

Modulation analyzer for AM/FM/φM

Specifications in brief

Level calibration – precise, repeatable and easy

J

Exceptionally high linearity and level stability across an extended time and temperature range enable high- precision measurements across a longer period of time

J

Automatic VSWR correction when a power sensor with a power splitter is used

J

Traceability to national standards, R&S®FSMR-Z2

attenuation calibration kit for verifying the linearity of the

R&S®FSMR

¸FSMR3

100 kHz to 3.6 GHz

¸FSMR26

100 kHz to 26.5 GHz

¸FSMR50

100 kHz to 50 GHz

Frequency range

AM modulation measurements

Modulation depth

Modulation frequency

Inherent distortion

FM modulation measurements

Frequency deviation

Modulation frequency

φM modulation measurements

Phase deviation

Modulation frequency

Audio measurements

Frequency range

Level ranges

Spectrum analyzer

Frequency range

Resolution bandwidths

Video bandwidth

Displayed average noise level (RBW 10 Hz)

1 GHz

26 GHz

50 GHz

Trace detectors

Phase noise

Sweep time

Span >10 Hz

Span = 0 Hz (zero span)

Image frequency rejection f < 3.6 GHz f > 3.6 GHz f > 3.6 GHz, with ¸FSMR-B2 option

0 % to 100 %

50 Hz to 100 kHz

0.3 % max. 500 kHz

50 Hz to 200 kHz max. 10 000 rad

50 Hz to 100 kHz

DC, 20 Hz to 1 MHz

0.4 V, 4 V

20 Hz to 3.6 GHz 20 Hz to 26.5 GHz 20 Hz to 50 GHz

10 Hz to 50 MHz; FFT filters: 1 Hz to 30 kHz; channel filters; EMI bandwidths

1 Hz to 10 MHz typ. –148 dBm

– typ. –146 dBm typ. –141 dB

– –

Max Peak, Min Peak, Auto Peak, Sample, RMS, Average, Quasi Peak typ. –143 dBm typ. –121 dBm typ. –123 dBc (1 Hz) at 10 kHz from carrier

2.5 ms to 16 000 s

1 µs to 16 000 s typ. 110 dB

0 dB typ. 100 dB

42 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®FS-Z10 Coherence Unit

Phase-coherent RF measurements

The R&S®FS-Z10 coherence unit in combination with two R&S®FSQ or R&S®FSG signal and spectrum analyzers enables phase-coherent RF measurements such as

measuring the phase, timing and gain differences of two

RF signals.

Signal and Spectrum Analyzers

Moreover, it can compensate the phase, timing and gain difference of the digitized RF signal for further calculations. The R&S®FS-Z10 focuses on measurements on multi-antenna systems in aerospace and defense as well as in mobile communications, for instance MIMO beamforming.

J

J

High-performance signal analyzers with excellent

RF  performance

Signal analysis bandwidth up to 120 MHz with low EVM

J

J

J

J

J

Frequency range from 100 MHz to 6 GHz

Phase-coherent two RF channel operation

Design, test and calibration of multi-antenna systems

Measurement of phase, timing and amplitude difference of RF signals

Compensation of phase, timing and amplitude

differences based on I/Q data for further analysis

4

R&S®FS-Zxx External Mixers

Overview of external mixers

Frequency range

Mixer type

R&S®FS-Z60

40 GHz to 60 GHz

R&S®FS-Z75

50 GHz to 75 GHz balanced dual-diode mixer, no biasing

Conversion loss typ. 18 dB typ. 25 dB

LO frequency range

Number of harmonics

9.81 GHz to 15.19 GHz

4

8.61 GHz to 12.62 GHz

6

Spectrum analysis in the waveguide bands above 40 GHz

Frequencies in the high GHz range still require the use of external harmonic mixers. Such mixers can be connected to an R&S®FSUP26/50, R&S®FSP40, R&S®FSV30/40,

R&S®FSU26/43/46/50/67 or R&S®FSQ26/40 provided that these analyzers are equipped with the R&S ®FSx-B21 LO/IF ports option for external mixers. Rohde & Schwarz mixers cover the frequency range up to 110 GHz. If other mixers are used, up to 1.1 THz is possible.

R&S®FS-Z90

60 GHz to 90 GHz typ. 34 dB

8.61 GHz to 12.62 GHz

6

R&S®FS-Z110

75 GHz to 110 GHz typ. 32 dB

9.4 GHz to 14 GHz

8

LO/IF ports option

LO frequency range

LO level

IF

R&S®FSV30/40 with R&S®FSV-B21

R&S®FSP40 with R&S®FSP-B21

7 GHz to 13.2 GHz

+15 dBm

404.4 MHz

R&S®FSU26/46/50

R&S®FSQ26/40 with R&S®FSU-B21

R&S®FSUP26/50 with R&S®FSUP-B21

7 GHz to 15.5 GHz

+15 dBm

404.4 MHz

More information | www.rohde-schwarz.com 43

-K7

-K7S

-K9

-K14

-K15

-K20

-K30

-K40

-K54

-K70

-K130PC

Signal and Spectrum Analyzers

Application- specific solutions

1) Standard.

2)

Base station only.

3) See R&S ®FSH data sheets.

4)

The functionality of R&S®FS-K74 and R&S®FS-K74+ is included in

R&S®FSV-K72.

5) The functionality of R&S®FS-K73+ is

included in R&S®FSV-K73.

6) Included in R&S®FSL-K72.

7)

WiBro only.

General measurement applications

Firmware or

PC software

R&S®FSx

The tables provide an overview of the available application firm ware/PC software packages and show the wide range of applications covered by the Rohde & Schwarz signal and spectrum analyzers.

Page

Modulation analysis for AM/FM/φM

including THD and SINAD measurements

FM stereo modulation analysis

Measurement with power sensors

Spectrogram measurements

VOR/ILS measurements

Cable TV measurements, analog and digital

Noise figure and gain measurements

Phase noise measurements

EMI measurement application

General vector signal analysis

Distortion analysis

1)

1)

1)

• 1)

1)

1)

45

47

48

54

49

54

45

47

55

Measurements in line with mobile radio standards

Firmware

R&S®FSx

Page

-K5

-K10

-K72/-K73

-K74

GSM/EDGE

GSM/EDGE/EDGE Evolution/VAMOS

3GPP WCDMA DL/UL

3GPP WCDMA HSDPA

-K73+/-K74+ 3GPP WCDMA HSPA+

-K82/-K83

-K84/-K85

CDMA2000®

1xEV-DO

-K76/-K77 3GPP TD-SCDMA

-K100/-K101 3GPP LTE FDD

-K104/-K105 3GPP LTE TDD

-K102/-K103 3GPP LTE MIMO

-K110 TETRA Release 2/TEDS

Other wireless applications

Firmware or

PC software

R&S®FSx

-K92/-K93

-K94

-K91

-K91n

-K91ac

-K8

IEEE 802.16 e-2005 WiMAX™

IEEE 802.16 WiMAX™ MIMO

IEEE 802.11 a/b/g/j WLAN

IEEE 802.11 n WLAN

IEEE 802.11 ac WLAN

IEEE 802.15.1 Bluetooth® EDR

-K96/-K96PC General OFDM vector signal analysis

4)

4)

4) 5)

4) 5)

• 7)

• 2)

2)

6)

53

53

53

50

50

50

53

46

49

49

49

• 2) 3)

2) 3)

2) 3)

2) 3)

2) 3)

2) 3)

Page

52

52

51

51

51

46

52

44 Rohde & Schwarz Test & Measurement | Catalog 2012

MK_E.indb 45

R&S®FS/FSV/FSL-K7 AM/FM/φM

Measurement Demodulator

THD measurement on an amplitude-modulated signal. The first harmonic of the modulation signal is well suppressed by 69 dB. This corresponds to a THD (D2) of less than 0.1 %.

Signal and Spectrum Analyzers

Analog signal measurement

The R&S®FS/FSV/FSL-K7 AM/FM/φM measurement demodulator application converts the R&S®FSU/FSQ/FSG/

FSV/FSVR/FSP/FSL/FSMR/FSUP/FMU36 into an analog modulation analyzer for amplitude, frequency or phasemodulated signals. The following display and analysis alternatives are available:

J

Modulation signal versus time

J

J

Spectrum of modulation signal (FFT)

RF signal power versus time

J

J

Spectrum of RF signal

Table with numeric display of

W

W

W

Deviation or modulation factor, RMS weighted,

+Peak, –Peak, ±Peak/2

Modulation frequency

Carrier frequency offset

W

W

Carrier power

Total harmonic distortion (THD) and SINAD

4

R&S®FSV-K7S FM Stereo Measurements

Comprehensive measurement functions for complete

FM stereo analysis

The R&S®FSV-K7S application firmware expands the functionality of the R&S®FSV-K7 application firmware with measurements on FM stereo transmitters.

J

Frequency deviation measurement in channels MPX, L,

R, M, S and frequency deviation measurement of pilot

J and RDS carrier

Carrier power and carrier frequency measurement

J

J

Audio frequency measurement

Absolute and relative deviation measurement for easy-toperform S/N ratio and crosstalk attenuation measurement

J

J

AF spectrum display and display per channel

Up to 4 measurement windows

The result summary clearly displays the measurement results of all the channels; switchover is not required. Additional displays such as the mono signal or MPX spectrum display support in-depth analysis.

Wide variety of audio filters and detectors for

standard-compliant measurements

J

J

CCIR filter, weighted and unweighted

20 Hz, 50 Hz, 300 Hz highpass filters and 3 kHz, 15 kHz,

23 kHz, 150 kHz lowpass filters

J

J

Selectable deemphasis of 50 μs, 75 μs, 750 μs

Detectors: ±Peak/2, +Peak, –Peak, RMS, RMS × SQR2,

Quasi Peak (in line with CCIR 468) and Quasi Peak × SQR2

More information | www.rohde-schwarz.com 45

09.11.2011 17:23:12

Signal and Spectrum Analyzers

R&S®FS/FSV/FSL-K8 Transmitter Measurements for Bluetooth® V2.0 and EDR

Relative transmit power: The EDR relative transmit power determines the power of the GFSK-modulated and the DPSK-modulated part and the

power difference.

The R&S®FS/FSV/FSL-K8 application firmware enhances the range of applications of the R&S®FSP/FSU/FSQ/FSG/

FSUP/FSMR/FSV/FSVR/FSL spectrum analyzers to include measurements on Bluetooth® transmitters. All measurements are carried out in line with the Bluetooth® RF Test

Specification (Bluetooth® SIG) Rev. 2.0+EDR and cover basic rate as well as EDR. Integrated limit value monitoring is provided for all measurements and allows analysis of the results in the development and production of Bluetooth® modules.

Basic rate measurements

J

Output power

J

J

J

ACP over up to 79 channels

Modulation characteristics

Initial carrier frequency tolerance

J

Carrier frequency drift

EDR measurements

J

Output power and relative transmit power

J

J

In-band spurious emissions, gated

Carrier frequency stability and modulation accuracy

(DEVM)

J

Differential phase encoding

R&S®FS/FSV-K10 GSM/EDGE/

EDGE  Evolution Analysis

The R&S ®FS/FSV-K10 measurement application firmware enables transmitter tests on mobile stations and base

stations. It provides all the functionality needed for

GSM/EDGE, EDGE Evolution and VAMOS.

J

Power measurement in time domain including carrier power

J

W

Modulation quality

EVM

W

W

Phase/frequency error

Origin offset suppression

J

W

Spectrum measurements

Modulation spectrum

W

W

Transient spectrum

Spurious emissions

46 Rohde & Schwarz Test & Measurement | Catalog 2012

MK_E.indb 46 09.11.2011 17:23:12

R&S®FSV/FSL-K14 Spectrogram

Measurements

Signal and Spectrum Analyzers

The R&S®FSV/FSL-K14 application firmware adds a spectrogram display and trace recording to the R&S®FSV/FSVR/

FSL. The spectrogram view shows a history of the spectrum and helps to analyze intermittent problems or variations in frequency and level versus time. It also adds a new trigger, i.e. a time trigger that makes it possible to record a trace at a regular time interval.

J

Recording of up to 20 000 traces: approx. 5.5 h

continuous monitoring with repetition interval set to 1 s

J

Time trigger, 100 ms to 5000 s repetition interval: allows unattended continuous monitoring

J

Scrolling through recorded traces with markers: replay and repeated analysis of recorded data

4

MK_E.indb 47

R&S®FS/FSV/FSL-K30 Noise Figure and

Gain Measurements

The schematic view of the test setup simplifies measurements on

frequency-converting DUTs.

Wide variety of RF measurements

The R&S®FS/FSV/FSL-K30 application firmware expands the R&S®FS/FSV/FSVR/FSL signal and spectrum analyzers by adding measurement functionality otherwise only provided by special noise measurement analyzers. The following parameters can be measured at a specified frequency or in a selectable frequency range:

J

Noise figure in dB

J

J

Noise temperature in K

Gain in dB

Noise measurements

J

J

Measurement range from 0 dB to 35 dB

Resolution of 0.01 dB

J

Device measurement uncertainty of 0.05 dB

Gain measurements

J

J

Measurement range from –20 dB to +60 dB

Resolution of 0.01 dB

J

Measurement accuracy of ±0.2 dB

More information | www.rohde-schwarz.com 47

09.11.2011 17:23:13

Signal and Spectrum Analyzers

R&S®FS/FSV-K40 Phase Noise

Measurements

Fast and easy phase noise measurements

The R&S®FS/FSV-K40 application firmware enables the

R&S®FSQ/FSG/FSU/FSMR/FSV/FSVR signal and spectrum analyzers to perform fast and easy phase noise measurements in development and production.

Phase noise measurement of a signal source: blue: original trace; yellow: trace with a smoothing factor of 5 %. The red trace is a LIMIT. The measurement result (pass in this example) is displayed directly in the diagram.

The vertical red lines mark the range limits for residual FM/φM measurements. Results are displayed in the top center of the screen under residual noise.

J

Carrier offset frequency range selectable from 1 Hz to

1 GHz in 1/3/10 sequence (1 Hz, 3 Hz, 10 Hz, 30 Hz, etc.)

J

J

J

J

Number of averages, sweep mode and filter bandwidth for every measurement subrange can be individually

selected to optimize the measurement speed

Fast results for the subranges are obtained by starting the measurement at the maximum carrier offset

Verification of carrier frequency and power prior to each measurement avoids incorrect measurements

Improvement of dynamic range by measuring the

J

J

thermal inherent noise in a reference trace and

performing noise correction

Tabular display of residual FM, residual φM and

RMS  jitter in addition to measurement trace

Limit lines with PASS/FAIL indication

R&S®FSV-K70 Vector Signal Analysis

16QAM with four screens.

Flexible modulation analysis from MSK to 64QAM

The R&S®FSV-K70 application firmware enables users to flexibly set the analysis of digitally modulated single carriers down to the bit level using the R&S®FSV/FSVR. The clear-cut operating concept simplifies measurements,

despite the wide range of analysis tools.

J

Modulation formats:

MSK, DMSK, BPSK, QPSK, 8PSK, DQPSK, D8PSK,

J

J

J

π/4-DQPSK, 3π/8-D8PSK, 16QAM to 64QAM

Symbol rate up to 32 MHz

Analysis length up to 50 000 symbols

28 MHz signal analysis bandwidth, optionally 40 MHz

Numerous standard-specific default settings

J

J

GSM, GSM/EDGE, WCDMA, TETRA

Display choices for amplitude, frequency, phase,

I/Q, eye diagram, amplitude, phase or frequency error,

constellation or vector diagram

48 Rohde & Schwarz Test & Measurement | Catalog 2012

MK_E.indb 48 09.11.2011 17:23:13

R&S®FSQ-K70 Vector Signal Analysis

Signal and Spectrum Analyzers

For all major mobile radio standards

J

J

GSM and EDGE

WCDMA-QPSK, CDMA2000 ®-QPSK

J

Bluetooth®, TETRA, PDC, PHS, DECT, NADC

For all common digital modulation modes

J

BPSK, QPSK, OQPSK, π/4-DQPSK

J

8PSK, D8PSK, 3π/8-8PSK, (G)MSK, 2/4/(G)FSK

J

J

16, 32, 64, 128, 256 (D)QAM, 8VSB

25 MHz symbol rate expandable up to 81.6 MHz

J

28 MHz I/Q demodulation bandwidth expandable up to

120 MHz (R&S ®FSQ only)

Modulation error measurements on EDGE signals.

Universal demodulation, analysis and documentation of digital radio signals

The R&S ®FSQ-K70 application firmware enables users to analyze digitally modulated carriers down to the bit level using the R&S ®FSQ/FSU/FSMR/FSUP/FSG signal and spectrum analyzers and the R&S ®FMU baseband analyzer.

Optimum representation of results

J

In-phase and quadrature signals versus time

J

Magnitude and phase versus time

J

J

Eye/vector/constellation diagrams

Table with modulation errors

J

J

Demodulated bit stream

Statistical evaluation of modulation parameters

J

J

Spectral evaluation

Amplifier distortion measurements

4

MK_E.indb 49

R&S®FS-K72/-K73/-K73+/-K74/-K74+

WCDMA 3GPP Measurements

Code domain power measurement on a signal with 44 active codes.

Code domain power measurements (3GPP FDD)

The application firmware adds measurement functions in line with the 3GPP specifications for the FDD mode to the

Rohde & Schwarz signal and spectrum analyzers.

J

Measurement of modulation quality: EVM, peak code

domain error and relative code domain error

J

J

Automatic detection of active channels and their data rate

Scrambling code search

J

Automatic detection of modulation formats in HSDPA and HSPA+

J

Provides the functionality needed for base station testing

R&S®FS-K72/-K73

J

Provides all the functionality for testing base stations

(R&S ®FS-K72) or user equipment (R&S®FS-K73) in line with WCDMA Release 99

R&S®FS-K74

J

Extends the capabilities of R&S®FS-K72 to encompass

HSPA (high speed packet access) for base station testing

(R&S®FS-K74)

R&S®FS-K73+

J

Adds HSPA+ capabilities to R&S®FS-K73

R&S®FS-K74+

J

Provides additional functionality for HSPA+ testing in line with 3GPP Release 7

More information | www.rohde-schwarz.com 49

09.11.2011 17:23:14

Signal and Spectrum Analyzers

R&S®FS-K76/-K77 TD-SCDMA Test

Base station and mobile station tests on TD-SCDMA with the R&S®FSQ/FSU/FSP/FSMR analyzers

The R&S®FS-K76/-K77 application firmware adds measurement functions in line with 3GPP as well as China Wireless

Telecommunication Standard Group (CWTS) specifications to the R&S®FSQ/FSU/FSP/FSMR analyzers. It enhances the range of applications to include code domain power and modulation measurements on TD-SCDMA base stations.

J

J

J

J

J

Code domain power measurement

Easy measurement of modulation quality

Automatic detection of active channels

Spectrum emission mask

Remote control

R&S®FS-K76

J

Provides the functionality needed for base station testing

Code domain power measurement on a signal with four active channels:

Active and inactive channels are displayed; inactive channels (noise,

interference) are displayed with a spreading factor of 16. The table also shows the main parameters of the total signal at a glance, e.g. total power, pilot power, frequency error and error of chip rate, as well as the parameters of the marked code channel such as code power and EVM.

R&S®FS-K77

J

Provides user equipment (UE) functionality

R&S®FS-K82/-K84 Base Station Test

CDMA2000®/IS-95 base station test (R&S®FS-K82)

The R&S®FS-K82 application firmware enhances the range of applications to include code domain power and modulation measurements on CDMA2000® signals for radio configurations 1 to 5 and radio configuration 10. cdmaOne base station signals can be analyzed by using radio configuration 1 or 2.

1xEV-DO base station test (R&S®FS-K84)

The R&S®FS-K84 application firmware adds the capability to measure code domain power modulation accuracy on all four channel types ( pilot, preamble, MAC and DATA) of a 1xEV-DO base station signal.

Code domain power measurement on a signal with nine active channels:

Active and inactive channels are displayed in bit-reversed order; inactive channels (noise, interference) are displayed with the base spreading factor.

The table also shows the main parameters of the total signal at a glance, as well as the parameters of the marked code channel.

Measurement parameters

J

Code domain power (code domain analyzer)

J

J

J

Code domain power versus time (R&S®FS-K82)

Rho

Error vector magnitude (EVM)

J

J

J

J

J

Peak code domain error

Power versus symbol

Symbol constellation

Channel table

Code domain error power

50 Rohde & Schwarz Test & Measurement | Catalog 2012

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MK_E.indb 51

Signal and Spectrum Analyzers

R&S®FS/FSV-K83/-K85 Mobile Station Test

Transmitter measurements on 3GPP2 signals with the R&S®FSQ/FSU/FSP/FSMR analyzers

The R&S®FS-K83 application firmware enhances the range of applications to include code domain power and modulation measurements on CDMA2000® signals for radio configurations 3 and 4. 1xEV-DV reverse link channels of release C are also supported. The R&S®FS-K85 application firmware adds the capability to measure code domain power modulation accuracy on all five channel types

(PICH, RRI, DATA, ACK and DRC) as well as TRAFFIC and

ACCESS operating modes of an access terminal.

4

Code domain power measurement on a signal with high data rate transmission: Active and inactive channels are displayed in bit-reversed order; inactive channels (noise, interference) are displayed with the base spreading factor. The upper half shows the in-phase part of the signal, the lower half the quadrature part.

Measurement parameters

J

Code domain power

J

J

Code domain power versus time

Rho

J

J

Error vector magnitude (EVM)

Peak code domain error

J

J

Power versus symbol

Symbol constellation

J

J

Channel table

Code domain error power

J

Power versus chip (R&S®FS-K85)

R&S®FSx-K91/-K91n/-K91ac WLAN TX

Measurements

The signal field content is used for automatic modulation setting and can be displayed for further evaluation.

WLAN TX measurements with Rohde & Schwarz

analyzers

The R&S®FSx-K91/-K91n/-K91ac application firmware

enables the R&S®FSQ/FSG/FSV/FSVR/FSL/FMU signal and spectrum analyzers to perform spectrum and modulation measurements on signals in line with the

WLAN IEEE 802.11a/b/g/j/n/ac standard.

J

Analysis at the RF or in the analog/digital baseband

(optional for the R&S ®FSQ)

J

Demodulation bandwidth of 28 MHz/40 MHz/120 MHz

J

Modulation formats for IEEE 802.11a/g/j/n/ac: BPSK,

QPSK, 16QAM, 64QAM, 256QAM

J

Modulation formats for IEEE 802.11b: DBPSK, DQPSK,

CCK, short PLCP, long PLCP

J

J

Very low residual EVM of –44/–46 dB (0.7 % at 2.4 GHz)

Legacy/mixed/Greenfield mode of IEEE 802.11n signals

J

J

Support of up to four MIMO streams

Provides complex WLAN measurements at a keystroke

J

(automatic setting of modulation format)

Allows remote control of all functions via IEC/IEEE bus or

LAN

More information | www.rohde-schwarz.com 51

09.11.2011 17:23:15

Signal and Spectrum Analyzers

R&S®FSx-K92/-K93, R&S®FSQ-K94

WiMAX™/MIMO TX Measurements

The subranges of the WiMAX™ signal in the time domain (highlighted in green) are demodulated. The burst summary provides information about the bursts of the analyzed zone, e.g. modulation mode and EVM. The raw data bit stream can be displayed for all bursts, including the FCH field.

The R&S®FSx-K92/-K93 application firmware allows TX measurements on OFDM and OFDMA signals in line with the WiMAX™ IEEE 802.16-2004 and IEEE 802.16e-2005 standards. The R&S®FSQ-K94 application firmware enhances the capability of R&S®FSQ-K93 to include analysis of WiMAX™ MIMO signals for the R&S®FSQ and

R&S®FSG.

R&S®FSx-K92/-K93

J

J

J

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Enhances the R&S®FSQ/FMU/FSL/FSV/FSG analyzers by adding the capability to perform spectrum and modulation measure ments on signals in line with the

IEEE 802.16-2004 and IEEE 802.16e-2005 standards

Supports OFDM and OFDMA

Complex WiMAX™ measurements at a keystroke

Measurements in the RF/IF range and in the baseband

J

Remote control of all functions via IEC/IEEE bus or LAN

R&S®FSQ-K94

J

Enhances the R&S®FSQ and R&S®FSG spectrum

analyzers (when equipped with the R&S®FSQ-K93

application firmware) by adding the capability to perform spectrum and modulation measurements on WiMAX™

MIMO signals

R&S®FS-K96/-K96PC OFDM Vector Signal

Analysis

The R&S®FS-K96 software expands the R&S®FSQ/FSUP/

FSG/FSV/FSVR signal analyzers to feature modulation measurements on general OFDM signals. The OFDM demodulator is user-configurable and standard-independent.

The R&S®FS-K96 runs only when a LAN or GPIB connection to the Rohde & Schwarz analyzer is established. The

R&S®FS-K96PC runs with and without connection to an analyzer.

J

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Support of OFDM and OFDMA

Support of any PSK or QAM modulation format

J

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J

Frequency range from 50 MHz to 3/8/26.5/40 GHz,

depending on the analyzer used

Very low residual EVM of below –51 dB for DVB-T,

2k mode

RF measurement or I/Q baseband measurement

(optional)

Numerous measurements for the analysis of OFDM

signals

The upper part of the display shows the recorded signal in the time

domain. The lower part shows the constellation diagram.

52 Rohde & Schwarz Test & Measurement | Catalog 2012

MK_E.indb 52 09.11.2011 17:23:15

R&S®FSQ/FSV-K100/-K101/-K102/-K103/

-K104/-K105 EUTRA/LTE Signal Analysis

Signal and Spectrum Analyzers

The most important measurement results are listed in a table to provide a quick overview of the performance of the transmitter.

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Error vector magnitude (EVM) of all carriers

EVM physical channel

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EVM physical signal

Frequency error

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Sampling error

Modulation parameters: I/Q error, gain imbalance,

J quadrature error

Power

J

Crest factor

For advanced analysis, a number of graphical displays is available.

4

Transmitter measurements on LTE signals

The software analyzes the modulation quality, e.g. EVM or

I/Q imbalance, of 3GPP EUTRA FDD and TDD signals in both uplink and downlink. When combining two or up to four signal analyzers, these tasks can even be performed on MIMO transmitters.

Designation

EUTRA/LTE FDD downlink software

EUTRA/LTE FDD uplink software

EUTRA/LTE downlink MIMO software

(requires R&S®FSQ-K100 or R&S®FSQ-K104)

EUTRA/LTE TDD downlink software

EUTRA/LTE TDD uplink software

Type

R&S®FSQ-K100

R&S®FSV-K100

R&S®FSQ-K101

R&S®FSV-K101

R&S®FSQ-K102

R&S®FSV-K102

R&S®FSQ-K104

R&S®FSV-K104

R&S®FSQ-K105

R&S®FSV-K105

MK_E.indb 53

R&S®FS-K110 TETRA Release 2 Analysis

Adjacent channel power (ACP) measurement: The bandwidth of the TX channel depends on the number of carriers; the power in the adjacent

channels is determined by means of a TETRA filter.

Transmitter measurements on TETRA signals

R&S®FS-K110 analyzes uplink and downlink signals in line with the EN 300 392-2 and EN 300 394-1 standards. It

measures the modulation quality (e.g. EVM, I/Q imbalance, frequency error) and spectrum parameters such as ACP on continuous and burst signals.

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Supports 25 kHz, 50 kHz, 100 kHz, 150 kHz channels

Supports 4QAM,16QAM and 64QAM data symbols

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W

Measurements

Error vector magnitude (EVM)

W

W

Power versus time (PvT)

Adjacent channel power (ACP) due to modulation and

transients

W

W

W

Constellation diagram, selectable per carrier and per symbol type

Bit stream

Phase and magnitude error

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Capture length up to 108 slots

More information | www.rohde-schwarz.com 53

09.11.2011 17:23:16

Signal and Spectrum Analyzers

R&S®FS-K130PC Distortion Analysis

Software

Block diagram functions make setup configuration and instrument settings easy and intuitive. The wide variety of measurement results that can be simultaneously displayed provides a quick overview. The configurable windows can be easily adjusted to suit various tasks

Amplifier modeling and linearization

The R&S®FS-K130PC distortion analysis software measures and models the linear and nonlinear distortions of amplifiers, mixers and baseband components. This simplifies and accelerates the development of linearized components, such as power amplifiers. The most important measurement results are listed in a table to provide a quick overview of the performance of the transmitter.

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Measurement of the distortion behavior of amplifiers, mixers and transposers and also direct control of the required measuring instruments, such as signal generators and signal analyzers, via IEC/IEEE bus, LAN or USB

Calculation of the coefficients of a distortion model for

DUTs with and without memory in accordance with the different selectable models (polynomial or Volterra

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Calculation of the predistortion coefficients

Verification of the spectral regrowth improvement achieved

R&S®FSV-K54 EMI Measurement

Application

Bandwidth selection.

Finding, classifying and eliminating electromagnetic interference

The R&S®FSV-K54 EMI measurement application adds EMI diagnostic functionality to the R&S®FSV signal and spectrum analyzer and the R&S®FSVR real-time spectrum analyzer. R&S®FSV-K54 offers EMI bandwidths for commercial and military applications, detectors such as Quasi Peak,

CISPR-average and RMS-average, limit lines and correction factors. It allows users to analyze the effectiveness of shielding measures and the effects of changes in the circuit or design prior to testing in the EMC lab.

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EMI bandwidths for commercial and military standards

Standard EMI detectors: Quasi Peak, CISPR-average,

RMS-average

Linking of measurement markers to various

EMI  detectors

Limit lines and transducers for typical measurement tasks

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Choice of linear or logarithmic scale on frequency axis

Seamless analysis of frequency spectrum up to 40 MHz using the R&S®FSVR

54 Rohde & Schwarz Test & Measurement | Catalog 2012

MK_E.indb 54 09.11.2011 17:23:18

R&S®FS-K15 VOR/ILS Demodulator

Signal and Spectrum Analyzers

Using the R&S®FSMR and R&S®FS-K15, these instruments can be calibrated by a single box without any additional

VOR/ILS tester. In the R&S®FSU/FSQ, R&S®FS-K15 is the ideal toolbox for development, verification, production testing, monitoring of operation and maintenance of ground infrastructure.

R&S®FS-K15 is designed to replace the R&S®FMAV. It provides the same function set for VOR/ILS analysis and meets the uncertainty specifications of the R&S®FMAV.

Precise VOR and ILS modulation analysis for

calibration, development, production and service

The R&S®FS-K15 application firmware adds VOR/ILS analysis capability to the R&S®FSMR, R&S®FSU and R&S®FSQ.

In the R&S®FSMR measuring receiver, the option allows the calibration of VOR/ILS signal generators and communications/navigation testers.

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Low measurement uncertainty for

ILS DDM (difference in depth of modulation)

W

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VOR phase

Modulation parameters of single signal components such as 90/150 Hz tones, 30 Hz/9.96 kHz subcarrier

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All measurement parameters at a glance in an easy-toread table

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Selective distortion measurements for the 30 Hz, 90 Hz,

150 Hz, 1020 Hz components

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Analysis from RF or – in the R&S ®FSMR – audio input

Easy to operate: user simply has to select between VOR and ILS

4

MK_E.indb 55

More information | www.rohde-schwarz.com 55

09.11.2011 17:23:18

Signal and Spectrum Analyzers

R&S®EVS300 VOR/ILS Analyzer

Precision level and modulation analysis for ground and flight inspection

The R&S®EVS300 is a portable level and modulation analyzer designed especially for starting up, checking and maintaining ILS, VOR and marker beacon systems.

Specifications in brief

Frequency

Frequency range 70 MHz to 350 MHz

Preselection filter range

Marker beacon

ILS LOC/VOR

ILS GS

74.7 MHz to 75.3 MHz

107 MHz to 119 MHz

319 MHz to 341 MHz

Frequency scan (¸EVS-K1)

Frequency resolution

70 MHz to 350 MHz

100 Hz

Temperature drift (–10 °C to +55 °C) 1 ppm

Level

Display range

1)

(autorange mode) –120 dBm to +20 dBm

Deviation at –30 dBm < 0.8 dB

Linearity error (–40 dB to +30 dB) < 0.5 dB

+13 dBm

< –115 dBm

Max. input power

Inherent noise (low noise mode)

Intermodulation

TOI, 2 × 10 dBm, f > 200 kHz, low distortion

ILS signal analysis

Input level range

> 20 dBm

–80 dBm to +10 dBm

Modulation depth (0 % to 95 %)

Deviation 90/150 Hz ± 2 %

Deviation voice/identifier

2)

AF, deviation 90/150 Hz ± 5 Hz

2)

≤ 0.5 %

≤ 1.0 %

≤ 0.05 Hz

≤ 5.0 Hz AF, deviation 1020 Hz ± 50 Hz 2)

Phase angle 90/150 Hz

Measuring range

Deviation

DDM measurement, localizer mode

Deviation ≤ ±10 % DDM

Deviation > ±10 % DDM

0° to +120° or ±60°

≤ 0.2°

DDM measurement, glideslope mode

Deviation ≤ ±20 % DDM ≤ 0.08 % DDM ± 0.1 % of reading

Deviation > ±20 % DDM

Marker beacon signal analysis

Input level range

≤ 0.04 % DDM ± 0.1 % of reading

≤ 0.04 % DDM ± 0.2 % of reading

≤ 0.08 % DDM ± 0.2 % of reading

–80 dBm to +10 dBm

Modulation depth (80 % to 100 %), deviation

400/1300/3000 Hz ± 2 %

2)

≤ 0.5 %

ID tone 1020 Hz ± 2 % 2) ≤ 1.0 %

56 Rohde & Schwarz Test & Measurement | Catalog 2012

The integrated rechargeable battery and robust design make it the ideal choice for mobile, mains-independent measurements in the field. Due to the high measurement speed and the trigger/synchronization functions, the

R&S®EVS300 is also tailor-made for deployment in flight inspection systems.

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Extremely fast (100 measurements per second)

Synchronization via GPS, trigger and remote interfaces

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Digital separation of course and clearance signals using

J only one signal processing channel (R&S®EVS-K3 option)

Expandable to support a second signal processing

J

channel for simultaneous localizer and glideslope

measurements (R&S®EVS-B1 option)

Support for R&S®NRP and R&S®NRT power sensors

(R&S®EVS-K5 option)

Specifications in brief

AF, deviation

400/1300/3000 Hz ± 50 Hz 2)

ID tone 1020 Hz ± 20 Hz

VOR signal analysis

Input level range

Azimuth, deviation

AM modulation depth (0 % to 50 %)

Deviation 30/9960 Hz ± 2 %

2)

Deviation voice/identifier

Deviation AM distortion

≤ 0.5 Hz

≤ 5.0 Hz

–80 dBm to +10 dBm

≤ ±0.1°

≤ 0.5 %

≤ 1.0 %

≤ 1.0 %

NF

Deviation 30 Hz ± 3 Hz

2)

Deviation 1020 Hz ± 50 Hz

2)

Deviation 9960 Hz ± 100 Hz

2)

FM deviation

≤ 0.03 Hz

≤ 5.0 Hz

≤ 0.5 Hz

≤ 0.1 Hz ± 0.5 % of reading

Frequency scan (¸EVS-K1 option)

Frequency range 70 MHz to 350 MHz

Start/stop or center/span

Resolution bandwidths

Inputs and outputs (front panel)

user-selectable in range from

70 MHz to 350 MHz

1/3/10/30 kHz

RF input

AF output

USB

Power supply of antenna

N connector, 50 Ω

3.5 mm jack socket double connector (USB stick etc.) output for feeding and remote

controlling active antennas

Inputs and outputs (rear panel)

Remote interface

GPS/GSM interface (¸EVS-B2 and ¸EVS-K2 options)

LAN interface

DC output

DC input

Baseband/trigger input

Analog output (2 outputs)

RS-232-C, 9-pin D-Sub connector

RS-232-C, 9-pin D-Sub connector

RJ-45, 100BaseT

12 V, max. 500 mA

10 V to 28 V

BNC connector

BNC connector, 50 W

1)

Overload display if in-band or out-of-band signals are overloading.

2) Max. frequency drift of modulation signal.

Signal and Spectrum Analyzers

R&S®FMAx Modulation Analyzers

Fast and accurate analysis of all parameters of

analog modulated signals

The R&S®FMAx modulation analyzers combine the functionalities of several measuring instruments in a single box

(RF counter, power meter, voltmeter, psophometer, distortion meter, FM stereo decoder). The R&S®FMAx modulation analyzers are suitable for measurements in the field of broadcasting (e.g. on AM and FM transmitters) and radiotelephony as well as in the calibration of signal generators.

They can be upgraded to perform many other measurement tasks.

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AM, FM, φM demodulation

Fast, automatic frequency adjustment by direct

frequency measurement

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Low-noise synthesizer with high frequency resolution

Separate +PK and –PK detectors with extremely short

response time

True RMS detector

Extremely high accuracy

High-precision power measurement (typ. error < 0.5 dB)

Stereo decoder

J

Audio generator for single and dual tones, stereo MPX

Specifications in brief

Frequency range

R&S®FMA/FMAB

R&S®FMAS

50 kHz to 1.36 GHz

5 MHz to 1 (1.36) GHz

RF power measurement 0.18 µW to 1 W

(–37.5 dBm to +30 dBm)

AM measurement frequency range 10 Hz to 200 kHz

FM measurement frequency range 10 Hz to 200 kHz

Max. measurable deviation for f in

50 kHz to 300 kHz

0.3 MHz to 10 MHz

≥ 10 MHz f in

/10

150 kHz

700 kHz

φM measurement frequency range 200 Hz to 200 kHz

Max. measurable deviation

300 kHz to 10 MHz

≥ 10 MHz

DC voltage measurement range

AC voltage measurement range

Frequency range

AF detectors

Weighting filters

150 rad

700 rad

±10 µV to 20 V

30 µV to 20 V

10 Hz to 300 kHz

± peak, RMS, QP (R&S®FMA-B1)

Highpass filters 10/20/300 Hz (2nd/3rd/2nd order)

Lowpass filters:

3/23 kHz (4th order), combined with 20 Hz highpass filter in line with

ITU-R 468-4, unweighted; 100 kHz (4th order)

R&S®FMA-B1 filter option:

ITU-R 468-4 (weighted); ITU-T P53, 5 Hz lowpass, 30 kHz and 120 kHz;

Bessel lowpass of 4th order, 4.2 kHz; Cauer lowpass; special φM filter

AF frequency counter 5 digits

Frequency range, resolution 10 Hz to 300 kHz, 1 mHz to 10 Hz

4

Functions of individual models, options

AM/FM/φM

Weighting filters (ITU-T, ITU-R):

lowpass filter 5 Hz, 4.2 kHz (high skirt selectivity), 30 kHz, 120 kHz (Bessel), special φM filter

DIST/SINAD meter: 10 Hz to 100 kHz, distortion measurable down to typ. < 0.005 %

Stereo decoder: RDS demodulator with external evaluation facility

AM/FM calibrator/AF generator:

high-precision level calibration, R&S®FMA performance test, complete modulation test set for transmitters and transposers, generation of stereo multiplex signals

Selective AF analysis up to 150 kHz:

selective distortion, intermodulation, selective modulation and voltage measurement

RF/IF selection:

5 MHz to 1 GHz, connectible, tracking four-section preselection, selectable IF filters

Reference oscillator (1 × 10

–7

/year)

R&S®FMA R&S®FMAB R&S®FMAS

• • •

R&S®FMA-B1 • •

R&S®FMA-B2

R&S®FMA-B3

R&S®FMA-B4

R&S®FMA-B4

R&S®FMA-B4

R&S®FMA-B8 R&S®FMA-B8 •

– – •

R&S®FMA-B10 R&S®FMA-B10 R&S®FMA-B10

More information | www.rohde-schwarz.com 57

Signal Generators

Chapter 5

Signal Generators

Rohde & Schwarz offers analog and digital signal generators with a variety of frequencies, standards, modulations and functions.

Type Designation Frequency range Description

RF vector signal generators

R&S®SMU200A Vector Signal Generator

R&S®SMATE200A

R&S®SMJ100A

R&S®SMBV100A

R&S®SGS100A

Vector Signal Generator

Vector Signal Generator

Vector Signal Generator

SGMA RF Source

100 kHz to 2.2/3/4/6 GHz

100 kHz to 3 GHz/6 GHz

100 kHz to 3 GHz/6 GHz

9 kHz to 3.2 GHz/6 GHz

1 MHz to 6/12.75 GHz (CW)

80 MHz to 6 GHz (I/Q)

RF analog signal generators

R&S®SMA100A Signal Generator

R&S®SMB100A

R&S®SMC100A

RF and Microwave

Signal Generator

Signal Generator

9 kHz to 3 GHz/6 GHz

9 kHz to 1.1/2.2/3.2/6 GHz

100 kHz to 12.75/20/40 GHz

9 kHz to 1.1 GHz/3.2 GHz

Microwave signal generators

R&S®SMF100A Microwave Signal Generator 100 kHz/1 GHz to 22/43.5 GHz

R&S®SMZ Frequency Multiplier 50/60/75 GHz to 75/90/110 GHz

The art of signal generation

Production solution based on the R&S®SMU200A

Versatility in signal generation

Generating signals for today and tomorrow

Compact – fast – reliable

The standard of excellence in the analog signal

generator class

Versatile, compact solution for signal generation up to 40 GHz

Flexible and universal all-purpose signal generator

Signal generation redefined

Precise and adjustable output levels

Baseband signal generators

R&S®AMU200A

R&S®AFQ100A/B

R&S®EX-IQ-BOX

Baseband Signal Generator and Fading Simulator

I/Q Modulation Generator

Digital Signal Interface Module

Versatile realtime I/Q source and cost-effective

baseband fading simulator in a single unit

High-performance baseband signals

Digital I/Q interface adapter for Rohde & Schwarz

signal generators, analyzers and communications testers

Application firmware

Application firmware packages for Rohde & Schwarz signal generators: see overview on pages 72 and 73 and description on page 74 ff

Software solutions

R&S®WinIQSIM2™ Simulation Software

R&S®SMx/AMU/AFQ-K6 Pulse Sequencer

Ideal for the generation of digitally modulated

signals

Generation of complex pulsed signals

Page

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68

59

60

61

62

63

69

70

71

64

65

66

84

85

58 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®SMU200A Vector Signal Generator

Signal Generators

Up to two generators can also be installed in the baseband section. They generate complex signals in realtime and are equipped with an arbitrary waveform generator with up to

128 Msample memory for I and Q. The signals generated in the different basebands can be added. Frequency offset of the individual signals is possible. The modern, intuitive concept of the R&S®SMU200A ensures fast and easy

operation.

Up to two independent signal generators in one cabinet with unrivaled RF and baseband

characteristics

Due to its modular design, the R&S®SMU200A can be optimally adapted to the requirements of different applications. The first RF path can be equipped with one of the four available frequency options. The upper frequency limit of 2.2/3/4 GHz or 6 GHz is user-selectable. In addition, a second RF path can be installed with upper frequency

limits of 2.2 GHz and 3 GHz. The lower frequency limit of all frequency options is 100 kHz.

J

First RF path from 100 kHz to 2.2/3/4/6 GHz

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Optional second RF path from 100 kHz to 2.2/3 GHz

Up to two complete baseband paths

Support of 3GPP LTE FDD and TDD, 3GPP FDD/HSPA/

HSPA+, GSM/EDGE/EDGE Evolution, TD-SCDMA,

IEEE 802.11a/b/g/n/ac and all other important digital

standards

2x2 MIMO with realtime fading possible

Two instruments combinable for 2x4 or 4x2 MIMO

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Optional fading simulator with up to 40 fading paths

I/Q modulator with 200 MHz RF bandwidth

Optional baseband generator with realtime coder and

arbitrary waveform generator

Outstanding RF performance (SSB phase noise,

wideband noise and level repeatability)

5

Specifications in brief

Frequency

Frequency range

Setting time

Setting time in List mode

Level

Level range

Standard

With option

Setting time

Setting time in List mode

Spectral purity (at f = 1 GHz)

Nonharmonics

Standard

(carrier offset > 850 kHz)

With option

(carrier offset > 10 kHz)

100 kHz to 2.2/3/4/6 GHz

< 2 ms, typ. 1.5 ms

< 450 µs, typ. 300 µs

–145 dBm to +13 dBm (PEP)

–145 dBm to +19 dBm (PEP)

< 2 ms, typ. 1.5 ms

< 450 µs, typ. 300 µs

< –86 dBc

< –90 dBc

SSB phase noise (20 kHz carrier offset, 1 Hz measurement bandwidth)

Standard < –131 dBc, typ. –135 dBc

With option

Wideband noise

(carrier offset > 10 MHz,

1 Hz measurement bandwidth,

CW)

< –136 dBc, typ. –139 dBc

< –150 dBc, typ. –153 dBc

Specifications in brief

I/Q modulation

RF modulation bandwidth

Using external I/Q inputs 200 MHz

Using internal baseband section 80 MHz

Baseband generator

Max. waveform length 16/64/128 Msample

Supported standards and digital systems

Depending on options 3GPP LTE FDD/TDD incl. Rel. 9 and

Rel. 10, 3GPP FDD/HSPA/HSPA+,

GSM/EDGE/EDGE Evolution,

TD-SCDMA, cdmaOne,

CDMA2000®, 1xEV-DO,

IEEE 802.11a/b/g/n/ac, WiMAX™,

TETRA Release 2, Bluetooth®, user-defined multicarrier CW,

AWGN, GPS, A-GPS, DVB-H/DVB-T,

DAB/T-DMB, XM Radio™, Sirius,

HD Radio™

Fading and MIMO

Fading taps

Bandwidth up to 40 up to 80 MHz

MIMO up to 2x2 with one instrument, up to 2x4 or 4x2 with two instruments

Correlation (per tap)

Fading profiles and supported standards

correlation matrix, Kronecker,

AoA/AoD

see page 74

More information | www.rohde-schwarz.com 59

Signal Generators

R&S®SMATE200A Vector Signal Generator

Production solution based on the R&S®SMU200A

Based on the successful R&S®SMU200A platform, the

R&S®SMATE200A is specifically designed for production environments. The display and front panel user interface have been removed, the connectors moved to the rear, and performance has been optimized for fastest setting times to improve factory throughput. As with the

R&S®SMU200A, the two-generators-in-one concept has been kept, occupying four height units – a plus for production where space is at a premium. As regards flexibility, the modular design concept of the R&S®SMATE200A ensures that the instrument can easily be adapted to the task at hand. Users can choose between 3 GHz or 6 GHz

RF outputs in one or two paths and may opt for up to two completely independent baseband sources. As with the

R&S®SMU200A, these sources may be used to produce complex signals in realtime or output preloaded waveforms from the internal arbitrary waveform generator.

In addition to its inherent speed, the R&S®SMATE200A also offers a special function that permits fast switching between different test signals. The multisegment waveform function allows users to easily combine waveforms, such as GSM and WCDMA, during test setup for even faster tests in production. This is just one example of the

R&S®SMATE200A’s capability to meet the special requirements of the production environment.

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Up to two independent signal generators in one unit

3 GHz or 6 GHz frequency options in one or two paths

J

Very short setting times for frequency and level

J

(frequency changes < 1 ms over GPIB and < 400 µs in

List mode)

Fast Hop mode offering flexibly addressable frequency/ level pairs; as fast as normal List mode

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Multisegment waveform function enabling fast switching between different test signals in waveform generator

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Up to two independent baseband sources that not only support realtime signal generation but also offer arbitrary waveform generation with up to 128 Msample each

Specifications in brief

Frequency

Frequency range

Setting time

Setting time in List mode

Level

Level range

Standard

With option

Setting time

Setting time in List mode

Spectral purity (at f = 1 GHz)

Nonharmonics

Standard

(carrier offset > 850 kHz)

100 kHz to 3/6 GHz

< 1 ms, typ. 0.6 ms

< 450 µs, typ. 300 µs

–145 dBm to +13 dBm (PEP)

–145 dBm to +19 dBm (PEP)

< 1 ms, typ. 0.6 ms

< 450 µs, typ. 300 µs

< –86 dBc

With option

(carrier offset > 10 kHz)

< –90 dBc

SSB phase noise (20 kHz carrier offset, 1 Hz measurement bandwidth)

Standard < –131 dBc, typ. –135 dBc

With option < –136 dBc, typ. –139 dBc

Wideband noise

(carrier offset > 10 MHz,

1 Hz measurement bandwidth,

CW)

< –150 dBc, typ. –153 dBc

Specifications in brief

I/Q modulation

RF modulation bandwidth

Using external I/Q inputs 200 MHz

Using internal baseband section 80 MHz

Baseband generator

Max. waveform length 16/64/128 Msample

Supported standards and digital systems

Depending on options 3GPP LTE FDD/TDD incl. Rel. 9 and

Rel. 10, 3GPP FDD/HSPA/HSPA+,

GSM/EDGE/EDGE Evolution,

TD-SCDMA, cdmaOne,

CDMA2000®, 1xEV-DO,

IEEE 802.11a/b/g/n/ac, WiMAX™,

TETRA Release 2, Bluetooth®, user-defined multicarrier CW,

AWGN, GPS, DVB-H/DVB-T,

DAB/T-DMB, XM Radio™

60 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®SMJ100A Vector Signal Generator

The ideal multipurpose vector signal generator,

supporting a wide variety of applications

The R&S®SMJ100A meets all challenges that diverse applications place on modern vector signal generators. For example, it offers a convenient graphical user interface

(GUI) and the signal quality and flexibility required in research and development. And this is by no means all the

R&S®SMJ100A has to offer. In production environments, it excels with its flexible baseband and low setting times.

The baseband meets all requirements, from providing realtime signals to replaying precalculated waveforms.

Signal Generators

Equipped with a 3 GHz or 6 GHz frequency option, the

R&S®SMJ100A covers all important frequency bands essential in digital RF transmission. The internal baseband generator option handles a multitude of digital standards, e.g. GSM/EDGE, 3GPP FDD and CDMA2000®. Its characteristics make the R&S®SMJ100A the ideal multipurpose vector signal generator, supporting a wide variety of applications.

To handle future standards, the R&S®SMJ100A features a large bandwidth; new standards such as LTE pose no problem. The internal arbitrary waveform generator is proof of its versatility. It offers sequences up to

128  Msample in length and can be used with diverse

signals from R&S®WinIQSIM2™ or MATLAB®.

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Support of 3GPP LTE FDD and TDD, 3GPP FDD/HSPA/

HSPA+, GSM/EDGE/EDGE Evolution, TD-SCDMA,

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IEEE 802.11a/b/g/n/ac and all other important digital

standards

I/Q modulator with 200 MHz RF bandwidth

Optional baseband generator with realtime coder and

arbitrary waveform generator for maximum flexibility

Optional ARB-only baseband generator as cost-saving alternative

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Excellent RF performance (SSB phase noise, wideband noise and level repeatability)

5

Specifications in brief

Frequency

Frequency range

Setting time

Setting time in List mode

Level

Level range

Setting time

Setting time in List mode

Spectral purity (at f = 1 GHz)

Nonharmonics (carrier offset > 850 kHz)

SSB phase noise (20 kHz carrier offset, 1 Hz measurement bandwidth)

Wideband noise

(carrier offset > 10 MHz, 1 Hz measurement bandwidth, CW)

I/Q modulation

RF modulation bandwidth

Using external I/Q inputs

Using internal baseband section

Baseband generator

Max. waveform length

Supported standards and digital systems

Depending on options

100 kHz to 3/6 GHz

< 2 ms, typ. 1.5 ms

< 450 µs, typ. 300 µs

–145 dBm to +13 dBm (PEP)

< 2 ms, typ. 1.5 ms

< 450 µs, typ. 300 µs

< –86 dBc

< –129 dBc, typ. –133 dBc

< –150 dBc, typ. –153 dBc

200 MHz

80 MHz

16/64/128 Msample

3GPP LTE FDD/TDD incl. Rel. 9 and Rel. 10, 3GPP FDD/HSPA/HSPA+,

GSM/EDGE/EDGE Evolution, TD-SCDMA, cdmaOne, CDMA2000®,

1xEV-DO, IEEE 802.11a/b/g/n/ac, WiMAX™, TETRA Release 2, Bluetooth®, user-defined multicarrier CW, AWGN, GPS, DVB-H/DVB-T, DAB/T-DMB,

XM Radio™, Sirius, HD Radio™

More information | www.rohde-schwarz.com 61

Signal Generators

R&S®SMBV100A Vector Signal Generator

ing back predefined test sequences is available with the optional baseband arbitrary waveform generator (ARB).

And where it really matters, the optional baseband coder provides impressive realtime capabilities. It allows the generation of even complex signals directly in the instrument

– no external signal generation software is required.

The R&S®SMBV100A has also been designed for ease of servicing. Together with its scalability, this helps to ensure very low cost of ownership. The instrument’s compact size and graphical user interface for intuitive operation help to fulfill all possible requirements.

Generating signals for today and tomorrow

The R&S®SMBV100A offers excellent RF performance along with very high output level and short setting times.

At the same time, the R&S®SMBV100A can be equipped with an internal baseband generator to allow generation of a number of digital standards (e.g. 3GPP FDD, HSPA+,

LTE, WLAN IEEE 802.11a/b/g/n/ac, GNSS such as GPS and

GLONASS). The wide frequency range from 9 kHz to 6 GHz covers all of the important bands for digital modulation.

Due to its optimal scalability, the R&S®SMBV100A is easy to customize to meet specific customer requirements. For production applications, a cost-effective solution for play-

These features make the R&S®SMBV100A ideal in development applications as well as in production and service.

This instrument truly does the job wherever signals with digital modulation are needed.

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Internal signal generation for all major digital radio

standards and use as GNSS simulator, both with optional

integrated baseband source

Highest output level in its class up to 6 GHz, combined

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Lowest cost of ownership due to outstanding price/ performance ratio and on-site service capabilities

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Ideal adaptation to customer applications

Specifications in brief

Frequency

Frequency range

Setting time

Setting time in List mode

Level

Level range

Setting time

Setting time in List mode

Spectral purity (at f = 1 GHz)

Nonharmonics

(CW, carrier offset > 10 kHz, level > –10 dBm)

SSB phase noise

(20 kHz carrier offset,

1 Hz measurement bandwidth)

Wideband noise

(carrier offset > 10 MHz,

1 Hz measurement bandwidth,

CW)

9 kHz to 3.2/6 GHz (CW mode)

1 MHz to 3.2/6 GHz (I/Q mode)

< 3 ms, < 7 ms (if I/Q modulation is ON)

< 1 ms

–145 dBm to +18 dBm (PEP)

< 2.5 ms, < 7 ms (if I/Q modulation is ON)

< 1 ms

< –70 dBc, typ. –84 dBc

< –122 dBc, typ. –128 dBc

< –142 dBc, typ. –152 dBc

Specifications in brief

I/Q modulation

RF modulation bandwidth

Using external I/Q inputs 582 MHz

Using internal baseband section 60/120 MHz

Baseband generator

Max. waveform length 32/256 Msample

Supported standards and digital systems

Depending on options 3GPP LTE FDD/TDD incl. Rel. 9 and

Rel. 10, 3GPP FDD/HSPA/HSPA+,

GSM/EDGE/EDGE Evolution,

TD-SCDMA, cdmaOne,

CDMA2000®, 1xEV-DO,

IEEE 802.11a/b/g/n/ac, WiMAX™,

TETRA Release 2, Bluetooth®, user-defined multicarrier CW,

AWGN, GNSS (see below),

DVB-H/DVB-T, DAB/T-DMB,

XM  Radio™, Sirius, HD Radio™

GNSS simulation (in realtime)

Supported systems

Number of satellites

GPS, GLONASS, Galileo up to 12

Special functions moving scenarios (import of NMEA files), multipath, dynamic power control, atmospheric modeling, support for RINEX files

62 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®SGS100A SGMA RF Source

Compact – fast – reliable

The very compact dimensions of only one height unit and ½ 19" rack width and the extremely fast frequency and level setting times are two features that demonstrate how consistently the R&S®SGS100A has been designed for use in systems. It can also be used in all applications that require either multiple RF signal sources, such as

beamforming applications, or where an extremely compact RF generator is needed, e.g. an operating source in customer systems.

Though compact, the R&S®SGS100A provides uncompromising signal purity and level accuracy. It offers performance usually available only from high-end

Signal Generators

instruments, including high output power, level repeatability and modulation bandwidth. During development,

particular emphasis was placed on the total cost of ownership. A long calibration interval, excellent serviceability and options for expansion maximize the availability of the RF source. When used as a benchtop instrument, the R&S®SGS100A is operated manually using the

R&S®SGMA-GUI software included with the instrument.

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Smallest fully integrated vector signal generator on the

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Enables high throughput due to very short frequency and level setting times of typ. 280 µs via PCIe interface

Excellent RF performance in a compact format

Maximum output level of typ. +22 dBm for

compensating losses in the setup

Closed ALC loop for CW and I/Q modes for highest level repeatability

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High output frequency of up to 12.75 GHz for broad

applicability

Wear-free electronic attenuator for high reliability

Very cost-efficient with low initial costs and low cost of ownership

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Specifications in brief

Frequency range

Setting time

Input frequency for external reference

Specified level range

Level error with PCIe remote control

1 MHz to 6/12.75 GHz (CW)

80 MHz to 6 GHz (I/Q)

< 500 μs

10 MHz, 100 MHz, 1000 MHz

–10 dBm to +15 dBm (PEP)

1)

–120 dBm to +15 dBm (PEP)

1) with the R&S®SGS-B26 option

Setting Characteristic: AUTO; temperature range from +18 °C to +33 °C

1 MHz ≤ f ≤ 3 GHz < 0.5 dB

3 GHz < f ≤ 12.75 GHz with PCIe remote control,

Setting Characteristic: AUTO

< 0.9 dB

< 500 μs Setting time

Spectral purity

Nonharmonics

Subharmonics

Wideband noise

SSB phase noise

I/Q modulator bandwidth (RF)

General data

Remote control interfaces

Dimensions level > –10 dBm

2)

, offset > 10 kHz from carrier, f ≤ 1.5 GHz level > –10 dBm 2) , f ≤ 3 GHz

1 MHz ≤ f ≤ 6 GHz and 10 MHz carrier offset,

AUTO mode, level > 5 dBm, 1 Hz measurement bandwidth, CW

< –76 dBc

< –76 dBc

< –145 dBc

20 kHz carrier offset, 1 Hz measurement bandwidth f = 1 GHz < –126 dBc, typ. –130 dBc f = 10 GHz < –106 dBc, typ. –110 dBc

100 MHz < f ≤ 2.5 GHz, I/Q wideband

2.5 GHz < f ≤ 6 GHz, I/Q wideband

40 % of carrier frequency

1 GHz

PCIe, Ethernet, USB 2.0

1 HU, ½ 19" rack width

1)

PEP = peak envelope power.

2) > 0 dBm for instruments without the R&S®SGS-B26 electronic step attenuator.

More information | www.rohde-schwarz.com 63

Signal Generators

R&S®SMA100A Signal Generator

In addition, a low- jitter clock synthesizer option supplies differential clock signals of up to 1.5 GHz independently of the RF frequency. This makes the R&S®SMA100A suitable for a variety of applications – from use in phase noise test systems through to tests on mixed-signal ICs.

The R&S®SMA100A signal generator also offers a modern graphical user interface for fast and intuitive operation.

The standard of excellence in the analog signal

generator class

Signal quality, speed and flexibility are the criteria by which signal generators are measured today. The R&S®SMA100A perfectly meets these criteria, and is a premium-class

analog generator that sets standards due to its outstanding characteristics.

The R&S®NRP-Zxx power sensors can be connected to the R&S®SMA100A. The user can therefore perform very precise power measurements directly with the signal

generator.

The R&S®SMA100A combines superior signal quality with very high setting speed, which makes it ideal for any task.

Whether in development, production, service or maintenance, the R&S®SMA100A does an excellent job.

In the frequency range from 9 kHz to 6 GHz, it can generate CW signals as well as all common types of analog

modulation (AM, FM, φM, pulse modulation). Excellent specifications and a wide range of modulation signals are the characteristic features of the R&S®SMA100A.

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Very low SSB phase noise of typ. –134 dBc

(20 kHz carrier offset, f = 1 GHz, 1 Hz measurement

bandwidth), typ. –139.5 dBc with the R&S®SMA-B22

enhanced phase noise performance option

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Wideband noise of –162 dBc (meas.) with carrier offset

> 40 MHz, f = 1 GHz, level = 9 dBm, 1 Hz measurement

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Nonharmonics < –96 dBc (carrier offset > 10 kHz,

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High-stability reference oscillator as standard

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Very low phase noise at low frequencies due to internal division of the fundamental frequency range (750 MHz to

1500 MHz) down to 6.6 MHz

Specifications in brief

Frequency

Frequency range

Setting time

Setting time in List mode

Level

Level range

Setting time

9 kHz to 3/6 GHz

< 2 ms

< 450 µs

With option

Wideband noise (carrier offset > 10 MHz,

1 Hz measurement bandwidth, CW)

–145 dBm to +18 dBm (PEP)

< 1.5 ms

Setting time in List mode

Spectral purity (at f = 1 GHz)

< 450 µs

Nonharmonics (carrier offset > 10 kHz)

Standard

With option

< –80 dBc

< –90 dBc

SSB phase noise (20 kHz carrier offset, 1 Hz measurement bandwidth)

Standard < –131 dBc, typ. –134 dBc

< –136 dBc, typ. –139.5 dBc

< –153 dBc

Analog modulation

Pulse

Rise/fall time (f > 180 MHz)

ON/OFF ratio

AM depth

Maximum FM deviation

Maximum φM deviation

Special features

Depending on options

< 20 ns, typ. < 7 ns

> 80 dB

0 % to 100 %

40 MHz (f > 3 GHz)

80 rad (f > 3 GHz)

VOR/ILS, DME signal generation, pulse train, power analysis (with R&S®NRP-Zxx power sensors)

64 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®SMB100A RF and Microwave Signal

Generator

Versatile, compact solution for signal generation up to 40 GHz

The compact, versatile R&S®SMB100A RF and microwave signal generator with a frequency range up to 40 GHz provides outstanding spectral purity and high output power.

In addition, it features easy operation, comprehensive functionality and low cost of ownership.

Its wide frequency range covers a large number of challenging applications. The R&S®SMB100A is the perfect choice for applications in the important ISM bands up

Signal Generators

to 5.7 GHz as well as for EMC applications because of its lower frequency limit of 9 kHz. Furthermore, the R&S®SMB100A can be ideally used for measuring the blocking characteristic up to a CW frequency of

12.75 GHz, as specified in various telecommunications standards. When it comes to frequently changing level settings, this is the first time that a wear-free electronic step attenuator is used in this frequency range.

Two frequency options up to 20 GHz and 40 GHz are available to cover the microwave range. These options are suitable for tests on radar systems and antennas in the X and

K bands, for example.

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Wide frequency range from 9 kHz to 6 GHz or from

100 kHz to 40 GHz

Excellent signal characteristics with low SSB phase noise of typ. –128 dBc (at 1 GHz, 20 kHz offset)

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High output power of typ. up to +27 dBm

All important analog modulations with AM, FM/φM and pulse modulation supported

Compact size with only two height units and low weight

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Specifications in brief

Frequency

Frequency range

Level

Maximum output power

Spectral purity

SSB phase noise

Connectivity

Remote control

Peripherals

R&S®SMB-B101

R&S®SMB-B102

R&S®SMB-B103

R&S®SMB-B106

R&S®SMB-B112/-B112L

R&S®SMB-B120/-B120L

R&S®SMB-B140/-B140L

9 kHz to 1.1 GHz

9 kHz to 2.2 GHz

9 kHz to 3.2 GHz

9 kHz to 6 GHz

100 kHz to 12.75 GHz

100 kHz to 20 GHz

100 kHz to 40 GHz

R&S®SMB-B101/-B102/-B103/-B106/-B112/-B112L

1 MHz < f ≤ 12.75 GHz

> +18 dBm

> +16 dBm R&S®SMB-B120 with R&S®SMB-B31

50 MHz < f ≤ 20 GHz

R&S®SMB-B120L with R&S®SMB-B31

100 MHz < f ≤ 20 GHz

> +19 dBm

R&S®SMB-B140 with R&S®SMB-B32

50 MHz < f ≤ 40 GHz

R&S®SMB-B140L with R&S®SMB-B32

50 MHz < f ≤ 40 GHz

> +13 dBm

> +16 dBm f = 1 GHz, carrier offset = 20 kHz,

1 Hz measurement bandwidth f = 10 GHz, carrier offset = 20 kHz,

1 Hz measurement bandwidth

< –122 dBc, typ. –128 dBc

< –102 dBc, typ. –108 dBc

GPIB IEEE-488.2,

Ethernet (TCP/IP),

USB

USB

More information | www.rohde-schwarz.com 65

Signal Generators

R&S®SMC100A Signal Generator

Total cost of ownership is an important factor when

purchasing a measuring instrument. The R&S®SMC100A, apart from offering a low initial cost, also boasts low service costs since users can replace defective modules on their own and verify the level repeatability and accuracy by using the R&S®NRP-Z91/R&S®NRP-Z92 power sensors.

These outstanding features make the R&S®SMC100A ideal for use in service and maintenance labs. Due to its small dimensions and lightweight design, the R&S®SMC100A is also the perfect choice for field applications or training and education environments.

Flexible and universal all-purpose signal generator

The R&S®SMC100A offers outstanding signal quality at an attractive price. It covers the frequency range from 9 kHz to 1.1 GHz or 3.2 GHz. Output power is typ. > +17 dBm.

All important functions (AM/FM/φM/pulse modulation) are already integrated in the instrument. This makes the

R&S®SMC100A signal generator a flexible and versatile

instrument.

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Smallest size and best price/performance ratio in its class

Frequency range from 9 kHz to 1.1 GHz/3.2 GHz

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Maximum output level of typ. > +17 dBm

AM/FM/φM/pulse modulation provided as standard

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Integrated overvoltage protection

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Wear-free electronic attenuator

Minimized total cost of ownership

Specifications in brief

Frequency

Frequency range

Setting time

Level

Level range

Setting time

Spectral purity (at f = 1 GHz)

Nonharmonics (carrier offset > 10 kHz)

SSB phase noise (20 kHz carrier offset, 1 Hz measurement bandwidth)

Wideband noise

(carrier offset > 10 MHz, 1 Hz measurement bandwidth, CW)

Analog modulation

Pulse

Rise/fall time

ON/OFF ratio

AM depth

Maximum FM deviation

Maximum φM deviation

9 kHz to 1.1/3.2 GHz

< 5 ms, typ. 2 ms

–145 dBm to +18 dBm (PEP)

< 5 ms, typ. 2 ms

< –60 dBc

< –105 dBc, typ. –111 dBc

< –138 dBc, typ. –148 dBc

< 500 ns, typ. 100 ns

> 80 dB

0 % to 100 %

4 MHz (f > 1.6 GHz)

40 rad (f > 1.6 GHz)

66 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®SMF100A Microwave Signal

Generator

Signal generation redefined

Signal quality, speed and flexibility are decisive properties for a signal generator in the microwave range.

The R&S®SMF100A microwave signal generator is a firstrate, state-of-the-art microwave signal generator that sets new standards. It covers the numerous fields of application encountered in R & D, production, service, maintenance and repair.

The R&S®SMF100A operates in the wide frequency range from 100 kHz to 43.5 GHz with specific configurations. In

Signal Generators

addition to CW signals, all common types of analog modulation (AM, FM, φM, pulse modulation) or combinations thereof can be generated.

The R&S®SMF100A signal generator offers a modern graphical user interface for fast and intuitive operation. The settings – which, for the first time in a microwave signal generator, can be controlled via a block diagram – and the signal flow can be seen at a glance.

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Max. frequency range from 100 kHz to 22/43.5 GHz

Excellent SSB phase noise of typ. –120 dBc

(at 10 GHz with 10 kHz carrier offset)

Very high output power of typ. +25 dBm

Optional pulse modulator with excellent data: > 80 dB

ON/OFF ratio, < 10 ns rise/fall time, < 20 ns pulse width

Optional pulse generator

Optional removable compact flash disk to meet high

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security requirements

Connector for R&S®NRP-Zxx power sensors for precise

power measurement

Usable for scalar network analysis with R&S®NRP-Zxx

power sensor connected

Remote control via GPIB, Ethernet or USB

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Specifications in brief

Frequency

Frequency range

Setting time

Setting time in List mode

Level

Level range (depending on options)

100 kHz/1 GHz to 22/43.5 GHz

< 4 ms typ. < 750 µs

Setting time

Setting time in List mode

< 3 ms typ. < 750 µs

Spectral purity (at f = 10 GHz)

Nonharmonics (carrier offset > 3 kHz)

SSB phase noise (20 kHz carrier offset, 1 Hz measurement bandwidth)

< –62 dBc

< –115 dBc

Wideband noise (carrier offset > 10 MHz, 1 Hz measurement bandwidth, CW) typ. < –148 dBc

Analog modulation

Pulse

Rise/fall time (f > 1 GHz)

ON/OFF ratio

AM depth

Maximum FM deviation

Maximum φM deviation

Special features

Depending on options

–130 dBm to +24 dBm (PEP)

< 10 ns

> 80 dB

0 % to 100 %

40 MHz (f > 21 GHz)

640 rad (f > 21 GHz) analog ramp sweep, logarithmic AM, pulse train, power analysis

(with R&S®NRP-Zxx power sensors)

More information | www.rohde-schwarz.com 67

Signal Generators

R&S®SMZ Frequency Multiplier

The family of frequency multipliers consists of the models

R&S®SMZ75 (50 GHz to 75 GHz), R&S®SMZ90 (60 GHz to 90 GHz) and R&S®SMZ110 (75 GHz to 110 GHz) as well as optional attenuators. The attenuator is integrated in the same housing as the frequency multiplier, which simplifies handling. The R&S®SMZ including attenuator can be controlled from the R&S®SMF100A microwave signal generator via USB. This combination operates as a single unit allowing users to directly enter the wanted frequency and the target level at the R&S®SMZ output on the

R&S®SMF100A.

Precise and adjustable output levels from

50 GHz to 110 GHz

The R&S®SMZ family of frequency multipliers combines easy handling and precise, adjustable output levels in the frequency range from 50 GHz to 110 GHz. It can be used in diverse applications, e.g. in the automotive sector with distance radars, in astronomy with sophisticated telescopes and in radar interferometry for analyzing the earth's surface.

Very low single sideband phase noise is achieved owing to the interaction with the high-end R&S®SMF100A

microwave signal generator. For a CW signal of 60 GHz, for example, an outstanding –100 dBc (10 kHz offset) is achieved after six-fold frequency multiplication with the

R&S®SMZ75.

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Wide frequency range

Wide dynamic range

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Extremely easy handling

High signal quality

Specifications in brief

Input frequency range

R&S®SMZ75

R&S®SMZ90

R&S®SMZ110

Output frequency range

R&S®SMZ75

R&S®SMZ90

R&S®SMZ110

Level

Input level

Output level

With mechanically controlled attenuator

With electronically controlled attenuator

Attenuation

With mechanically controlled attenuator

With electronically controlled attenuator

Spectral purity

Harmonics, subharmonics, in-band spurious

Connectors

Input

Output

R&S®SMZ75

R&S®SMZ90

R&S®SMZ110

8.33 GHz to 12.5 GHz

10 GHz to 15 GHz

12.5 GHz to 18.4 GHz

50 GHz to 75 GHz

60 GHz to 90 GHz

75 GHz to 110 GHz

+6.7 dBm to +7.3 dBm typ. +5 dBm typ. +4 dBm typ. +1 dBm max. 25 dB max. 15 dB typ. < –20 dBc

K female (50 Ω)

WR15 waveguide

WR12 waveguide

WR10 waveguide

68 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®AMU200A Baseband Signal

Generator and Fading Simulator

Signal Generators

The optional two-path functionality makes it easy to generate even complex signal scenarios. The user can simulate interference, noise, multipath propagation, antenna diversity and MIMO. Plus, the user can determine their effect on a device under test (DUT) reproducibly, with minimum effort and using a single unit.

Versatile realtime I/Q source and cost-effective

baseband fading simulator in a single unit

Growing cost pressure is leading to ever increasing modularization in the design of modern communications equipment and systems. To launch products as early as possible, complex tests are being performed at the module level long before integration into the overall product takes place.

This increases test requirements at the baseband level.

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Single-path or dual-path instrument

Up to two complete baseband paths

Configuration as a fading simulator, an I/Q source,

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2x2 MIMO with realtime fading

Two instruments combinable for 2x4 or 4x2 MIMO

Baseband generators with universal coders for realtime signal generation

Arbitrary waveform generators with 16 Msample,

64 Msample or 128 Msample memory depth

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Analog single-ended, analog differential and digital

baseband outputs

Analog single-ended and digital baseband inputs

Lossless combination of up to four baseband signals in the digital domain (e.g. for testing multistandard base stations) The universal R&S®AMU200A baseband generator has been specially devised for this task. It combines the functionality of a realtime I/Q source, an arbitrary waveform generator and a channel simulator in a single unit.

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Specifications in brief

Baseband generator

Sampling rate

Baseband bandwidth

Max. waveform length

Signal quality of analog I/Q outputs

Frequency response, up to 40 MHz

I/Q balance, up to 40 MHz

SFDR (sine wave) up to 20 MHz

SSB phase noise for 10 MHz sine wave

(20 kHz carrier offset, 1 Hz measurement bandwidth)

Wideband noise for 10 MHz sine wave

(1 MHz carrier offset, 1 Hz measurement bandwidth)

Supported standards and digital systems

Depending on options

Fading and MIMO

Fading taps

Bandwidth

MIMO

Correlation (per tap)

Fading profiles and supported standards

100 MHz

40 MHz

16/64/128 Msample typ. 0.03 dB typ. 0.02 dB typ. 60 dB typ. –150 dBc typ. –155 dBc

3GPP LTE FDD/TDD incl. Rel. 9, 3GPP FDD/HSPA/HSPA+,

GSM/EDGE/EDGE Evolution, TD-SCDMA, cdmaOne, CDMA2000®,

1xEV-DO, IEEE 802.11a/b/g/n/ac, WiMAX™, TETRA Release 2, Bluetooth®, user-defined multicarrier CW, AWGN, GPS, A-GPS, DVB-H/DVB-T, DAB/T-DMB up to 40 up to 80 MHz (RF) up to 2x2 with one instrument, up to 2x4 or 4x2 with two instruments correlation matrix, Kronecker, AoA/AoD

see page 74

More information | www.rohde-schwarz.com 69

Signal Generators

R&S®AFQ100A I/Q Modulation Generator

R&S®AFQ100B UWB Signal and

I/Q  Modulation Generator

Featuring a maximum clock rate of 300 MHz, a bandwidth of 200 MHz (RF) and a waveform memory of up to

1 Gsample, the R&S®AFQ100A provides the functionality and flexibility that is required for development and production tests on receivers and components of modern digital communications standards such as WiMAX™ and LTE.

High-performance baseband signals

Whether in the commercial or aerospace and defense field, customers require excellent signal quality, speed and high flexibility when selecting a signal source. Besides, there is a growing need for development and testing in the digital baseband domain. The signals to be created are increasingly complex and dynamic. They use complex modulation schemes and demand more and more bandwidth. The R&S®AFQ100A and the R&S®AFQ100B are two state-of-the-art, self-contained and flexible baseband sources that perfectly meet these requirements.

The ¸AFQ100B with a bandwidth of 528 MHz (RF), a clock rate of 600 MHz and a waveform memory of up to

1 Gsample is perfectly suited for applications that require more bandwidth. Examples are the support of broadband digital communications systems such as ultrawideband

(UWB) or radar applications where signals with extremely short pulses and short rise and fall times are needed.

Both R&S®AFQ family members combine flexibility with outstanding signal quality. Their spurious suppression, for example, is first-rate and their frequency response extremely linear. All these essential features combined with a wealth of other functions make the R&S®AFQ100A and the

R&S®AFQ100B very versatile baseband generators.

Specifications in brief

Output memory

Memory clock of the R&S®AFQ100A

Memory clock of the R&S®AFQ100B

Max. waveform length (data and markers)

Amplitude resolution of data words

System bandwidth (RF) of the R&S®AFQ100A

System bandwidth (RF) of the R&S®AFQ100B

1 kHz to 300 MHz

1 kHz to 300 MHz (mode 1)

600 MHz (mode 2)

256 Msample/512 Msample/1 Gsample

16 bit analog and digital

200 MHz

200 MHz (mode 1)

528 MHz (mode 2)

Signal output

Number of outputs

Resolution

Output (unbalanced)

Level range

Frequency response

Output (balanced) of the R&S®AFQ100A

Level range

Frequency response

1 (I and Q)

14 bit

1 V (V pp

)

0 V to 1.5 V (V pp

)

±0.1 dB up to 100 MHz

2 V (V pp

)

0 V to 3 V (V pp

)

±0.1 dB up to 100 MHz

Output (balanced) of the R&S®AFQ100B

Level range

Frequency response

Spurious-free dynamic range of the R&S®AFQ100A

1 V (V pp

)

0 V to 1.4 V (V pp

)

±2.5 dB up to 264 MHz typ. 83 dBc typ. 78 dBc Spurious-free dynamic range of the R&S®AFQ100B

Digital outputs

Port 1

Port 2 multiplexed I/Q data stream, compatible with other Rohde & Schwarz equipment parallel I/Q interface

Supported standards and digital systems (with R&S®WinIQSIM2™)

R&S®AFQ100A/R&S®AFQ100B, depending on options

R&S®AFQ100B, depending on options

3GPP LTE FDD/TDD incl. Rel. 9 and Rel. 10, 3GPP FDD/HSPA/HSPA+, TD-SCDMA,

GSM/EDGE/EDGE Evolution, cdmaOne, CDMA2000®, 1xEV-DO, TETRA Release 2,

IEEE 802.11a/b/g/n/ac, WiMAX™, Bluetooth®, user-defined multicarrier CW, AWGN,

GPS, DVB-H/DVB-T, DAB/T-DMB, XM Radio™, Sirius, HD Radio™

ECMA-368/IEEE 802.15.3a (UWB)

70 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®EX-IQ-BOX Digital Signal Interface

Module

Signal Generators

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Two breakout boards included (single-ended, differential connectors) for connection of the DUT

Easy interface configuration via enclosed

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R&S®DigIConf software

Transient recorder in R&S®DigIConf for visual control of generated digital signals (I/Q diagram, vector diagram,

CCDF, spectrum)

Digital I/Q interface adapter for Rohde & Schwarz

signal generators, analyzers and communications testers

The R&S®EX-IQ-BOX is a digital signal interface module that provides flexible digital baseband inputs or outputs for Rohde & Schwarz signal generators, signal analyzers and communications testers. Its main application field is the conversion of digital I/Q signals of Rohde & Schwarz instruments into user-defined or standardized digital signal formats, and vice versa. The device under test (DUT) is connected via adapter boards (= breakout boards) that are plugged directly into the R&S®EX-IQ-BOX.

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J

Conversion of digital I/Q signals to and from the DUT

Flexible user-defined digital I/Q interface settings

(I/Q format, bit alignment, clock rate, logic levels, etc.)

CPRI™ digital interface protocol

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Test of CPRI™ radio equipment (RE) and/or

J

J

J

J

J

J radio equipment control (REC)

Predefined interface settings

Line bit rates of 1228.8 Mbit/s (= 2x), 2457.6 Mbit/s

(= 4x) and 3072.0 Mbit/s (= 5x)

Flexible or packed antenna-carrier (AxC) allocation

Antenna-carrier (AxC) grouping

Easy interface configuration via R&S®DiglConf software

Direct waveform playback from 64 Msample

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J

J

R&S®EX-IQ-BOX waveform memory (optional)

Multiwaveform playback for output of up to

4 waveforms (optional)

Recording memory (512 Mbyte) for capturing I/Q data that is received via the CPRI™ link (optional)

Support of R&S®WinIQSIM2™ waveform creation

software

5

Specifications in brief

User-defined digital interface protocol

I/Q format

Sample rate

Word size

Logic level

Max. clock rate

CPRI™ digital interface protocol (optional)

Simulation mode

Link direction

Supported mobile standards

I/Q payload input

I/Q payload output

Control and management

Visualization

CPRI™ specific breakout board parallel, serial

1 kHz to 100 MHz

4 bit to 18 bit (depending on Rohde & Schwarz instrument)

LVTTL, CMOS, LVDS

100 MHz (parallel)/400 MHz (serial)

REC (to test RE), RE (to test REC) uplink, downlink, full-duplex

3GPP FDD (incl. HSDPA, HSUPA, HSPA+), 3GPP LTE FDD/TDD incl.

Rel. 9, CDMA2000 ®, WiMAX™ realtime via attached instrument, PN16 or 20 bit pattern via internal test generator, internal waveform memory (optional) one selectable I/Q signal inside received CPRI™ frame in realtime via

attached instrument, internal recording memory (optional) fast C & M (Ethernet), slow C & M (HDLC), vendor-specific data graphical display of CPRI™ basic frame configuration support of SFP modules for optical link, SMA connectors for monitoring or supply of RX input signal

More information | www.rohde-schwarz.com 71

Signal Generators

Application- specific solutions

The tables provide an overview of the digital modulation systems supported by Rohde & Schwarz signal generators and show the wide range of applications covered.

Digital modulation systems for Rohde & Schwarz signal generators (internal signal generation)

Option

R&S®SMx

R&S®AMU

R&S®AFQ

R&S®EXBOX

-K58

-K59

-K60

-K61

-K65

-K66

-K68

-K51

-K52

-K53

-K54

-K55

-K56

-K57

-K40

-K41

-K42

-K43

-K44

-K45

-K46

-K47

-K48

-K49

-K50

-K69

-K81

-K84

-K85

-K86

-K91

-K92

-K93

-K94

1)

Functionality is instrument-specific.

GSM/EDGE

EDGE Evolution (incl. VAMOS)

3GPP FDD

1)

3GPP enhanced BS/MS tests incl. HSDPA 1)

GPS 1)

3GPP FDD HSUPA

CDMA2000®

1xEV-DO Rev. A

IEEE 802.11a/b/g

IEEE 802.16

TD-SCDMA

1)

TD-SCDMA enhanced BS/MS tests 1)

DVB-H/DVB-T

DAB/T-DMB

IEEE 802.11n

EUTRA/LTE

XM Radio™

FM Stereo/RDS

Sirius

HSPA+

Bluetooth® (incl. EDR, low energy)

Multicarrier CW

Assisted GPS

Galileo

TETRA Release 2

LTE closed-loop BS test

LTE log file generation

LTE Release 9 + enhanced features

LTE Release 10/LTE-Advanced

IEEE 802.11ac

GNSS extension to 12 satellites

GNSS enhanced

GPS P code

GLONASS

Page

80

80

82

83

76

82

75

83

83

79

83

83

81

78

81

81

79

76

80

76

78

77

77

76

81

80

80

80

75

75

75

75

80

72 Rohde & Schwarz Test & Measurement | Catalog 2012

Digital modulation systems for Rohde & Schwarz signal generators (R&S®WinIQSIM2™)

Option

R&S®SMx

R&S®AMU

R&S®AFQ

R&S®EXBOX

-K259

-K260

-K261

-K264

-K266

-K268

-K284

-K285

-K249

-K250

-K251

-K252

-K253

-K254

-K255

-K286

-K294

-K240

-K241

-K242

-K243

-K244

-K245

-K246

-K247

-K248

GSM/EDGE

EDGE Evolution (incl. VAMOS)

3GPP FDD

3GPP enhanced BS/MS tests incl. HSDPA

GPS

3)

3GPP FDD HSUPA

CDMA2000®

1xEV-DO Rev. A

IEEE 802.11a/b/g

IEEE 802.16

TD-SCDMA

TD-SCDMA enhanced BS/MS tests

DVB-H/DVB-T

DAB/T-DMB

IEEE 802.11n

EUTRA/LTE

HSPA+

Bluetooth® (incl. EDR, low energy)

Multicarrier CW

ECMA-368 IEEE 802.15.3a (UWB)

Galileo

3)

TETRA Release 2

LTE Release 9 + enhanced features

LTE Release 10/LTE-Advanced

IEEE 802.11ac

GLONASS 3)

Signal Generators

Page

80

82

75

75

76

82

83

81

75

81

79

79

83

81

80

77

77

78

78

81

76

76

80

76

5

Digital modulation systems for Rohde & Schwarz signal generators (external PC software or waveforms)

Page

Option

R&S®SMx

R&S®AMU

R&S®AFQ

R&S®EXBOX

-K6

-K256

-K352

Pulse sequencer

Playback of XM Radio™ waveforms

Playback of HD Radio™ waveforms

2) Only together with CPRI™ digital interface standard.

3)

One satellite only.

85

83

83

More information | www.rohde-schwarz.com 73

Signal Generators

R&S®SMU/AMU-B14/-B15/-K62/-K71/

-K72/-K74 Channel Simulation Options

Channel simulation options

Fading simulator

Fading simulator extension

AWGN

Dynamic fading and enhanced resolution

Extended statistics functions

MIMO fading

R&S®SMU-B14

R&S®AMU-B14

R&S®SMU-B15

R&S®AMU-B15

R&S®SMU-K62

R&S®AMU-K62

R&S®SMU-K71

R&S®AMU-K71

R&S®SMU-K72

R&S®AMU-K72

R&S®SMU-K74

R&S®AMU-K74

2x2 MIMO signal generation and channel simulation with the

R&S®SMU200A.

Fading and interference simulation with the

R&S®SMU200A/R&S®AMU200A

The realtime fading simulator of the R&S®SMU200A/

R&S®AMU200A is a cost-effective solution for testing the behavior of products under realistic transmission conditions. Both instruments allow simulation of static fading conditions as well as dynamically changing ones. With their dual-path architecture, SISO and MIMO channel simulation can be performed alike. Complex correlation between the fading paths as well as geometric antenna setup definition via angle of arrival/departure is supported.

Together with the AWGN simulation capability, the signal generators are ideal for performance tests in line with all important digital communication standards.

Main fading configuration menu.

MIMO correlation menu.

Specifications in brief

Fading and MIMO

Fading taps

Bandwidth

Delay resolution

MIMO configurations up to 40 up to 80 MHz

10 ns

0.01 ns (with R&S®SMU/AMU-K71) up to 2x2 with one instrument up to 2x4 or 4x2 with two instruments

Correlation (per tap)

Fading profiles

correlation matrix, Kronecker, AoA/AoD

Standard Rayleigh, pure Doppler, Rice, lognormal, static, constant phase

With R&S®SMU/AMU-K71 fine delay, moving delay, birth-death,

2 channel interferer, HST

With R&S®SMU/AMU-K72 Gauss, Gauss DAB, WiMAX™ Doppler,

WiMAX™ Rice

74 Rohde & Schwarz Test & Measurement | Catalog 2012

Specifications in brief

Predefined settings

Standard CDMA2000®, 1xEV-DO, GSM, NADC, PCN,

TETRA, HiperLan/2, WiMAX™ ITU, LTE

With R&S®SMU/AMU-K71 3GPP FDD WCDMA

With R&S®SMU/AMU-K72 WiMAX™ SUI, DAB

With R&S®SMU/AMU-K74 WiMAX™ MIMO, LTE MIMO

AWGN (R&S®SMU/AMU-K62)

C/N

System bandwidth

–30 dB to +30 dB up to 80 MHz

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Signal Generators

R&S®SMx/AMU-K55/-K69/-K81/-K84/-K85

LTE Signal Generation

R&S®SMU/AMU-K81 (together with

R&S®SMx/AMU-K55)

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Output of log files with intermediate results

(bits/ symbols) from the signal generation chain

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Generation of summary log files with LTE signal

description

R&S®SMx/AMU-K55 LTE time plan example (downlink).

LTE receiver and performance testing

The LTE signal generation options allow comprehensive

LTE testing of base stations, mobile devices, modules and components.

R&S®SMx/AMU-K55, general features

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In line with 3GPP LTE Rel. 8

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J

FDD and TDD

Downlink (OFDMA) and uplink (SC-FDMA)

R&S®SMx/AMU-K55 LTE downlink functionality

J

J

PBCH, PDSCH, PDCCH, PCFICH, PHICH

Full MIMO and TX diversity support

J

J

P-SYNC, S-SYNC and DL reference signals

Channel coding and scrambling for PDSCH/PBCH

J

J

Predefined test models

LTE test case wizard (not with R&S®AMU-K55)

R&S®SMx/AMU-K84 (together with

R&S®SMx/AMU-K55)

J

J

In line with 3GPP LTE Rel. 9

MBMS/MBSFN subframes including PMCH

J

J

Downlink positioning reference signals (PRS)

Dual-layer beamforming (TX mode 8)

J

Mapping of logical antenna ports to physical TX antennas

R&S®SMx/AMU-K85 (together with

R&S®SMx/AMU-K55)

J

J

In line with 3GPP LTE Rel. 10/LTE-Advanced

Carrier aggregation

J

J

Enhanced SC-FDMA

PUSCH/PUCCH synchronous transmission

J

J

Clustered PUSCH

PUCCH format 3

J

Generation of CSI reference signals 1)

J

J

Eight-layer transmission (TX mode 9)

1)

UL-MIMO

1)

1) In preparation; please check the Rohde & Schwarz website for availability.

5

LTE signal generation options

LTE Release 8

LTE closed-loop BS test

LTE log file generation

LTE Release 9 + enhanced features

LTE Release 10/LTE-Advanced

R&S®xxx-K55

R&S®xxx-K255

R&S®xxx-K69

R&S®xxx-K81

R&S®xxx-K84

R&S®xxx-K284

R&S®xxx-K85

R&S®xxx-K285

R&S®SMx/AMU-K55 LTE uplink functionality

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PUSCH incl. channel coding, scrambling and

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multiplexing

PUCCH, PRACH

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J

Demodulation and sounding reference signals

PUSCH frequency hopping type 1 and type 2

J

Group and sequence hopping

For supported instruments, see page 72/73.

R&S®SMU/SMJ/SMATE/AMU-K69 (together with

R&S®SMx/AMU-K55)

J

Support of uplink closed-loop base station tests in line with 3GPP TS 36.141

J

Realtime processing of feedback commands for HARQ feedback, timing adjustment and timing advance

More information | www.rohde-schwarz.com 75

09.11.2011 17:23:25

Signal Generators

R&S®SMx/AMU-K42/-K43/-K45/-K59

3GPP FDD/HSPA/HSPA+

The R&S®SMx/AMU-K59 HSPA+ option supports higherorder modulation (64QAM) for higher data rates, multiple input multiple output (MIMO) for higher data throughput in the downlink, and continuous packet connectivity (CPC) for reduction of latency and control information overhead.

3GPP signal generation options

3GPP FDD

3GPP FDD enhanced BS/MS tests incl.

HSDPA

3GPP FDD HSUPA

HSPA+

R&S®xxx-K42

R&S®xxx-K242

R&S®xxx-K43

R&S®xxx-K243

R&S®xxx-K45

R&S®xxx-K245

R&S®xxx-K59

R&S®xxx-K259

For supported instruments, see page 72/73.

Example of 3GPP code domain display (downlink, test model 6).

3GPP signal generation

These options provide signal generation capabilities according to 3GPP FDD Release 9, including HSDPA, HSUPA and HSPA+.

The R&S®SMx/AMU-K42 option combines realtime operation and arbitrary waveform mode for realtime generation of the P-CCPCH and up to three DPCHs in the downlink, for example. In the uplink, one UE can be simulated in realtime; up to 128 UEs can be simulated via the ARB and added to the realtime signal.

The R&S®SMx/AMU-K43 option extends the R&S®SMx/

AMU-K42 option to full HSDPA support and dynamic power control. It allows the simulation of HS-SCCH (high speed shared control channel) and HS-PDSCH (high speed physical downlink shared channel) in the downlink in line with TS 25.211. Generation of HSDPA H-sets is also supported. In addition, it is possible to simulate a HS-DPCCH

(high speed dedicated physical control channel) in realtime operation (UE1) and arbitrary waveform mode (UE2 to

UE4).

The R&S®SMx/AMU-K45 option can generate all HSUPA physical channels. In the uplink, it supports simulation of one E-DPCCH and up to four E-DPDCHs with channel

coding.

76 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®SMx/AMU-K40/-K41

GSM/EDGE/EDGE Evolution

Signal Generators

GSM/EDGE signal generation

With the R&S®SMx/AMU-K40 option, GSM/EDGE signals can be generated in realtime, whereas the type of modulation can be changed from slot to slot. In addition, eight different power levels can be defined for the timeslots.

All necessary burst types (e.g. Normal (full and half rate),

EDGE, Synchronization, Access) are supported.

The R&S®SMx/AMU-K41 option adds EDGE Evolution and

VAMOS features such as:

J

J

J

J

J

Higher symbol rate (325 kHz)

Higher-order modulation types: 16QAM, 32QAM

Mixed frames with GSM, EDGE and EGPRS2 slots in one frame (with same symbol rate per frame)

“Framed double” sequence mode for generation of

realistic test scenarios with changing frame content

Adaptive QPSK (AQPSK) modulation scheme

5

GSM/EDGE signal generation options

GSM/EDGE R&S®xxx-K40

R&S®xxx-K240

EDGE Evolution R&S®xxx-K41

R&S®xxx-K241

For supported instruments, see page 72/73.

Main GSM/EDGE signal configuration menu.

More information | www.rohde-schwarz.com 77

Signal Generators

R&S®SMx/AMU-K46/-K47

CDMA2000® incl. 1xEV-DV and 1xEV-DO

Start screen including basic settings for CDMA2000®.

CDMA2000®, 1xEV-DV and 1xEV-DO signal

generation

The R&S®SMx/AMU-K46 option generates signals for

CDMA2000®, the North American standard for the third mobile radio generation including IS-95 as a subset. Even signals for 1xEV-DV can be generated using

R&S®SMx/AMU-K46.

R&S®SMx/AMU-K46 option for generating

CDMA2000® signals

J

Configuration of up to four base stations or four mobile stations

J

All special channels and up to 78 channels in the

downlink (depending on radio configuration)

J

J

Packet channel in line with 1xEV-DV in the downlink

Operating modes “Traffic”, “Access”, “Enhanced

J

Access” and “Common Control” in the uplink

Simulation of up to 64 additional mobile stations

J

All channel coding modes included in IS-2000 (Frame

Quality Indicator, Convolutional Encoder, Turbo Encoder,

Symbol Puncture, Interleaver etc.)

R&S®SMx/AMU-K47 option for generating signals for

1xEV-DO (Rev. A)

J

Simulation of up to four users in the downlink and up to

J four terminals in the uplink

Physical layer subtypes 0 and 1 or 2 selectable

J

Downlink data rate selectable through rate index and packet size

J

Matrix for reverse power control (RPC) allowing flexible testing of power control

J

Traffic and access mode in the uplink; automatic setting of different data rates and modulations by selected payload size

CDMA2000® signal generation options

CDMA2000® R&S®xxx-K46

R&S®xxx-K246

1xEV-DO Rev. A R&S®xxx-K47

R&S®xxx-K247

For supported instruments, see page 72/73.

78 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®SMx/AMU-K50/-K51

TD-SCDMA Signal Generation

Main TD-SCDMA configuration menu.

Signal Generators

TD-SCDMA signal generation

The combination of the R&S®SMx/AMU-K50 and

R&S®SMx/AMU-K51 options offers easy, flexible configuration of realtime, fully coded (transport and physical layer)

TD-SCDMA (3GPP TDD LCR) test signals for evaluating components, power amplifiers, digital baseband receiver chips and RF receivers in user equipment and base stations. The TD-SCDMA signal generation is in accordance with 3GPP TDD LCR with a chip rate of 1.28 Mcps (Low

Chip Rate mode) and contains the HSDPA and HSUPA functionality for TD-SCDMA.

R&S®SMx/AMU-K50 TD-SCDMA functionality

J

Simulation of up to four TD-SCDMA cells with variable

J switching point of uplink and downlink

User-configurable channel table for each slot and

J

simulation of downlink and uplink pilot timeslot

PRACH can be generated in the uplink

5

R&S®SMx/AMU-K51 TD-SCDMA enhanced

functionality

J

Enhancing R&S®SMx/AMU-K50 to support full channel coding in fixed coding schemes and user-defined coding

J schemes, HSDPA and HSUPA

Simulation of up to four TD-SCDMA cells with generation

J

J of the coded P-CCPCH (BCH with running SFN) in the downlink

Fixed reference measurement channels RMC 12.2 kbps up to RMC 384 kbps in both uplink and downlink; user configuration supported

Simulation of HSDPA channels HS-SCCH, HS-PDSCH,

HS-SICH and H-RMC 0.5 Mbps, 1.1 Mbps, 1.6 Mbps,

2.2 Mbps, 2.8 Mbps (QPSK and 16QAM), H-RMC

J

64QAM; user configuration supported

Simulation of HSUPA channels E-DCH FRC from 1 to 4

(QPSK and 16QAM); user configuration supported

TD-SCDMA signal generation options

TD-SCDMA R&S®xxx-K50

R&S®xxx-K250

TD-SCDMA enhanced BS/MS tests R&S®xxx-K51

R&S®xxx-K251

For supported instruments, see page 72/73.

More information | www.rohde-schwarz.com 79

Signal Generators

R&S®SMBV-K44/-K65/-K66/-K91/-K92/

-K93/-K94 GNSS Simulation with GPS

(C/A code and P code), GLONASS and

Galileo

GNSS simulation with GPS, GLONASS and Galileo

Whether in the R & D lab or in production, the global navigation satellite system (GNSS) solution for the

R&S®SMBV100A sets new standards in the field of satellite simulation. It supports all possible scenarios, from simple setups with individual, static satellites all the way to flexible scenarios generated in realtime with up to 12 dynamic

GPS, GLONASS and Galileo satellites.

J

J

J

Support of GPS L1/L2 with C/A code and P code,

GLONASS L1 and Galileo E1, including hybrid

constellations

Simulation of realistic constellations with up to

12  satellites in realtime (no precalculated waveforms)

Flexible scenario generation including moving scenarios

(import of NMEA waypoints), multipath, dynamic power

J

J

J control and atmospheric modeling without the need for additional software tools

Unlimited simulation time with automatic, on-the-fly

exchange of satellites

User mode for full flexibility to select the satellites and to define the navigation data (import of RINEX files)

Support of predefined as well as user-defined

Assisted GPS (A-GPS) test scenarios, including

generation of assistance data

GNSS receiver tests made easy

With the GNSS simulator, the R&S®SMBV100A allows quick and easy characterization of receivers, including

TTFF, location accuracy, reacquisition time and sensitivity.

Start screen with simulation mode selection for the different applications, hybrid setup for selecting the used GNSS and signal parameters as the time and location.

J

J

J

J

J

Flexible scenario generation for easy receiver testing

Faster testing with GNSS signal generation in realtime

Unlimited simulation time with automatic, on-the-fly

exchange of satellites

Receiver testing under real-world conditions

Support of Assisted GPS (A-GPS) test cases

Customized solutions through flexible options

J

J

J

Instrument configuration tailored to customer needs

Ready for other GNSS standards

Ideal for production and R & D

The Real-Time S.P.O.T. (satellites and position online tracker) view is a dynamic display of the current satellite constellation and provides dynamic realtime information about parameters such as HDOP, PDOP, receiver's

location and current simulation time.

80 Rohde & Schwarz Test & Measurement | Catalog 2012

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R&S®SMx/AMU-K48/-K54/-K86

IEEE 802.11a/b/g/n/ac

Signal Generators

The R&S®SMx/AMU-K54 option makes it possible to generate signals in line with the IEEE 802.11n wireless LAN standard. Channel bandwidths of 20 MHz and 40 MHz are supported. The high throughput (HT) mode allows high data rate 802.11n signals to be generated. Furthermore, this option includes MIMO capabilities (generation of one to four spatial streams; one to four TX antennas).

IEEE 802.11n/ac PPDU configuration menu.

WLAN signal generation

The R&S®SMx/AMU-K48 option allows the generation of signals in line with the IEEE 802.11a, b and g wireless LAN standards.

R&S®SMx/AMU-K86 (together with

R&S®SMx/AMU-K54) for IEEE 802.11ac

J

Support of all mandatory physical layer modes

J

Very high throughput (VHT) frames with 20 MHz,

40 MHz, 80 MHz and 160 MHz transmission bandwidth

J

J

VHT preambles and signal fields

Frame block sequencer for alternating legacy (11a/b/g),

11n or 11ac frames within one ARB waveform

J

J

MIMO modes with 4 transmit antennas

BPSK, QPSK, 16QAM, 64QAM and 256QAM modulation

WLAN signal generation options

IEEE 802.11a/b/g

IEEE 802.11n

IEEE 802.11ac

R&S®xxx-K48

R&S®xxx-K248

R&S®xxx-K54

R&S®xxx-K254

R&S®xxx-K86

R&S®xxx-K286

5

For supported instruments, see page 72/73.

R&S®SMx/AMU-K49

WiMAX™ Signal Generation

The signal generator graphically displays the configured WiMAX™ signal. The time plan shows the different WiMAX™ zones, segments and burst types.

WiMAX™ signal generation

The R&S®SMx/AMU-K49 option allows convenient generation of OFDM and OFDMA signals in line with WiMAX™

IEEE 802.16 Rev. 2 (incl. WiBro) as well as WiMAX™

IEEE 802.16-2004 and IEEE 802.16e-2005 standards. It covers uplink and downlink as well as SISO and MIMO signal generation.

J

J

Full CC and CTC channel coding

FCH, DL-MAP and UL-MAP, either automatic or

J user-defined

DCD, UCD, sub-maps

J

J

HARQ, ranging and fast feedback bursts

Optional generic MAC headers and CRC for each burst

J

J

Predefined frames for receiver tests

Subchannelization modes

J

Space time coding for up to four antennas (matrix A, B, C, collaborative spatial multiplexing, CSTD)

J

Multiple zones and segments

WiMAX™ signal generation options

IEEE 802.16

R&S®xxx-K49

R&S®xxx-K249

For supported instruments, see page 72/73.

More information | www.rohde-schwarz.com 81

09.11.2011 17:23:26

Signal Generators

R&S®SMx/AMU-K60

Bluetooth® V 4.0 and EDR

Main Bluetooth® signal configuration menu.

R&S®SMx/AMU-K68

TETRA Release 2 Signal Generation

Bluetooth® V 4.0 and EDR signal generation

The R&S®SMx/AMU-K60 option enables Rohde & Schwarz signal generators to generate Bluetooth® signals in line with version 4.0 including EDR and Bluetooth® low energy.

The solution allows straightforward testing of Bluetooth® receivers and chipsets. Standard-compliant packets as well as packets with user-defined content – e.g. for

intensive R & D tests – can easily be generated.

J

J

J

J

J

J

J

Bluetooth® 4.0, basic rate + EDR

Bluetooth® low energy

ACL+EDR, SCO and eSCO+EDR transport modes

Support of all packet types

Up to 5238 frames (depending on signal generator)

Intuitive packed editor

Optional data whitening

J

J

J

Support of dirty transmitter test

Power ramp control including ramp time, rise and fall

offset

Setting of clipping, filter and modulation parameters

Bluetooth® signal generation options

Bluetooth® V 4.0 and EDR R&S®xxx-K60

R&S®xxx-K260

TETRA Release 2 digital standard

J

In line with ETSI EN 300 392-2 digital standard (V3.2.1)

J and TETRA conformance testing specification

ETSI EN 300 394-1 (V3.1.1)

Link direction: downlink and uplink (not for T3)

J

J

J

J

J

J

T1 downlink channels 0, 1, 2, 3, 4, 21, 22, 24

T1 uplink channels 7, 8, 9, 10, 11, 21, 23, 24

T2 TETRA interferer phase modulation, QAM

T3 CW interferer

T4 downlink channel 27

T4 uplink channels 25, 26

TETRA signal generation options

TETRA Release 2 R&S®xxx-K68

R&S®xxx-K268

For supported instruments, see page 72/73.

TETRA Release 2 main menu.

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R&S®SMx/AMU-K52/-K53/-K56/-K57/

-K58/-K256/-K352

DVB-H/DVB-T, DAB/T-DMB, XM Radio™,

FM Stereo/RDS, Sirius, HD Radio™

Signal Generators

Signal generation options for radio and video

standards

J

Testing mobile communications standards (such as

J

J

J

WCDMA 3GPP FDD, TD-SCDMA, GSM/EDGE) and video standards with only one signal generator

Realtime signal generation for the XM Radio™ and Sirius standards

Solution tested and approved by Sirius for software

testing as well as for manufacturing

R&S®SMx/AMU-K352 option for playback of all test

J

vectors as given by iBiquity (iBiquity license required)

Realtime generation of FM stereo signals; closed-loop testing with R&S®UPV or R&S®UPP audio analyzers

possible

Signal generation options for radio/video standards

DVB-H/DVB-T R&S®xxx-K52

R&S®xxx-K252

DAB/T-DMB

XM Radio™

FM stereo

Sirius

HD Radio™ test waveforms

(iBiquity license required; HD Radio™ is a trademark of iBiquity Digital Corp.)

R&S®xxx-K53

R&S®xxx-K253

R&S®xxx-K56

R&S®xxx-K256

R&S®xxx-K57

R&S®xxx-K58

R&S®xxx-K352

For supported instruments, see page 72/73.

5

Sirius main menu

More information | www.rohde-schwarz.com 83

Signal Generators

R&S®WinIQSIM2™ Simulation Software

Large variety of digital standards

J

J

J

J

J

J

J

EUTRA/LTE

GSM/EDGE, EDGE Evolution, VAMOS

3GPP FDD with HSDPA, HSUPA and HSPA+

CDMA2000® with 1xEV-DV

1xEV-DO Release A

TD-SCDMA

IEEE 802.11(a/b/g/n/ac) WLAN

J

J

J

J

J

IEEE 802.16 WiMAX™ supporting OFDM and OFDMA

DVB-H/DVB-T, DAB/T-DMB

UWB (ECMA-368)

Bluetooth®

TETRA, TETRA Release 2

Ideal for the generation of digitally modulated

signals

R&S®WinIQSIM2™ was especially developed for the generation of digitally modulated signals. Complex signals can easily be generated. The graphical user interface allows intuitive operation, supported by context-sensitive help.

The convenient way of creating any standard-conforming waveform with all the included standards and the generation of multicarrier signals and multisegment waveforms make R&S®WinIQSIM2™ suitable for a wide range of

applications.

Additional systems in R&S®WinIQSIM2™

J

Custom digital waveforms for generating user-definable

J

J

J digital signals while offering user-selectable modulation parameters

Multicarrier CW signal generation

Multicarrier generation allowing several digital signals to be combined into one waveform with different frequency offsets

Multisegment waveform function for multiple different

J

J waveforms in an arbitrary waveform generator’s memory, ensuring minimum transition times and seamless

transitions

AWGN generation and addition to the signal

Import function for importing I/Q samples via a server

connection into the R&S®WinIQSIM2™ signal generation chain where filtering can be applied and AWGN can be added

The signals generated with the aid of R&S®WinIQSIM2™ can be output by the R&S®AFQ100A and R&S®AFQ100B arbitrary waveform generators, the R&S®SMU200A,

R&S®SMJ100A and R&S®SMBV100A vector signal generators as well as by the R&S®AMU200A baseband signal generator and fading simulator.

Extended graphics

J

I and Q versus time

J

J

J

J

Absolute value and phase versus time

Vector diagram

Constellation diagram

FFT magnitude showing the spectrum of the signal

J

J

Eye diagram of I and Q

CCDF (complementary cumulative distribution function)

Some standards also work for the R&S®CMW500 wideband radio communication tester and the R&S®CMW270 wireless connectivity tester as well as for the

R&S®EX-IQ-BOX digital signal interface module (together with CPRI™). R&S®WinIQSIM2™ is delivered with these arbitrary waveform generators free of charge; it can also be downloaded from www.rohde-schwarz.com – search term: WinIQSIM2.

Convenient connections

J

J

J

Waveform transmission via GPIB, USB and LAN

Local storing of waveforms on PC; data transmission with USB memory stick

Control of instruments by means of Remote Desktop

J connection via LAN

Remote control of R&S®WinIQSIM2™

84 Rohde & Schwarz Test & Measurement | Catalog 2012

MK_E.indb 84 09.11.2011 17:23:27

R&S®SMx/AMU/AFQ-K6 Pulse Sequencer

Signal Generators

User interface of the pulse sequencer software (FM chirp signal example).

Generation of complex pulsed signals

The pulse sequencer software generates complex pulses and bursts for playback via the waveform memory of the baseband and vector signal generators from

Rohde & Schwarz. This software is a standalone, PC-based application that creates waveform files. The pulse sequencer software is available for free download from the

Rohde & Schwarz website. For uploading waveforms to a

Rohde & Schwarz generator, the R&S®SMx/AMU/AFQ-K6 option must be installed on the instrument.

J

Generation of DFS pulses in line with FCC standard

J

J

J

J

J

Radar signals for receiver tests

RFID signals in line with standard

Intuitive user interface with graphical display of time plan

Modulated pulses possible (with ASK, FSK, BPSK, QPSK,

FM chirp, FM, AM)

User-defined modulation mode via user plug-in (e.g. for

military customers)

J

Graphical display of signal (e.g. I/Q versus time,

spectrum, I/Q density)

More information | www.rohde-schwarz.com 85

5

Network Analyzers

Chapter 6

Network Analyzers

Vector network analysis (VNA) is one of the most essential RF/microwave measurement techniques.

As a leading manufacturer of T & M equipment,

Rohde & Schwarz offers a wide range of high-

performance network analyzers.

Type Designation Frequency range Description Page

Vector network analyzers

R&S®ZNB

R&S®ZNC

R&S®ZVA

R&S®ZVT

R&S®ZVB

Vector Network Analyzer

Vector Network Analyzer

Vector Network Analyzer

9 kHz to 4.5/8.5 GHz

9 kHz to 3 GHz

300 kHz to 8 GHz

10 MHz to 24/40/50/67 GHz

Multiport Vector Network Analyzer 300 kHz to 8 GHz

10 MHz to 20 GHz

Vector Network Analyzer 300 kHz to 4/8 GHz

10 MHz to 14/20 GHz

R&S®ZVL Vector Network Analyzer 9 kHz to 3/6/13.6 GHz

Leading in speed, dynamic range and ease of operation 87

Solid performance on a future-oriented platform 88

High-end VNA with up to four sources for sophisticated measurements up to 67 GHz

Network analysis with up to eight test ports

89

90

High measurement speed with two or four test ports

Cost-efficient compact class (two test ports)

91

92

Converters

R&S®ZVA-Z75/-Z90E/

-Z110/-Z110E/-Z140/

-Z170/-Z220/

-Z325/-Z500

Millimeter-Wave Converters

Accessories for network analysis

R&S®ZVAX24 Extension Unit

R&S®ZV-Z81/-Z82

R&S®ZV-Z5x

Switch Matrix

Automatic Calibration Units

50 GHz to 500 GHz, depending on converter

model

10 MHz to 24 GHz

50 MHz to 24 GHz

300 kHz to 50 GHz

Millimeter-wave measurements in the V, E, W, F, D, G,

J and Y bands – network analysis in frequency ranges from 50 GHz to 500 GHz depending on converter

model

93

R&S®ZCAN

R&S®ZV-WRxx

Calibration Kit

R&S®ZV-Z121/-Z132 Manual Calibration Kits

R&S®ZV-Z2xx Manual Calibration Kits

0 Hz to 3 GHz

Manual Waveguide Calibration Kits 50 GHz up to 500 GHz

0 Hz to 8 GHz/13 GHz

0 Hz to 67 GHz

Measurements on active devices made easy

Two or four VNA ports, up to 16 test ports

Automatic calibration of vector network analyzers (two, four, six, eight ports)

Manual calibration kit (coaxial)

Manual calibration kits (coaxial)

Manual calibration of vector network analyzers

(economy)

Manual calibration of vector network analyzers

(precision)

94

94

95

95

94

95

95

86 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®ZNB Vector Network Analyzer

Network Analyzers

which ensures reliable measurements over several days without having to recalibrate the units.

These short-depth, compact two-port and four-port

analyzers leave plenty of space on the workbench for the measurement application. They feature low operating noise thanks to low power consumption and a sophisticated cooling concept. The low power consumption also reduces operating costs and protects the environment.

Leading in speed, dynamic range and ease of

operation

With frequency ranges of 9 kHz to 4.5 GHz and 9 kHz to

8.5 GHz, the new R&S®ZNB vector network analyzers are primarily targeted at applications in the mobile radio and electronic goods industries. The R&S®ZNB is the right choice when it comes to developing, producing and servicing RF components such as amplifiers, mixers, filters and cables.

The R&S®ZNB vector network analyzers feature a wide dynamic range of up to 140 dB (at 10 Hz IF bandwidth), low trace noise of less than 0.004 dB RMS (at 10 kHz

IF  bandwidth) and high output power of up to +13 dBm, which can be adjusted electronically in a range of more than 95 dB.

The new analyzers combine excellent measurement accuracy with exceptional speed – better than 10 μs per point.

They feature excellent temperature and long-term stability,

J

J

J

J

J

J

J

J

Wide dynamic range of up to 140 dB

Short sweep times of 4 ms for 401 points

High temperature stability of typ. 0.01 dB/°C

Wide power sweep range of 98 dB

Wide range of IF bandwidths from 1 Hz to 10 MHz

Manual and automatic calibration

Large, high-resolution 12.1" screen

Touchscreen user interface

J

Two or four test ports

Models

9 kHz 100 kHz 3 GHz

¸ZNB8, two-port and four-port, with bias-tee

¸ZNB8, two-port and four-port, without bias-tee

¸ZNB4, two-port and four-port, with bias-tee

¸ZNB4, two-port and four-port, without bias-tee

4.5 GHz 8.5 GHz

6

R&S®ZNB phase noise

PH noise

RF atten 0 dB

Top –50 dBc (1 Hz)

–60

1 CLRWR

SMTH 1 %

–70

–80

2 CLRWR

–90

–100

1 kHz 10 kHz

*

A

Typical effective system data of the R&S®ZNB

9 kHz to

100 kHz

100 kHz to

4.5 GHz

4.5 GHz to

8.5 GHz

Directivity 46

Source match

Load match

41

44

Reflection tracking 0.02

Transmission tracking 0.028

45

40

45

0.02

0.018

40

36

40

0.05

0.09

100 kHz

Frequency offset

1 MHz

R&S®ZNB measurement speed

Sweep

401 points, normalized, 800 MHz to 1 GHz, 1 MHz IFBW

Data transfer

201 points, via Rohde & Schwarz RSIB protocol and

1 Gbit/s LAN

Switching between channels

Up to 2001 points

Switching between instrument setups

Up to 2001 points

4 ms typ. 1.0 ms

< 5 ms

< 5 ms

More information | www.rohde-schwarz.com 87

Network Analyzers

R&S®ZNC Vector Network Analyzer

This short-depth, compact two-port analyzer leaves plenty of space on the workbench for the measurement application. It features low operating noise thanks to low power consumption and a sophisticated cooling concept. The low power consumption also reduces operating costs and protects the environment.

J

Frequency range from 9 kHz to 3 GHz

J

J

J

J

J

J

J

J

Dynamic range of up to 130 dB

Short sweep times of 11 ms for 401 points

High temperature stability of typ. 0.01 dB/°C

Wide power sweep range from –50 dBm to +13 dBm

IF bandwidths from 1 Hz to 300 kHz

Manual and automatic calibration

Low trace noise of 0.004 dB RMS at 10 kHz IF bandwidth

Large, high-resolution 12.1" screen

J

Touchscreen user interface

Solid performance on a future-oriented platform

High reliability, outstanding ease of operation, maximum precision and a wide dynamic range – this is what customers expect from a network analyzer. Using state-ofthe-art technology and a user-friendly operating concept,

Rohde & Schwarz has implemented all these features in its

R&S®ZNC vector network analyzer.

Operating in a range from 9 kHz to 3 GHz, the network analyzer is targeted at applications in the mobile radio and electronic goods industries. The R&S®ZNC is the right choice when it comes to developing, producing and servicing RF components such as filters and cables.

The R&S®ZNC has a bidirectional test set for measuring all four S-parameters of active and passive DUTs. Plus, it offers calibration methods suitable for a wide range of T & M environments in development and production. The analyzer features excellent temperature and long-term stability, which ensures reliable measurements over several days without having to recalibrate the unit.

Wide range of analysis functions, e.g. for filter adjustment.

Block diagram of the R&S®ZNC

Typical effective system data of the R&S®ZNC

9 kHz to 100 kHz 100 kHz to 3 GHz

Directivity

Source match

Load match

Reflection tracking

46

41

44

0.02

Transmission tracking 0.028

45

40

45

0.02

0.018

Meas. receiver

Ref. receiver

Meas. receiver

Ref. receiver

Port 2

Port 1

R&S®ZNC measurement speed

Measurement time

201 points, 200 MHz span, 300 kHz measurement bandwidth with 900 MHz center frequency

Measurement time per point

300 kHz measurement bandwidth, CW mode

< 8 ms

< 4 μs

Time for measurement and data transfer

201 points, 800 MHz start frequency, 1 GHz stop frequency,

300 kHz measurement bandwidth typ. 8 ms

Switching between channels

Up to 2001 points

< 5 ms

Switching between instrument setups

Up to 2001 points

< 5 ms

88 Rohde & Schwarz Test & Measurement | Catalog 2012

MK_E.indb 88 09.11.2011 17:23:32

MK_E.indb 89

R&S®ZVA Vector Network Analyzer

High-end VNA with up to four sources for

sophisticated measurements up to 67 GHz

The R&S®ZVA series is an ideal choice for demanding measurements on active and passive components and modules, which require high performance and wide versatility.

All instruments support scalar and vector measurements on mixers and converters (linear and nonlinear) and noise measurements on amplifiers as well as pulsed measurements for aerospace and defense applications. The frequency range of the high-frequency models can be extended to more than 0.3 THz.

J

W

First VNA

With four internal sources up to 67 GHz for fast two-tone measurements on amplifiers and mixers

J

W

W

Up to 67 GHz and generating phase-coherent signals

With IF bandwidths up to 30 MHz for pulsed

measurements on amplifiers and mixers

Phase and group delay measurements of conversion loss

J on mixers with and without LO access

Harmonic, compression, intermodulation and hot S

22 measurements on amplifiers and mixers

J

New method for noise figure definition without noise source

J

Point-in-pulse, average pulse and pulse profile

measurements

J

J

Two internal pulse generators

Internal pulse modulators and combiner by means of the

J

R&S®ZVAX24

Embedding/deembedding for impedance matching using

J virtual networks

True differential measurements to characterize nonlinear

J effects of balanced devices

Versatile calibration techniques: TOSM, TRL/LRL, TOM,

TRM, TNA, UOSM and AutoCal

Network Analyzers

Specifications in brief

Number of test ports 2 or 4

Frequency range

R&S®ZVA8

R&S®ZVA24/40/50/67

300 kHz to 8 GHz

10 MHz to 24/40/50/67 (70) GHz

Measurement time per test point < 3.5 µs

Measurement time, 201 test points 4.7 ms

Data transfer time, 201 test points

Via IEC/IEEE bus

Via VX11 over 100 Mbit/s LAN

Via RSIB over 100 Mbit/s LAN

< 2.9 ms

< 1.3 ms

< 0.7 ms

Switching time

Between channels

Between instrument setups

< 1 ms

< 10 ms

Max. dynamic range at 10 Hz measurement bandwidth

Between test ports

R&S®ZVA8

R&S®ZVA24

R&S®ZVA40

R&S®ZVA50

R&S®ZVA67

With direct receiver access

R&S®ZVA8

130 dB, typ. > 140 dB

130 dB, typ. > 135 dB

130 dB, typ. > 140 dB

130 dB, typ. > 140 dB

125 dB, typ. > 135 dB typ. > 150 dB typ. > 150 dB typ. > 150 dB typ. > 150 dB typ. > 145 dB

R&S®ZVA24

R&S®ZVA40

R&S®ZVA50

R&S®ZVA67

Output power at test port

R&S®ZVA8

R&S®ZVA24

R&S®ZVA40

R&S®ZVA50

R&S®ZVA67

Power sweep range

IF bandwidths

Channels, diagrams, traces

Test points per trace

Operating system

> 13 dBm, typ. 15 dBm

> 13 dBm, typ. 18 dBm

> 13 dBm, typ. 18 dBm

> 13 dBm, typ. 18 dBm

> 13 dBm, typ. 18 dBm

> 40 dB, typ. 50 dB

1 Hz to 30 MHz

> 100

1 to 60001

Windows XP Embedded

6

Switching between setups at the click of a mouse.

More information | www.rohde-schwarz.com 89

09.11.2011 17:23:32

Network Analyzers

R&S®ZVT Multiport Vector Network

Analyzer

Hardware options such as direct generator/receiver access for the individual ports enable versatile test set configuration. Based on this concept, the R&S®ZVT multiport vector network analyzers provide solutions for even the most demanding measurement tasks.

Network analysis with up to eight test ports from 300 kHz to 20 GHz

The R&S®ZVT8 contains up to four internal generators and up to 16 receivers. The R&S®ZVT20 includes up to three internal generators and up to 12 receivers. This unique concept with one generator per two test ports makes the

R&S®ZVT ideal for intermodulation measurements, even on mixers, (true) differential balanced measurements, multireceiver measurements with antennas or high throughput and efficiency in production.

The R&S®ZVT provides all functions of the R&S®ZVA, plus features based on multichannel and multi- receiver capability

J

Arbitrary frequency conversion measurements

J

Multiport measurements, avoiding any time loss due to matrix control

J

Flexible configuration of test ports for balanced and

single-ended measurements

J

J

True differential measurements, coherence mode

Multiple-signal measurements, e.g. intermodulation

measurements on mixers or double-converting DUTs,

requiring only a single unit and extremely short run times

J

Enhanced performance by parallel measurements on

several DUTs

J

Multichannel receiver with simultaneous sampling of channels, e.g. for phase measurements on antenna

J

arrays

Automatic calibration units

J

Point-in-pulse and pulse profile measurements with up to

16 receivers

R&S®ZVT with direct generator/ receiver access

Meas. receiver

Ref. receiver

Generator Bias tee Port 8

Meas. receiver

Ref. receiver

Generator Bias tee

Meas. receiver

Ref. receiver

Generator Bias tee Port 1

Specifications in brief

Number of test ports

1)

Frequency range

R&S®ZVT8

2 to 8

R&S®ZVT20

2 to 6

300 kHz to 8 GHz 10 MHz to 20 GHz

Measurement time (201 points) 5 ms

Data transfer time (201 points)

Via IEC/IEEE bus < 2.9 ms

Via VX11 (100 Mbit/s LAN)

Via RSIB (100 Mbit/s LAN)

Switching time

Between channels

Between instrument setups of up to 2001 points

< 1.3 ms

< 0.7 ms

< 1 ms

< 10 ms

Electronic power sweep range > 50 dB

Dynamic range (at test ports)

Output level

Sensitivity at 10 Hz

measurement bandwidth

120 dB

+13 dBm

–110 dBm

> 40 dB

+10 dBm

–105 dBm

IF bandwidths 1 Hz to 1 MHz

2)

Number of channels and traces > 100

3)

Number of points per trace

Operating system

60001

Windows XP Embedded

1)

Depending on installed options.

2) With options up to 30 MHz.

3)

Limited by available RAM capacity.

90 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®ZVB Vector Network Analyzer

Network Analyzers

High-speed parallel measurements can be performed because the generator signal can be output to multiple test ports simultaneously, plus data can be captured at multiple ports simultaneously and all displayed at the same time. For example, the R&S®ZVB four-port version makes it possible to measure two two-port DUTs simultaneously, which doubles performance.

It is also possible to measure and display the four reflection parameters S

11

to S

44

simultaneously on a four-port

DUT (provided that DUT ports are uncoupled). This reduces measure ment time by a factor of 4 compared with instruments featuring just one generator and a conventional switching technique.

High measurement speed up to 20 GHz with two or four test ports

The R&S®ZVB combines excellent performance with low weight and compact design. Intelligent and user-friendly functions offer maximum ease of operation. They allow the large number of measured quantities involved in multiport and balanced measurements to be handled easily, and also offer a variety of ways to optimize production sequences

– a smart solution that satisfies even the most challenging demands.

J

J

J

Multiport measurements

Balanced measurements

Mixer and harmonics measurements

J

J

J

J

J

J

Response power calibration and power measurements

Filter measurements and adjustments

Measurements on active components

Integrated embedding/deembedding function

Integrated PC with Windows XP for automated

procedures and data management

Optimization of test and production sequences

6

Specifications in brief

Frequency range (R&S

®ZVB4/8)

Frequency range (R&S ®ZVB14/20)

Measurement time per point (CW mode, at 500 kHz IF bandwidth)

Measurement time (including any data transfer time)

1)

Data transfer time

Dynamic range (at 10 Hz IF bandwidth)

Inherent noise

Power sweep range 2)

IF bandwidths

Number of measurement points per trace

Number of test ports

Number of measurement and reference receivers

Number of integrated generators

Calibration techniques

Operating system and internal PC

Number of traces, diagrams, independent channels, setups that can be

simultaneously loaded into RAM

300 kHz to 4 GHz/8 GHz

10 MHz to 14 GHz/20 GHz

< 4.5 µs

< 4.5 ms data transfer simultaneous with measurement

> 123 dB

< –110 dBm

–40 dBm to +13 dBm

1 Hz to 500 kHz

1 to 60 001

2 or 4 one measurement and one reference receiver per test port one generator per test port pair

TOSM, UOSM, TRL/LRL, TOM, TRM, TNA, automatic calibration unit

Windows XP

> 100 3) , traces can be assigned to diagrams as required

1)

Specification valid for 201 measurement points, 500 kHz measurement bandwidth, display OFF, ALC OFF, at 5 GHz, narrow span.

2) Power level that can be electronically swept.

3)

Number limited only by internal memory.

More information | www.rohde-schwarz.com 91

Network Analyzers

R&S®ZVL Vector Network Analyzer

The cost-efficient compact class in network analysis

J

Network analyzer, spectrum analyzer and power meter in

J a single box

Digital communications standards

J

Bidirectional test set for displaying all four S-parameters

J

R&S®ZVL3-75: 75 Ω vector network analyzer for TV and

CATV measurements

J

J

Multitrace display for displaying all relevant parameters

Distance-to-fault measurement for detecting cable faults

J

J

Time domain analysis

Operation with mouse or hardkeys/softkeys; convenient user interface with wizards and context menus

J

Undo/Redo softkey for reversing up to six preceding

operating steps

J

USB connector for R&S®NRP-Zxx power sensors for

precise power measurements

J

J

DVI-D connector for external monitor

Internal battery and 12 V DC operation

J

Small, compact, lightweight and portable (< 7 kg)

Specifications in brief

Frequency range

R&S®ZVL3/6/13, specified

R&S®ZVL3/6/13, unspecified

Network analysis

Measurement time

(201 measurement points, full two-port- calibrated)

Data transfer

(201 measurement points)

Dynamic range at 10 Hz

measurement bandwidth

Output power

Measurement bandwidths

Weight (without battery)

Channels, diagrams and traces

Measurement points per trace

Operating system

Spectrum analysis

Resolution bandwidths

Standard

With R&S®FSL-B7 option

Video bandwidths

I/Q demodulation bandwidth

SSB phase noise at 500 MHz

Displayed average noise level

Without preamplifier at 1 GHz

With preamplifier at 1 GHz

TOI

Detectors

Level measurement uncertainty

(95 % confidence level)

9 kHz to 3 GHz/6 GHz/13.6 GHz

5 kHz to 3 GHz/6 GHz/15 GHz

< 75 ms

1.5 ms

(via RSIB over 100 Mbit/s LAN)

> 115 dB, typ. 123 dB

> 0 dBm, typ. +10 dBm

10 Hz to 500 kHz in 1/2/5 steps

< 7 kg (15.43 lb)

> 100

2 to 4001

Windows XP

300 Hz to 10 MHz in 1/3 steps,

20 MHz at zero span

(1 Hz) 10 Hz to 10 MHz in 1/3 steps

10 Hz to 10 MHz

20 MHz typ. –103 dBc (1 Hz),

10 kHz carrier offset

< –140 dBm (1 Hz)

< –156 dBm (1 Hz), typ. –163 dBm

> +5 dBm, typ. +12 dBm

Max/Min Peak, Auto Peak, RMS,

Quasi Peak, Average, Sample

< 0.5 dB

92 Rohde & Schwarz Test & Measurement | Catalog 2012

Multitrace display for faster DUT

characterization.

Network Analyzers

R&S®ZVA-Zxx Millimeter-Wave Converters

Two-port measurements can be performed using a fourport network analyzer and two converters; no external generator is required. When using a two-port network

analyzer, an external generator is needed to supply the

LO signals.

The wide dynamic range is particularly important for highblocking filters, for example, but it also speeds up measurements in general, as it enables the use of wider bandwidths while maintaining the same excellent performance.

Network analysis up to 500 GHz

Featuring a wide dynamic range, the Rohde & Schwarz converters offer high operating convenience and allow fast measurements.

J

J

J

J

J

J

Variable output power

Electronic power control (R&S®ZVA-Z90E,

R&S®ZVA-Z110E)

Automatic parameter setting

Convenient handling

Multiport and true differential measurements

Pulsed measurements

J

J

W

W

Calibration

Applications

On-wafer measurements

True differential measurements

6

Specifications in brief

R&S®ZVA-Z75

Waveguide designation

Electronic Industries Alliance (EIA) WR15

Connector type

Anti-cocking flange

Frequency range

Output power

R&S®ZVA-Z90E

WR12

R&S®ZVA-Z110

WR10

R&S®ZVA-Z110E

WR10

R&S®ZVA-Z140

WR08 precision waveguide flange compatible with UG387/U-M

50 GHz to 75 GHz 60 GHz to 90 GHz 75 GHz to 110 GHz 75 GHz to 110 GHz 90 GHz to 140 GHz at +7 dBm input power from the ¸ZVA/¸ZVT

Output power attenuation

+4 dBm manually adjustable by variable attenuator

+2 dBm electronic power control

+3 dBm manually adjustable by variable attenuator

+1 dBm electronic power control typ. +2 dBm manually adjustable by variable attenuator

Range

Dynamic range

0 dB to 25 dB

> 90 dB, typ. > 110 dB

0 dB to 20 dB

> 90 dB, typ. > 110 dB

0 dB to 25 dB

> 95 dB, typ. > 110 dB

0 dB to 25 dB

> 95 dB, typ. > 110 dB

0 dB to 20 dB

> 85 dB, typ. > 100 dB

R&S®ZVA-Z170 R&S®ZVA-Z220 manually adjustable by variable attenuator

R&S®ZVA-Z325 manually adjustable by variable attenuator

R&S®ZVA-Z500

Waveguide designation

Electronic Industries Alliance (EIA) WR06

Connector type

Anti-cocking flange

Frequency range

Output power

110 GHz to 170 GHz 140 GHz to 220 GHz 220 GHz to 325 GHz 325 GHz to 500 GHz typ. –5 dBm

WR05 typ. –12 dBm

WR03 precision waveguide flange compatible with UG387/U-M at +7 dBm input power from the ¸ZVA/¸ZVT typ. –17 dBm

WR02 typ. –24 dBm

Output power attenuation manually adjustable by variable attenuator manually adjustable by variable attenuator

Range

Dynamic range

0 dB to 25 dB 0 dB to 20 dB 0 dB to 20 dB 0 dB to 20 dB

> 75 dB, typ. > 90 dB > 75 dB, typ. > 90 dB > 60 dB, typ. > 70 dB > 50 dB, typ. > 65 dB

More information | www.rohde-schwarz.com 93

Network Analyzers

Accessories for network analysis

R&S®ZVAX24 Extension Unit

Measurements on active devices made easy

The R&S®ZVAX24 extension unit for the R&S®ZVA simplifies harmonic, intermodulation, high-power and pulsed measurements on active devices such as amplifiers. Depending on the measurement tasks, it can be configured with combiners, 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®ZVA analyzers are being used in a lab, they can share the extension unit. This helps ensure optimum investment utilization.

R&S®ZV-Z81/-Z82 Switch Matrix

Two or four VNA ports, up to 16 test ports

J

Frequency range: 50 MHz to 24 GHz

J

Impedance: 50 Ω

J

Port connector: type K (2.92 mm), female

J

Damage level: +23 dBm

J

Damage DC voltage: 12 V

J

Isolation

W

50 MHz to 8 GHz: > 90 dB

W

8 GHz to 24 GHz: > 80 dB

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Switching time

W

USB: 10 ms, nominal

W

W

LAN: 12 ms, nominal

RS-232-C: 8 ms, nominal

J

Remote control: USB, LAN, RS-232-C

R&S®ZV-WRxx Manual Waveguide Calibration Kits

Designation

J

Calibration kit WR02

J

Calibration kit WR03

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Calibration kit WR05

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Calibration kit WR06

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Calibration kit WR08

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Calibration kit WR10

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Calibration kit WR12

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Calibration kit WR15

Type (models with/without sliding match)

J

R&S®ZV-WR02

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R&S®ZV-WR03

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R&S®ZV-WR05

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R&S®ZV-WR06

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R&S®ZV-WR08

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R&S®ZV-WR10

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R&S®ZV-WR12

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R&S®ZV-WR15

Frequency range

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325 GHz to 500 GHz

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220 GHz to 325 GHz

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140 GHz to 220 GHz

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110 GHz to 170 GHz

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90 GHz to 140 GHz

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75 GHz to 110 GHz

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60 GHz to 90 GHz

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50 GHz to 75 GHz

94 Rohde & Schwarz Test & Measurement | Catalog 2012

Accessories for network analysis

R&S®ZCAN/ZV-Z121/-Z132/-Z2xx Manual Calibration Kits (coaxial)

Type, connector

J

R&S®ZCAN, type N, 75 Ω

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R&S®ZCAN, type N, 50 Ω

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R&S®ZV-Z121, type N, male/female

J

R&S®ZV-Z270, 3.5 mm, male/female

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R&S®ZV-Z132, 3.5 mm, male/female

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R&S®ZV-Z235, 3.5 mm

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R&S®ZV-Z229, 2.92 mm, male/female

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R&S®ZV-Z224, 2.4 mm, male/female

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R&S®ZV-Z218, 1.85 mm, male/female

J

R&S®ZV-Z210, 1 mm, male/female

Network Analyzers

Description

J

TOSM, 3 GHz

J

TOSM, 3 GHz

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Combination, 8 GHz

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TOSM, fixed matches, 18 GHz

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Combination, 13 GHz

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TOSM, fixed matches, 26 GHz

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TOSM, fixed matches, 40 GHz

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TOSM, fixed matches, 50 GHz

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TOSM, fixed matches, 67 GHz

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TOSM, fixed matches, 110 GHz

6

R&S®ZV-Z5x Automatic Calibration Units

Type, connector

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R&S®ZV-Z53, N female

J

R&S®ZV-Z53, N female

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R&S®ZV-Z51, N female

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R&S®ZV-Z58, N female

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R&S®ZV-Z53, 3.5 mm female

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R&S®ZV-Z51, 3.5 mm female

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R&S®ZV-Z52, 3.5 mm female

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R&S®ZV-Z58, 3.5 mm female

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R&S®ZV-Z59, 3.5 mm female

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R&S®ZV-Z54, 2.92 mm female

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R&S®ZV-Z55, 2.4 mm female

Frequency range, ports

J

300 kHz to 3 GHz, 2 ports, 75 Ω

J

300 kHz to 18 GHz, 2 ports, 50 Ω

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300 kHz to 8 GHz, 4 ports

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300 kHz to 8 GHz, 8 ports

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300 kHz to 24 GHz, 2 ports

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300 kHz to 8 GHz, 4 ports

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10 MHz to 24 GHz, 4 ports

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300 kHz to 8 GHz, 8 ports

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10 MHz to 20 GHz, 6 ports

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10 MHz to 40 GHz, 2 ports

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10 MHz to 50 GHz, 2 ports

More information | www.rohde-schwarz.com 95

Drive Test Tools

Chapter 7

Drive Test Tools

The number of mobile networks and new technologies are steadily increasing. Rohde & Schwarz drive test systems are available in various designs that are always tailored to meet your specific needs and

optimize your benefits.

Type Designation Description Page

Hardware

R&S®TSMW

R&S®TSMQ

R&S®TSMU

R&S®TSML

R&S®TSMX-PPS

Universal Radio Network Analyzer

Radio Network Analyzer

Radio Network Analyzer

Radio Network Analyzer

GPS Module

Scanner for drive tests and I/Q streaming

Just one drive test covers all standards

Flexible drive test solution

Technology-specific drive test solution

GPS receiver module with PPS output

Software

R&S®ROMES4 Drive Test Software

R&S®ROMES4NPA Network Problem Analyzer

R&S®ROMES2GO 3GPP Walk Test Solution

Systems

R&S®TS51GA30

R&S®TS9955

R&S®TSMU-Z3

Coverage Suitcase System

High-Performance Drive Test System Drive test platform for accurate and fast coverage measurements in mobile radio

Coverage Backpack

Mobile coverage and QoS measurements in wireless communications

Advanced network problem analysis

QoS assurance made simple

Compact case system for outdoor measurements

and broadcasting networks

Lightweight backpack solution for indoor and outdoor coverage measurements

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102

103

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96 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®TSMW

Universal Radio Network Analyzer

Scanner for drive tests and I/Q streaming

The R&S®TSMW universal radio network analyzer is a high-end platform for optimizing all conventional mobile radio networks. Two highly sensitive frontends for any input frequency from 30 MHz to 6 GHz, a preselection and a software-defined architecture offer unsurpassed perfor-

Drive Test Tools

mance while providing maximum flexibility and operational readiness. In addition to functioning as a scanner for wireless communications networks, the R&S®TSMW is also an ideal digital I/Q baseband receiver for customer-specific applications.

J

J

User-definable input frequency range from 30 MHz to 6 GHz

Two independent RF and signal processing paths, each with a bandwidth of 20 MHz

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J

J

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Integrated preselection for high intermodulation

suppression with wide dynamic range

Support of LTE FDD and TD-LTE measurements together with the R&S®ROMES drive test software

Parallel measurements in GSM, WCDMA, CDMA2000®

1xEV-DO, WiMAX™, TETRA and LTE (FDD and TD-LTE) networks in all bands

I/Q baseband streaming to a state-of-the-art PC or the

J

R&S®IQR I/Q data recorder

Integrated GPS

R&S®TSMx Radio Network Analyzers

Simultaneous or single measurement possible.

Device

R&S®TSML-G

R&S®TSML-W

R&S®TSML-C

R&S®TSML-CW

R&S®TSML-GW

R&S®TSMU

R&S®TSMQ

GSM

WCDMA

Powerful scanner family for mobile applications

The R&S®TSML, R&S®TSMU and R&S®TSMQ form a family of radio network analyzers with scanner functionality. Their compact size and low power consumption make them ideal for mobile applications. Even a fully equipped backpack solution can easily be implemented in order to perform

indoor measurements, for example.

7

When combined with the R&S®ROMES4 drive test software, the scanners provide their full-range functionality

and maximum performance. Interference measurements, automatic neighborhood measurements or fast spectrum measurements can be performed in virtually no time. The software has been designed for multicore CPUs to enable simultaneous multiple measurements.

J

No band limiting – support of all frequencies from

80 MHz to 3 GHz or 6 GHz (R&S ®TSML-CW)

J

J

J

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Decoding of all broadcast information

Small weight and low power consumption

Suitable for GSM, WCDMA, CDMA2000® 1xEV-DO, spectrum, CW

High measurement speed in all technologies

CDMA2000® 1×EV-DO CW

– –

More information | www.rohde-schwarz.com 97

Drive Test Tools

R&S®TSMX-PPS GPS Module

GPS receiver module with PPS output

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SuperSense GPS receiver

Pulses per second (PPS) output

J

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16 channels

4 Hz activation interval

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Compact, light and versatile

High sensitivity

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Suitable for use in buildings

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High accuracy

PPS output

J

Precise synchronization of an R&S®TSMx scanner

Fast update rate

J

Local resolution higher than with conventional

GPS  receivers

Supported instruments

The R&S®TSMX-PPS with PPS pulses can be used in

combination with one of the following instruments:

J

R&S®TSMQ

J

J

R&S®TSML-C

R&S®TSML-G

J

R&S®TSML-W

J

J

R&S®TSML-GW

R&S®TSML-CW

J

R&S®TSMU

98 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®ROMES4 Drive Test Software

Drive Test Tools

Currently, the following technologies are supported:

GSM/EDGE, WCDMA/HSPA+, CDMA2000® 1xEV-DO

Rev. A, WLAN (IEEE 802.11b, g), WiMAX™ (IEEE 802.16e),

TETRA, LTE, DVB-T and DVB-H. Standard-compliant RF level measurements can be time- and route-triggered over a very wide frequency range (9 kHz to 7 GHz).

Mobile coverage and QoS measurements

R&S®ROMES4 is a test platform for mobile measurements in all modern radio networks. In combination with scanners and test mobile phones, it forms a complete system for coverage and quality of service (QoS) measurements.

Besides pure recording and visualization of test parameters, data is processed instantly and statistics are calculated in realtime.

J

One software solution for all technologies:

J

“all under one roof”

Flexible handling of licenses reduces startup costs

J

Parallel measurements with up to 12 mobile phones per software license; this saves time, allowing existing

J

resources to be utilized more effectively: reduction of

operating expenses (OPEX)

Use of highly accurate, fast RF test and measurement equipment (Rohde & Schwarz scanners): many reliable

J measured values and results

Automatic evaluation after completion of measurement

J by means of the integrated replay function or

R&S®ROMES4NPA network problem analyzer, which considerably reduces OPEX

Automatic identification of GSM interferences:

considerable OPEX reduction

J

Unique scanner support for six technologies (GSM,

WCDMA, CDMA2000® 1xEV-DO, WiMAX™, LTE and

TETRA)

7

MK_E.indb 99

More information | www.rohde-schwarz.com 99

09.11.2011 17:23:42

Drive Test Tools

R&S®ROMES4NPA Network Problem

Analyzer

Advanced network problem analysis

The sheer volume of recorded data makes individual and manual analysis of drive test data impossible. The data is therefore analyzed by R&S®ROMES4NPA, which then outputs a list of all detected trouble spots and displays them on a map using Google Maps or OpenStreetMap. Maps loaded earlier are available offline from the hard disk. In addition, R&S®ROMES4NPA indicates the cause of the problem.

The following modules are available:

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J

R&S®ROMES4N11: NQA for GSM/WCDMA/TETRA voice call and problem spot detection. Analysis of voice calls for network problems, which can be selected from more than 140 different problem categories; listing of the

problem spots together with type and cause of problem

R&S®ROMES4N20: data module for EDGE, HSPA+ and

LTE including problem spot detection. Specific analysis of

J high-speed data links for achievable data rates and analysis of possible problems as well as IP data analyzer for analyzing IP-based data traffic and associated problems

R&S®ROMES4N15: coverage module with display of coverage data on a raster map. Coverage data (GSM,

WCDMA, CDMA2000® 1xEV-DO, TETRA, LTE) measured with the Rohde & Schwarz scanners is rasterized and displayed on the map. This makes the generation of

J

coverage plots easy. Likewise, optimizations can be checked by means of a before-and-after comparison

R&S®ROMES4N17: neighborhood analyzer module for automatically allocating neighborhoods to one of the

W

following categories:

(Potentially) missing neighbor: A cell has been

measured with high power level and good quality (both

W

W thresholds can be adjusted), but is not included in the currently defined neighborhood list

Unused neighbor: A cell is configured as neighbor, but has not been detected during measurement

Confirmed neighbor: A cell has been classified as

( potentially) missing neighbor and is included in the neighborhood list

The easy-to-use interface guides the user through the process, from reading in the measured data (from one or more drive tests) and selecting the analysis criteria to retrieving the automatically generated list of trouble spots.

This list can be processed in different ways:

J

Right-clicking a problem automatically opens R&S®ROMES4 and positions the replay of the measurement file just

J ahead of the trouble spot in question so that the user can perform a detailed check if required

Automatic generation of an HTML report that provides a clear overview of the result and that can be printed

J

Export to Excel with customizing of report

The measurement data is analyzed according to specific criteria that depend on the selected modules. In all modules, the analysis criteria can be adapted to user-specific limit values and settings.

Advanced filtering options enable the user to quickly analyze the log files in detail, make comparisons (e.g. different providers in the same area, same provider at different times or weekdays) and draw conclusions.

R&S®ROMES4NPA considerably helps to save time and reduce costs by automatically analyzing the measured data.

Optimizing the results no longer requires time-consuming, manual checking and analysis of data that may not even contain any problems.

Its sophisticated algorithms make R&S®ROMES4NPA a very effective tool for finding the causes of existing problems. More in-depth analyses can be performed at any time.

A large amount of measured data can be automatically processed in minimum time and on an identical basis; reports – for management and for general documentation – are generated without the user having to take action.

100 Rohde & Schwarz Test & Measurement | Catalog 2012

MK_E.indb 100 09.11.2011 17:23:42

R&S®ROMES2GO 3GPP Walk Test Solution

Drive Test Tools

The scanner mode provides a quick overview of network activities. The results are based on the Nokia C5 mobile phone.

QoS assurance made simple

The R&S®ROMES2GO autonomous walk test solution records and stores quality of service (QoS) and performance data in 3GPP mobile radio networks. The measurement results are displayed both alphanumerically and graphically.

All of them, including past error events such as dropped calls, are saved to the memory card in the test mobile phone.

J

J

J

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Autonomous 3GPP walk test solution for indoor and

outdoor applications

Use of indoor floor plans for walk tests

With external (Bluetooth ®) or built-in GPS

Low investment costs (CAPEX); additional control

software for standard test mobile phones

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J

J

J

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Easy operation (measurement ON, measurement OFF)

Available in different languages: German, English,

Spanish, Chinese

Flexible handling of task files (GSM, GPRS, EDGE,

WCDMA, HSDPA, HSUPA and scanning)

Storage of measurement data on the test mobile phone as well as data transmission to an FTP server or via USB

Tooltips inform the user about the most important

J

J

parameters

Measurement files can be downloaded and converted to the *.rscmd R&S®ROMES data format for further

evaluation using the R&S®ROMES replay function

Files can be analyzed by means of compatible planning and analysis programs

7

R&S®TS51GA30 Coverage Suitcase System

Compact case system for outdoor measurements

The R&S®TS51GA30 coverage suitcase system integrates the latest drive test technology in a compact, portable suitcase. Four test mobile phones allow measurements using different standards at the same time so that measurements can be carried out on several networks simultaneously. This solution is ideal for portable coverage measurements and offers maximum flexibility.

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J

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High-end R&S®TSMx radio network analyzer

Up to four mobile phones

Supported mobile phones (Nokia, Qualcomm)

GPS receiver with PPS output

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High-performance notebook with Windows XP and

R&S®ROMES software

Battery buffer for the R&S®TSMx

Ruggedized suitcase with connectors for external

antennas and power supply

More information | www.rohde-schwarz.com 101

Drive Test Tools

R&S®TS9955

High-Performance Drive Test System

Drive test platform for accurate and fast coverage measurements in mobile radio and broadcasting

networks

The R&S®TS9955 provides high-performance measurement data needed for the planning, installation, optimization and quality monitoring of radio networks. This

custom-designed system supports high-precision, fast field strength measurements.

In the appropriate configuration, the drive test system can deliver immediate results from comprehensive realtime interference analysis. Further time-consuming post-processing is not required. This is a unique system design offered only by Rohde & Schwarz.

J

Extremely flexible system concept for perfectly

customized solution

J

Numerous types of high-quality Rohde & Schwarz

receivers available for various applications, including

W

W

W

CW measurements from 9 kHz to 7 GHz

GSM, GPRS, EDGE, WCDMA, CDMA2000® 1xEV-DO,

WiMAX™, LTE, TETRA

EMC

J

Easy means of competitive analysis (benchmarking), e.g. for four or more network operators in one drive

J

Measurements in accordance with the Lee criterion

(distance-triggered)

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Quality of service (QoS) measurement

Interference and pilot pollution analysis

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Realtime handover analysis

Missing neighbor analysis

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Channel impulse response analysis

102 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®TSMU-Z3 Coverage Backpack

Drive Test Tools

Lightweight backpack solution for indoor and outdoor coverage measurements

The R&S®TSMU-Z3 coverage backpack is a compact, lightweight solution for GSM, WCDMA, CDMA2000® 1xEV-DO and CW parameter- and network-specific quality measurements. The R&S®TSMU-Z3 is ideal for portable indoor and outdoor coverage measurements (e.g. in shopping malls, railway stations, airports and pedestrian zones).

J

Up to two mobile phones

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Supported mobile phones (Nokia, Qualcomm)

Portable size: 43 cm × 30 cm × 12 cm

(16.93 in × 11.81 in × 4.72 in)

Backpack > 6 kg (13.2 lb, including battery pack)

Approximately 4 h continuous operation with

battery pack

Spare battery pack

AC charger included

7

More information | www.rohde-schwarz.com 103

EMC and Field Strength Test Solutions

Chapter 8

EMC and Field

Strength Test

Solutions

EMI and EMS test equipment and systems from

Rohde & Schwarz determine the causes and effects of electromagnetic interference. Decades of experience in the field of EMC measurements has made us the world market leader.

Type Designation Description Page

EMI precompliance/compliance

R&S®ESU EMI Test Receiver, 20 Hz to 8/26.5/40 GHz Maximum-precision, standard-compliant EMI measurements at high speed

R&S®ESCI

R&S®ESPI

EMI Test Receiver, 9 kHz to 3/7 GHz

Test Receiver, 9 kHz to 3/7 GHz

For compliance tests meeting all commercial standards

The reference in the EMI precompliance class

R&S®ESL

R&S®TS9975

EMI Test Receiver, 9 kHz to 3/6 GHz

EMI Test System

The EMC expert for every lab bench

Tests in line with commercial, wireless, automotive and MIL standards

EMS measurements

R&S®TS9980 EMS Test System for Audio and Video and TV Monitoring

R&S®TS9982 EMS Test System

EMS measurements on sound and TV broadcast receivers, satellite receivers and

DVB receivers

Radiated and conducted EMS measurements in line with commercial, wireless,

automotive and MIL standards

EMF measurements

R&S®TS-EMF

R&S®EMF-M

Portable EMF Measurement System

EMF Monitor Station

EMC software

R&S®ES-SCAN EMI Measurement Software

R&S®EMC32 EMC Measurement Software Platform

Simple, frequency-selective measurement of EMF emissions

Autonomous test station for automated EMF long-term measurements

User-friendly software for EMI measurements

For use in development, for compliance and batch testing

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112

113

114

115

116

117

118

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104 Rohde & Schwarz Test & Measurement | Catalog 2012

EMC and Field Strength Test Solutions 

Type Designation

Broadband amplifiers

R&S®BBA100 Broadband Amplifier

RF test chamber

R&S®R-Line Compact Test Chamber

EMC accessories

Disturbance voltage measurements

R&S®ENV216/4200, R&S®ESH2-Z5, R&S®ESH3-Z6

R&S®ENY21/ENY41/ENY81, R&S®ENY81-CA6

R&S®EZ-12, R&S®EZ-25

R&S®ESH2-Z2/-Z3, R&S®ESH2-Z31, R&S®ESH3-Z2

Disturbance current measurements

R&S®EZ-17, R&S®ESV-Z1

Disturbance power measurements

R&S®EZ-24, R&S®MDS-21

Field strength measurements

R&S®HZ-10, R&S®HZ-14/-15/-16

R&S®HFH2-Z2, R&S®HFH2-Z6, R&S®HZ-9

R&S®HL033/HL040/HL046(E)/HL050/HL223

R&S®HM020, R&S®HK5000

R&S®HK116, R&S®HF907, R&S®HL562,

R&S®HE202/HE302

Description

Family of modular, flexible, state-of-the-art broadband amplifiers

Measurement accuracy as high as that of an anechoic chamber

Page

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V-networks for EMC measurements on power supply networks

Coupling networks for EMC measurements on telecommunications ports

Antenna impedance converter, 150 kHz highpass filter

Voltage probes, attenuator, pulse limiter

Current probes for disturbance current measurements on cables

Absorbing clamps for EMC measurements on cables

Pickup coil, E and H near-field probe sets

Loop antenna, rod antenna, power supply

Log-periodic antennas

Triple-loop antenna, EMS broadband dipole

Biconical antenna, double-ridged waveguide horn antenna, ULTRALOG, active receiving dipoles

More information | www.rohde-schwarz.com 105

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8

EMC and Field Strength Test Solutions

Introduction

EMC = EMI + EMS

Electromagnetic compatibility (EMC) is the capability of an electrical device or system to operate in its electromagnetic environment without disturbing it or being disturbed by it. EMC is an important criterion of product quality. To ensure EMC of a product in the most economical way, appropriate measures should be taken early in the design phase.

In line with the definition, EMC is subdivided into electromagnetic interference (EMI) and electromagnetic susceptibility (EMS). Legislation prescribes compliance with maximum values for EMI and minimum values for EMS.

The applicable limits, the measurement methods and instruments to be employed are specified in the relevant standards.

Conformity mark

To show their conformity to the EMC requirements prescribed by law, all electrical devices have to be marked accordingly, e.g. by the CE conformity mark required in the entire European Economic Area.

For monitoring the proper functioning of the EUT, suitable monitoring equipment can be provided, which so far has not been defined in the relevant EMC standards. In many cases, highly shielded video cameras with a monitor are used for this purpose.

EMC measurement software

Reproducible EMC measurements are only possible if a number of rules and standards for the measuring instruments used and for the measurement methods adopted are complied with.

For computer-controlled EMC measurements, two differ-

ent software tools are available: The R&S®ES-SCAN EMI diagnostics software is used to quickly and easily col-

lect, evaluate and document RFI voltage, power and field

strength data. The R&S®EMC32 software platform includes

various modules for electromagnetic interference (EMI) and electromagnetic susceptibility (EMS) measurements.

Due to its flexible structure the software can be optimally adapted to the requirements of almost any commercial or military EMC application.

EMI measurements

For measuring electromagnetic disturbance, the disturbance sink, which in the commercial sector is the radio listener or TV viewer, is replaced by the measuring instrument. As a result, all test receivers for commercial EMI measurements should have human-like response built in:

They must have a quasi-peak-weighting detector to show the human perception of disturbance as a measured value.

Disturbance measurements higher than 1 GHz use peak,

CISPR-average and RMS-average weighting.

These tools relieve the user of routine settings and offer every convenience from automatic consideration of frequency-dependent transducer factors of the coupling/ decoupling networks, automatic selection of the applicable limit lines, display of the results in graphical or tabular form through to the generation of test reports. Similar convenience is provided by the automatic EMI test rou-

tines implemented in the test receivers of the R&S®ESU,

R&S®ESCI, R&S®ESPI and R&S®ESL series. They allow fully

automatic time-saving measurements without an external controller, so that very compact test setups can be implemented.

In the military sector, the disturbance sink is assumed to be a technical device that responds to the maximum disturbance level. Therefore, the peak level of disturbance is measured.

Disturbance is emitted by the equipment under test in various ways of coupling. Therefore, the EMC standards contain procedures for coupling the test receiver to the equipment under test, as well as for the environment of the EUT and its operation.

EMC test systems

Planning and implementation of practice-oriented EMC test systems requires a great deal of specialized knowledge and experience. This is what Rohde & Schwarz specialists have. All their expertise goes into turnkey EMC test systems, which are the fastest means for obtaining correct

EMC measurements.

EMS measurements

For measuring electromagnetic susceptibility, the different disturbance sources occurring in practice are replaced by appropriate generators, the interfering signals of which are applied to the EUT via suitable coupling/decoupling networks.

These systems are always tailored to the specific needs of the customer to provide the optimum solution to the tasks at hand. We can offer everything from small systems to complete test houses with shielded anechoic chamber and the required infrastructure, covering all major standards in the commercial, automotive, wireless and military range.

106 Rohde & Schwarz Test & Measurement | Catalog 2012

EMC and Field Strength Test Solutions

EMC standards in the European Economic Area

The number of standards published in the Official Journals are steadily increasing. The different types of standards include generic standards, which can be applied in all cases not covered by specific product or product family standards. The product (family) standards are divided into standards limiting low-frequency and high-frequency emission

(radio disturbance suppression) and standards defining the requirements of immunity to electromagnetic emission.

Besides, there is a series of specific product standards defining EMC requirements.

Generic standards – emission

J

EN 61000-6-3:

Residential, commercial and light industry environment

J

EN 61000-6-4:

Industrial environment

Generic standards – immunity

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EN 61000-6-1: Residential, commercial and light industry environment

J

EN 61000-6-2: Industrial environment

Product family standards and product standards for low-frequency emission

J

EN 61000-3-2:

Limits for harmonic currents up to 16 A

J per phase

EN 61000-3-3: Limits for voltage fluctuations and flicker up to 16 A per phase

J

EN 61000-3-11:

Limits for voltage fluctuations and flicker up to 75 A per phase

J

EN 61000-3-12: Limits for harmonic currents up to 75 A per phase

Product family standards for high-frequency emission

J

EN 55011:

ISM equipment

J

EN 55012: Automotive equipment – protection of

off-board receivers

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EN 55013:

Sound and TV broadcast receivers

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EN 55014-1:

Household appliances and electric tools

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EN 55015:

Lighting equipment

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EN 55022:

Information technology equipment

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EN 55025:

Automotive equipment – protection of

J

on-board receivers

EN 55103-1:

Audio and video equipment for professional use

Product standards for immunity

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EN 55014-2:

Household appliances, tools and similar

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apparatus

EN 61547: Lighting equipment

J

EN 55020:

Sound and TV broadcast receivers

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EN 55024:

Information technology equipment

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EN 55103-2:

Audio and video equipment for professional use

Special standards for signal transmission in low-voltage installations

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EN 50065-1:

Signaling on low-voltage electrical

J

installations, Part 1: General requirements, frequency bands and electromagnetic disturbances

EN 50065-2-x:

Immunity

Product standards containing EMC requirements

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EN 50083-2:

Cabled networks for TV and sound signals

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EN 50090-2-2:

Electronic systems for home and

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buildings

EN 62040-2: Uninterruptible power systems

EN 50130-4: Alarm systems

EN 50148:

Electronic taximeters

EN 60974-10:

Arc welding equipment

EN 50263:

Measuring relays and protection equipment

EN 50270:

Gas sensors

EN 50293:

Road traffic signal systems

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EN 50295, EN 60439-1, EN 60947-x-x:

Low-voltage switchgear and control gear

EN 50370-1, -2: Machine tools

EN 60034-1:

Rotating electrical machines

EN 60204-31:

Sewing machines

EN 62052-x, EN 62053-x, EN 62054-x:

Several AC

watt-hour meters, tariff and load control equipment

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EN 60601-1-2:

Medical electrical equipment

EN 50428, EN 60669-2-x: Switches for household and similar fixed electrical installations

EN 60730-x-x:

Automatic electric controls for household and similar use

EN 60870-2-1:

Telecontrol equipment and systems

EN 60945:

Maritime navigational equipment

EN 61008-1, EN 61009-1, EN 61543:

Residual current

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EN 61037:

Electronic ripple control receivers for tariff and load control

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EN 61204-3: Low-voltage power supplies

EN 61131-2:

Programmable controllers

EN 61326-x:

Electrical equipment for measurement,

control and laboratory use

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EN 61800-3: Adjustable speed electrical power drive

systems

EN 61812-1: Time relays for industrial and residential use

EN 617, EN 618, EN 619, EN 620:

Continuous handling

equipment

EN 12015, EN 12016:

Elevators and escalators

EN 12895:

Industrial trucks

EN 13241:

Doors and gates

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EN 13309:

Construction machinery with internal power supply

EN 14010:

Power driven parking equipment for vehicles

EN ISO 14982:

Agricultural and forestry machines

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EMC and Field Strength Test Solutions

Group of equipment

Standards

Frequency range

From 20 Hz

From 9 kHz

From 30 MHz

Test receivers

R&S®ESU

R&S®ESCI

R&S®ESPI

1)

R&S®ESU

R&S®ESL

1)

R&S®ESCI

R&S®ESPI

R&S®ESU

R&S®ESL

1)

1)

From 1 GHz

From 3 GHz

From 6 GHz

R&S®ESCI

R&S®ESPI

1)

R&S®ESL

1)

R&S®ESU

R&S®ESCI7

R&S®ESL6 1)

R&S®ESPI7

R&S®ESU

R&S®ESU

From 18 GHz to 40 GHz

R&S®ESU40

Accessories and extras

R&S®EZ-17 current probe

R&S®HZ-10 H-field pickup coil

R&S®EZ-17 current probe

R&S®EZ-25 150 kHz highpass

R&S®HZ-10 H-field pickup coil

R&S®HFU-Z tripod

R&S®HFH2-Z2 loop antenna

R&S®HZ-1 tripod

R&S®HFH2-Z6 rod antenna

R&S®ESH2-Z5 V-network

R&S®ESH3-Z6 V-network

R&S®ENV216 V-network

R&S®ENV4200 V-network

R&S®ENY21 coupling network

R&S®ENY41 coupling network

R&S®ENY81 coupling network

R&S®ESH2-Z2 voltage probe

R&S®ESH2-Z3 voltage probe

R&S®EZ-12 antenna imp. converter

R&S®HZ-14 probe set

R&S®HM020 triple-loop antenna

R&S®HZ-3/HZ-4 RF cable

R&S®HZ-9 power supply

R&S®EZ-17 current probe

R&S®ESV-Z1 current probe

R&S®MDS-21 absorbing clamp

R&S®HZ-14 probe set

R&S®HZ-15 probe set

R&S®HK116 biconical antenna

R&S®HL223 log-periodic antenna

R&S®HL562 ULTRALOG antenna

R&S®HZ-1 tripod

R&S®HFU2-Z4/-Z5 RF cable

R&S®HL050, R&S®HF907 antennas

Further antennas on request

R&S®HL050, R&S®HF907 antennas

Further antennas on request

R&S®HL050, R&S®HF907 antennas

Further antennas on request

Accessories

Further antennas on request l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l  l l l l l l l l l  l l  l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l

108 Rohde & Schwarz Test & Measurement | Catalog 2012

EMC and Field Strength Test Solutions

Legend

l Necessary accessory.

l

Recommended extra.

1)

R&S®ESPI and R&S®ESL have limited compliance

with CISPR 16-1-1.

2)

For FCC Part 15 only.

4) VG up to 200 kHz.

5) VG.

6) VG, MIL, MIL-STD-461D, MIL-STD-461E.

7)

VG, DEF-STAN.

8)

MIL-STD-461C.

9)

See R&S®EZ-25.

10)

For MIL-STD-461 only.

l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l

Current probe 5 Hz to 2 MHz/20 Hz to 100 MHz

Shielded, calibrated field pickup coil 5 Hz to 10 MHz

Current probe 20 Hz to 100 MHz l

Passband 150 kHz to 30 MHz

Shielded, calibrated field pickup coil 5 Hz to 10 MHz l

Tripod for R&S®HFH2-Z2 loop antenna

Active loop antenna 9 kHz to 30 MHz

Tripod for R&S®HFH2-Z6 rod antenna

Active rod antenna 9 kHz to 30 MHz

V-network up to 25 A, four-line LISN

V-network up to 150 A (500 A), single-phase LISN

V-network up to 16 A, two-line LISN

V-network up to 200 A, four-line LISN, from 150 kHz l

Two-wire ISN from 150 kHz

Four-wire ISN from 150 kHz

Eight-wire ISN from 150 kHz

Active probe for RFI voltage measurement

Passive probe for RFI voltage measurement

Antenna impedance converter 9 kHz to 30 MHz

Near-field probe set 9 kHz to 1 GHz

Triple-loop antenna 9 kHz to 30 MHz l

Low-loss coaxial cables 3 m/10 m

Power supply for R&S®HFH2-Z1/-Z2/-Z6 active antennas

Current probe 20 Hz to 100 MHz

Current probe 20 Hz to 600 MHz

Absorbing clamp 30 Hz to 1000 MHz

Near-field probe set 9 kHz to 1 GHz

Near-field probe set 30 MHz to 3 GHz

Biconical antenna 30 MHz to 300 MHz

Log-periodic antenna 200 MHz to 1300 MHz

Biconical hybrid antenna 3 MHz to 3 GHz

Tripod for R&S®HK116, R&S®HL223

RF connecting cable 12 m / 7 m, common-mode suppression

Directional antenna 1 GHz to 18 GHz, e.g. log-periodic antenna, or double-ridged waveguide horn antenna l l l l l l

Double-ridged waveguide horn antenna

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EMC and Field Strength Test Solutions

R&S®ESU EMI Test Receiver

Maximum-precision, standard-compliant EMI

measurements at unparalleled measurement speed

The R&S®ESU family of CISPR 16-1-1-compliant EMI test receivers meets all commercial and military standards for electromagnetic interference measurements. The

R&S®ESU-K53 FFT-based time-domain scan option allows users to perform overview measurements up to 1000 times faster than with previous EMI test receivers. The

R&S®ESU also features automatic and interactive measurement functions, parallel IF analysis and up to three detectors in parallel, including the average detector with meter time constant (CISPR-average), the new RMS-average detector and the amplitude probability distribution function

(APD).

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Combination of standard-compliant EMI test receiver and high-end spectrum analyzer

Excellent RF characteristics

Very low measurement uncertainty

Full compliance with CISPR 16-1-1 basic standard

High-speed time-domain scan (FFT) option

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Receiver mode with parallel IF analysis

All commercial and military standards met

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Internal preselection (can be switched off in analyzer

J mode)

Integrated 20 dB preamplifier up to 3.6 GHz as standard

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Wide choice of detectors incl. CISPR-average and

RMS-average

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CISPR- and MIL-STD-compliant measurement

bandwidths

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User-programmable scan tables (max. 10 subranges)

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Frequency scan with max. three detectors in parallel

(max. 2 million test points/trace)

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Second RF input (max. 1 GHz, pulse-protected)

Time-domain analysis for evaluation of timing behavior of

J disturbances (e.g. click-rate analysis)

Fully and partially automatic measurements (preview

J measurement, data reduction, final measurement)

Automatic consideration of coupling devices such as line

J impedance stabilization networks, probes, cables and

antennas using transducer factors and sets

Simultaneous measurement of multiple traces for parallel evaluation

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Continuous bargraph display and marker functions for precise measurements

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Automatic disturbance voltage measurements using

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remote-controllable line impedance stabilization networks

(LISN) from Rohde & Schwarz

Predefined transducer factors

Library of limit lines for commercial standards

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Integrated report generator

Optional low-noise preamplifiers up to 8/26.5/40 GHz

(R&S®ESU-B24)

Specifications in brief

Frequency

Frequency range, RF input 1

Frequency range, RF input 2

Reference frequency

Spectral purity

Preselection

Preamplifier (standard)

Resolution bandwidth

3 dB bandwidths

6 dB bandwidths (EMI)

FFT filters (–3 dB, analyzer mode)

Channel filters

Detectors (receiver mode)

Display range

Intermodulation

Third-order intercept (TOI), without preselection/ preamplifier (< 3.6 GHz)

1 dB compression of input mixer (< 3.6 GHz)

R&S®ESU8 R&S®ESU26 R&S®ESU40

20 Hz to 8 GHz

20 Hz to 1 GHz

20 Hz to 26.5 GHz

20 Hz to 1 GHz aging 1 × 10

–7

/year, optionally 2 × 10

–8

/year (R&S®FSU-B4)

< –128 dBc (1 Hz), typ. –133 dBc (1 Hz) at 10 kHz

20 Hz to 40 GHz

20 Hz to 1 GHz

12 preselection filters from 20 Hz to 3.6 GHz, can be switched off in analyzer mode can be switched between preselection and 1st mixer, 20 dB gain, 1 kHz to 3.6 GHz frequency range

10 Hz to 10 MHz in steps of 1/2/3/5

10/100/200 Hz, 1/9/10/100/120 kHz, 1 MHz

1 Hz to 30 kHz in 1/3 sequence

44 bandwidths, 100 Hz to 5 MHz

Max Peak, Min Peak, RMS, Average, Quasi Peak, CISPR-average, RMS-average

DANL up to +30 dBm

> +17 dBm

+13 dBm, nominal

> +17 dBm > +17 dBm

110 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®ESCI EMI Test Receiver

For compliance tests meeting all commercial

standards from 9 kHz to 3/7 GHz

The R&S®ESCI/ESCI7 EMI test receivers are standard- compliant measuring receivers for EMC certification measurements in line with commercial standards in the frequency range from 9 kHz to 3/7 GHz. The receivers conform to the latest version of the CISPR 16-1-1 basic standard. At the same time, they function as full-featured and powerful spectrum analyzers for lab applications.

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Combination of standard-compliant EMI test receiver and high-quality spectrum analyzer

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Integrated preselection with selectable 20 dB preamplifier

Frequency range from 9 kHz to 3/7 GHz; usable for all

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commercial EMC standards

Effective analysis of the disturbance spectrum through

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simultaneous graphical presentation of the disturbance level and emission spectrum around the receive

frequency (“mixed-mode”)

Time-domain analysis for evaluation of timing behavior of

J disturbances (e.g. click-rate analysis)

Automatic consideration of coupling devices such as line

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J impedance stabilization networks, probes, cables and

antennas using transducer factors and sets

SCAN settings in tabular format (max. 10 subranges)

Simultaneous measurement of multiple traces for parallel evaluation

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Fast, reliable measurements using automatic and

interactive test routines

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Continuous bargraph display and marker functions for precise measurements

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Automatic disturbance voltage measurements using

remote-controllable line impedance stabilization networks

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(LISN) from Rohde & Schwarz

Predefined transducer factors

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Library of limit lines for commercial standards

EMC and Field Strength Test Solutions

Specifications in brief

Frequency

Frequency range

R&S®ESCI

R&S®ESCI7

Frequency resolution

Receiver mode/scan

(per frequency step)

Analyzer mode/sweep time

9 kHz to 3 GHz

9 kHz to 7 GHz

0.01 Hz

Frequency accuracy

Standard 1 × 10

–6

With R&S®FSP-B4 (OCXO) option 1 × 10

–7

External reference frequency

Measurement time

10 MHz selectable from 33 µs to 100 s selectable from 2.5 ms to 16000 s, zero span from 1 µs to 16000 s

Resolution bandwidths

3 dB bandwidths

6 dB bandwidths (EMI)

10 Hz to 3 MHz in steps of 1/3/10

200 Hz, 9 kHz, 120 kHz (–6 dB),

1 MHz (impulse bandwidth)

Video bandwidth (analyzer mode) 1 Hz to 10 MHz in steps of 1/3/10

Preselection can be turned off in analyzer mode

R&S®ESCI

R&S®ESCI7

11 fixed/continuously tunable filters up to 3 GHz

12 fixed/continuously tunable filters up to 7 GHz

Level

Max. RF level (CW), input

attenuation ≥ 10 dB

137 dBµV (= 1 W)

Max. pulse energy, input attenuation ≥ 10 dB

R&S®ESCI

R&S®ESCI7

Max. pulse voltage, input

attenuation ≥ 10 dB, 10 µs

Preamplifier

10 mWs (20 µs)

1 mWs (10 µs)

150 V can be switched on/off, 20 dB gain

Third-order intercept (TOI)

Without preselection/preamplifier

From 200 MHz to 3 GHz

From 3 GHz to 7 GHz

> 7 dBm, typ. 10 dBm

> 10 dBm, typ. 15 dBm

(R&S®ESCI7)

> 2 dBm, typ. 5 dBm With preselection/without preamplifier, from 200 MHz to 3 GHz

1 dB compression, f > 200 MHz,

RF attenuation 0 dB, without

preselection/preamplifier

5 dBm, nominal

Total measurement uncertainty, 95 % confidence level, < 3 GHz

Without preselection/preamplifier 0.5 dB

With preselection/preamplifier

Without preamplifier,

1 MHz, BW = 9 kHz

1.0 dB

Displayed average noise level (DANL),

receiver mode, nominal, 0 dB input attenuation, 50 Ω termination

< –4 dBμV

< 6 dBμV Without preamplifier,

30 MHz to 1 GHz, BW = 120 kHz

With preamplifier,

1 MHz, BW = 9 kHz

< –14 dBμV

With preamplifier,

30 MHz to 1 GHz, BW = 120 kHz

Detectors (receiver mode)

< –4 dBμV

Max/Min Peak, Quasi Peak, RMS,

Average, average with meter time constant (CISPR-average),

RMS-average

Number of measurement points

Analyzer mode

Receiver mode

Frequency domain

Time domain

125 to 8001 (default: 501) max. 1 million max. 1.44 million

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EMC and Field Strength Test Solutions

R&S®ESPI Test Receiver

The reference in the EMI precompliance class

The R&S®ESPI test receivers are especially designed to meet all EMC testing demands during product development and for EMC precertification. Equipped with the

R&S®ESPI-B2 preselector/preamplifier option, all R&S®ESPI models feature an excellent dynamic range and are therefore able to perform precise interference measurements for pulse repetition frequencies ≥ 10 Hz in line with

CISPR 16-1-1.

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Combination of precertification EMI test receiver and high-quality spectrum analyzer

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W

Frequency ranges

R&S®ESPI3: 9 kHz to 3 GHz

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W

R&S®ESPI7: 9 kHz to 7 GHz

Integrated preselection with selectable 20 dB preamplifier

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(R&S®ESPI-B2 option)

Weighting detectors in line with the latest version of

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CISPR 16-1-1 incl. CISPR-average and RMS-average

SCAN settings in tabular format (max. 10 subranges)

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Simultaneous measurement of multiple traces for parallel evaluation

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Fast, reliable measurements using automatic and

interactive test routines

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Continuous bargraph display and marker functions for precise measurements

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Automatic disturbance voltage measurements using

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remote-controllable line impedance stabilization networks

(LISN) from Rohde & Schwarz

Predefined transducer factors

Library of limit lines for commercial standards

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Measurement of the coverage field strength of

communications or broadcast networks at very high

J measurement rates (R&S®ESPI-K50 option)

Additional channel filters with various bandwidths

between 5.6 MHz and 8 MHz matching terrestrial DVB networks including DVB-T2 (R&S®ESPI-K50 option)

Specifications in brief

Frequency

Frequency range

R&S®ESPI3

R&S®ESPI7

Frequency resolution

Frequency accuracy

Standard 1 × 10 –6

With R&S®FSP-B4 (OCXO) option 1 x 10

–7

External reference frequency

Measurement time

10 MHz

Receiver mode/scan

(per frequency step)

Analyzer mode/sweep time selectable from 100 µs to 100 s selectable from 2.5 ms to 16000 s, zero span from 1 µs to 16000 s

Resolution bandwidths

9 kHz to 3 GHz

9 kHz to 7 GHz

0.01 Hz

3 dB bandwidths

6 dB bandwidths (EMI)

10 Hz to 10 MHz in steps of 1/3/10

200 Hz, 9 kHz, 120 kHz (–6 dB),

1 MHz (impulse bandwidth)

1 Hz to 10 MHz in steps of 1/3/10 Video bandwidth, analyzer mode

Preselection (R&S®ESPI-B2 option) can be turned off in analyzer mode,

11 fixed/continuously tunable filters up to 3 GHz

Level

Max. RF level (CW), input

attenuation ≥ 10 dB

137 dBµV (= 1 W)

Max. pulse energy, input

attenuation ≥ 10 dB

Max. pulse voltage, input

attenuation ≥ 10 dB, 10 µs

1 mWs (10 µs)

150 V

Preamplifier (R&S®ESPI-B2 option) can be switched on/off, 20 dB gain up to 3 GHz

Third-order intercept (TOI)

Without preselection/preamplifier

From 200 MHz to 3 GHz > 7 dBm, typ. 10 dBm

From 3 GHz to 7 GHz > 2 dBm, typ. 5 dBm (R&S®ESPI7)

With preselection/without preamplifier

From 200 MHz to 3 GHz > 2 dBm, typ. 5 dBm

1 dB compression, f > 200 MHz,

0 dB RF attenuation, without

preselection/preamplifier

0 dBm, nominal

Total measurement uncertainty, 95 % confidence level, < 3 GHz

Without preselection/preamplifier 0.5 dB

With preselection/preamplifier 1.5 dB

Displayed average noise level (DANL),

receiver mode, nominal, 0 dB input attenuation, 50 Ω termination

< 17 dBμV Without preamplifier,

1 MHz, BW = 9 kHz

Without preamplifier,

30 MHz to 1 GHz, BW = 120 kHz

With preamplifier,

1 MHz, BW = 9 kHz

< 6 dBμV

< 7 dBμV

With preamplifier,

30 MHz to 1 GHz, BW = 120 kHz

Detectors (receiver mode)

< –4 dBμV

Max/Min Peak, Quasi Peak, RMS,

Average, average with meter time constant (CAV), RMS-average

(CRMS)

Number of measurement points

Analyzer mode

Receiver mode

125 to 8001 (default: 501) max. 1 million (frequency domain)

112 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®ESL EMI Test Receiver

EMC and Field Strength Test Solutions

The combination of very good RF characteristics and all of the important functions needed for fast, precise measurement and evaluation of the EMC of a device under test in accordance with commercial standards is unmatched in this instrument class. The diverse analysis capabilities, high measurement speed and time-saving automated test routines make the R&S®ESL the obvious choice for any

development lab that needs to prepare for EMC certification tests.

Compact, cost-effective measuring receiver

The R&S®ESL EMI test receiver combines two instruments in one, measuring EMC disturbances in accordance with the latest standards and also serving as a full-featured spectrum analyzer for diverse lab applications. The

R&S®ESL is designed to meet the needs of cost-conscious users who want to perform diagnostic and precompliance

EMI measurements up to 3 GHz or 6 GHz.

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First-ever combination of an EMI test receiver and

spectrum analyzer in the entry-level class

All major functions of an advanced EMI test receiver,

including fully automated test sequences

Weighting detectors: Min/Max Peak, Average, RMS,

Quasi Peak as well as average with meter time constant

(CISPR-average) and RMS-average

Predefined transducer factors

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Library of limit lines for commercial standards

Compact, lightweight instrument, can be batterypowered for mobile applications

Specifications in brief

Frequency range

Frequency accuracy (standard)

With R&S®FSL-B4 (OCXO)

Measurement time

R&S®ESL3

9 kHz to 3 GHz

1 × 10

1 × 10

–6

–7

R&S®ESL3

9 kHz to 3 GHz

R&S®ESL6

9 kHz to 6 GHz

R&S®ESL6

9 kHz to 6 GHz

Receiver mode/scan (per frequency step)

Analyzer mode/sweep time

Resolution bandwidths

3 dB bandwidths

6 dB bandwidths (EMI)

Video bandwidth, analyzer mode

Level

Max. RF level (input attenuation ≥ 10 dB) selectable from 100 μs to 100 s selectable from 2.5 ms to 16000 s, zero span from 1 μs to 16000 s

10 Hz to 10 MHz in 1/3 sequence

200 Hz, 9 kHz, 120 kHz, 1 MHz (impulse)

1 Hz to 10 MHz in 1/3 sequence

+30 dBm (= 1 W)

Max. pulse energy (10 µs pulse width)

Max. pulse voltage

10 mWs

150 V

Third-order intercept (f ≥ 30 MHz) typ. +18 dBm

1 dB compression (0 dB RF attenuation,

preamplifier = OFF, f > 200 MHz)

+ 5 dBm

Displayed average noise level (0 dB RF attenuation, 50 Ω termination, RBW = 1 kHz, VBW = 1 Hz, Sample detector, log scaling, normalized to 1 Hz,

R&S®FSL-B22 preamplifier option ON)

9 kHz < f < 3 MHz typ. –130 dBm f = 500 MHz typ. –162 dBm f = 3 GHz

Detectors

typ. –158 dBm

Pos/Neg Peak, Auto Peak, Quasi Peak, RMS, Average, sample, average with meter time constant (CISPR-average), RMS-average

Level measurement uncertainty (95 %

confidence level, +20 °C to +30 °C,

S/N >16 dB, 0 dB to –50 dB from reference level)

Tracking generator

Frequency range

Output level

10 MHz < f ≤ 3 GHz: < 0.5 dB

3 GHz < f ≤ 6 GHz: < 0.8 dB no

– yes

1 MHz to 3 GHz

–20 dBm to 0 dBm no

– yes

1 MHz to 6 GHz

–20 dBm to 0 dBm

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EMC and Field Strength Test Solutions

R&S®TS9975 EMI Test System

Covered standards (examples)

This test system covers the main standards for EMI measurements for the different ranges of applications.

Commercial tests

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CISPR 11-22

EN 55011-55022

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VDE 0872-0879

ANSI-C 63.4

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CFR 47 FCC part 15, 18

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3GPP TS 51.010

ETSI EN 301908-1

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ETSI EN 300328-1

Wireless tests

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ETSI EN 301489 for all major technologies

(e.g. CDMA, GSM, UMTS, LTE, WLAN, WiMAX™)

Tests in line with commercial, wireless, automotive and MIL standards

The R&S®TS9975 is the base system for conducted and radiated EMI measurements. Due to its modular design, it covers a wide range of applications and can be very easily adapted to the measurement task at hand. Any configuration is possible – from conducted measurements and a small precompliance system with compact test cell to an accredited test system for complete motor vehicles. Combinations of different applications or incremental expansion can also be implemented without any problem.

Automotive tests

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CISPR 12

CISPR 25

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Customer-specific requirements

MIL tests

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VG 95370-95377

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DEF-STAN 49-41

GAM-EG 13

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MIL-STD-461E/F

Customer-specific requirements

All test systems are controlled by the R&S®EMC32 EMC test software.

R&S®TS9975 block diagram

The test receiver forms the core of the system. It evaluates and displays emissions in line with the relevant standards.

From system design and implementation to installation and training, these turnkey systems and our EMC experts provide everything from a single source, enabling the customer to concentrate on testing. A design only for conducted or radiated measurements is possible.

PC

Communications tester

RF generator

Communications antenna

Mast

Measurement antenna

Filter unit

Anechoic chamber

Receiver

Control unit

DUT

Turntable

Control room Shielded room

LISN

114 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®TS9980 EMS Test System for

Audio and Video and TV Monitoring

EMC and Field Strength Test Solutions

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R&S®TS9980 DVB multistandard

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DVB-C QAM (quadrature amplitude modulation) in line with ETS 300429

DVB-S QPSK (quadrature phase shift keying) in line with

ETS 300421

DVB-T OFDM (orthogonal frequency division multiplex) in line with ETS 300744

ATSC 8VSB (vestigial sideband) in line with

ATSC Doc. A/53

DAB ODFM in line with ETS 300401

MK_E.indb 115

Measuring the electromagnetic susceptibility (EMS) of sound and TV broadcast receivers, satellite

receivers and DVB/DAB receivers

Automatic measurements in line with

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EN 55020:2001

CISPR 20:2002, edition 5

The growth in communications via terrestrial and satellite links and the frequency crowding in cable networks may affect reception quality. Comprehensive EMS tests are used to verify the capability of receivers to operate satisfactorily even under adverse conditions. These tests cover the following measurements:

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Immunity to input interference (S1)

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Immunity to RFI voltages (S2a)

Immunity to RFI currents (S2b)

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Immunity to radiated interference (S3)

Shielding effectiveness (S4)

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Keyed carrier (S5)

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Immunity to radiated RFI for large EUTs (S6)

R&S®T80-K1 system software

The powerful R&S®T80-K1 software package is the basis for automatic control and monitoring of the R&S®TS9980 test system as well as for data collection and analysis.

The effective and economical use of the R&S®TS9980 test

system is only possible through automation.

Since these tests are highly complex and involve a large number of single measurements, they are carried out with automatic test systems. The R&S®TS9980 test system is available in three versions to cater for different products and applications:

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R&S®TS9980 audio

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FM: VHF (mono/stereo)

AM: LF/MF/HF (mono)

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R&S®TS9980 AV multistandard

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PAL: B/G, I, D/K

SECAM: D/K, L/L'

NTSC: M/N

Further benefits

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Improved reproducibility and higher accuracy of

measurement results

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Automatic generation of comprehensive test reports

Permanent system monitoring

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Improved data management through integrated database

Automatic calibration and correction of frequency- dependent parameters

Software options

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R&S®T80-K5 (video upgrade)

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R&S®T80-K6 (audio upgrade)

R&S®T80-K7 (DVB upgrade)

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R&S®T80-K8 (DAB upgrade)

R&S®T80-K13 (S4 option)

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R&S®T80-K14 (S5 option)

R&S®T80-K15 (S6 option)

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09.11.2011 17:23:48

EMC and Field Strength Test Solutions

R&S®TS9982 EMS Test System

Covered standards (examples)

This test system covers all relevant standards for radiated and conducted commercial measurements for the different ranges of applications.

Commercial tests

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IEC/EN 61000-4-3 and -6

IEC/EN 61000-4-20

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EN 61000-6-1

EN 61000-6-2

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CISPR 24/EN 55024

EN 60601-1-2

Wireless tests

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ETSI EN 301489 for all major technologies

(e.g. CDMA, GSM, UMTS, LTE, WLAN, WiMAX™)

Radiated and conducted EMS measurements in line with commercial, wireless, automotive and MIL standards

The R&S®TS9982 is the base system for conducted and radiated EMS measurements. Due to its modular design, it covers a wide range of applications and can be very easily adapted to the measurement task at hand. Any configuration is possible – from conducted measurements and a small precompliance system with compact test cell to an accredited test system for complete motor vehicles with 200 V/m. Combinations of different applications or incremental expansion can also be implemented without any problem. All test systems are controlled by the

R&S®EMC32 EMC test software with its various capabilities such as extensive EUT and system monitoring. From system design and implementation to installation and training, these turnkey systems and our EMC experts provide everything from a single source, enabling the customer to concentrate on testing. A design only for conducted or radiated measurements is possible.

Automotive tests – components

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ISO 11452-2

ISO 11452-3

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ISO 11452-4

ISO 11452-5

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2004/104/EC

Automotive tests – vehicles

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ISO 11451

2004/104/EC

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Customer-specific requirements

MIL tests

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MIL-STD-461E/F

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Customer-specific requirements

Monitoring possibilities with the R&S®EMC32 EMC measurement software

R&S®EMC32

COM

(DCOM)

LAN

(TCP, IP)

Internal

USB

IEC/IEEE bus

RS-232-C

Signal processing

CANoe™ application

Monitoring PC of user

Video monitoring system

TTL I/O converter

Test or stimulation device

Signal conversion

CAN, MOST,

LIN, FlexRay

User-specific

Camera

TTL

EUT

Physical parameters

(V, l, f, T …)

Signal source

116 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®TS-EMF Portable EMF Measurement

System

EMC and Field Strength Test Solutions

Suitable for a wide range of applications

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Investigation of specific problems or radio signals by

directly setting individual measurement parameters

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Additional manual measurements using a full-featured spectrum analyzer

Optional storage of raw measurement data for further

in-depth result evaluation

Precise extrapolation for WCDMA using CPICH

demodulation

Support for LTE measurements by decoding and

frequency-selective procedure

Simple, frequency-selective measurement of

EMF emissions

In combination with Rohde & Schwarz spectrum analyzers, the R&S®TS-EMF measurement system detects high- frequency electromagnetic fields (EMF). The isotropic antenna, together with the software, which has been specifically designed for EMF measurements, allows simple and precise on-site evaluation of total and individual emissions.

Future-oriented

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Coverage of the complete frequency range from 9 kHz to 6 GHz, extendable up to 40 GHz, using additional

antennas

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Measurements of advanced radio services with wide bandwidths and high crest factors

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Automated EMF measurements

Precise measurements of even complex scenarios and

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RF signals

Wide frequency range from 9 kHz to 6 GHz using

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isotropic antennas

Isotropic antenna for detecting fields independent of

direction and polarization

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Combined use possible with various Rohde & Schwarz spectrum analyzers and test receivers

Safety based on exact measurements for

reproducible and reliable results

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Evaluation of total emissions, individual radio services or individual frequencies

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Measurements in line with all common EMF standards and measurement methods

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Correct evaluation even of complex scenarios or

RF signals

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Excellent reproducibility using automated measurements

Efficient on-site measurements

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Fast, simple measurements owing to predefined test

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routines

On-site interpretation of results using integrated report

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Easy adaptation to local conditions

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Versatile use due to the compact one-box solution with the R&S®FSL spectrum analyzer

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EMC and Field Strength Test Solutions

R&S®EMF-M EMF Monitor Station

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Automated EMF long-term measurements

Frequency range from 9 kHz to 3 GHz, optionally 6 GHz

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Accurate and reliable detection of each emission

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Automatic wireless data transmission and remote

configuration via GSM

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Ruggedized design for outdoor use

Easy transport

Main components of the R&S®EMF-M

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Radome with measurement antennas, thermo/hygro

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sensor and GPRS antenna

Protective cover (housing GPS antenna)

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R&S®ESPI test receiver

System controller with measurement software and

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Temperature management with display

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Interface for external monitor for local configuration

Foldable, detachable base

Fully automatic EMF measurement station

Automated EMF long-term measurements expand snapshot measurements associated with risk

communications

Conventional on-site measurements only cover the situation at the moment. Signal weighting is also difficult because some radio signals are only transmitted for a short time and because advanced technologies make use of adaptive power and radiation pattern control.

Such problems are solved by automatically and continuously monitoring typical or critical measurement points, which yields conclusive results. This approach involves standard-compliant monitoring over the entire frequency range, where the individual electromagnetic emissions are allocated to exact frequencies. This solution allows the evaluation of both short-term and long-term fluctuations, e.g. due to new technologies, and provides reliable data for risk communications and research.

As an autonomous test station, the R&S®EMF-M precisely and seamlessly detects electromagnetic emissions in the frequency range from 9 kHz to 3 GHz or 6 GHz specified by many EMF standards.

The wide dynamic range covers both strong and weak signals. The frequency-selective field strength measurement is not dependent on the angle of incidence and polarization and covers everything from analog modulated signals to digital, pulsed wideband or radar signals.

Measurement and signal analysis are controlled by the tried-and-tested R&S®RFEX EMF measurement software.

This software allows the exact detection, allocation and evaluation of electromagnetic emissions. The measurement results are automatically transmitted to a server and

– in Germany, for example – made available to the public via the Internet.

118 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®ES-SCAN EMI Software

EMC and Field Strength Test Solutions

MK_E.indb 119

User-friendly software for EMI measurements

R&S®ES-SCAN is a cost-efficient and user-friendly

Windows software application that has been developed for

Rohde & Schwarz test receivers and spectrum analyzers.

The main requirements of EMI measurements in accordance with commercial standards have been combined in an easy-to-use application: measurement settings and storage, scan data acquisition and display with automatic data reduction, peak search with acceptance limit and selection of subranges, final measurement with worst-case selection, report generation, and measurement data storage.

R&S®ES-SCAN offers all the advantages of a state-of-the-art software tool, including operation via keyboard and mouse, table editor, configurable report generation, and printout of reports on any Windows printer. An assistant supports the user of the R&S®ES-SCAN EMI software at any stage of

operation. Online help texts explain all software functions; an operating manual is therefore not required.

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Menu-controlled configuration of test receivers and spectrum analyzers and storage of settings on controller,

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including limit lines and transducer factors

Reliable acquisition, evaluation and documentation of measurement data

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Graphical display of scan data with automatic data

reduction

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Marker function, including Marker to Peak and Tune

Receiver to Marker Frequency

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Automatic peak search with selectable acceptance limit and selectable subranges

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Editable frequency list for semi-automatic or interactive final measurements

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Fine Tuning function for fast detection of local maxima

Flexible configuration of report generation for different

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For use with the R&S®ESCI, R&S®ESPI and R&S®ESL

EMI test receivers, the R&S®FSP and R&S®FSL spectrum

analyzers, the R&S®FSV signal and spectrum analyzer and the R&S®FSVR real-time spectrum analyzer

More information | www.rohde-schwarz.com 119

09.11.2011 17:23:52

8

EMC and Field Strength Test Solutions

R&S®EMC32 EMC Measurement Software Platform

R&S®EMC32 as virtual instrument: e.g. user interface for manual measurement of disturbance field strength.

For use in development, for compliance and batch testing

The R&S®EMC32 EMC measurement software can be used for all electromagnetic interference (EMI) and electromagnetic susceptibility (EMS) measurements. The software is a modern and powerful tool for controlling and monitoring

Rohde & Schwarz devices as well as third party equipment.

Its comprehensive and modular configuration capabilities and its open software structure ensure reliable collection, evaluation and documentation of measurement results.

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Cost-efficient

Flexible and scalable

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Future-ready

Modular concept allowing flexible adaptation to

customer needs

Predefined hardware setups to support easy generation of test setups

Support of measurements in line with all major standards in the commercial, wireless, automotive and military range

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Manual and automatic EMI and EMS measurements

Fully automatic and interactive sequences

Customer- or EUT-specific data handling

Extensive EUT monitoring capabilities and user-specific actions

Interface to lab management system

User administration for managing different user profiles

120 Rohde & Schwarz Test & Measurement | Catalog 2012

MK_E.indb 120 09.11.2011 17:23:52

Options

R&S®EMC32-EB

Basic EMI measurement software

R&S®EMC32-S

Basic EMS measurement software

R&S®EMC32-K1

EMS measurements in line with automotive

standards and MIL-STD-461

R&S®EMC32-K2

EMC measurements in line with wireless standards

R&S®EMC32-K3

EMS measurements in reverberation chambers

R&S®EMC32-K4

Automatic EMS test sequences

R&S®EMC32-K6

EMS measurements in line with MIL-STD-461E,

CS 103,104,105

R&S®EMC32-K7

Generic driver for generators, power meters and

oscilloscopes

R&S®EMC32-K8

Database interface for lab management system

R&S®EMC32-K10 EMI auto test

R&S®EMC32-K11 Sequencer for EMC measurements

R&S®EMC32-K21 Application interface for customer-specific

RF  measurements

R&S®EMC32-K22 Measurement of antenna characteristic (azimuth chart)

R&S®EMC32-K33 EMI measurements in mode-tuned chambers

( reverberation chambers)

R&S®EMC32-K51 EMI measurement reports in line with

GMW 3091/3097

R&S®EMC32-K56 EMI measurements in line with MIL-STD-461E/F

EMC and Field Strength Test Solutions

Application overview (examples)

Application Standards (examples)

EMS

Standards (examples)

EMI

Industrial and

household products

(commercial)

IEC/EN 61000-4-3, -6 CISPR 11/EN 55011,

CISPR 14-1/EN 55014-1,

ANSI-C 63.4 FCC 15, 18

CISPR 24/EN 55024,

IEC/EN 61000-4-3, -6

CISPR 22/EN 55022,

ANSI-C 63.4 FCC 15, 18

Information technology

(commercial)

Medical devices

(commercial)

Wireless devices

(commercial)

Automotive

Military/avionics

EN 60601-1-2,

EN 60601-2-x

EN 60601-1-2,

CISPR 11/EN 55011

ETSI EN 301498-x,

ETSI EN 300826

ISO 11451, ISO 11452,

SAE J1113, SAE J551,

2004/104 EC reverberation chamber

(mode-tuned)

ETSI EN 301489-x,

3GPP TS 51.010,

ETSI EN 301908-1,

ETSI EN 300328-1,

FCC part 15

2004/104/EC CISPR 12,

SAE J551/2 CISPR 25,

SAE J1113/41 reverberation chamber

(mode-tuned)

MIL-STD-461E/F,

CS 114 and RS 103,

MIL-STD-461E/F,

CS 103, CS 104, CS 105,

RTCA/DO-160,

MIL-STD-464

MIL-STD-461E/F,

CE 101, CE 102, CE 106,

RE 101, RE 102, RE 103,

RTCA/DO-160,

VG 95370-95377,

DEF-STAN 49-41,

GAM-EG 13

Consumer products,

radio/TV receivers

(commercial)

CISPR 13/EN 55013

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More information | www.rohde-schwarz.com 121

EMC and Field Strength Test Solutions

R&S®BBA100 Broadband Amplifier

Due to their modular design, the amplifiers can be tailored to meet specific requirements with regard to output power and frequency range.

Even in its basic version, the 19" base unit (5 HU) includes a powerful system controller that controls the installed

frequency bands (RF paths), switches the associated

components (such as input switch, preamplifier and power amplifier) and monitors the system.

Family of modular, flexible, state-of-the-art

broadband amplifiers

The monitoring and control options allow the setup of very compact EMC systems. The R&S®BBA100 ”grows” with the requirements. The instrument can be upgraded and therefore provides maximum investment protection and readiness for the future.

The user interface (both on the instrument and via web browser) allows efficient operation, and different remote control interfaces make it possible to integrate the amplifier into automated environments and systems. Extension units accommodate additional amplifier units, allowing the R&S®BBA100 to be expanded into a system featuring

higher power and/or additional frequency bands.

The R&S®BBA100 broadband amplifiers are suitable for a variety of applications in EMC environments, communications, research and physical engineering. They are optimally scalable and configurable.

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Frequency ranges from 9 kHz to 1 GHz

Output power up to 500 W

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Tolerant to 100 % mismatch

Suitable for amplitude, frequency, phase and pulse

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modulation, depending on input signal

Software-updatable system controller with versatile

control and configuration options

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19" housing of 5 HU, suitable for rack installation

Wide-range AC power supplies (90 V to 264 V AC)

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Three-year warranty

Specifications in brief

RF specifications

Frequency ranges

Nominal power

Nominal power gain without RF input switch

module

Nominal power gain with RF input switch module

Gain flatness

Gain adjustment range

Spurious

Modulation capability

Input level for nominal output power

Output mismatch tolerance

9 kHz to 250 MHz

80 MHz to 400 MHz

250 MHz to 1 GHz

9 kHz to 250 MHz

9 kHz to 250 MHz instantaneously,

80 MHz to 400 MHz instantaneously,

250 MHz to 1 GHz instantaneously

125/250/500 W

125/250/500 W

70/125 W

54.5/57.5/60.5 dB

80 MHz to 400 MHz

250 MHz to 1 GHz

9 kHz to 250 MHz

80 MHz to 400 MHz

250 MHz to 1 GHz at 1 dB compression and +25 °C at 1 dB compression and temperature range from 0 °C to +45 °C

54.5/57.5/60.5 dB

52.0/54.5 dB

51.0/54.0/57.0 dB

51.0/54.0/57.0 dB

48.5/51.0 dB

< 4.5 dB (or better, see data sheet)

< 5.5 dB (or better, see data sheet)

> 20 dB typ. –80 dBc, max. –70 dBc

AM, FM, φM, PM no multicarrier operation at VSWR > 2:1 and no operation with peak input power of more than 3 dB above nominal input power without RF input switch with RF input switch

–3.5 dBm

0 dBm

100 %

122 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®R-Line Compact Test Chamber

EMC and Field Strength Test Solutions

The SVSWR validation requirements in line with

CISPR 16-1-4:2007 are not only met but even considerably exceeded.

The high measurement accuracy is obtained through an optimized measurement geometry and absorber layout combined with a 3D positioner made of low-permittivity material throughout.

Optimum utilization of resources through

comprehensive, automated test systems

Optimizing radiated spurious emissions and over-the-air

(OTA) performance poses a permanent challenge. These two R&S®R-Line applications are automatically performed by the R&S®AMS32 or R&S®EMC32 test software together with Rohde & Schwarz turnkey test system solutions:

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R&S®TS8991 over-the-air (OTA) performance test system

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R&S®TS8996 radiated spurious emissions (RSE) test

system

Measurement accuracy as high as that of an

anechoic chamber

The R&S®R-Line compact test chamber is used to eliminate emission problems and optimize the overall RF performance of wireless terminals already in the initial phases of product development. This helps to avoid costly and time-consuming modifications to a large number of prototypes at a later stage, optimizing time to market and return on investment.

The R&S®R-Line identifies radiated harmonics and spurious emissions at an early stage – i.e. during development. This avoids complex and costly reengineering during the final conformance tests. As a result, time to market and related costs are reduced.

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The R&S®R-Line compact RF chamber performs measurements in the critical frequency range from 800 MHz to

18 GHz with an accuracy as high as that of an anechoic chamber ten times larger. It easily fits into any R & D lab, which reduces investments for infrastructure and instrumentation.

Specifications in brief

RF specifications/measurement range

Frequency range

Polarization

Field uniformity of site

Communications antenna

Shielding effectiveness

Mechanical data

Dimensions (W × H × D)

Door size (W × H)

Size of EUT (∅ × H)

Weight

Weight of EUT

RF feedthroughs for calibrating or connecting the EUT

Internal 3D positioner.

800 MHz to 18 GHz horizontal and vertical through R&S®HL024A1 crossed log-periodic antenna

VSWR, typ. 2 dB in line with CISPR 16-1-4:2007

800 MHz to 6 GHz, circularly polarized

> 95 dB, 800 MHz to 6 GHz; > 70 dB, 6 GHz to 18 GHz

1700 mm × 2250 mm × 1640 mm (66.93 in × 88.58 in × 64.57 in)

500 mm × 1000 mm (19.68 in × 39.37 in) max. 330 mm × 240 mm (max. 12.99 in × 9.45 in)

562 kg (1239 lb) max. 1 kg (max. 2.2 lb)

2 × N (female), 2 × SMA (female)

More information | www.rohde-schwarz.com 123

EMC and Field Strength Test Solutions

EMC accessories for disturbance voltage/current/power and field strength measurements

EMC accessories for disturbance voltage measurements

R&S®ENV216 Two-Line V-Network

Disturbance voltage measurements on

single-phase EUTs

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Several models for Germany, United Kingdom,

France, China/Australia, USA

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Air-core design and artificial hand

Switch-selectable highpass filter of 150 kHz

Built-in 10 dB attenuator pad

Built-in pulse limiter (can be switched off)

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Remote control with TTL levels (compatible with Rohde & Schwarz EMI test receivers)

Compact, lightweight

Specifications in brief

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Frequency range: 9 kHz to 30 MHz

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Continuous current up to 16 A

(depending on model)

Simulated impedance: (50 μH + 5 Ω) || 50 Ω in line with CISPR 16-1-2 Amd. 2:2006

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V-network in line with CISPR, EN, VDE, ANSI,

FCC Part 15 and MIL-STD-461D, E and F

Calibrated in line with CISPR 16-1-2 and

ANSI C63.4

R&S®ENV4200 200 A Four-Line V-Network

RFI voltage measurements at high currents

The R&S®ENV4200 V-network meets the requirements of CISPR 16-1-2, EN 55016-1-2 and

ANSI C 63.4 for V-networks with impedance in the frequency range from 150 kHz to 30 MHz.

The maximum attainable current of the V-network is limited by the voltage drop at the standardized inductances (CISPR 16-1-2 limits the voltage drop to 5 % of the AC supply voltage) and by unavoidable heat losses.

Specifications in brief

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Frequency range: 150 kHz to 30 MHz

Impedance: 50 µH || 50 Ω, magnitude and

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phase in line with CISPR 16-1-2 Amd. 2:2006

Artificial hand

Continuous current up to 4 × 200 A

Air-core design

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Built-in pulse limiter (can be switched off)

Remote control with TTL levels (compatible with Rohde & Schwarz EMI test receivers)

R&S®ESH2-Z5 25 A Four-Line V-Network

Disturbance measurements on DC- or ACpowered loads

The R&S®ESH2-Z5 four-line V-network is used to measure RFI voltages on supply connections of EUTs and is based on air-core inductances. It

contains an artificial hand as well as a PE simulating network that can be bypassed.

Specifications in brief

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Frequency range: 9 kHz to 30 MHz

V-network in line with CISPR, EN, VDE, ANSI

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Impedance: (50 µH + 5 Ω) || 50 Ω, magnitude and phase in line with CISPR 16-1-2:2006

Continuous current up to 4 × 25 A

Short-time current (max. 2 min) up to 4 × 50 A

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Artificial hand and PE simulation network

Air-core design

Remote control via TTL levels (compatible with the Rohde & Schwarz EMI test receivers)

Calibrated in line with CISPR 16-1-2 and

ANSI C63.4

R&S®ESH3-Z6 150 A Single-Line V-Network

For measurements of RFI voltage and

immunity to RFI in low-impedance power supply networks

The R&S®ESH3-Z6 is a single-phase V-network with an equivalent circuit of (5 μH + 1 Ω) || 50 Ω for the frequency range from 100 kHz to

200 MHz. The R&S®ESH3-Z6 is rated for a continuous current of up to 150 A and can handle

surges of up to 500 A for a maximum time of

30 s. Its screw terminals ensure a low-impedance connection of the test device and the power

supply.

Specifications in brief

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Frequency range: 0.1 MHz to 200 MHz

Continuous current up to 150 A

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Impedance: (5 µH + 1 Ω) || 50 Ω

In line with

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CISPR 25

(on-board power supply systems)

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CISPR 16-1-2 and EN 55016-1-2

(low-impedance power supplies)

MIL-I-6181D, MIL-I-16910C, MIL-E-55301

DEF-STAN 59-411 and DO-160

124 Rohde & Schwarz Test & Measurement | Catalog 2012

EMC and Field Strength Test Solutions

EMC accessories for disturbance voltage measurements

R&S®ENY21 Two-Wire Coupling Network

Radio disturbance and immunity

measurements on unshielded, symmetrical telecommunications ports

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Radio disturbance measurements in line with

CISPR 22: 2005 and EN 55022: 2006

(150 kHz to 30 MHz)

Immunity measurements in line with CISPR 24

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J and EN 55024 (150 kHz to 80 MHz)

CISPR 16-1-2 complied with

Adapter sets to meet standardized LCL requirements (55 dB and 65 dB) and to accommodate various telecommunications interfaces

High transmission bandwidth for wanted signal

(100 MHz)

Specifications in brief

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Frequency range

W

Radio disturbance: 150 kHz to 30 MHz

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Immunity: 150 kHz to 80 MHz

Asymmetrical impedance

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Imped. (0.15 MHz to 30 MHz): 150 Ω ± 20 Ω

Phase angle (0.15 MHz to 30 MHz): 0 ° ± 20 °

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W

Imped. (> 30 MHz to 80 MHz): 150 Ω ± 40 Ω

Voltage division factor in asymmetrical circuit

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150 kHz to 30 MHz: typ. 10 dB ± 1 dB

Maximum permissible values

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Max. RF input voltage: < 15 V

Max. DC voltage between line/ground: 100 V

Max. AC voltage between line/ground: 63 V

Max. DC current: 400 mA (current on each

individual wire of one pair or on different pairs)

R&S®ENY41 Four-Wire Coupling Network

Radio disturbance and immunity

measurements on unshielded, symmetrical telecommunications ports

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Radio disturbance measurements in line with

CISPR 22: 2005 and EN 55022: 2006

(150 kHz to 30 MHz)

Immunity measurements in line with CISPR 24

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J and EN 55024 (150 kHz to 80 MHz)

CISPR 16-1-2 complied with

Adapter sets to meet standardized LCL requirements (55 dB and 65 dB) and to accommodate various telecommunications interfaces

High transmission bandwidth for wanted signal

(100 MHz)

Specifications in brief

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Frequency range

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Radio disturbance: 150 kHz to 30 MHz

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Immunity: 150 kHz to 80 MHz

Asymmetrical impedance

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Imped. (0.15 MHz to 30 MHz): 150 Ω ± 20 Ω

Phase angle (0.15 MHz to 30 MHz): 0 ° ± 20 °

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W

Imped. (> 30 MHz to 80 MHz): 150 Ω ± 40 Ω

Voltage division factor in asymmetrical circuit

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150 kHz to 30 MHz: typ. 10 dB ± 1 dB

Maximum permissible values

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Max. RF input voltage: < 15 V

Max. DC voltage between line/ground: 100 V

Max. AC voltage between line/ground: 63 V

Max. DC current: 400 mA (current on each

individual wire of one pair or on different pairs)

R&S®ENY81 Eight-Wire Coupling Network

Radio disturbance measurements on unshielded, symmetrical

telecommunications ports

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Radio disturbance measurements in line with

CISPR 22: 2005 and EN 55022: 2006

(150 kHz to 30 MHz)

CISPR 16-1-2 complied with

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Adapter sets to meet standardized LCL requirements (55 dB and 65 dB) and to accommodate various telecommunications interfaces

High transmission bandwidth for wanted signal

(100 MHz)

Specifications in brief

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Frequency range: 150 kHz to 30 MHz

Asymmetrical impedance

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Imped. (0.15 MHz to 30 MHz): 150 Ω ± 20 Ω

Phase angle (0.15 MHz to 30 MHz): 0 ° ± 20 °

Voltage division factor in asymmetrical circuit

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150 kHz to 30 MHz: typ. 10 dB ± 1 dB

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Maximum permissible values

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Max. RF input voltage: < 15 V

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Max. DC voltage between line/ground: 100 V

Max. AC voltage between line/ground: 63 V

Max. DC current: 400 mA (current on each

individual wire of one pair or on different pairs)

R&S®ENY81-CA6 Eight-Wire Coupling Network for cable category CAT 6

Radio disturbance measurements on unshielded, symmetrical

telecommunications ports

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Radio disturbance measurements in line with

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CISPR 22: 2005 and EN 55022: 2006

Immunity measurements in line with CISPR 24 and EN 55024 (150 kHz to 80 MHz)

CISPR 16-1-2 complied with

75 dB longitudinal conversion loss (LCL)

High transmission bandwidth for wanted signal

(250 MHz)

Specifications in brief

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Frequency range

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Radio disturbance: 150 kHz to 30 MHz

Immunity: 150 kHz to 80 MHz

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Asymmetrical impedance

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Imped. (0.15 MHz to 30 MHz): 150 Ω ± 20 Ω

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Phase angle (0.15 MHz to 30 MHz): 0 ° ± 20 °

Imped. (> 30 MHz to 80 MHz): 150 Ω ± 40 Ω

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Voltage division factor in asymmetrical circuit

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150 kHz to 30 MHz: typ. 9.5 dB ± 1 dB

Maximum permissible values

W

Max. RF input voltage: < 15 V

W

W

W

Max. DC voltage between line/ground: 100 V

Max. AC voltage between line/ground: 63 V

Max. DC current: 400 mA (current on each

individual wire of one pair or on different pairs)

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More information | www.rohde-schwarz.com 125

EMC and Field Strength Test Solutions

EMC accessories for disturbance voltage measurements

R&S®EZ-12 Antenna Impedance Converter

Broadband matching unit for test receivers and spectrum analyzers with low- impedance inputs

The R&S®EZ-12 is used for high-impedance measurements of disturbance voltage at the feedpoint of a vehicle-mounted antenna in the long-,

medium-, shortwave and FM bands in line with

VDE 0879 Part 2 and CISPR 25. For measurements in the VHF FM range, the antenna signal can be switched to a separate 50-Ω input.

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Flat frequency response

High sensitivity and overload capacity

Calibration in line with CISPR 25:2008

Remote-controlled FM range switch

Specifications in brief

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Frequency range: 150 kHz to 30 MHz

(120 MHz)

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RF input: SO 10599-1

Input impedance: > 100 kΩ, < 10 pF (at 1 MHz)

Gain factor for direct input to antenna

connector: +11.2 dB ±1 dB

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Correction factor (nom. gain in line with

CISPR 25 is 10 dB): 10 dB

VSWR: ≤ 1.4

Noise voltage at output (input terminated with antenna simulator; AVG, BW = 10 kHz)

W f > 150 kHz: < –5 dBµV

W f > 500 kHz: < –7 dBµV

1 dB compression point: > 107 dBµV

R&S®EZ-25 150 kHz Highpass

Conducted emission measurements in the presence of longwave mains disturbance signals

For the measurement of equipment that requires higher selectivity at the transition between

130 kHz and 150 kHz as shown in figure 2 of

CISPR 16-1-1 (e.g. signaling equipment as defined in EN 50065-1), a highpass filter may be added in front of the measuring receiver to improve the selectivity and achieve the values

stipulated in EN 50065 Part 1 without impairing the passband of the measuring receiver.

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Conducted emission measurements in line with

EN 50065 Part 1

Very steep slope in line with CISPR 16-1-1

Suitable for any CISPR measuring receiver

Relative attenuation > 50 dB below 130 kHz

Built-in 10 dB attenuation pad for exact 50 Ω termination of LISN

High pulse energy capability (50 mWs)

Calibrated response

Specifications in brief

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Passband: 150 kHz to 30 MHz

Insertion loss in passband: 9.5 dB to 11.5 dB

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VSWR in passband: < 1.2

Stopband: below 130 kHz

Minimum attenuation in stopband: 60 dB

Attenuation in transition region

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W

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W

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146 kHz: < 12 dB

145 kHz: > 12 dB

140 kHz: > 24 dB

130 kHz: > 60 dB

Max. input voltage (continuous): 137 dBµV

Max. impulse energy (50 µs): 50 mWs

Dimensions (L × W × H):

145 mm × 95 mm × 52 mm

(5.7 in × 3.74 in × 2.05 in)

Weight: 500 g (1.1 lb)

R&S®ESH2-Z2/-Z3 Voltage Probes, R&S®ESH2-Z31 Attenuator

R&S®ESH2-Z2 active voltage probe

The active voltage probe is used for measuring

RFI voltages on lines that do not carry AC supply voltage.

R&S®ESH2-Z3 passive voltage probe

The passive voltage probe is suitable for

measuring RFI voltages (on AC supply lines) in line with CISPR 16-2-1 and EN 55016-2-1.

R&S®ESH2-Z31 attenuator

For checking the interference source impedance in line with EN 55016-2-1 and CISPR 16-2-1

Specifications in brief (R&S®ESH2-Z2/Z3)

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Frequency range: 9 kHz to 30 MHz

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Measurement range (AVG, 200 Hz IF bandwidth with Rohde & Schwarz test receivers): –20 dBµV to +120 dBµV/+10 dBµV to +150 dBµV

Attenuation, uncertainty of calibration:

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10 dB, 0.5 dB/30 dB, 0.5 dB

Input impedance:

118 kΩ ± 5 % || 8 pF/1.5 kΩ ± 5 % || 8 pF

Max. input voltage

W

W

W f < 63 Hz: 100 V/250 V f < 500 Hz: 5 V/250 V

9 kHz to 30 MHz: 3 V/30 V

R&S®ESH3-Z2 Pulse Limiter

High RF input levels and high-energy interfering pulses generated on artificial mains networks when the DUT is switched on and off can damage the RF input circuits of test receivers. The

R&S®ESH3-Z2 pulse limiter limits and reduces the interference level.

Specifications in brief

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Frequency range: 0 Hz to 30 MHz

Insertion loss: 10 dB ± 0.3 dB

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Frequency response: ≤ ±0.3 dB

SWR with 50 Ω termination, input/output: ≤ 1.06/≤ 1.25

Power-handling capacity in continuous mode:

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1 W

Pulse power-handling capacity:

E = 0.1 Ws (6 ms)

Dimensions (L × W × H):

94 mm × 25 mm × 25 mm

(3.70 in × 0.98 in × 0.98 in)

Weight: 120 g (0.26 lb)

126 Rohde & Schwarz Test & Measurement | Catalog 2012

EMC and Field Strength Test Solutions

EMC accessories for disturbance current measurements

R&S®EZ-17 Current Probe

Emission and susceptibility measurements

The R&S®EZ-17 model .02 with its extremely flat frequency response is optimal for current measurements and for measuring shielding

effectiveness.

Due to its high load capacity, model .03 is

recommended for EMS measurements (bulk

current injection).

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Model .02 for emission measurements

Model .03 for emission and susceptibility

measurements

High sensitivity and overload capability

Wide frequency range

High load capacity for DC and AC current

Small dimensions in spite of large inner

diameter (30 mm)

Simple clamping thanks to spring-loaded

mechanism

Specifications in brief

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Frequency range: 20 Hz to 100 MHz

Range with constant transducer factor (–3 dB):

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1 MHz/2 MHz to 100 MHz

Transducer factor reduced by 20 dB/decade in range from 20 Hz to 1 MHz/2 MHz

Source impedance: ≤ 0.8 Ω/≤ 1 Ω

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Transfer impedance Z

T

in range with constant transducer factor: 3.16 Ω/7.1 Ω

Transducer factor k in range with flat frequency response: –10 dB/–17 dB

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Load capacity (RF current measurement)

W

Max. DC current or peak, AC current:

W

300 A (f < 1 kHz)

Max. RF current (RMS):

2 A (f > 1 MHz)/1 A (f > 1 MHz)

Load capacity of model .03 (EMS measurement)

W

Max. power at RF connector: 10 W

(f > 1 MHz)

R&S®ESV-Z1 VHF Current Probe

The R&S®ESV-Z1 current probe is used for

selective or broadband measurements of very small or very large RF currents in electric lines.

It is shielded against electrostatic effects and

complies with CISPR 16-1-2 and VDE 0876.

Specifications in brief

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Frequency range: 9 kHz to 600 MHz

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Measurement range (AVG, 7.5 kHz IF bandwidth): –33 dBµA to +117 dBµA

J

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Transfer admittance (Y t

= Iin/V out

):

0.1 S (20 MHz to 600 MHz)

Transducer factor (k = 20 log (Y t

–20 dB (20 MHz to 600 MHz)

/s):

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Max. current (superimposed on RF current or peak AC current): 50 A

Max. diameter of conductor: 13.5 mm (0.53 in)

Dimensions (dia./height):

55 mm/20 mm (2.17 in/0.79 in)

Weight: 130 g (0.29 lb)

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More information | www.rohde-schwarz.com 127

EMC and Field Strength Test Solutions

EMC accessories for disturbance power measurements

R&S®EZ-24 Ferrite Clamp

The R&S®EZ-24 ferrite clamp is used to improve the reproducibility of disturbance field strength measurements and of disturbance power and screening effectiveness measurements.

In a 50 Ω circuit, the clamp produces decoupling attenuation of more than 15 dB in the range from 30 MHz to 1 GHz. The ferrite clamp can be opened to insert the cable to be loaded.

Specifications in brief

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Frequency range: 1 MHz to 1 GHz

High reproducibility of disturbance field

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J strength measurements

Calibrated in line with CISPR 16-1-3

Maximum diameter of cable: 22 mm (0.87 in)

Drafts on the measurement of radiated emission call for ferrite absorbers to load cables in order to improve the reproducibility of disturbance field strength measurements. Ferrite absorbers also help to improve the quality of disturbance power and screening effectiveness measurements.

R&S®MDS-21 Absorbing Clamp

The R&S®MDS-21 absorbing clamp can be used together with EMI test receivers to measure the disturbance power of cables in line with CISPR 13 or EN 55013, CISPR 14-1 or EN 55014-1, as well as EN 50083-2. When used with two-port measurement devices, the clamp makes it possible to measure the shielding effectiveness of cables in line with DIN 47250 Part 6, IEC 96-1 and

EN 50083-2.

Specifications in brief

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Frequency range: 30 MHz to 1000 MHz

Calibrated in line with CISPR 16-1-3

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Ball bearing rollers for continuous use in

automatic measurements

Maximum diameter of cable: 20 mm (0.79 in)

It can also be used for measuring the efficiency of disturbance suppression devices for highvoltage ignition systems in line with CISPR 12 or

EN 55012.

High-energy pulses are coupled out and taken to the measuring receiver. This means that measuring receiver inputs must be thoroughly protected.

The clamps are also suitable for use as coupling clamps in order to test the immunity of electronic devices.

128 Rohde & Schwarz Test & Measurement | Catalog 2012

EMC and Field Strength Test Solutions

EMC accessories for field strength measurements

R&S®HZ-10 Shielded, Calibrated Magnetic Field Pickup Coil (MIL)

Measurement of magnetic field strengths in line with relevant standards

The R&S®HZ-10 shielded, individually calibrated magnetic field pickup coil allows magnetic field strengths in the frequency range from 20 Hz to

200 kHz to be measured in line with commercial and military standards (MIL-STD-461/462,

DEF-STAN 59-61, GAM-EG 13, VG 95377 Part 13 and EN 55103-1). These standards specify limits for the magnetic flux density in the frequency range from 30 Hz to 50 kHz or 200 kHz and prescribe an electrostatically shielded coil with a defined number of turns for measuring the magnetic flux density. The coil comes with a

calibration certificate for the range from 5 Hz to

10 MHz.

Specifications in brief

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Frequency range: 5 Hz to 10 MHz

Antenna factor: calibration certificate supplied

J with coil

Coil

W

W

Diameter: 133 mm (5.23 in)

Number of turns: 36

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W

W

Type of wire: 7-41, litz wire

Resistance: 10 Ω

W

Inductance: 415 µH

Connector: Twinax female

Dimensions (W × H × D):

142 mm × 178 mm × 29 mm

(5.59 in × 7.01 in × 1.14 in)

Weight: 260 g (0.57 lb)

R&S®HZ-14 H Near-Field Probe Set

Diagnostic tools for detecting EMC trouble spots

The R&S®HZ-14 near-field probe set can be used together with test receivers, spectrum analyzers or oscilloscopes to determine electromagnetic emissions of any type. The main application is the diagnosis of emissions from printed boards, cables and leakage spots in shielded enclosures.

The two passive H-field probes can be used for a local susceptibility test. The R&S®HZ-14 probe set allows quantitative analysis. It comes in a handy transit case.

Equipment supplied

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Two passive H-field probes

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(9 kHz to 30 MHz and 30 MHz to 1 GHz)

One active E-field probe (9 kHz to 1 GHz)

One 30 dB preamplifier for the H-field probe

(can be powered from all Rohde & Schwarz test

J receivers and spectrum analyzers)

Test jig for functional testing of H-field probes and simplified normalization of H-field

measurements with the aid of a tracking generator and normalization functions provided in spectrum analyzers

Specifications in brief

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H-field probes

W

Max. input power:

W

≤ 30 MHz: 0.5 W; > 30 MHz: 0.25 W

VSWR (f > 30 MHz): < 2

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E-field probe

W

Frequency response: ±3 dB

W

Sensitivity: 13 mV/V

Connectors: SMA female

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Preamplifier

W

Frequency range: 9 kHz to 1 GHz

W

W

W

Gain: 30 dB ± 2 dB (typ. ±1 dB)

Noise figure: < 4 dB (at +25 °C, 100 MHz), typ. < 3 dB

Max. output level (1 dB compression): 8 dBm

W

W

W

W

W

Input/output: BNC female/N male

Impedance: 50 Ω

VSWR: < 1.5

DC powering: 10/15 V ± 0.1 V, < 100 mA

DC connector: LEMO

R&S®HZ-15 Probe Set for E and H Near-Field Emission Measurements

The R&S®HZ-15 probe set contains special probes from 30 MHz to 3 GHz for near-field

emission measurements on electronic modules and can be used together with test receivers and spectrum analyzers. Inserting the R&S®HZ-16 preamplifier between the near-field probe and the spectrum analyzer makes it easier to measure very weak high-frequency fields of up to 3 GHz.

Specifications in brief (R&S®HZ-16)

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Frequency range: 100 kHz to 3 GHz

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Gain: 20 dB (from 1.5 GHz decreasing to 17 dB)

Noise figure: 4.5 dB

Max. input power: +13 dBm

Operating voltage: 12 V

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Plug-in power supply: 100 V to 240 V,

50 Hz/60 Hz, Euro connector (2 mm × 4 mm), adapter for USA and Japan

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Five probes for easy diagnostic measurements

Special, electrically shielded magnetic field probes

Probe tips adapted to near-field measurement

High-resolution measurements

Easy-to-determine magnetic field orientation

Easy operation and handling

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More information | www.rohde-schwarz.com 129

EMC and Field Strength Test Solutions

EMC accessories for field strength measurements

R&S®HFH2-Z2 Loop Antenna

Broadband active loop antenna for measuring the magnetic field-strength

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Frequency range: 9 kHz to 30 MHz

Antenna factor k, referred to 1/m: 20 dB (E-field)

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Accuracy: 1 dB

Measurement range (200 Hz IF bandwidth, AV ind.)

W

W

Lower limit, frequency-dependent, 9 kHz to 1 MHz: +40 dB(µV/m) to +10 dB(µV/m)

Lower limit, frequency-dependent, 1 MHz to 30 MHz: +10 dB(µV/m) to +5 dB(µV/m)

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W

Upper limit: 140 dB(µV/m)

Connectors

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RF: BNC female, 50 Ω

Supply and coding (antenna factor): 12-contact Tuchel female

W

Length of connecting cables: 10 m (393.70 in)

Current drain (±10 V): < 40 mA

Dimensions (loop diameter): 590 mm (23.23 in)

Weight in transit case, without cable: 12 kg (26.46 lb)

R&S®HFH2-Z6 Rod Antenna

Broadband active rod antenna for measuring the electrical component of radiated EMI in

test setups in line with MIL-STD-461/462, similar MIL standards and CISPR 25

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Frequency range: 9 kHz to 30 MHz

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Antenna factor k, referred to 1/m: 10/20 dB, selectable

Accuracy: 1 dB

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Measurement range (200 Hz IF bandwidth, AV ind.)

W

Lower limit, frequency-dependent: +15 dB(µV/m) to –18 dB(µV/m)

W

Upper limit: 140 dB(µV/m), 130 dB(µV/m) with k = 10 dB

Connectors

W

W

RF: BNC female, 50 Ω

Supply and coding (antenna factor): 12-contact Tuchel female

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W

Length of connecting cables: 10 m (393.70 in)

Current drain (±10 V): < 45 mA

Dimensions

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Counterpoise: 600 mm × 600 mm (23.62 in × 23.62 in)

W

Rod height: 1000 mm (39.37 in)

Weight without cable: 5 kg (11.02 lb)

R&S®HZ-9 Power Supply

Power supply for feeding the active R&S®HFH2-Z2/-Z6 antennas, if these antennas cannot be powered from the test receiver

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Output voltages: ±10 V ± 0.5 %

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Max. current load: 100 mA

DC connector: 12-contact Tuchel female

AC supply: 100 V to 120 V/220 V to 240 V, ±10 %

Dimensions (W × H × D): 128 mm × 66 mm × 203 mm (5.04 in × 2.60 in × 7.99 in)

Weight: 1.7 kg (3.75 lb)

130 Rohde & Schwarz Test & Measurement | Catalog 2012

EMC and Field Strength Test Solutions

EMC accessories for field strength measurements

R&S®HL033 Log-Periodic Broadband Antenna

Detection and measurement of RF signals

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Extremely broadband

Only one antenna required to cover a wide

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frequency range

Low frequency dependence of radiation

patterns and input impedance

Can be used as transmit antenna

Metal parts electrically connected to mast

flange for protection against electric charges and lightning

Highly weatherproof

Stable installation due to optional center

bracket

Individual calibration in line with ANSI C63.5

Specifications in brief

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Frequency range: 80 MHz to 2 GHz

Polarization: linear

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Input impedance: 50 Ω

VSWR: ≤ 2

Max. input power (T

W amb

= +30 °C)

80 MHz: 460 W + 100 % AM

W

2 GHz: 120 W + 100 % AM

Gain: typ. 6.5 dBi

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J

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Max. wind speed (without ice deposit):

150 km/h

Dimensions (L × W): approx. 1800 mm × 1960 mm

(70.87 in × 77.17 in)

Weight: approx. 5 kg (11.02 lb)

R&S®HL040 Log-Periodic Broadband Antenna

For broadband transmission and reception under open-area and laboratory conditions

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Wide bandwidth

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High symmetry and low frequency dependence of radiation patterns

Coverage of various mobile radio frequency ranges

Suitable for field strength and EMC

measurements due to high precision

Individual calibration in line with ANSI C 63.5/

DIN 45003

Compact and sturdy design

Can be used in the lab and for open-area

applications

Individual calibration certificate

Specifications in brief

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Frequency range: 400 MHz to 3 GHz

Polarization: linear

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Input impedance: 50 Ω

VSWR: < 2.5, typ. < 2.0

Max. input power: 150 W to 50 W CW

Gain: 5 dBi to 7 dBi

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Front-to-back ratio

W

400 MHz to 450 MHz: > 10 dB

W

450 MHz to 3 GHz: > 15 dB

Polarization isolation: > 20 dB

Max. wind speed (without ice deposit):

200 km/h

Dimensions (H × W × L): approx. 130 mm ×

300 mm × 680 mm (5.1 in × 11.8 in × 26.8 in)

Weight: approx. 2.8 kg (6.17 lb)

R&S®HL046 Log-Periodic Broadband Antenna

R&S®HL046E High Gain Log-Periodic Antenna

Antenna for EMS measurements

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Consists of two log-periodic antennas arranged in a V-shape and connected in parallel

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Almost rotation-symmetrical radiation patterns

High antenna gain, i.e. low amplifier power

required

Wide frequency range

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High selectivity in H plane

Uniform object irradiation due to optimized

radiation patterns

Reduced influence of test chamber

Wall mounting possible

Small size, suitable for use in test chambers

Specifications in brief

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Frequency range: 80 MHz to 1.3 GHz

Gain: typ. > 7 dBi

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Max. input power

W

80 MHz: 1000 W + 100 % AM

W

1 GHz: 300 W + 100 % AM

Front-to-back ratio: typ. > 20 dB

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Input impedance: 50 Ω

VSWR: < 2

Polarization: linear

Optional trolley

W

W

Height continuously adjustable between

approx. 1 m and 1.75 m above ground

Optional pneumatic actuators

Antenna for EMS measurements

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High antenna gain, i.e. low amplifier power

required

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No change of antennas needed over wide

frequency range

Uniform object irradiation due to optimized

radiation patterns

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Small size, suitable for use in test chambers

Reduced influence of test chamber

Antenna gain approximately constant over the entire frequency range

Wall mounting possible

Specifications in brief

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Frequency range: 80 MHz to 3 GHz

Polarization: linear

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Input impedance: 50 Ω

VSWR: < 2 (< 2.5 GHz); < 2.5 (≥ 2.5 GHz)

Practical gain: typ. > 8 dBi

Max. input power

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W

W

W

80 MHz: 1400 W + 100 % AM

3 GHz: 250 W + 100 % AM

Optional trolley

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Height continuously adjustable between

approx. 1 m and 1.75 m above ground

Optional pneumatic actuators

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More information | www.rohde-schwarz.com 131

EMC and Field Strength Test Solutions

EMC accessories for field strength measurements

R&S®HL050 Log-Periodic Antenna

Log-periodic directional antenna for linear polarization

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Extremely wide frequency range

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Rotation-symmetrical radiation patterns

High gain due to V-shaped configuration of

antenna elements

Can be used in the lab and for open-area

applications

Can be used as a separate antenna or as a feed for microwave directional antennas

Specifications in brief

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Frequency range: 850 MHz to 26.5 GHz

Polarization: linear

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Input impedance: 50 Ω

VSWR: ≤ 2.5

Max. input power: 10 W to 2 W

Gain: typ. 8.5 dBi

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Max. wind speed (without ice deposit): 180 km/h

Dimensions (∅ × H, with radome): approx. 210 mm × 300 mm (8.27 in × 11.81 in)

Weight: approx. 0.7 kg (1.54 lb)

R&S®HL223 Log-Periodic Antenna

For measurement, monitoring and

transmission

Owing to its broadband characteristics and the virtually frequency-independent radiation patterns, the R&S®HL223 covers a very wide frequency range. The sturdy construction makes the antenna suitable for stationary and mobile applications. Each antenna is supplied with an individual calibration certificate so that measurements can be performed in addition to monitoring and transmitting.

Specifications in brief

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Frequency range: 200 MHz to 1.3 GHz

Polarization: linear

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Input impedance: 50 Ω

VSWR: ≤ 2 (typ. 1.6)

Max. input power: 1500 W to 600 W CW

Gain: > 6 dBi

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Max. wind speed (without ice deposit): 200 km/h

Dimensions (L × W): approx. 710 mm × 765 mm

(27.95 in × 30.12 in)

Weight: approx. 2 kg (4.41 lb)

R&S®HM020 Triple-Loop Antenna

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Large loop antenna system

The R&S®HM020 is a large loop antenna system in line with CISPR 16-1-4, for electric lighting equipment in line with CISPR 15 and for induction sources in line with CISPR 11.

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Frequency range: 9 kHz to 30 MHz

Loops switchable between X, Y and Z planes

Transducer factor of current probe:

0 dB, referred to 1 S

RF connector: N female, 50 Ω

Dimensions (W × H × D); weight

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Loops set up, normal mode:

2.49 m × 2.57 m × 2.07 m; 45 kg

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(98.03 in × 101.18 in × 81.50 in; 99.21 lb)

Loops set up, reduced height:

2.49 m × 2.09 m × 2.07 m

(98.03 in × 82.28 in × 81.50 in)

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J

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Transport crate: 2.68 m × 2.32 m × 0.57 m

(105.51 in × 91.34 in × 22.44 in)

R&S®HM020Z1 basic pedestal:

0.9 m × 1 m × 0.9 m; 40 kg

(35.43 in × 39.37 in × 35.43 in; 88.18 lb)

R&S®HM020Z2 adapter pedestal:

0.9 m × max. 0.5 m × 0.9 m; 30 kg

(35.43 in × max. 19.69 in × 35.43 in; 66.14 lb)

R&S®HK5000 EMS Broadband Dipole

High-power transmitting antenna specially

designed for EMS operation in test

chambers

J

J

J

J

J

Generation of high field strength

High power capability

No tuning necessary

Compact size

Easy mounting and dismounting

Specifications in brief

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J

Frequency range: 20 MHz to 100 MHz

Polarization: linear

J

J

J

J

Input impedance: 50 Ω

VSWR: < 2 (under free-space conditions)

Gain: > 2 dBi (under free-space conditions)

Max. input power

W

W

With EIA 1 5 /

8

" connector: 10 kW CW

With 13-30 connector (in line with IEC 169-5):

J

J

J

5 kW CW

Generated field strength: > 200 V/m RMS at a

distance of 1 m and 5 kW CW input power

Dimensions (L × W × H)

W

W

Vertically polarized: approx. 1.8 m × 2.95 m × 2.2 m

(70.9 in × 116.1 in × 86.6 in)

Horizontally polarized:

W approx. 2.9 m × 2.4 m × 2.2 m

(114.2 in × 94.5 in × 86.6 in)

Weight

W

Antenna: approx. 150 kg (330.7 lb)

Holder with motor: approx. 120 kg (264.6 lb)

132 Rohde & Schwarz Test & Measurement | Catalog 2012

EMC and Field Strength Test Solutions

EMC accessories for field strength measurements

R&S®HK116 Biconical Antenna

For radiated emission measurements

J

J

Wide frequency range

Radiation patterns virtually independent of

J

J

frequency

Individual calibration in line with ANSI C63.5

(free-space calibration) and ARP 958

Low weight

Specifications in brief

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J

Frequency range: 20 MHz to 300 MHz

Polarization: linear

J

J

J

J

Input impedance: 50 Ω

VSWR: typ. 2.5

Permissible input power: 75 W CW

Dimensions (L × W × H):

J approx. 1380 mm × 530 mm × 720 mm

(54.3 in × 20.9 in × 28.3 in)

Weight: approx. 3 kg (6.61 lb)

R&S®HF907 Double-Ridged Waveguide Horn Antenna

Broadband directional antenna, ideal for

EMC measurements

J

J

Wide frequency range

High gain and low VSWR for measurement

J of weak signals and generation of high field strengths without any significant return loss

Radiation pattern contains only one main lobe over the entire frequency range

J

J

J

Ideal for use in EMC laboratories

Compact size, low weight

Each antenna is calibrated individually in line with ANSI C63.5 and SAE ARP 958

Specifications in brief

J

Frequency range: 800 MHz to 18 GHz

J

J

J

J

Polarization: linear

Polarization decoupling: > 25 dB (typ. > 30 dB)

Input impedance: 50 Ω

VSWR: ≤ 3.0 (f < 1.5 GHz); < 2.0 (f ≥ 1.5 GHz)

J

J

J

J

Max. input power: 300 W CW/500 W PEP

Gain: 5 dBi to 14 dBi (typ.)

Dimensions (L × W × H): approx. 305 mm × 280 mm × 226 mm

(12.0 in × 11.0 in × 8.9 in)

Weight: approx. 1.9 kg (4.2 lb)

R&S®HL562 ULTRALOG

EMI and EMS measurements in an extremely wide frequency range

J

Combines the characteristics of a biconical and

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J

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J a log-periodic antenna

Only one antenna required to cover a wide

frequency range

Selectable polarization plane

V-shaped log-periodic part of the antenna for high system sensitivity

Suitable for EMS measurements with high field strengths (10 V/m or higher)

Gain increase at high frequencies

Compact size

Individual calibration (ANSI C63.5 and

DIN 45003)

Specifications in brief

J

J

Frequency range: 30 MHz to 3 GHz

Polarization: linear

J

J

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Cross-polar suppression: > 20 dB (in line with

CISPR 16-1-4)

Nominal impedance: 50 Ω

VSWR: typ. < 2

Max. input power (T

W amb

= +40 °C)

30 MHz: 150 W + 100 % AM

J

W

W

W

W

80 MHz: 300 W + 100 % AM

250 MHz: 500 W + 100 % AM

1000 MHz: 280 W + 100 % AM

3000 MHz: 180 W + 100 % AM

Gain: typ. 8 dBi from 200 MHz

8

R&S®HE202 Active Receiving Dipole

R&S®HE302 Active Receiving Dipole

Optimized for very small dimensions

J

Extremely small size

J

J

J

High sensitivity

Wide frequency range

High immunity to nonlinear distortion,

comparable to passive antennas in conjunction

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J

J with high-grade preamplifier

High immunity to nearby lightning strikes

Shock- and vibration-resistant

Linear polarization

Specifications in brief

J

Frequency range: 200 MHz to 1 GHz

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J

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VSWR: < 2.5

Electronic gain: 5 dB to 9 dB

Practical gain: 7 dB to 11 dB

Directivity: 2 dB average

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Noise figure: 6 dB (200 MHz); 7 dB (1 GHz)

Second-order intercept: > 55 dBm

Third-order intercept: > 30 dBm

Dimensions (L × H): approx. 512 mm × 238 mm (20.16 in × 9.37 in)

Weight: 2.1 kg (4.63 lb)

Optimized for very small dimensions

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Extremely small size

High sensitivity

J

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Wide frequency range

High immunity to nonlinear distortion,

comparable to passive antennas in conjunction with high-grade preamplifier

J

J

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High immunity to nearby lightning strikes

Shock- and vibration-resistant

Linear polarization

Specifications in brief

J

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Frequency range: 20 MHz to 500 MHz

VSWR: < 2.5

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J

J

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Electronic gain: –11 dB to +8 dB

Practical gain: –9 dB to +10 dB

Directivity: 2 dB average

Noise figure: 28 dB (20 MHz); 9 dB (500 MHz)

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Second-order intercept: > 60 dBm

Third-order intercept: > 30 dBm

Dimensions (L × H): approx. 1 m × 240 mm (39.37 in × 9.45 in)

Weight: 2.5 kg (5.51 lb)

More information | www.rohde-schwarz.com 133

Power Meters and Voltmeters

Chapter 9

Power Meters and

Voltmeters

Power meters, directional power meters, voltmeters and sensors from Rohde & Schwarz provide extremely high versatility. Rohde & Schwarz power sensors are intelligent standalone instruments specially designed for use with the company’s signal generators and spectrum analyzers.

Type

R&S ®NRP2

R&S®NRP-Zxx

R&S®NRPV

R&S®NRP-Z5

R&S

®NRT

R&S®NRT-Zxx

R&S

®NRVD

R&S ®NRV-Zxx

R&S ®NRVC

R&S ®URE3

Designation

Power Meter

Power Sensors

Virtual Power Meter

Sensor Hub

Power Reflection Meter

Power Sensors

Dual-Channel Power Meter

Power Sensors

Calibration Kit

RMS/Peak Voltmeter

Description Page

The ultimate solution for power measurements 135

USB power sensors for power measurements with a base unit or standalone on a PC 135

Easy RF power measurements with R&S®NRP-Zxx power sensors on a PC 138

Connecting up to four R&S®NRP-Zxx power sensors

Power measurement on transmitters, amplifiers, industrial RF and

microwave  generators

138

139

Intelligent sensors: simply plug in and measure

Power, level and voltage measurements from DC to 40 GHz

Thermal sensors and diode sensors for high-precision power measurements

Power calibration up to 18 GHz

At the peak of speed and precision

139

140

140

141

141

134 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®NRP2 Power Meter

The ultimate solution for power measurements

Accurate determination of RF power is one of the most challenging tasks in the field of electrical test and measurement. The R&S®NRP2 power meter is ideal for a vast number of applications in R & D, production and maintenance as well as in calibration laboratories. In addition to the R&S®NRP2 base unit, there are a number of sensors available to perform diverse measurements. Complex signals with digital modulation (e.g. as required by advanced mobile radio standards such as WCDMA and WiMAX™) are handled as easily as are CW signals, carriers with analog modulation (e.g. AM, FM) and pulsed RF.

Each R&S®NRP-Zxx sensor is an independent test instrument and can be operated directly via USB. The sensors are typically connected using the R&S®NRP-Z4 passive

USB adapter. Regardless of the type, no calibration is required prior to making measurements, since calibration data is stored directly in the sensor at the factory.

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Power measurements with a base unit or with cost-efficient USB power sensors alone

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Average, peak and peak-to-average power

measurements from DC to 67 GHz

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Versatile USB power sensors with superior performance

Accurate measurements for GSM/EDGE, 3G, WLAN,

WiMAX™, LTE and beyond

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J

Solutions for radar and EMC applications

Ultrafast statistical analysis

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Flexible use with signal generators, signal analyzers and network analyzers from Rohde & Schwarz

Power Meters and Voltmeters

R&S®NRP2 base unit

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Small, lightweight and ruggedized base unit for

production, laboratory and mobile applications

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Simple operation due to window-based graphical user interface

Presets for fast, standard-compliant measurements

Simultaneous operation of up to four sensors

(with the R&S®NRP-B2 and R&S®NRP-B5 options)

Remote operation via Ethernet, GPIB or USB

Sensor check source (R&S®NRP-B1 option)

R&S®NRP-Z11/-Z2x/-Z31 universal power sensors

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J

J

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True universal power sensors for a vast number of

applications

Innovative three-path diode power sensor with enhanced inter-range performance

90 dB dynamic range for CW und modulated signals

Continuous average, burst average, timeslot average,

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J

J time gating and trace mode supported (100 kHz video bandwidth)

Automatic burst detection and acquisition

Up to 1500 measurements/s ( buffered mode)

Low sensitivity to harmonics

R&S®NRP-Z211/-Z221 two-path diode power sensors

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Excellent price/performance ratio

80 dB dynamic range for CW and modulated signals

Two-path diode power sensor with enhanced inter-range performance

Continuous average, burst average, timeslot average, time gating and trace mode supported (50 kHz video bandwidth)

Automatic burst detection and acquisition

R&S®NRP-Z27/-Z37 power sensor modules

(for use with the R&S®FSMR)

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Power sensor with additional RF signal output

Developed for use with the R&S®FSMR measuring

receiver

For precise calibration of T & M equipment

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DC to 18 GHz (R&S®NRP-Z27)

DC to 26.5 GHz (R&S®NRP-Z37)

Level range from –24 dBm to +26 dBm

9

R&S®NRP-Z23 sensor.

R&S®NRP-Z22 sensor.

R&S®NRP-Z28 sensor.

R&S®NRP-Z81 sensor.

More information | www.rohde-schwarz.com 135

Power Meters and Voltmeters

R&S®NRP-Z5x thermal power sensors

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Suitable for very demanding reference applications

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Industry-proven DC-coupled thermoelectric test cell

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Highly accurate continuous average power

measurements

Linearity uncertainty < 0.007 dB

R&S®NRP-Z8x wideband power sensors

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Peak power measurements of radar and mobile

communications signals with up to 30 MHz RF video

J bandwidth; sensor rise time < 13 ns

Automatic burst detection and acquisition

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Ultrafast statistical analysis (one- million point CCDF

within < 25 ms)

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Accurate continuous power measurements on

modulated and unmodulated signals in the range from

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–60 dBm to +20 dBm

High measurement repeatability due to very low zero drift of < 150 nW for single-shot events and statistics,

< 2 nW for repetitive measurements

R&S®NRP-Z28/-Z98 level control sensors

The sensors are used where high-precision RF power is required as a reference source over a high dynamic range.

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Integrated one-box solution for classic power splitter/ power sensor combination

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Special directional power sensor with integrated power splitter

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For applications requiring a precisely known level to be fed in (e.g. calibration of measuring receivers)

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10 MHz to 18 GHz (R&S®NRP-Z28)

9 kHz to 6 GHz (R&S®NRP-Z98)

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Improvement of the absolute level accuracy of signal generators

Recommended extras

R&S®NRP-Z2

R&S®NRP-Z3

R&S®NRP-Z4

R&S®NRP-Z5

R&S®NRPZ-K1

Extension cable

Active USB adapter

Passive USB adapter

Sensor hub for up to 4 R&S®NRP-Zxx sensors

Option key for R&S®NRPV virtual power meter

PC application

R&S®NRP-Z9x average power sensors

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Specially designed for EMC applications

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Measurement of continuous average power

90 dB dynamic range for CW and modulated signals

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Low sensitivity to harmonics

R&S®NRP-Zxx sensor overview

Sensor connector

Frequency range Power range; max. average power/peak envelope power

Impedance matching (SWR) Rise time, video BW

Accuracy

Universal power sensors

R&S®NRP-Z11

N connector

10 MHz to 8 GHz 200 pW to 200 mW (–67 dBm to +23 dBm); max. 400 mW (AVG), 1 W (PK, 10 µs)

< 1.13 (10 MHz to 2.4 GHz)

< 1.20 (> 2.4 GHz to 8.0 GHz)

< 8 µs,

> 50 kHz

0.058 dB

R&S®NRP-Z21

N connector

10 MHz to 18 GHz 200 pW to 200 mW (–67 dBm to +23 dBm); max. 400 mW (AVG), 1 W (PK, 10 µs)

< 1.13 (10 MHz to 2.4 GHz)

< 1.20 (> 2.4 GHz to 8.0 GHz)

< 1.25 (> 8.0 GHz to 18.0 GHz)

< 8 µs,

> 50 kHz

0.058 dB

R&S®NRP-Z31

3.5 mm connector

R&S®NRP-Z22

N connector

R&S®NRP-Z23

N connector

R&S®NRP-Z24

N connector

10 MHz to 33 GHz 200 pW to 200 mW (–67 dBm to +23 dBm); max. 400 mW (AVG), 1 W (PK, 10 µs)

10 MHz to 18 GHz 2 nW to 2 W (–57 dBm to +33 dBm); max. 3 W (AVG), 10 W (PK, 10 µs)

10 MHz to 18 GHz 20 nW to 15 W (–47 dBm to +42 dBm); max. 18 W (AVG), 100 W (PK, 10 µs)

10 MHz to 18 GHz 60 nW to 30 W (–42 dBm to +45 dBm); max. 36 W (AVG), 300 W (PK, 10 µs)

< 1.13 (10 MHz to 2.4 GHz)

< 1.20 (> 2.4 GHz to 8.0 GHz)

< 1.25 (> 8.0 GHz to 18.0 GHz)

< 1.30 (> 18.0 GHz to 26.5 GHz)

< 1.35 (> 26.5 GHz to 33.0 GHz)

< 1.14 (10 MHz to 2.4 GHz)

< 1.20 (> 2.4 GHz to 8.0 GHz)

< 1.25 (> 8.0 GHz to 12.4 GHz)

< 1.30 (> 12.4 GHz to 18.0 GHz)

< 1.14 (10 MHz to 2.4 GHz)

< 1.25 (> 2.4 GHz to 8.0 GHz)

< 1.30 (> 8.0 GHz to 12.4 GHz)

< 1.41 (> 12.4 GHz to 18.0 GHz)

< 1.14 (10 MHz to 2.4 GHz)

< 1.25 (> 2.4 GHz to 8.0 GHz)

< 1.30 (> 8.0 GHz to 12.4 GHz)

< 1.41 (> 12.4 GHz to 18.0 GHz)

< 8 µs,

> 50 kHz

< 8 µs,

> 50 kHz

< 8 µs,

> 50 kHz

< 8 µs,

> 50 kHz

0.149 dB

0.085 dB

0.087 dB

0.088 dB

Two-path diode power sensors

R&S®NRP-Z211

N connector

10 MHz to 8 GHz 1 µW to 100 mW (–60 dBm to +20 dBm); max. 400 mW (AVG), 2W (PK, 10 µs)

R&S®NRP-Z221

N connector

10 MHz to 18 GHz 1 µW to 100 mW (–60 dBm to +20 dBm); max. 400 mW (AVG), 2W (PK, 10 µs)

< 1.13 (10 MHz to 2.4 GHz)

< 1.20 (> 2.4 GHz to 8.0 GHz)

< 1.13 (10 MHz to 2.4 GHz)

< 1.20 (> 2.4 GHz to 8.0 GHz)

< 1.25 (> 8.0 GHz to 18.0 GHz)

< 10 µs,

> 40 kHz

< 10 µs,

> 40 kHz

0.075 dB

0.075 dB

136 Rohde & Schwarz Test & Measurement | Catalog 2012

Power Meters and Voltmeters

R&S®NRP-Zxx sensor overview

Sensor connector

Frequency range Power range; max. average power/peak envelope power

Impedance matching (SWR) Rise time, video BW

Accuracy

Thermal power sensors

R&S®NRP-Z51

N connector

DC to 18 GHz 1 µW to 100 mW (–30 dBm to +20 dBm); max. 300 mW (AVG), 10 W (PK, 1 µs)

0.061 dB

R&S®NRP-Z52

3.5 mm connector

R&S®NRP-Z55

2.92 mm connector

R&S®NRP-Z56

2.40 mm connector

R&S®NRP-Z57

1.85 mm connector

DC to 18 GHz

DC to 40 GHz

DC to 50 GHz

DC to 67 GHz

1 µW to 100 mW (–30 dBm to +20 dBm); max. 300 mW (AVG), 10 W (PK, 1 µs)

1 µW to 100 mW (–30 dBm to +20 dBm); max. 300 mW (AVG), 10 W (PK, 1 µs)

300 nW to 100 mW (–35 dBm to +20 dBm); max. 300 mW (AVG), 10 W (PK, 1 µs)

300 nW to 100 mW (–35 dBm to +20 dBm); max. 300 mW (AVG), 10 W (PK, 1 µs)

< 1.10 (DC to 2.4 GHz)

< 1.15 (> 2.4 GHz to 12.4 GHz)

< 1.20 (> 12.4 GHz to 18.0 GHz)

< 1.10 (DC to 2.4 GHz)

< 1.15 (> 2.4 GHz to 12.4 GHz)

< 1.20 (> 12.4 GHz to 18.0 GHz)

< 1.10 (DC to 2.4 GHz)

< 1.15 (> 2.4 GHz to 12.4 GHz)

< 1.20 (> 12.4 GHz to 18.0 GHz)

< 1.25 (> 18.0 GHz to 26.5 GHz)

< 1.30 (> 26.5 GHz to 40.0 GHz)

< 1.03 (DC to 100 MHz)

< 1.06 (> 100 MHz to 2.4 GHz)

< 1.13 (> 2.4 GHz to 12.4 GHz)

< 1.16 (> 12.4 GHz to 18.0 GHz)

< 1.22 (> 18.0 GHz to 26.5 GHz)

< 1.28 (> 26.5 GHz to 40.0 GHz)

< 1.30 (> 40.0 GHz to 50.0 GHz)

< 1.03 (DC to 100 MHz)

< 1.06 (> 100 MHz to 2.4 GHz)

< 1.13 (> 2.4 GHz to 12.4 GHz)

< 1.16 (> 12.4 GHz to 18.0 GHz)

< 1.22 (> 18.0 GHz to 26.5 GHz)

< 1.28 (> 26.5 GHz to 40.0 GHz)

< 1.30 (> 40.0 GHz to 50.0 GHz)

< 1.35 (> 50.0 GHz to 67.5 GHz)

0.068 dB

0.068 dB

0.055 dB

0.055 dB

Wideband power sensors

R&S®NRP-Z81

N connector

50 MHz to 18 GHz 1 nW to 100 mW (–60 dBm to +20 dBm); max. 200 mW (AVG), 1 W (PK, 1 µs)

0.13 dB

R&S®NRP-Z85

2.92 mm connector

R&S®NRP-Z86

2.40 mm connector

50 MHz to 40 GHz 1 nW to 100 mW (–60 dBm to +20 dBm); max. 200 mW (AVG), 1 W (PK, 1 µs)

50 MHz to 40 GHz 1 nW to 100 mW (–60 dBm to +20 dBm); max. 200 mW (AVG), 1 W (PK, 1 µs)

< 1.16 (50 MHz to 2.4 GHz)

< 1.20 (> 2.4 GHz to 8.0 GHz)

< 1.25 (> 8.0 GHz to 18.0 GHz)

< 1.16 (50 MHz to 2.4 GHz)

< 1.20 (> 2.4 GHz to 8.0 GHz)

< 1.25 (> 8.0 GHz to 18.0 GHz)

< 1.30 (> 18.0 GHz to 26.5 GHz)

< 1.35 (> 26.5 GHz to 40.0 GHz)

< 1.16 (50 MHz to 2.4 GHz)

< 1.20 (> 2.4 GHz to 8.0 GHz)

< 1.25 (> 8.0 GHz to 18.0 GHz)

< 1.30 (> 18.0 GHz to 26.5 GHz)

< 1.35 (> 26.5 GHz to 40.0 GHz)

< 13 ns, up to

30 MHz

< 13 ns, up to

30 MHz

< 13 ns, up to

30 MHz

0.13 dB

0.13 dB

Average power sensors

R&S®NRP-Z91

N connector

R&S®NRP-Z92

N connector

9 kHz to 6 GHz

9 kHz to 6 GHz

Level control sensors

R&S®NRP-Z28

N connector

200 pW to 200 mW (–67 dBm to +23 dBm); max. 400 mW (AVG), 1 W (PK, 10 µs)

2 nW to 2 W (–57 dBm to +33 dBm); max. 3 W (AVG), 10 W (PK, 10 µs)

10 MHz to 18 GHz 200 pW to 100 mW (–67 dBm to +20 dBm); max. 700 mW (AVG), > 4 W (PK, 10 µs)

< 1.13 (9 kHz to 2.4 GHz)

< 1.20 (> 2.4 GHz to 6.0 GHz)

< 1.14 (9 kHz to 2.4 GHz)

< 1.20 (> 2.4 GHz to 6.0 GHz)

< 8 µs,

> 50 kHz

0.058 dB

0.085 dB

0.058 dB

R&S®NRP-Z98

N connector

9 kHz to 6 GHz 200 pW to 100 mW (–67 dBm to +20 dBm); max. 700 mW (AVG), > 4 W (PK, 10 µs)

< 1.11 (10 MHz to 2.4 GHz)

< 1.15 (> 2.4 GHz to 4.0 GHz)

< 1.22 (> 4.0 GHz to 8.0 GHz)

< 1.30 (> 8.0 GHz to 18.0 GHz)

< 1.11 (9 kHz to 2.4 GHz)

< 1.15 (> 2.4 GHz to 4.0 GHz)

< 1.22 (> 4.0 GHz to 6.0 GHz)

– 0.058 dB

Power sensor modules (for use with the R&S®FSMR)

R&S®NRP-Z27

N connector

DC to 18 GHz 4 µW to 400 mW (–24 dBm to +26 dBm); max. 500 mW (AVG), 30 W (PK, 1 µs)

0.075 dB

R&S®NRP-Z37

3.5 mm connector

DC to 26.5 GHz 4 µW to 400 mW (–24 dBm to +26 dBm);

500 mW (AVG), 30 W (PK, 1 µs)

< 1.15 (DC to 2.0 GHz)

< 1.18 (> 2.0 GHz to 4.2 GHz)

< 1.23 (> 4.3 GHz to 8.0 GHz)

< 1.25 (> 8.0 GHz to 12.4 GHz)

< 1.35 (> 12.4 GHz to 18 GHz)

< 1.15 (DC to 2.0 GHz)

< 1.18 (> 2.0 GHz to 4.2 GHz)

< 1.23 (> 4.3 GHz to 8.0 GHz)

< 1.25 (> 8.0 GHz to 12.4 GHz)

< 1.30 (> 12.4 GHz to 18.0 GHz)

< 1.45 (> 18.0 GHz to 26.5 GHz)

– 0.075 dB

9

More information | www.rohde-schwarz.com 137

Power Meters and Voltmeters

R&S®NRPV Virtual Power Meter

Easy RF power measurements with R&S®NRP-Zxx power sensors on a PC

The R&S®NRPV virtual power meter is a sophisticated, user-friendly PC software for power measurements. It supports all R&S®NRP-Zxx power sensors and the sensor-specific measurement modes.

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Simultaneous operation of up to four R&S®NRP-Zxx

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power sensors

Multiple traces in one window

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Flexible marker functionality

Sensor-based licensing concept (R&S®NRPZ-K1)

Specifications in brief

Measurement modes

Number of power sensors to be used simultaneously (= number of channels) continuous average (numeric), timegate (numeric), timeslot (bargraph), burst average (numeric), trace (graphical), statistics (graphical)

1 to 4

Continuous average

Max. number of measurements per

measurement window

4 average, peak, random Measurand

Timeslot

Max. number of timeslots

Nominal width

Exclude areas at start and end of slot

16

0 s to 999.999 s

0 to nominal width

Fences 1 (valid for all slots), length: 0 to nominal width

Timegate

Max. number of gates

Gate length

Fences

Trace

Max. number of traces per

measurement window

Measurand

Math functions

Statistics

Max. number of traces per

measurement window

Aperture

Distribution function

4

0 s to 999.999 s

1 per gate, length: 0 to gate length

8 (4 physical plus 4 math) average, peak, random ratio, difference, SWR

5 (4 physical plus AWGN reference trace)

10 ns to 1 s

CCDF (lin), CCDF (log), CDF (lin),

CDF (log), PDF (lin)

R&S®NRP-Z5 Sensor Hub

Connecting up to four R&S®NRP-Zxx power sensors

The R&S®NRP-Z5 can host up to four R&S®NRP-Zxx sensors. A professional trigger solution allows simultaneous internal and external triggering of all connected sensors.

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J

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Connection of up to four R&S®NRP-Zxx power sensors

Internal triggering, individual for each sensor

Bidirectional trigger bus for external and synchronous triggering

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Trigger master mode (with R&S®NRP-Z8x)

138 Rohde & Schwarz Test & Measurement | Catalog 2012

MK_E.indb 138 09.11.2011 17:24:02

R&S®NRT Power Reflection Meter

Power Meters and Voltmeters

Specifications in brief (base unit)

Frequency range 200 kHz to 4 GHz (sensor-dependent)

Power measurement range

0.7 mW to 2 kW (sensor-dependent)

Measurement inputs

1 to 3 (4), one active

For R&S®NRT-Zxx sensors one input on front panel, two additional

inputs on rear panel (R&S®NRT-B2 option)

For R&S®NAP-Zx sensors one input on rear panel (R&S®NRT-B1 option)

Measurement functions

Power forward power and power absorbed by load in W, dBm, dB or % (dB and % referenced to measured value or reference value)

Power parameters

Reflection average power, average burst power, peak envelope power, peak-to-average ratio

(crest factor), complementary cumulative

distribution function

SWR, return loss, reflection coefficient, reverse-to-forward power ratio in %, reverse power

Power measurement on transmitters, amplifiers,

industrial RF and microwave generators

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Simultaneous display of power and reflection

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Measurement of average power irrespective of

modulation mode

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Measurement of peak power, crest factor and average burst power

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Compatible with all main digital standards, such as

GSM/EDGE, WCDMA, cdmaOne, CDMA2000®, PHS,

NADC, PDC, TETRA, DECT, DAB, DVB-T

J

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Intelligent sensors: simply plug in and measure

Digital interface between sensor and base unit

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Direct connection of sensor to a PC

R&S®NRT-Z44 directional power sensor.

Specifications in brief (directional power sensors)

Power measurement range

Frequency range

SWR (referenced to 50 Ω)

Insertion loss

R&S®NRT-Z14

0.006 W to 120 W (average),

300 W (peak)

25 MHz to 1 GHz max. 1.06

max. 0.06 dB

R&S®NRT-Z43

0.0007 W to 30 W (average),

75 W (peak)

400 MHz to 4 GHz max. 1.07 (from 0.4 GHz to 3 GHz), max. 1.12 (from 3 GHz to 4 GHz)

R&S®NRT-Z44

0.003 W to 120 W (average),

300 W (peak)

200 MHz to 4 GHz max. 1.07 (from 0.2 GHz to 3 GHz), max. 1.12 (from 3 GHz to 4 GHz) max. 0.06 dB (from 0.4 GHz to 1.5 GHz), max. 0.09 dB (from 1.5 GHz to 4 GHz) max. 0.06 dB (from 0.2 GHz to 1.5 GHz), max. 0.09 dB (from 1.5 GHz to 4 GHz)

Directivity

Power measurement range

Frequency range

SWR (referenced to 50 Ω)

Insertion loss

Up to 0.3 GHz

Up to 0.5 GHz

Entire frequency range

Directivity min. 30 dB

R&S®NAP-Z6

0.3 W to 1.1 kW

25 MHz to 1 GHz max. 1.07

max. 0.05 dB max. 0.10 dB max. 0.15 dB min. 25 dB min. 30 dB (from 0.4 GHz to 3 GHz), min. 26 dB (from 3 GHz to 4 GHz) min. 30 dB (from 0.2 GHz to 3 GHz), min. 26 dB (from 3 GHz to 4 GHz)

R&S®NAP-Z7

0.05 W to 200 W

R&S®NAP-Z8

0.5 W to 2 kW

0.4 MHz to 80 MHz 0.2 (0.4) MHz to 80 MHz max. 1.03 (max. 1.02 from 1.5 MHz to 30 MHz)

– max. 0.015 dB min. 35 dB (from 1.5 MHz to 30 MHz)

– max. 0.015 dB

9

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Power Meters and Voltmeters

R&S®NRVD Dual-Channel Power Meter

Power, level and voltage measurements from DC to 40 GHz

The R&S®NRVD operates like two independent power meters in one instrument, performing simultaneous measurements and exchanging data with each other. The two channels can be set separately so that two completely different measurements can be carried out at the same time.

The two measured values can also be related to each other for readout of reflection coefficient, SWR or return loss, for instance.

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Accurate, general-purpose, easy-to-use

Attenuation and reflection measurements

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Two independent channels measuring simultaneously

Operating modes: average power, reflection, pulse

power, AM, DC

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Manual or automatic range selection

Intelligent sensors – simply plug in and measure

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Remote control of all functions via IEC/IEEE (SCPI)

Specifications in brief

Measurement functions unmodulated and modulated power

(average power, pulse power, peak envelope power, AM), reflection,

DC and AC voltage (depending on sensor)

Frequency and level range DC to 40 GHz, 100 pW to 30 W

(depending on sensor)

Sensors all R&S®NRV-Zxx and R&S®URV5-Zx voltage and power sensors

R&S®NRV-Zxx Power Sensors

Thermal sensors and diode sensors for high- precision power measurements

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Compatible with the R&S®NRVS and R&S®NRVD base units

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Standards: GSM900/1800/1900, DECT, cdmaOne,

CDMA2000®, WCDMA, NADC, PDC, DAB, DVB, etc.

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Absolute calibration – simply plug in and measure

Calibration data memory for sensor-specific parameters

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High long-term stability

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Excellent temperature response

Specifications in brief

Model

Connector

Impedance

R&S®NRV-Z4

N connector

50 Ω

R&S®NRV-Z6

PC-3.5 connector

50 Ω

R&S®NRV-Z15

K connector

(2.92 mm), 50 Ω

R&S®NRV-Z5

N connector

50 Ω

R&S®NRV-Z31

N connector

50 Ω

Frequency range Power measurement range, max. power

Max. SWR

(reflection coefficient)

100 kHz to 6 GHz

50 MHz to 26.5 GHz 400 pW to 20 mW,

100 mW (AVG),

100 mW (PK)

50 MHz to 40 GHz

100 kHz to 6 GHz

30 MHz to 6 GHz

100 pW to 20 mW,

100 mW (AVG),

100 mW (PK)

400 pW to 20 mW,

100 mW (AVG),

100 mW (PK)

10 nW to 500 mW,

2 W (AVG),

10 W (PK)

1 µW to 20 mW,

100 mW (AVG),

100 mW (PK)

0.1 MHz to 100 MHz

> 0.1 GHz to 2 GHz

> 2 GHz to 4 GHz

> 4 GHz to 6 GHz

0.05 GHz to 4 GHz

> 4 GHz to 26.5 GHz

0.05 GHz to 4 GHz

> 4 GHz to 40 GHz

100 kHz to 4 GHz

> 4 GHz to 6 GHz

0.03 GHz to 0.1 GHz

> 0.1 GHz to 2 GHz

> 2 GHz to 4 GHz

> 4 GHz to 6 GHz

1.05 (0.024)

1.10 (0.048)

1.20 (0.09)

1.35 (0.15)

1.15 (0.070)

1.37 (0.157)

1.15 (0.070)

1.37 (0.157)

Zero

offset

±50 pW

Display noise

Linearity uncertainty

Power coefficient

20 pW

±200 pW 80 pW

±200 pW

1.05 (0.024)

1.10 (0.048)

±5 nW

1.05 (0.024)

1.10 (0.048)

1.20 (0.09)

1.35 (0.15)

±30 nW

80 pW

2 nW

3 nW

0.03 dB

(0.7 %)

0.04 dB

(1 %)

0.04 dB

(1 %)

0.03 dB

(0.7 %) included in calibration uncertainty

0

0

0

0

0

140 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®NRVC Calibration Kit

Power Meters and Voltmeters

Power calibration up to 18 GHz

The R&S®NRVC calibration kit is used for fast, program- controlled calibration of the R&S®NRV-Zxx and

R&S®URV5-Zx sensors. The calibration kit comprises three sets:

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R&S®NRVC for absolute calibration

R&S®NRVC-B1 option for verification

R&S®NRVC-B2 option for linearity checking

The core of the absolute calibration set is a broadband power standard consisting of a power splitter and thermocouple power sensor. The power standard, operated on the R&S®NRVD dual-channel power meter, enables exact determination of the measurement accuracy of power and voltage sensors throughout their frequency range and at the relevant reference level.

R&S®URE3 RMS/Peak Voltmeter

At the peak of speed and precision

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True RMS measurement for AC and AC+DC

Peak-value measurement (pos., neg., peak-to-peak)

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Frequency measurement up to 30 MHz

DC voltage measurement

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Unmatched measuring accuracy through automatic

frequency response error correction

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More than 30 measurements/s

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Highpass and lowpass filters

Digital and analog displays

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Relative measurements, maxima/minima

Convenient menu operation

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IN/OUT option with dual-channel analog output, ready

output, trigger input, TTL frequency counter input

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IEC/IEEE bus for all functions

Specifications in brief

Measurement functions

RMS value, peak value,

AC and DC voltage, frequency

Frequency range

RMS

Peak

Voltage measurement range

DC

AC, AC+DC

Range selection

Ranges and resolution

0.02 Hz to 30 MHz

10 Hz to 10 MHz

0 V to ±300 V

50 mV to 300 V

AUTO, HOLD, FIX

10 mV to 1000 V, 20 dB steps, max. reading: 12 000 digits, max. resolution: 1 mV

RMS measurement

Voltage meas. range

Ranges and resolution

50 mV to 300 V

1 mV to 300 V, 10 dB steps, max. reading: 3800 or 12 000 digits, max. resolution: 1 mV

Peak measurement

Voltage meas. range

Ranges and resolution

0.1 mV to 500 V

3 mV to 1000 V, 10 dB steps, max. reading: 1200 or 3800 digits, max. resolution: 1 mV

9

More information | www.rohde-schwarz.com 141

Audio Analyzers

Chapter 10

Audio Analyzers

Rohde & Schwarz audio test equipment enjoys an

excellent reputation. Versatile audio analyzers and audio switchers enable audio measurements on a large variety of digital and analog interfaces.

Type

R&S ®UPV

R&S ®UPP

R&S ®UPZ

Designation

Audio Analyzer

Audio Analyzer

Audio Switcher

142 Rohde & Schwarz Test & Measurement | Catalog 2012

Description

Compact instrument for all audio measurements

Audio analyzer for use in the lab and in production

Multichannel switcher for audio channel inputs and outputs

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R&S®UPV Audio Analyzer

Audio Analyzers

Compact instrument for all audio measurements

The R&S®UPV enables users to perform virtually all measurements that are necessary in the audio world: frequency response measurement, total harmonic distortion (THD) displays, spectral displays, analysis of digital interfaces and much more. The generator is just as versatile. It can be used to create any conceivable signal from sine-wave and noise signals up to multi-sine-wave signals.

Largest variety of interfaces in a single instrument

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Analog generator outputs as standard

Dual-channel analyzer with analog inputs as standard

Expansion up to 16 measurement channels

Digital audio interfaces (optional)

Digital protocol analysis and generation (optional)

Jitter and interface test (optional)

Test of audio ICs with I²S interfaces (optional)

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The universal serial interface allows virtually any audio circuit to be adapted (optional)

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Suitable for all interfaces: analog, digital and combined

Simultaneous display of multiple measurement functions

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Sampling rate up to 400 kHz

User-programmable filters for analyzer and generator

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Compact all-in-one instrument with integrated PC

Slots for future options

All test signals/measurement functions in a single box

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Wide variety of analog and digital (optional) test signals

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Extensive measurement capabilities, on analog and

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digital (optional) interfaces

Efficient as well as multichannel FFT analysis with a

resolution down to the mHz range

User-programmable filters can be adapted to the

measurement task at hand in only a few seconds

Everything included; no peripherals required

Options for other applications

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The PESQ®

1)

measurement option analyzes speech

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signals in line with psycho-acoustic methods

The PEAQ®

1)

measurement option analyzes broadband

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J audio signals in line with psycho-acoustic methods

The POLQA®

1)

measurement option analyzes broadband speech quality in line with psycho-acoustic methods

Standard-compliant measurements of hearing aids

Acoustic measurements on mobile phones

1)

PESQ®, PEAQ® and POLQA® are registered trademarks of

OPTICOM Dipl.-Ing. M. Keyhl GmbH, Germany.

Specifications in brief

Dual-channel analog analyzer

Frequency range

Voltage range

Measurement functions (base unit and options)

DC/10 Hz to 21.76 kHz/40 kHz/80 kHz/250 kHz

0.1 µV to 110 V

RMS wideband, RMS selective, peak, quasi-peak, S/N, DC, FFT, THD, THD+N, SINAD,

Mod Dist, DFD, DIM, polarity, waveform, frequency, phase, group delay, rub & buzz,

1/n octave analysis, undersample FFT, PESQ®, PEAQ®, POLQA®

Analog generator

Voltage (balanced, RMS, sine, open circuit)

Output signals (base unit and options)

Digital analyzer/generator

Digital audio interfaces (optional)

Audio bits

Clock rate

Format

I 2 S interface (optional)

Audio bits

Clock rate

Universal serial interface (optional)

Data lines

Audio bits

Clock rate

0.1 mV to 20 V sine, multi-sine, sine burst, sine² burst, Mod Dist, DFD, noise, arbitrary waveform, polarity,

FM, AM, DC, play WAV files, stereo sine, DIM, square

8 bit to 24 bit

30 kHz to 200 kHz professional and consumer format in line with AES3 and IEC 60958

8 bit to 32 bit

6.75 kHz to 400 kHz

1 to 4

8 bit to 32 bit

0.85 kHz to 400 kHz

10

More information | www.rohde-schwarz.com 143

Audio Analyzers

R&S®UPP Audio Analyzer

Audio analyzer for use in the lab and in production

High measurement speed, parallel signal processing in multichannel applications, and high reliability in continuous operation are vital requirements to be met by audio analyzers that are used in production. If, on top of that, a cost-efficient instrument is what you need, the solution is the R&S®UPP audio analyzer.

Depending on the model, two, four or eight channels are processed in parallel; by cascading multiple instruments, users can simultaneously trigger up to 48 measurement channels.

The R&S®UPP audio analyzer is a compact instrument of low height and comes without front-panel control elements or integrated display. In combination with an external monitor, mouse and keyboard, it becomes a full-featured, manually operable measuring instrument. It has an integrated controller, and the required software is already installed. Users can start taking measurements right away.

Large variety of interfaces in a single instrument

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Analog generator outputs (two-channel)

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Two-, four- or eight-channel analyzer with analog inputs

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Digital audio interfaces for professional studio operation and for consumer electronics (R&S®UPP-B2 option)

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I²S interfaces for testing audio ICs (R&S®UPP-B2 option)

HDMI device testing (R&S®UPP-B4 option)

Convenient operation throughout

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State-of-the-art, intuitive user interface makes operation

J quick and easy to learn

All measurement results at a glance

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Effective online help

Options for other applications

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R&S®UPP-B2 option providing digital audio interfaces in line with AES/EBU and S/P DIF as well as I²S interfaces

R&S®UPP-B4 HDMI and digital audio interfaces (for

J

details, see below)

R&S®UPP-K800 cascading software for combining

multiple R&S®UPP audio analyzers for parallel measurement of more than eight channels

HDMI device testing (R&S®UPP-B4 option)

High-definition multimedia interface (HDMI) is used to digitally transmit high-definition video signals and up to eight audio channels in maximum quality via a single common cable. The R&S®UPP-B4 option provides the R&S®UPP

audio analyzer with HDMI functionality in version 1.4a.

When used in test systems, the R&S®UPP can be remotecontrolled via LAN, USB or IEC/IEEE bus. Here too, the integrated controller is advantageous: Since the analyses are performed on the instrument's computer, the test system's controller does not have to provide any additional performance. Featuring the same operating philosophy and remote-control commands, the R&S®UPV and R&S®UPP audio analyzers support convenient teamwork – for example, when R & D and production use both Rohde & Schwarz audio analyzer types.

All test signals and measurement functions in a

single box

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Generation of a wide variety of analog and – optionally – also digital test signals

Broad scope of measurements on both analog and – optionally – digital interfaces

Powerful, multichannel FFT analysis with resolution down to the mHz range

User-programmable filters that take only seconds to

J adapt to the individual measurement task

Integrated controller; manual operation requires only an external monitor, a mouse and a keyboard

The R&S®UPP-B4 option features two RJ-45 female

connectors for connecting the HEC signals as well as the following four HDMI plug-in connectors:

J

SOURCE

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All audio test signals available in the R&S®UPP audio

analyzer can be transmitted to the DUT via HDMI; video data and info frames are also generated; E-EDID is read

AUX IN

An external video source (e.g. a video test generator) can be connected; the source's unchanged video signal plus

J the audio data generated in the R&S®UPP are transferred to the DUT via SOURCE

SINK

Connection of an HDMI DUT to the analyzer section of

J the R&S®UPP

AUX OUT

A TV monitor, for example, can be connected here in

order to audiovisually assess the transmitted test signals or to operate the DUT by means of an on screen dialog

(OSD)

144 Rohde & Schwarz Test & Measurement | Catalog 2012

Audio Analyzers

Decoding of Dolby-coded data streams

(R&S®UPP-K41 option)

The R&S®UPP-K41 option allows realtime decoding of compressed audio data streams in line with the Dolby

Digital®

1)

and Dolby Digital Plus®

1)

methods on the S/P DIF and HDMI inputs of the R&S®UPP-B4 option.

The lip sync function measures the time offset between the video and audio signal. The pattern generator function generates a large number of multichrome video test patterns. Bit error rate testing (BERT) and measurements of pixel clock, Hsync and Vsync frequencies and the timing parameters of the measured video signal are also included.

1) Dolby Digital® and Dolby Digital Plus® are registered trademarks of

Dolby Laboratories.

Extended audio/video measurements

(R&S®UPP-K45 option)

This option extends the functionality of the R&S®UPP-B4 option to include generator signals and measurements that go beyond purely audio operation.

Specifications in brief

Analog analyzer

Frequency range (bandwidth 22/40/80 kHz)

Voltage range (RMS, sine)

DC/10 Hz to 21.76/40/80 kHz

1 µV to 50 V

Measurement functions: RMS wideband, RMS selective, peak, S/N, DC, FFT, THD, THD+N, SINAD, Mod Dist, DFD, polarity, waveform, frequency, phase, group delay

Analog generator

Voltage (balanced, RMS, sine, open circuit) 0.2 mV to 14 V

Output signals: sine, stereo sine, multi-sine, sine burst, Mod Dist, DFD, noise, arbitrary waveform, polarity, DC, play WAV files

Digital analyzers/generators

Digital audio interfaces (optional)

Audio bits

Clock rate

Format

I

2

S interface (optional)

Audio bits

Word clock rate

HDMI interface (optional)

8 bit to 24 bit

30 kHz to 200 kHz professional and consumer format in line with AES3 or IEC 60958

8 bit to 32 bit

6.75 kHz to 200 kHz

Channels

Audio bits

Clock rate

1 to 8

8 bit to 24 bit

32 kHz to 192 kHz

10

R&S®UPZ Audio Switcher

Control via any PC is also possible. Up to 16 input switchers plus 16 output switchers can be cascaded, allowing up to 128 input or output channels to be switched.

Multichannel switcher for audio channel inputs and outputs

As an add-on unit to the Rohde & Schwarz audio analyzers, the R&S®UPZ audio switcher can be used whenever input or output signals have to be switched over to multiple channels or DUTs. Users can directly operate the switcher from the graphical user interface of the R&S®UPV and

R&S®UPP audio analyzers.

Specifications in brief

Signal amplitude

1)

Crosstalk (balanced 600 Ω load)

2)

20 kHz

100 kHz

Series resistance (per signal pin)

Shunt capacitance

(each signal pin to ground)

1) For max. relay life: max. 5 W or 0.2 A.

2)

Between any two channels into 600 Ω.

33 V (RMS)/2 A (46.7 V (peak)) typ. –140 dB typ. –126 dB typ. < 0.3 Ω typ. < 90 pF

More information | www.rohde-schwarz.com 145

Modular Instruments

Chapter 11

Modular

Instruments

Production testing is performed in various industries.

Testing departments want to flexibly configure

required functions in compact units so that future requirements can be covered without large additional investments.

Type Designation Description

R&S®CompactTSVP Open Test Platform

R&S®TS-PCA3 CompactTSVP Test and

Measurement Chassis

R&S®TS-PWA3 PowerTSVP Switching Application

Chassis

System controllers

R&S®TS-PSC5

R&S®TS-PSC4C

R&S®TS-PSC0

System Controller

System Controller

System Controller

Digital multimeter and in-circuit test

R&S®TS-PSAM Analog Source and Measurement

Module

R&S®TS-PICT In-Circuit Test Extension

Signal routing and switching

R&S®TS-PMB

R&S®TS-PSM1

Switch Matrix Module

Power Switching Module

R&S®TS-PSM2 Multiplex and Switch Module

Communications, digital I/O and mixed signal acquisition

R&S®TS-PDFT Digital Functional Test Module

R&S®TS-PHDT

R&S®TS-PIO3B and

R&S®TS-PTRF

R&S®TS-PIO2

High-Speed Digital Test Module

Digital I/O Module and

Signal Port and Transmission Module

Analog and Digital I/O Module

Open test platform based on CompactPCI and PXI

Open test platform based on CAN bus

CompactPCI embedded system controller

CompactPCI embedded system controller with enhanced speed and memory

CompactPCI PCI remote system controller

Scanning multimeter and data acquisition unit

Analog ICT in conjunction with the R&S®TS-PSAM

High-density, 90-channel, full matrix relay-multiplexer module

High-power multiplexer and multiple DUT power switching module

Medium-power multiplexer and switching module

Programmable 32-bit digital pattern I/O and serial communications interfaces

Programmable 32-bit digital high-speed I/O and realtime comparison

Digital control and coil driver with power outputs

Analog and digital 16-channel stimulus and measurement unit for mixed-signal

DUT testing

Arbitrary waveform generator and signal analyzer

R&S®TS-PFG Function Generator Module

R&S®TS-PAM Signal Analyzer Module

Power supplies

R&S®TS-PSU

R&S®TS-PSU12

Power Supply and Load Module

Power Supply and Load Module

In-system calibration

R&S®TS-ISC

R&S®TS-PCAL2

In-System Calibration Kit

Calibration Module

Dual-channel arbitrary waveform generator with isolated outputs

Eight-channel digitizer and waveform analyzer

Four-quadrant source with integrated measurement unit

Four-quadrant source with integrated measurement unit

On-site calibration solution for the R&S®CompactTSVP

On-site calibration module for chassis rear I/O

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146 Rohde & Schwarz Test & Measurement | Catalog 2012

Modular Instruments

Type Designation

R&S®ATSI100 Infotainment Test System

R&S®ATSI100 Infotainment Test System

Housing

Module Frame R&S®ATSI-MF

RF generators

R&S®ATSI-AM

R&S®ATSI-FM

R&S®ATSI-ISM

R&S®ATSI-ATV

AM Generator

FM Generator

ISM Generator

Analog TV Generator

RF repeaters

R&S®ATSI-GPS1 GPS Repeater

R&S®ATSI-DAB1 DAB Repeater

R&S®ATSI-DVBT1 DVB-T Repeater

Monitor module

R&S®ATSI-MON1 Monitor Module

Software options

R&S®ATSI-K1 Sequence Controller

R&S®ATSI-K2

R&S®ATSI-K4

R&S®ATSI-K5

R&S®ATSI-K7

R&S®ATSI-K8

R&S®ATSI-K9

R&S®ATSI-K10

R&S®ATSI-K11

R&S®ATSI-K12

Remote Interface

Loudspeaker Test

Audio Analysis

System Configuration 1

System Configuration 2

Database Interface

R&S®SFE100 DAB Interface

R&S®SFE100 DVB-T Interface

ISM Interface

Description Page

Fast, comprehensive tests in automobile production

19" housing

For AM radio tests

For FM radio tests

For tests in ISM bands

For analog TV receiver tests

For GPS receiver tests

For digital audio broadcasting tests

For digital TV tests

Accurate monitoring of transmitted signals

Easy generation of test cases

Command exchange with master process control system

Testing the correct installation of loudspeakers

Identification of loudspeaker installation errors

Easy system overview

Closed-loop control of all levels (with monitor module installed)

Interface for parameter database

Integration of the R&S®SFE100 as a digital radio signal source

Integration of the R&S®SFE100 as a digital TV signal source

Testing of keyless entry, auxiliary heater or other customized ISM/SRD applications

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Modular Instruments

R&S®TS-PCA3 CompactTSVP

Test and Measurement Chassis

For cost-effective peripheral control via CAN bus, the

R&S®TS-PSYS1 CAN controller interface is included as a rear I/O module.

The R&S®CompactTSVP is offered as a test and measurement platform (R&S®TS-PCA3) and as a switching application platform (R&S®TS-PWA3). Various measurement modules for industrial use in research, development and production are available.

Open test platform based on CompactPCI and PXI

The R&S®CompactTSVP family of products has been developed for high-performance ATE applications. The chassis contains a mechanical frame, digital backplane, analog backplane, mains switching and filtering, power supply and diagnostic extensions.

Specifications in brief

Modular instrument chassis for CompactPCI and PXI modules

Enclosure standard 19" rackmount, 4 HU, suitable for 3 HU CompactPCI

Peripheral slots

Control backplane

Bus systems

14

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CompactPCI/PXI, 32 bit, 33 MHz in line with PICMG 2.0 Rev. 3.0

Rear I/O support IEEE 1101.11-1998

CAN 2.0b, 1 Mbit

PXI trigger bus, 8 signals

R&S®TS-PWA3 PowerTSVP

Switching Application Chassis

The chassis contains a mechanical frame, digital backplane, analog backplane, mains switching and filtering, power supply and diagnostic extensions. For cost-effective peripheral control via CAN bus, the R&S®TS-PSYS2 slave interface is included as a rear I/O module.

Various switching and measurement modules controlled by the CAN bus interface from Rohde & Schwarz can be deployed in this chassis.

Open test platform based on CAN bus

The R&S®TS-PWA3 PowerTSVP chassis was created as a cost-efficient subsystem for switching applications. It can be used to build systems ranging from dedicated switching instruments to complex switching applications in test and measurement systems.

Specifications in brief

Modular instrument chassis for dedicated Rohde & Schwarz

modules with CAN bus control

Enclosure standard 19" rackmount, 4 HU, suitable for 3 HU CompactPCI

16 Peripheral slots

Control backplane

Bus systems

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CAN 2.0b, 1 Mbit

Slots 1 to 16, peripheral slots for

CAN-bus-controlled modules

148 Rohde & Schwarz Test & Measurement | Catalog 2012

Modular Instruments

Modules of the R&S®CompactTSVP family: system controllers

R&S®TS-PSC5 System Controller

CompactPCI embedded system controller

Test and measurement computing platform for

R&S®CompactTSVP instruments.

The CompactPCI system controller board combines the performance of Intel’s Core™2 Duo

2.26 GHz CPU with the high integration of the

GS45 Express chipset. Legacy interfaces can be accessed on the R&S®CompactTSVP instrument rear panel via the additional rear I/O module, which is included.

Specifications in brief

J

Packaging: 3 U dual-slot CompactPCI

J

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CPU board

Processor: Intel® Core™2 Duo 2.26 GHz

RAM: 4 Gbyte DDR3 SO-DIMM

HDD: 250 Gbyte, enhanced availability type

J

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(around-the-clock access)

Legacy interfaces

W

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5 × USB 2.0

3 × 1 Gbit Ethernet

W

W

1 × PS/2

1 × RS-232-C

W

1 × DVI-I

Operating system: Windows XP Professional, multilingual

R&S®TS-PSC4C System Controller

CompactPCI embedded system controller with enhanced speed and memory

Test and measurement computing platform for

R&S®CompactTSVP instruments.

The CompactPCI system controller board combines the performance of Intel’s Mobile

Pentium® processor with the high integration of the 855GME chipset and the ICH4 I/O controller hub. Legacy interfaces can be accessed on the

R&S®CompactTSVP instrument rear panel via the additional rear I/O module, which is included.

Specifications in brief

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Packaging: 3 U dual-slot processor card

Processor: Intel Mobile Pentium® 1.8 GHz

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RAM: 1 Gbyte

HDD: ≥ 55.8 Gbyte

Legacy interfaces

W

4 × USB

W

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2 × LAN

2 × RS-232-C

W

1 × VGA

Operating system: Windows XP Professional

R&S®TS-PSC0 System Controller

CompactPCI PCI remote system controller

External PC can be used as R&S®CompactTSVP system controller for the R&S®CompactTSVP chassis (R&S®TS-PCA3).

Ideal for solutions where the system design requires the PCI-bus-based hardware to be integrated in the system. The transparent, serial

StarFabric interface is ready to run without any software installation and has nearly no influence on the system performance compared to the

embedded controller solution.

Specifications in brief

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Remote interface: StarFabric

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External host PC: PCI bus

Implementation: transparent PCI bridge, serial PCI to CompactPCI link

Interface location: rear panel of

R&S®CompactTSVP chassis, at controller slot 1

Modules of the R&S®CompactTSVP family: digital multimeter and in-circuit test

R&S®TS-PSAM Analog Source and Measurement Module

Scanning multimeter and data acquisition unit

J

Floating measurement of voltage, current

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(AC/DC) and resistance in 2- und 4-wire mode

Analog in-circuit test with short, contact and continuity test

Test of resistors, diodes, bipolar transistors, jumpers/switches and discharge of capacitors

Measurement synchronization via PXI clock and trigger

Specifications in brief

J

Voltage ranges

W

DC: ±10 mV to ±125 V

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AC: ±20 mV to ±90 V (V

RMS

Current ranges

)

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DC: ±1 µA to ±1 A

AC: ±100 µA to ±1 A

Resistance ranges: 1 Ω to 10 MΩ

Sample rate: 0.01 sample/s to 200 ksample/s

DC source: ±5 V, 100 mA, 4-quadrant

Discharge unit: max. 125 V (DC), 400 mA

Bus interface: CompactPCI/PXI

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Modular Instruments

Modules of the R&S®CompactTSVP family: digital multimeter and in-circuit test

R&S®TS-PICT In-Circuit Test Extension

Analog ICT in conjunction with the

R&S®TS-PSAM

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For guarded measurements in 3-, 4-, 6-wire technology

Measurement of inductors, capacitors and

impedances

Specifications in brief

J

AC source: referenced to GND

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Voltage: 0.1 V, 0.2 V, 1.0 V

Voltage offset: OFF, POS, NEG

Impedance: 1 Ω, 10 Ω, 1 kΩ, 10 kΩ

Frequency: DC, 100 Hz, 1 kHz, 10 kHz

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Measurement unit: referenced to GND

Current ranges: 1 µA to 200 mA

Sample rate: max. 200 ksample/s

Working voltage: max. 60 V (DC)

Bus interface: CompactPCI/PXI

Modules of the R&S®CompactTSVP family: signal routing and switching

R&S®TS-PMB Switch Matrix Module

High-density, 90-channel, full matrix

relay-multiplexer module

The R&S®TS-PMB establishes test channels for functional and in-circuit tests. It provides all routing of signals between DUT and measurement modules via the R&S®CompactTSVP analog bus.

The general-purpose switch matrix module can handle input signals up to 125 V and up to 1 A.

It provides self-test capability and fast switching of signal paths.

Specifications in brief

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Switching: relay, full matrix

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Configuration: 90 channels to 2 × 4 buses

Deployed as

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Single matrix: 90 pins to 4 bus lines

Single matrix: 45 pins to 8 bus lines

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Dual matrix: 45 pins to 4 bus lines

Analog measurement bus access to 8 bus lines

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Voltage: max. 125 V (DC)

Current: max. 1 A

Power: max. 10 W

Switch time: 0.5 ms (incl. bouncing)

Bus interface: CAN

R&S®TS-PSM1 Power Switching Module

High-power multiplexer and multiple DUT power switching module

J

Power switching module for supplies and loads

J

J

J

Can handle voltages up to 60 V with

W

8 high-power channels with max. 16 A

W

W

10 power channels with max. 2 A

4 high-power 4-to-1 multiplexer channels with max. 16 A

Indirect high-current measurements on high-power channels via shunt resistors; routing of corresponding voltage via analog

measurement bus

Self-test of all relays via analog measurement bus and R&S®TS-PSAM

Specifications in brief

J

J

Switching: high- and medium-power relays

Configuration MP: 10 × SPST front – front/rear

J

Configuration HP

W

8 × SPST rear – front, shunt

J

J

J

J

J

J

W

W

2 × SP 4:1 MUX front – front

2 × SP 4:1 MUX rear – rear

Voltage: max. 60 V (DC)

Current MP/HP: max. 2 A/16 A

Power MP/HP: max. 150 W/480 W

Switch time MP: 5 ms (incl. bouncing)

Switch time HP: 10 ms (incl. bouncing)

Bus interface: CAN

R&S®TS-PSM2 Multiplex and Switch Module

Medium-power multiplexer and switching module

J

Medium-power switching module for voltages up to 125 V and 2 A

J

J

Eight independent groups of 3 SPST/1 SPDT relay channels or 4-to-1 DPST relay multiplexers

Relay multiplexers can be cascaded via local power buses

J

J

Indirect current measurements on each SPxT channel via shunt resistors

Direct current measurements up to 1 A on all channels via R&S®CompactTSVP analog

measurement bus and R&S®TS-PSAM

Specifications in brief

J

Switching: 8 independent relay groups

J

Configuration

W

3 × SPST + SPDT, shunt or

J

J

J

J

J

W

DP 4:1 MUX

Voltage: max. 125 V (DC)

Current: max. 2 A

Power: max. 60 W

Switch time: 5 ms (incl. bouncing)

Bus interface: CAN

150 Rohde & Schwarz Test & Measurement | Catalog 2012

Modular Instruments

Modules of the R&S®CompactTSVP family: communications, digital I/O and mixed signal acquisition

R&S®TS-PDFT Digital Functional Test Module

Programmable 32-bit digital pattern I/O and serial communications interfaces

J

J

J

32 digital output channels with pattern

acquisition rate up to 20 MHz

One programmable output level per group

High output current and short-circuit protection

J

J

J

Four high-power open drain channels, fully protected and capable of pulse width

modulation

Five relay channels SPST

32 digital input channels with two

programmable input threshold levels per group for hysteresis or level monitoring

Specifications in brief

J

Output channels: 32, in 4 groups

J

J

J

J

Voltage/group: –3 V to +10 V, tristate

Current/channel: 80 mA

Sample rate: 0.01 sample/s to 20 Msample/s

Input channels: 32, in 4 groups

J

J

J

J

Threshold/group: 0 V to 9.5 V

Data buffer: 128/64/32 kbyte at 8/16/32 bit

DUT interfaces: CAN, K-line, RS-232-C, SPI, I 2

Bus interface: CompactPCI/PXI

C

R&S®TS-PHDT High-Speed Digital Test Module

Programmable 32-bit digital high-speed I/O and realtime comparison

J

High pattern rate up to 40 MHz

J

J

J

J

J

J

J

J

HIGH and LOW programmable, two thresholds

Large memory capacity of 1.5 Gbyte

Independent pattern sets, selectively executable and reusable without new download

Tristate at full speed, RTZ clock formatting

Forbidden-zone detection

Realtime comparison and results: pass/fail, failed channels, failed pattern

Timing resolution down to 12.5 ns

Triggering/synchronization with analog PXI measurement cards

Specifications in brief

J

J

Output channels: 32, in 4 groups

Voltage/group: –3 V to +10 V, tristate

J

J

J

J

Tristate control: bitwise

Current/channel: 80 mA

Sample rate: 0.01 sample/s to 40 Msample/s

Input channels: 32, in 4 groups

J

J

J

Threshold/group: 0 V to 9.5 V

Data buffer: 3 × 64 Msample × 64 bit

Bus interface: CompactPCI/PXI

R&S®TS-PIO3B Digital I/O Module and R&S®TS-PTRF Signal Port and Transmission Module

Digital control and coil driver with power outputs

The R&S®TS-PIO3B is a versatile digital I/O module with 64 channels. It offers eight ports with eight digital I/O lines each that have MOSFET output drivers. The circuitry is designed to drive

RF relays with all common control voltages. The high current-carrying capacity makes the module a universal coil driver.

For easily measuring voltages, there are eight analog inputs that can be monitored via a 10-bit

A/D converter. An SPI interface offers the capability to control external SPI modules.

Specifications in brief

J

Digital I/O channels: 64, in 8 groups

J

J

J

Voltage: 0 V to 35 V

Current output: max. 200 mA per bit,

1 A per port

Analog inputs: 8

J

J

J

J

J

Level range : 0 V to 5 V

Resolution: 10 bit

Accuracy: ±(100 mV + 5 %)

SPI interface: SPI SCLK

MOSI 5 V TTL output with 300 Ω series

MISO 5 V TTL input

Bus interface: CAN

R&S®TS-PIO2 Analog and Digital I/O Module

Analog and digital 16-channel stimulus and measurement unit for mixed-signal DUT

testing

J

J

Analog and digital signal acquisition with high measurement resolution of 24 bit for level

ranges up to ±27 V

Sampling rate of up to 5 ksample/s for inputs

J

J

J

J

J and outputs

Autocorrection feature for all input and output channels

Analog and digital stimulus outputs, offering static and dynamic signal outputs

16-bit resolution, high output level up to ±27 V

Versatile signal switching and DUT

interconnection

Stimulus and acquisition channels providing floating operation

Specifications in brief

J

Output channels: 16, in 4 groups, floating high/low voltage: ±27 V/±27 V (L per group)

J

J

J

J

J

J

J

Current/channel: 12 × 15 mA, 4 × 100 mA

Modes: analog, digital, frequency

Input channels: 16, in 4 groups, floating

High/low threshold: ±27 V/±27 V

(both per group)

Data buffer: 4 × 5 ksample (A out

/D in

/D

Sample rate: 0.01 sample/s to 5 ksample/s

Bus interface: CAN out

/A in

)

11

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Modular Instruments

Modules of the R&S®CompactTSVP family: arbitrary waveform generator and signal analyzer

R&S®TS-PFG Function Generator Module

Dual-channel arbitrary waveform generator with isolated outputs

J

J

J

J

J

Arbitrary waveform generator module featuring two floating signal outputs with independent channel isolation

High output level range up to 40 V (V pp

)

High sampling rate of 25 Msample/s per

channel

Output of standard waveforms up to 1 MHz sine, square, triangle, arbitrary waveform

Sequencing of multiple memory sections and multiple repetitions

Specifications in brief

J

Channels: 2, fully independent, floating,

J

J

J

cascadable

Voltage ranges: ±1 V, ±5 V, ±10 V, ±20 V

Voltage resolution: 16 bit

Output current: max. 250 mA

J

J

J

J

J

J

J

Data buffer: 1 Msample per channel

Sample rate: 0.01 sample/s to 25 Msample/s

Standard waveforms: sine wave, triangle, square wave (1 Hz to 1 MHz), DC static

Pulse: min. 500 ns (1 % to 99 %)

Output ranges: ±1 V to ±20 V, max. 40 V (V pp

)

Output current: max. ±250 mA

Bus interface: CompactPCI/PXI

R&S®TS-PAM Signal Analyzer Module

Eight-channel digitizer and waveform

analyzer

J

Digitizer module featuring two fully

J

J

J

J

J

independent, floating acquisition units

Acquisition modes with up to eight single- ended or four differential channels

High sampling rate of 20 Msample/s for each acquisition unit

Multichannel signal recording for up to eight channels at 5 Msample/s

Synchronous acquisition of eight program- mable comparator signals and PXI trigger

Wide dynamic range with 14-bit resolution

Specifications in brief

J

Acquisition units: 2, fully independent and

floating

J

J

J

J

Data buffer: 1 Msample per acquisition unit

Channels per unit: 4

Voltage ranges: ±0.2 V to 100 V (per channel)

Resolution: 14 bit

J

J

J

Sample rate: 0.02 sample/s to 20 Msample/s

Relay multiplexer: 3:1 per channel

Bus interface: CompactPCI/PXI

Modules of the R&S®CompactTSVP family: power supplies

R&S®TS-PSU Power Supply and Load Module

Four-quadrant source with integrated

measurement unit

J

Two independent, floating channels of four-

J

J

J

J

J

J quadrant sources with separate sensing per channel

Programmable current and voltage limiting

Integrated voltage and current measurement unit per channel

Electronic load simulation of 20 W per channel

Output and recording of voltage and current profiles

Protection against overvoltage, overcurrent, overtemperature and short-circuits

4-to-1 relay multiplexer for force and sense lines of each channel

R&S®TS-PSU12 Power Supply and Load Module

Four-quadrant source with integrated

measurement unit

J

Two independent, floating channels of fourquadrant sources with separate sensing per

J

J channel

Programmable current and voltage limiting

Same feature set as the R&S®TS-PSU but with

R&S®TS-PDC internal primary power supply

Specifications in brief

J

Output channels: 2, floating, fully independent,

4 quadrants, cascadable

J

J

J

J

J

J

J

Voltage ranges: ±15 V, ±50 V (16 bit)

Current ranges: 10 mA, 100 mA, 3 A (16 bit)

Data buffer: 2 × 10 ksample (V

OUT

/I

OUT

Measurement unit: voltage or current

)

Data buffer: 10 ksample

Sample rate: 0.01 sample/s to 10 ksample/s

Bus interface: CAN

Specifications in brief

J

Output channels: 2, floating, fully independent,

J

4 quadrants, cascadable

Voltage ranges: ±12 V (16 bit)

J

J

J

J

J

J

Current ranges: 10/100/500 mA (16 bit)

Data buffer: 2 × 10 ksample (V

Measurement unit: voltage or current

Data buffer: 10 ksample

OUT

/I

OUT

)

Sample rate: 0.01 sample/s to 10 ksample/s

Bus interface: CAN

152 Rohde & Schwarz Test & Measurement | Catalog 2012

Modular Instruments

Modules of the R&S®CompactTSVP family: in-system calibration

R&S®TS-ISC In-System Calibration Kit

On-site calibration solution for the

R&S®CompactTSVP

The R&S®TS-ISC in-system calibration kit contains the fundamental tools for calibrating all modular instruments available for the

R&S®CompactTSVP product family.

The most important benefit for systems deployed on the factory floor is that all modules that must be calibrated may remain in the instrument chassis slots. Additionally, a dedicated type of highly accurate multimeter is required to achieve a corresponding measuring accuracy during calibration.

Specifications in brief

The R&S®TS-ISC in-system calibration kit

consists of the following components:

J

R&S®TS-PCAL2 calibration module

J

Calibration adapters

W

R&S®TS-PCALA

J

J

W

W

R&S®TS-PCALB

R&S®TS-PCALC

R&S®TS-PKL cable for connecting the adapters to the external multimeter

R&S®TS-LISC: one software license for in- system calibration; additional licenses are

required for each system controller hosting the calibration software

R&S®TS-PCAL2 Calibration Module

On-site calibration module for chassis rear I/O

The R&S®TS-PCAL2 calibration module is used to provide traceable calibration signals. It can be integrated into multiple chassis on the factory floor to prepare each R&S®CompactTSVP instrument for on-site calibration without changing the module configuration.

An on-board relay multiplexer connects the components to the analog bus lines on an

R&S®TS-PMB module which has to be installed in front of the R&S®TS-PCAL2 module.

Specifications in brief

The R&S®TS-PCAL2 provides the following

functionalities:

J

J

J

Floating 5 V reference source

Three reference resistors for resistance

measurements

Ground-referenced current source, adjustable

J up to 1 A current measurements

Floating signal generator for dynamic

measurements of

W

DC: –40 V to +40 V

W

AC sinusoidal:

2 V to 80 V (V pp

) in frequency range from

20 Hz to 50 kHz

0.2 V to 2 V (V pp

) in frequency range from

50 kHz to 1 MHz

11

More information | www.rohde-schwarz.com 153

Modular Instruments

R&S®ATSI100 Infotainment Test System

The modular concept allows the installation of the modules close to the test environment (e.g. test cabin, production line). This largely avoids time-consuming and faultprone laying of RF cables in the production area.

Fast, comprehensive tests in automobile production

The R&S®ATSI100 system generates every test signal separately in application-specific modules. Each module contains all components needed for signal generation and amplification.

Due to the robust design, the modules meet the rigorous standards in automobile production. The R&S®ATSI100 module frames provide easy slot-in installation and power supply for up to two and up to eleven modules.

Configuration and control via powerful software

application

For easy integration of the R&S®ATSI100 system into the production process control system, the R&S®ATSI-K1 to

R&S®ATSI-K12 options offer the appropriate interfaces.

These options make it easy for the user to do the following:

J

Program automatic test sequences

J

Interface the master production computer system in

customer-specific versions

J

Get a detailed representation of the entire system that is installed in the production facility

J

Evaluate the modules‘ self-test and monitoring signals,

allowing errors to be instantly located

J

Notify the system administrator by e-mail if an error

occurs

J

Analyze complex test scenarios (e.g. loudspeaker tests and audio analysis)

J

Configure data management for test scenarios and test parameters depending on different vehicle variants

J

Connect to a common database for extremely flexible test parameter handling

Test configuration

R&S®ATSI module frame(s)

Server

(Oracle)

LAN

Industrial PC with Windows XP

LAN

R&S®ATSI-K8 system configuration 2

R&S®ATSI-K1 sequence controller

R&S®ATSI-K2 remote interface

R&S®ATSI-K4 loudspeaker

test

154 Rohde & Schwarz Test & Measurement | Catalog 2012

LAN

R&S®SFE100 signal generator(s)

LAN

R&S®ATSI-MON1 monitor module(s)

Closed-loop level control

R&S®ATSI-K5 audio

analysis

R&S®ATSI-K9 database interface

R&S®ATSI-K10

DAB interface

R&S®ATSI-K11

DVB-T interface

R&S®ATSI-K12

ISM interface

Modular Instruments

Modules of the R&S®ATSI100 infotainment test system: housing

R&S®ATSI-MF Module Frame

19" housing

19" housing with six vertical units for holding the circuit power pack and backplane as well as a variable arrangement for holding a maximum of eleven R&S®ATSI modules.

Specifications in brief

J

Circuit power pack for power supply

J

J

W

W

Primary: 100 V to 240 V AC, 50 Hz to 60 Hz

Secondary: +5 V, +12 V, –12 V DC

Backplane for distributing the power supply voltages (+5 V, +12 V, –12 V) to the individual

R&S®ATSI modules

2 HU, 2-slot model available

Modules of the R&S®ATSI100 infotainment test system: RF generators

R&S®ATSI-AM AM Generator

For AM radio tests

The R&S®ATSI-AM generator enhances the

R&S®ATSI100 infotainment test system with the capability to perform AM radio tests. The generator module is simply plugged into the system rack. It is controlled via an Ethernet LAN.

Specifications in brief

J

J

Frequency range: 50 kHz to 30 MHz

Frequency resolution: 1 Hz

J

J

J

J

Level range: −30 dBm to +23 dBm

Level accuracy better than 1 dB

Integrated modulation generator:

20 Hz to 20 kHz

External modulation input

R&S®ATSI-FM FM Generator

For FM radio tests

The R&S®ATSI-FM generator enhances the

R&S®ATSI100 infotainment test system with the capability to perform FM radio tests. The generator module is simply plugged into the system rack. It is controlled via an Ethernet LAN.

Specifications in brief

J

J

Frequency range: 76 MHz to 108 MHz

Output level: –80 dBm to +20 dBm

J

J

J

J

Internal modulation generator: 20 Hz to 15 kHz

External modulation input

Stereo option

RDS option

R&S®ATSI-ISM ISM Generator

For tests in ISM bands

The R&S®ATSI-ISM generator enhances the

R&S®ATSI100 infotainment test system with the capability to perform tests for different applications in ISM/SRD bands (e.g. centralized door locking, auxiliary heating). The generator module is simply plugged into the system rack. It is controlled via an Ethernet LAN.

Specifications in brief

J

Frequency ranges

W

310 MHz to 320 MHz

J

J

W

W

431 MHz to 470 MHz

862 MHz to 920 MHz

Output power: –60 dBm to +20 dBm

Modulation and coding: customizable

R&S®ATSI-ATV Analog TV Generator

For analog TV receiver tests

The R&S®ATSI-ATV generator enhances the

R&S®ATSI100 infotainment test system with the capability to perform analog TV receiver tests.

The generator module is simply plugged into the system rack. It is controlled via an Ethernet LAN.

Specifications in brief

J

Frequency range

W

174 MHz to 225 MHz

J

J

J

J

J

J

J

W

470 MHz to 860 MHz

Level range: −60 dBm to +20 dBm

TV standards: PAL B/G, NTSC M

Internal video generator (color bar)

External video input

Internal audio generator

External audio input

SD card slot for selectable video patterns

11

More information | www.rohde-schwarz.com 155

Modular Instruments

Modules of the R&S®ATSI100 infotainment test system: RF repeaters

R&S®ATSI-GPS1 GPS Repeater

For GPS receiver tests

The R&S®ATSI-GPS1 repeater enhances the

R&S®ATSI100 infotainment test system with the capability to perform GPS receiver tests inside buildings by repeating the GPS signal from an outside reference antenna. The repeater module is simply plugged into the system rack. It is controlled via an Ethernet LAN.

Specifications in brief

J

Output frequency: 1575.42 MHz

J

J

J

Overall gain (selectable): up to 80 dB

Supply voltage for reference antenna

(can be switched on/off): 5 V DC

Overvoltage protection at antenna input

R&S®ATSI-DAB1 DAB Repeater

For digital audio broadcasting tests

The R&S®ATSI-DAB1 repeater enhances the

R&S®ATSI100 infotainment test system with the capability to perform digital audio broadcasting tests. The repeater module is simply plugged into the system rack. It is controlled via an

Ethernet LAN.

Specifications in brief

J

Frequency range

J

J

J

J

W

W

174 MHz to 240 MHz (band III)

1452 MHz to 1491 MHz (L band)

Maximum conversion gain: > 90 dB

Input sensitivity: better than –70 dBm

Output level range: –30 dBm to +20 dBm

Level accuracy: typ. better than 2 dB

R&S®ATSI-DVBT1 DVB-T Repeater

For digital TV tests

The R&S®ATSI-DVBT1 repeater enhances the

R&S®ATSI100 infotainment test system with the capability to perform digital TV tests. The repeater module is simply plugged into the

system rack. It is controlled via an Ethernet LAN.

Specifications in brief

J

Frequency range

J

J

W

W

177.5 MHz to 226.5 MHz

474 MHz to 858 MHz

Input sensitivity: better than –80 dBm

Output level range: –80 dBm to +20 dBm

Modules of the R&S®ATSI100 infotainment test system: monitor module

R&S®ATSI-MON1 Monitor Module

Accurate monitoring of transmitted signals

The R&S®ATSI-MON1 monitor module enhances the R&S®ATSI100 infotainment test system with the capability to accurately monitor different transmitted signals. The monitor antennas and the monitor module are installed in the vicinity of the transmit antenna(s). The monitor module is controlled via an Ethernet LAN.

If multiple module frames are to be monitored, one monitor module per module frame is required.

Specifications in brief

J

Frequency range

W

50 kHz to 1650 kHz

J

J

J

J

J

W

W

W

W

76 MHz to 108 MHz

170 MHz to 240 MHz

470 MHz to 870 MHz

1.45 GHz to 1.5 GHz

Resolution bandwidth: adjustable

Measurement duration: adjustable

Level range: –90 dBm to +13 dBm

Level accuracy: better than 1 dB

6 RF ports

156 Rohde & Schwarz Test & Measurement | Catalog 2012

MK_E.indb 157

Modular Instruments

Modules of the R&S®ATSI100 infotainment test system: software options

R&S®ATSI-K1 Sequence Controller

Easy generation of test cases

J

J

Scheduling of different test cases (e.g. start a GPS test in parallel with an FM test, followed by an AM test)

Repeatable tests

R&S®ATSI-K2 Remote Interface

Command exchange with master process control system

J

J

Remote commands of major process control system suppliers are interpreted

Complete integration into customer's control system (as a slave) by means of

R&S®ATSI-K2

R&S®ATSI-K4 Loudspeaker Test

Testing the correct installation of loudspeakers

J

J

Frequency-selective measurement of sound pressure level (SPL)

Generation of a multi-sine test signal

R&S®ATSI-K5 Audio Analysis

Identification of loudspeaker installation errors

J

J

J

Detection of mechanical defects in acoustic transducers (rub and buzz detection)

Check of the sound system‘s frequency response

Comparison with reference measurements

R&S®ATSI-K7 System Configuration 1

Easy system overview

J

J

J

J

Shortcuts for launching the configuration software of each installed module

Polling and display of the modules‘ status information

E-mail notification in case of malfunction (configurable)

Handling of up to three parameters per module

R&S®ATSI-K8 System Configuration 2

Closed-loop control of all levels

(with monitor module installed)

R&S®ATSI-K12 ISM Interface

Testing of keyless entry, auxiliary heater or other customized

ISM/SRD applications

J

J

J

Programmable by R&S®ATSI-K1 (sequence controller)

Controllable by R&S®ATSI-K2 (remote interface)

Handles up to 32 modules and unlimited parameters

R&S®ATSI-K9 Database Interface

Interface for parameter database

J

Transfer of test parameters to the customer's database (Oracle)

R&S®ATSI-K10 R&S®SFE100 DAB Interface

Integration of the R&S®SFE100 as a digital radio signal source

J

J

Integration of the R&S®SFE100 test transmitter with the R&S®SFE100-K11

T-DMB/DAB option

Digital audio broadcasting signal source

R&S®ATSI-K11 R&S®SFE100 DVB-T Interface

Integration of the R&S®SFE100 as a digital TV signal source

J

J

Integration of the R&S®SFE100 test transmitter with the R&S®SFE100-K1

DVB-T/DVB-H option

Digital video broadcasting signal source

J

J

J

Programmable RF data telegram including header, user data and CRC block

Selectable modulation (FSK, GFSK, ASK, OOK), coding and data bit rate

Programmable telegram timings (pre- and post-delay), telegram repetition

11

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09.11.2011 17:24:13

Broadcasting Test and Measurement Solutions

Chapter 12

Broadcasting Test

and Measurement

Solutions

Broadcasting systems have different capabilities for distributing audio and/or video signals.

Rohde & Schwarz supplies instruments for digital and analog baseband generation, modulation, demodulation and analysis, as well as baseband analysis.

Type Designation Description Page

Video and MPEG TS generation

R&S®DVSG Digital Video Signal Generator

R&S®Stream Libraries

Development and quality assurance of 2D/3D TV displays

Test signal libraries for development, production and testing of TV components

159

160

RF broadcasting signal generation

R&S®SFU

R&S®SFE

R&S®SFE100

R&S®SFC

Broadcast Test System

Broadcast Tester

Test Transmitter

Compact Modulator

Multistandard reference signal generator for R & D

Compact signal generator for digital and analog TV and audio broadcasting

standards

Powerful broadcast signal generator for production test systems

Test signals for TV and audio broadcasting – compact and cost-effective

TV analysis

R&S®ETH

R&S®FSH3-TV

R&S®ETL

Handheld TV Analyzer

Handheld TV Analyzer

TV Analyzer

Portable DVB-T/DVB-H signal analysis up to 3.6 GHz/8 GHz

Universal combined TV and spectrum analyzer from 100 kHz to 3 GHz

Universal multistandard platform for the analysis of TV, mobile TV and FM radio

signals

Professional installation of cable and satellite TV systems and antennas

165

166

167

R&S®EFL240

R&S®EFL340

R&S®EFA

R&S®EFA-K1

Portable TV Test Receiver

TV Test Receiver Family

EFA-SCAN Measurement Software

Comprehensive analysis/demodulation/monitoring of digital/analog TV signals

Fast recording and documentation of measurement values for the R&S®EFA digital test receivers

168

169

169

R&S®BCDRIVE Broadcast Drive Test Software

R&S®TVSCAN

Efficient coverage analysis for terrestrial broadcast signals

Automatic TV Channel Scan Software Quality assessment of multichannel TV signals at cable TV headends or in the field

170

171

161

162

163

164

Video and MPEG TS analysis

R&S®DVMS

R&S®DVM

Digital TV Monitoring System

Digital Video Measurement System

R&S®VEGA Suite Software

R&S®VSA Video Measurement System

Ensuring high quality of digital TV network operation

DTV monitoring and analysis

Detailed media file analysis

Video and FFT analyzer, vectorscope and oscilloscope in one unit

172

173

175

176

158 Rohde & Schwarz Test & Measurement | Catalog 2012

Broadcasting Test and Measurement Solutions

R&S®DVSG Digital Video Signal Generator

Uncompressed, high-precision video and audio

signals

The R&S®DVSG-K10 AV signal generator option makes it

Development and quality assurance of

2D/3D TV displays

The R&S®DVSG digital video signal generator supports the development and quality assurance of latest-generation TV sets and projectors. It is a cost-efficient, one-box solution that generates the audio and video signals required for these tasks.

J

Configurable digital and analog video and audio output

J

HDTV, SDTV and 3D formats up to 1080p according to

HDMI 1.4a

J

J

PC formats up to WUXGA

Reference source for moving sequences

J

J

Preinstalled Konica Minolta analysis software

MPEG-2 transport stream recording and playback possible to test displays with up to 12-bit color depth. The

AV signal generator outputs uncompressed 2D and 3D video content with a maximum resolution of 1080p in line with HDMI 1.4a, and PC resolutions of up to 1920 × 1200

(WUXGA). In addition, Multi-Motion test sequences help enhance picture quality by checking motion blur, deinterlacing and film detection, for example. Comprehensive audio functionalities have been added to the AV signal generator to allow the assessment of sound quality.

Output of compressed live signals

The R&S®DVSG-B30 AV signal player option provides

exactly the type of signals that a display must be able to handle when operated by an end user. The AV signals are generated on the basis of MPEG-2 transport streams. In addition to the large set of signals supplied with the option, users can also use their own recordings of 2D and

3D transport streams. This feature makes it possible to easily simulate any live scenario in the lab.

Recording and playing of transport streams

The R&S®DVSG-K20 TS player and recorder option can

record and play MPEG-2 transport streams. The numerous transport streams supplied with the option are played in a seamless loop. It is also possible to play transport stream recordings of other devices with no problem.

Specifications in brief

R&S®DVSG-K10 AV signal generator

Interfaces

TV resolutions (SD/HD)

VESA resolutions

HDMI 1.4a/DVI, component, composite, SCART, VGA, TS

480i, 576i, 480p, 576p, 720p, 1080i, 1080p, 1470p (3D), 2228p (3D) with flexible timings

VGA, SVGA, XGA, WXGA, SXGA, HD Ready 1, WXGA+, UXGA, WSXGA, WUXGA

Supported color spaces

Color depth

Audio standards and interfaces

Signal libraries

ITU 601/709, sRGB, xvYCC etc. (customizable) up to 12 bit

HDMI, AUDIO DIG OUT with PCM audio for up to 8 channels (customizable) uncompressed 2D and 3D patterns and sequences for luminance and chromaticity, motion blur, deinterlacing and EMC measurements; support of EBU, ITU, ANSI, SMPTE standards; import software for customized signals

R&S®DVSG-K20 TS player and recorder

Interfaces ASI, SMPTE, SPI

Supported standards DVB, ATSC (Mobile DTV), ISDB-T(B), DTMB, CMMB, MediaFLO™

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Broadcasting Test and Measurement Solutions

R&S®Stream Libraries

Test signal libraries for development, production and testing of TV components

Whenever the development, production and testing of TV components or devices is involved, suitable test signals are needed. To meet this need, Rohde & Schwarz offers not only the generators and modulators that are required but also an extensive collection of stream libraries.

Large variety of applications

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Testing of TV sets, set-top boxes and mobile TV handsets

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EMC testing of TV sets

Testing of decoders and encoders

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Testing of analog/digital TV networks and transmitters

Testing of radio receivers

Extensive collection of libraries

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SDTV stream library for DVB and ATSC

HDTV stream library for DVB and ATSC

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H.264 stream library for DVB and ATSC

TCM stream library for DVB and ATSC

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DVB-H stream library

ISDB-T stream libraries for Japanese and Brazilian ISDB-T

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MediaFLO™ stream library

CMMB stream library

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T-DMB and DAB stream library

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DAB+ stream library

Analog video signal library

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ATSC Mobile DTV stream library

T2-MI stream library

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French DMB stream library

Easy generation of transport streams by the user

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Generation of customer-specific transport streams with the R&S®DV-ASC advanced stream combiner software

Rohde & Schwarz customizes baseband streams

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Rohde & Schwarz offers the generation of customerspecific transport streams or analog CCVS signals as a service

Support of numerous transmission standards

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Digital TV

Mobile TV

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Audio broadcasting

Analog TV

High-quality video contents

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High-quality video sequences

Precise test patterns

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Numerous resolutions, including full HD

MPEG-2 and H.264 coding

High-quality audio contents

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Detailed audio signals

Precise test tones

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Surround/multichannel sound

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Various coding methods, including MPEG-4 HE-AAC v2

Efficient use

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Standard-compliant, reliable operation worldwide

Available at the push of a button

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Clear and simple property rights

Comprehensive documentation

160 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®SFU Broadcast Test System

Broadcasting Test and Measurement Solutions

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Wide output frequency range from 100 kHz to 3 GHz

Digital/analog interferer and digital dividend simulation

Realtime transmission simulations

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Bit error ratio (BER) measurement

TS generator, TRP and ETI player, recorder

1 Gsample I/Q arbitrary waveform generator

Fully digital baseband signal processing

Multistandard reference signal generator for R & D

RF signals for a variety of broadcasting transmission standards can be transmitted by the integrated broadcast signal generator over a wide, user-variable frequency range.

All the different standards – for terrestrial, satellite or cable transmission – can be easily loaded into the multistandard broadcast signal generator via software, and an extremely pure spectrum can be generated.

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Multistandard platform

Realtime digital TV, analog TV and audio broadcasting signal generation

Digital and analog transmission standards

Outstanding signal quality

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I/Q modulator with 180 MHz RF bandwidth

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Very low SSB phase noise of typ. –135 dBc at 1 GHz

(20 kHz carrier offset, 1 Hz measurement bandwidth)

High-stability reference oscillator as standard

I/Q signal generator

Customer I/Q waveforms or Rohde & Schwarz waveform libraries for different transmission standards can be replayed with the arbitrary waveform generator.

Channel simulator

Integrated transmission simulators for AWGN, phase noise, impulsive noise and fading, as well as adjacent channel simulations (ACI and CCI) are available for simulating real and, above all, reproducible environmental conditions in the lab.

Specifications in brief

Frequency

Frequency range

Frequency sweep

Operating modes

100 kHz to 3 GHz digital sweep in discrete steps automatic, single shot, manual or

external trigger, linear or logarithmic

Sweep range, step width (lin)

Step width (log)

Level

Maximum level full range

0.01 % to 100 %

With R&S®SFU-B90 option

Level accuracy

VSWR (f ≤ 3 GHz, ALC ON)

Spectral purity

Harmonics

Nonharmonics

(CW, offset > 10 kHz,

200 MHz < f ≤ 1.5 GHz)

Subharmonics

(f > 1.5 GHz to 3.0 GHz)

+13 dBm (PEP),

–120 dBm to +20 dBm

+19 dBm (PEP),

–120 dBm to +30 dBm

< 0.5 dB typ. < 1.4

< –30 dBc

< –80 dBc

< –74 dBc

Wideband noise (offset > 5 MHz,

1 Hz CW, 200 MHz < f ≤ 1.5 GHz

I/Q modulator

< –150 dBc external wideband I/Q, internal baseband I/Q

Transmission standards

Digital TV DVB-T2, DVB-S2, DVB-C2,

DVB-T, DVB-S, DVB-C,

ATSC/8VSB, J.83/B (DOCSIS),

DIRECTV, ISDB-T, ISDB-S, ISDB-C,

DTMB (GB 20600-2006)

Specifications in brief

Analog TV

Mobile TV

Audio broadcasting

B/G, D/K, M/N, L, I, with PAL, SECAM, NTSC

DVB-H, DVB-SH, ATSC-M/H,

MediaFLO™, ISDB-T (1 seg), T-DMB,

CMMB

DAB, DAB+, French DMB,

HD Radio™, DRM, ISDB-T

SB

100 MHz (I/Q wideband ON) Modulation frequency range

Transmission simulations

Interferer management

Interferers

AWGN

Phase noise

Impulsive noise

Fading simulator

Number of paths

BER measurements

Baseband generator

ARB waveform generator

TS generator

TS player

TS recorder

Video signal generator

R&S®SFU-K37 option analog TV, digital TV, cable, satellite, mobile communication standards

(digital dividend)

R&S®SFU-K40 option

R&S®SFU-K41 option

R&S®SFU-K42 option

R&S®SFU-B30 option

20 (40 with R&S®SFU-K31 option)

R&S®SFU-K60 option

R&S®SFU-K35 option

R&S®SFU-K20 option

R&S®SFU-K22 option

R&S®SFU-K21 option included in R&S®SFU-K190 to

R&S®SFU-K194 options

Video signals (ATV video basic) COLORBARS_75 (PAL, NTSC,

SECAM), FUBK (PAL)

ATV video libraries with analog video test signals

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Broadcasting Test and Measurement Solutions

R&S®SFE Broadcast Tester

Compact signal generator for digital and analog TV and audio broadcasting standards

The R&S®SFE is a multistandard signal generator that supports all common TV standards and a number of audio broadcasting standards. Whether analog or digital terrestrial TV, cable, satellite or mobile TV, or sound broadcasting – the R&S®SFE modulates all these signals in realtime.

For this purpose, it combines a high-quality RF modulator, a universal realtime coder and diverse baseband signal sources in a single unit.

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Versatile multistandard signal generator with realtime coding

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High-precision signal generation over wide frequency

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Integrated transport stream generator and audio/video

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Flexible signal generation with ARB waveform generator

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Simulation of multipath propagation and single- frequency networks

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Receiver tests with noise source and BER tester

Compact design and convenient graphical user interface

Specifications in brief

RF signal

Frequency range

Frequency resolution

Level

Level accuracy

Spectral purity

SSB phase noise

Broadband noise

Digital realtime modulation systems

Terrestrial TV

Cable TV

Satellite TV

Mobile TV

Digital audio broadcasting

Analog realtime modulation systems

Analog TV

Analog audio broadcasting

ARB-based modulation systems

Digital audio broadcasting

Digital TV

Baseband signal sources

Transport stream generator

Transport stream player

ARB waveform generator at 300 MHz and 20 kHz carrier offset

> 10 MHz file format data rate (including null packets) file format data rate memory sample rate

Simulation and analysis functions

AWGN generator

Fading simulator

BER measurement

100 kHz to 2.7 GHz

1 Hz

–110 dBm to +15 dBm

< 1.0 dB

< –115 dBc (1 Hz)

< –135 dBc (1 Hz)

DVB-T2, DVB-T, DTMB, ISDB-T, ISDB-T

B

DVB-C2

1)

, DVB-C, J.83/B, ISDB-C

, ATSC/8VSB

DVB-S, DVB-S2, DIRECTV

DVB-H, T-DMB, ISDB-T 1 seg., MediaFLO™, CMMB, ATSC-M/H

DAB, DAB+, ISDB-T

SB

B/G, D/K, I, M/N, L

AM, FM mono, FM stereo with RDS

HD Radio™, DRM, DRM+

1)

DVB-T2, CMMB, MediaFLO™

GTS, Rohde & Schwarz proprietary

100 kbit/s to 214 Mbit/s

TRP, T10, ETI, FLO, MFS, PMS, BIN

100 kbit/s to 90 Mbit/s

256 Msample up to 100 Msample/s signal-to-noise ratio (SNR) number of paths fading profiles

PRBS measurement

–30 dB to +60 dB

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Static, Constant Phase, Pure Doppler, Rayleigh, Rice clock, data, enable inputs

MPEG-2 transport stream measurement ASI input

1)

In preparation.

162 Rohde & Schwarz Test & Measurement | Catalog 2012

Broadcasting Test and Measurement Solutions

R&S®SFE100 Test Transmitter

Powerful broadcast signal generator for production test systems

The R&S®SFE100 is a multistandard test transmitter providing realtime coding for broadcast signals. It supports all common digital and analog TV standards and a number of audio broadcasting standards. Its flexible customization options make the R&S®SFE100 suitable for a wide variety of applications – from production and quality assurance to simple development applications.

Versatile multistandard test transmitter with realtime coding

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Digital and analog TV standards for cable, satellite and terrestrial transmission

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Digital and analog audio broadcasting standards

Realtime signal generation with selectable modulation

J and coding parameters

Standards available as software options

High-precision signal generation over wide frequency and level range

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Frequency range from 100 kHz to 2.7 GHz

Level range from –110 dBm to +15 dBm

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Output power up to 27 dBm with integrated power

amplifier

Extremely short switching times

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Low phase noise and high MER

High-precision modulator (MER typ. +43 dB)

Integrated noise generator

Integrated baseband signal sources

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Transport stream generator, transport stream player and comprehensive test signal libraries

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Audio/video generator with test pattern library for

analog TV

ARB waveform generator with waveform libraries

Digital I/Q input

User-friendly control elements and convenient

remote operation

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Control keys and LC display on front panel

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Local control via USB mouse, USB keyboard and monitor

Remote control and remote operation via LAN

Economical models without local controls

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For all digital or analog standards

Full remote control capability

Optimized for use in production test systems

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Integrated power amplifier for high output levels

Optional RF output on rear

Compatible with Rohde & Schwarz system control software

Low power consumption

Specifications in brief

RF signal

Frequency range

Without power amplifier

With power amplifier

Frequency resolution

Level

Without power amplifier

With power amplifier

100 kHz to 2.7 GHz

47 MHz to 862 MHz

1 Hz

–110 dBm to +15 dBm

+27 dBm, adjustable from 0 dB to 30 dB

Spectral purity

SSB phase noise (at 300 MHz and

20 kHz carrier offset)

< –115 dBc (1 Hz)

Broadband noise (> 10 MHz) < –135 dBc (1 Hz)

Digital realtime modulation systems

Terrestrial TV DVB-T2, DVB-T, DTMB, ISDB-T,

ISDB-T

B

, ATSC/8VSB

Cable TV

Satellite TV

Mobile TV

DVB-C2

1)

, DVB-C, J.83/B, ISDB-C

DVB-S, DVB-S2, DIRECTV

DVB-H, T-DMB, ISDB-T 1 segment,

MediaFLO™, CMMB, ATSC-M/H

Digital audio broadcasting DAB, DAB+, ISDB-T

SB

1)

In preparation.

Specifications in brief

Analog realtime modulation systems

Analog TV

Analog audio broadcasting

ARB-based modulation systems

Digital audio broadcasting

B/G, D/K, I, M/N, L

AM, FM mono, FM stereo with RDS

HD Radio™, DRM, DRM+

1)

Digital TV

Baseband signal sources

DVB-T2, CMMB, MediaFLO™

Transport stream generator

File format Rohde & Schwarz proprietary

Data rate (including null packets) 100 kbit/s to 214 Mbit/s

Transport stream player

File format TRP, T10, ETI, FLO, MFS, PMS, BIN

Data rate

ARB waveform generator

Memory

Sample rate

100 kbit/s to 90 Mbit/s

256 Msample up to 100 Msample/s

Noise generator

AWGN, signal-to-noise ratio (SNR) –30 dB to +60 dB

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Broadcasting Test and Measurement Solutions

R&S®SFC Compact Modulator

Multistandard signal generator with realtime coding

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Digital and analog standards for cable, satellite and

terrestrial TV

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Digital and analog audio broadcasting standards

Realtime signal generation and coding

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Additional standards available as software options

Test signals for TV and audio broadcasting –

compact and cost-effective

The R&S®SFC compact modulator is an economical

multistandard signal source offering realtime coding for all established digital and analog TV and audio broadcasting standards.

Integrated baseband signal sources

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Transport stream player

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Transport stream libraries for digital TV standards

Analog audio/video generator

Test pattern library for analog TV

Simple and convenient remote operation

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Local operation using USB mouse, keyboard and monitor

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Remote control and remote operation via LAN

The 1 HU, ½ 19" instrument is extremely compact and therefore ideal for rack installation in production test systems. Though small in size, the modulator is a full-featured signal generator with integrated transport stream player, audio/video generator and optional noise source, making it very useful for simple applications in development. The

R&S®SFC is controlled using a USB mouse, keyboard and monitor, or via LAN using Remote Desktop. It has the same, well-known graphical user interface as the

R&S®SFU and R&S®SFE. Remote control via SCPI commands is also possible.

Optimized for use in production test systems

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Extremely compact housing, ideal for rack installation

Low power consumption for reduced operating costs

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Compatible with Rohde & Schwarz system control software

Standalone operation without PC possible

Additional functions for professional applications

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Integrated AWGN generator

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ASI transport stream input

Digital I/Q input

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10 MHz reference input

Specifications in brief

RF characteristics

Frequency range

Frequency setting resolution

Level setting range

Modulation systems

Terrestrial TV and mobile TV

Cable TV

Satellite TV

Analog TV

Digital audio broadcasting

Analog audio broadcasting

Additional functionality

Transport stream player

Audio/video generator

AWGN

1)

In preparation.

R&S®SFC base unit with R&S®SFC-K83 option

R&S®SFC base unit with R&S®SFC-K84 option file format file format signal-to-noise ratio (SNR)

30 MHz to 900 MHz

30 MHz to 3000 MHz

1 Hz

–31.5 dBm to 0 dBm RMS for DVB-T

–110 dBm to 0 dBm RMS for DVB-T

DVB-T2, DVB-T, DVB-H, DTMB, CMMB, T-DMB,

ISDB-T, ISDB-T

B

, ISDB-T 1 seg.,

ATSC/8VSB, ATSC-M/H, MediaFLO™

DVB-C2

1)

, DVB-C, ISDB-C, J.83/B

DVB-S2, DVB-S, DIRECTV

B/G, D/K, I, M/N, L

DAB, DAB+, ISDB-T

SB

AM, FM mono, FM stereo with RDS

TRP, T10, ETI, FLO, MFS, PMS, BIN

Rohde & Schwarz proprietary

–30 dB to +60 dB

164 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®ETH Handheld TV Analyzer

Portable digital TV signal analysis up to

3.6 GHz/8 GHz

The R&S®ETH handheld TV analyzer was specially developed for coverage measurements as well as for service and maintenance work on DVB-T, DVB-H and ISDB-T gapfiller and low-power transmitters. The universal capabilities of the R&S®ETH also make it useful in the repair and development of TV components. The R&S®ETH handheld

TV analyzer is the compact combination of a TV analyzer, spectrum analyzer and network analyzer.

Broadcasting Test and Measurement Solutions

Comprehensive TV, spectrum and network analysis functionality

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Measurement of DVB-T, DVB-H and ISDB-T signal

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parameters

Display of constellation diagram, channel impulse

response, OFDM spectrum with shoulder distance and

MER(k)

Wide input level range due to integrated preselection and preamplifier

Full-featured spectrum analyzer

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Network analysis and distance-to-fault measurement by means of integrated tracking generator (option)

Fast and precise measurement due to realtime

demodulation

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Reliable detection of short-time interference

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BER measurement and ASI transport stream output

Optimized for field use

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Compact, lightweight instrument with rugged housing

Splash-proof and dust-proof

Easy-to-replace lithium-ion battery for long battery

operating time

Frequency correction and positioning via GPS

Easy operation and convenient data exchange with PC

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Reproducible measurements using user-specific

measurement profiles, transducers and cable models

Storage of measurement data in internal memory, on

SD card or USB memory stick

R&S®ETHView PC software for configuring channel

tables, limit tables and measurement profiles and for transferring measured data to PC via LAN or USB

Specifications in brief

DVB-T/DVB-H receiver (R&S®ETH-K140 option) and ISDB-T receiver (R&S®ETH-K160 option)

Quasi-error-free input level range

Inherent modulation error ratio (MER)

Phase noise

Third-order intermodulation (TOI)

RF = 500 MHz, RF preselection ON typ. –76 dBm to +10 dBm

RF = 500 MHz, RF preselection OFF, level = –30 dBm > 43 dB, typ. 46 dB

RF = 500 MHz, RF preselection ON, level = –45 dBm > 41 dB, typ. 44 dB

RF = 500 MHz, Δf = 30 kHz < 98 dBc (1 Hz)

RF = 500 MHz, Δf = 100 kHz

RF = 500 MHz, Δf = 1 MHz

0 dB RF attenuation, RF preselection OFF

< 100 dBc (1 Hz)

< 125 dBc (1 Hz) typ. +7 dBm typ. –6 dBm 0 dB RF attenuation, RF preselection ON

Spectrum analysis

Displayed average noise level (DANL) 10 MHz < RF < 2 GHz, 0 dB RF attenuation

RF preselection OFF

RF preselection ON

Resolution bandwidths

Video bandwidths

Network analysis

Tracking generator output level

Data points

Dynamic range for transmission measurements 300 kHz to 3.6 GHz typ. –156 dBm (1 Hz) typ. –165 dBm (1 Hz)

100 Hz to 3 MHz in 1/3 sequence

10 Hz to 3 MHz in 1/3 sequence

–40 dBm to 0 dBm in 1 dB steps

631

> 70 dB, typ. 90 dB

More information | www.rohde-schwarz.com 165

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Broadcasting Test and Measurement Solutions

R&S®FSH3-TV Handheld TV Analyzer

Universal combined TV and spectrum analyzer from

100 kHz to 3 GHz

The R&S®FSH 3-TV handheld TV analyzer combines the functions and features of a complete spectrum analyzer with those of a TV test receiver in a single measurement instrument. It can be taken wherever needed and is ideal for technicians who perform measurements on site, e.g. during new installations or maintenance/repair on components of TV cable networks and transmitters.

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Measurement functions for analog and digital TV signals

Full-featured spectrum analyzer

Combined video/ASI output

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Compact and robust housing

Four hours operating time on battery power

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Wide selection of accessories for diverse measurement

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Preselector option with 75 Ω RF input

Robust and portable

The instrument‘s compact housing is designed for portable use. Its robust edge protection and RF connector covers safeguard the R&S®FSH3-TV against mechanical and weather-related conditions. The R&S®FSH3-TV weighs only

2.8 kg. The powerful, built-in NiMH battery can power the instrument for up to four hours, providing reliable operation even at remote locations.

Well-equipped

The R&S®FSH3-TV comes equipped with a TV board, a preamplifier and a tracking generator. The TV board permits the measurement and demodulation of analog TV signals.

The demodulated video signal, which is made available at an output that can be used either as a CCVS (analog

TV) or as a TS-ASI (digital TV) output, can be routed to an external monitor or an MPEG decoder. The supplied headphones can be used to listen to the sound of the analog

TV signal.

Optional accessories

Numerous accessories that add a wide variety of capabilities to the R&S®FSH3-TV are available, e.g. options for performing distance-to-fault measurements and measurements on digital TV signals. With the vector transmission measurement option, the ¸FSH3-TV can also be used in development and service.

Specifications in brief

Spectrum analyzer

Frequency range

Resolution bandwidths

Video bandwidths

Displayed average noise level (DANL)

Third-order intermodulation (TOI)

SSB phase noise

Sweep at span = 0 Hz

Detectors

Level measurement uncertainty

100 kHz to 3 GHz

100 Hz to 1 MHz

10 Hz to 1 MHz typ. –135 dBm (100 Hz) typ. 13 dBm

Reference level –80 dBm to +20 dBm

Digital TV receiver (R&S®FSHTV-K21 for QAM, R&S®FSHTV-K22 for 8VSB)

Modulation methods

Bandwidths, depending on standard

4, 16, 32, 64, 128 and 256QAM, 8VSB

6 MHz, 7 MHz and 8 MHz

Symbol rate

Inherent MER (equalizer ON)

Analog TV receiver

Standards

< –100 dBc (1 Hz) at 100 kHz from carrier

100 µs to 100 s

Sample, Max/Min Peak, Auto Peak, RMS

< 1.5 dB, typ. 0.5 dB

2 MHz to 6.999 MHz/10.762238 MHz

> 35 dB

B, G, H, D, K, I, L, M, N

Sound standards

Video bandwidths

Inherent S/N video, weighted in line with ITU-R Rec. 567

IRT-A2, NICAM, BTSC, EIA-J depending on standard

> 50 dB

166 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®ETL TV Analyzer

Broadcasting Test and Measurement Solutions

Main applications

Acceptance testing, maintenance and servicing of TV, mobile TV, DAB and FM transmitters

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Precise analysis of signal quality at transmitter output

Measurements to optimize transmitter operating

parameters

Measurement of spurious emissions

Detection of faults

Documentation of signal parameters

Remote maintenance via IP networks with

Remote Desktop function

Universal multistandard platform for the analysis of

TV, mobile TV, DAB and FM radio signals

The R&S®ETL TV analyzer stands for all-in-one. It combines the functionality of a TV and FM (radio) signal analyzer, a video and MPEG TS analyzer and a spectrum analyzer in a single instrument. The R&S®ETL also contains generators to create analog video signals, audio signals and MPEG-2 transport streams.

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Frequency range from 500 kHz to 3 GHz

TV, FM (radio), video, audio, MPEG-2 transport stream and spectrum analysis in a single box

FPGA and chip-based realtime demodulators for analog

TV, DVB-T, DVB-H, ATSC/8VSB, ATSC Mobile DTV,

ISDB-T

(B)

, DVB-T2, J.83/A/C, DVB-C, J.83/B, DTMB,

T-DMB/DAB and FM (radio)

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Baseband outputs

Preselection with additional 75 Ω RF input

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Video signal generator

Audio signal generator

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MPEG-2 transport stream generator/recorder

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Support of power sensors

DC input and rechargeable Li-ion battery

Quality assurance during the production of modulators and TV, DAB and FM transmitters

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Reproducible analysis of signal quality of modulators and transmitters

Optimization of TV, mobile TV, DAB and FM transmitter networks

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Measurement of receive levels and signal quality at

reception site

Checking and optimization of digital single-frequency networks (SFN)

Systematic determination of receive quality in

transmission area (coverage measurement)

Specifications in brief

Frequency range

Displayed average noise level (DANL)

Level

Inherent modulation error ratio (MER)

Video S/N

General data

Dimensions

Weight

FM (radio)

50 MHz to 3 GHz, preamplifier OFF

500 MHz, preamplifier ON, preselector ON

3 GHz, preamplifier ON, preselector ON quasi-error-free for digital standards depending on transmission modes

T-DMB/DAB with R&S®ETL-B203 preselector, preamplifier ON signal level ≥ –30 dBm, f ≤ 1.3 GHz

DTMB analog TV mode

500 kHz to 3 GHz

75 MHz to 110 MHz

≤ –140 dBm (1 Hz) typ. –166 dBm (1 Hz) typ. –161 dBm (1 Hz)

–90 dBm to +10 dBm

–92 dBm

≥ 40 dB, typ. 46 dB

≥ 34 dB

≥ 60 dB

W × H × D with handle without options

409 mm × 158 mm × 465 mm

(16.1 in × 6.2 in × 18.3 in)

< 9 kg (< 19.8 lb)

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Broadcasting Test and Measurement Solutions

R&S®EFL240/R&S®EFL340 Portable TV Test

Receiver

Extensive measurement functions for cable, satellite and antenna

J

Multistandard test receiver

J

W

Analysis of DVB-T2, DVB-T, DVB-H, DVB-C, DVB-S and

DVB-S2

W

Measurement of constellation, MER(f) and echoes

MPEG decoding and video output

W

W

MPEG-2 and MPEG-4

SD and HD

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Analog TV and FM sound broadcasting

J

W

W

PAL and SECAM

Videoscope functionality

Spectrum measurement with zoom function and

Combo mode

W

W

Spectrum analysis up to 2500 MHz

Spectrum, results and TV picture – all at a glance

Professional installation of cable and satellite

TV systems and antennas

The R&S®EFL240/R&S®EFL340 is a compact, portable

TV test receiver for satellite, cable and terrestrial television.

Its versatile measurement functions and its operating convenience are ideal for the installation of cable TV systems, satellite receiver systems, in-building distribution systems and antennas. Its favorable price makes the test receiver extremely attractive for these applications.

Optimized operating concept for mobile use

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Ergonomic design and easy operation

Independent work in the field

J

W

Automated measurements simplify routine work

Automatic program search

W

W

User-defined measurement sequences

R&S®EFL-Suite software for transferring measurement results to a PC

Measurements during the installation of cable and satellite systems must be fast and simple. The R&S®EFL240/

R&S®EFL340 supports these measurements in various ways: Its clear-cut ergonomic keypad allows intuitive operation. The Scan & Log function and the Macro

Measurement function largely automate frequent measurement tasks. Pre-installed channel tables and transponder lists save the user valuable time when entering

parameters.

Wide range of accessories supplied

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Carrying bag

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Two carrying straps

Rechargeable battery

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Battery charger

Power cable

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12 V car adapter

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RF adapter set

SD card

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J

USB cable

Software and operating manual on CD

J

J

Frequency range from 5 MHz to 2500 MHz

Digital TV level range from 15 dBμV to 130 dBμV

J

MPEG-2 and MPEG-4 decoding

J

J

Common Interface for encrypted programs

LNB and antenna control

J

W

DC via RF socket: 5 V, 13 V, 18 V, 24 V, extra burst of 14 V and 19.5 V

W

22 kHz tone, DiSEqC, SCR

5.7" TFT color display for SD and HD video output

J

Battery operation > 4 hours

Model overview

DVB-T, DVB-H, DVB-C,

DVB-S, DVB-S2

DVB-T2

Analog TV and FM sound broadcasting

MPEG-2 decoding

MPEG-4 decoding

R&S®EFL240

R&S®EFL340

168 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®EFA TV Test Receiver Family

Comprehensive analysis/demodulation/monitoring of digital and analog TV signals

J

High-end test receiver

J

J

High-end demodulator

Models for DVB-T/DVB-H, DVB-C, ATSC, J.83/B and

J

analog TV

Comprehensive measurement and monitoring functions

J

Simple, user-friendly operation

Broadcasting Test and Measurement Solutions

J

Modular design for easy retrofitting of options

J

IEC/IEEE bus and RS-232-C interface

Specifications in brief

Frequency range high-end test receiver 5 MHz to 1000 MHz

Level high-end demodulator 45 MHz to 1000 MHz quasi-error-free for

digital standards

depending on

transmission modes and TV standards

–88 dBm to +20 dBm

Inherent

modulation error ratio (MER) signal level ≥ –40 dBm

Video S/N

W

Dimensions

Weight high-end test receiver ≥ 41 dB high-end demodulator ≥ 42 dB analog TV mode high-end test receiver ≥ 64 dB (typ. 66 dB) high-end demodulator ≥ 67 dB (typ. 70 dB)

W × H × D 435 mm × 147 mm × 460 mm

(17.1 in × 5.8 in × 18.1 in) depending on options approx. 12 kg (26.5 lb)

MK_E.indb 169

R&S®EFA-K1

EFA-SCAN Measurement Software

Fast recording and documentation of measurement values for the R&S®EFA digital test receivers

J

J

Repeated measurements in any number of loops

Use for R&S®EFA .2x/4x/5x/6x/7x models

J

J

PC connection via RS-232-C, IEC/IEEE bus, TCP/IP

Runs on any PC under Windows

Easy operation

J

A sequence of registers in the entry dialog specifies the

J steps that need to be carried out one after the other

Clearly arranged dialog window helps users to define the

J measurement task at hand

User-defined measurement parameter handling:

W

W

W

Only to be displayed

Only stored to a file

Displayed and stored

Two measurement modes

J

Measurements are started at a keystroke

J

Snapshot mode

J

W

Snapshot mode processes previously defined frequency list just once

W

Run mode

Run mode is cyclically performed until the

W

measurements are explicitly stopped

Measurement values obtained in this way are displayed in tables for each frequency

12

Convenient data storage

J

Easy storage of measurement values in CSV format

(comma-separated values)

J

Commonly used CSV file format enables data to be

ported to Excel or a database, for example

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09.11.2011 17:24:19

Broadcasting Test and Measurement Solutions

R&S®BCDRIVE

Broadcast Drive Test Software

Efficient coverage analysis for terrestrial broadcast signals

Reliable coverage of specific regions is of central importance for terrestrial broadcast network operators. A series of real field measurements are needed after commissioning to verify that the planned network coverage was achieved.

The R&S®BCDRIVE broadcast drive test software manages this task quickly with a minimum of resources. Depending on the number of frequencies to be measured in parallel, the program can control one or more R&S®ETL or

R&S®ETH TV analyzers to quickly and accurately perform the measurements needed for quality assessment and root cause analysis in accordance with a variety of terrestrial broadcast standards. The R&S®ETL can run the software directly, avoiding the need for an additional control computer. All that is needed are a USB GPS receiver and the corresponding antennas.

J

Support of all relevant measurements in accordance with

J

J

J a variety of terrestrial broadcast standards

Highly informative output through precise signal quality recording every second using the R&S®ETL or R&S®ETH

TV analyzer

Effi cient drive tests through intuitive program operation and measurement of multiple frequencies in parallel

Effective conversion of test results for Google Earth, or alternatively in CSV format for maximum fl exibility

System overview

GPS signal Broadcast signal(s)

One or more R&S®ETL or R&S®ETH TV analyzers and a GPS receiver

¸BCDRIVE broadcast drive test software

Effective analysis with a Google Earth file

Individual analysis with a spreadsheet file

170 Rohde & Schwarz Test & Measurement | Catalog 2012

MK_E.indb 170 09.11.2011 17:24:21

R&S®TVSCAN Automatic TV Channel Scan Software

Broadcasting Test and Measurement Solutions

MK_E.indb 171

Quality assessment of multichannel TV signals at cable TV headends or in the field

The R&S®TVSCAN automatic TV channel scan software allows fast acquisition of quality parameters of multichannel TV signals such as used at cable TV headends. The software can also effectively measure the transmission parameters of terrestrial TV signals, allowing users to

assess their quality. R&S®TVSCAN can be used with the

R&S®ETL TV analyzer, the R&S®FSH3-TV TV analyzer and

the R&S®EFA TV test receiver.

R&S®TVSCAN performs sequential measurements on multiple TV channels. For these measurements, the software relies on channel tables and suitable measurement profiles, both of which can easily be created and changed by the user.

The results of a measurement sequence are clearly presented in a matrix. Critical results are highlighted in color.

Predefined channel tables, measurement profiles and

automated measurement sequences save time and deliver reproducible results at all times.

J

J

Automated measurements on multichannel TV signals

Quick overview of measured quality parameters

J

J

Comparison of current and previous measurement values

Measurements for analog TV, DVB-C, J.83/A, J.83/B,

J

DVB-T and DVB-T2

Usable with the R&S®ETL, R&S®FSH3-TV and R&S®EFA

12

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09.11.2011 17:24:22

Broadcasting Test and Measurement Solutions

R&S®DVMS Digital TV Monitoring System

R&S®DVMS1.

All relevant errors at the RF and TS level are recognized and reported immediately. Thumbnail display and electronic program guide (EPG) simplify visual monitoring of the transmitted contents. Remote access is supported via an integrated web server allowing independent, simultaneous access from different locations. SNMP and SNMP traps are supported for integration into central network management systems.

R&S®DVMS4.

Ensuring high quality of digital TV network operation

The R&S®DVMS family is a professional, attractively priced and compact solution for monitoring digital TV networks.

It includes the R&S®DVMS1 and the R&S®DVMS4. Typical fields of applications for the R&S®DVMS family are signal monitoring at the transmitter site, the satellite uplink or the headend.

High-quality analysis functions and easy-to-understand displays complement the system‘s extensive array of monitoring functions. The analysis functions include program clock reference (PCR) analysis and buffer analysis as well as functions for multimedia home platform (MHP), system software update (SSU) and DVB-H, including the electronic service guide (ESG). As a result, the R&S®DVMS is also ideal for troubleshooting, for example at a multiplex center or headend. Due to its small size, the R&S®DVMS1 in particular is a versatile and valuable tool for development.

The R&S®DVMS1 (1 HU, ½ rack width) makes it possible to simultaneously monitor an RF signal and a transport stream. The R&S®DVMS4 (1 HU) allows simultaneous monitoring of up to four RF/TS signals. Interface modules for DVB-T/DVB-H, DVB-T2 and DVB-S/DVB-S2 as well as exclusively for transport streams are available.

J

J

Simultaneous monitoring of up to four signals

RF modules for DVB-T/DVB-H, DVB-T2 and

J

DVB-S/DVB-S2

Support for DVB/T2-MI, ATSC and ISDB-T/ISDB-T

B

specific TS characteristics

J

J

Optional functions for detailed analysis

Modular and extremely compact design (1 HU)

J

IP module for optical and electric networks

Comparison of models

R&S®DVMS1

Number of module slots 1

Maximum number of

simultaneously monitored inputs

2 (1 × TS and

1 × RF input)

TS interfaces integrated in base unit

Total maximum bit rates of all inputs used

82 Mbit/s

Integrated display

Width

½ rack

R&S®DVMS4

4

4 (TS and RF inputs in any combination)

4

360 Mbit/s yes

1 rack

Signal monitoring at the transmitter site

T2-MI (IP or ASI)

DVB-T2

TX

IP or ASI DVB-T2

Network

Remote operation and SNMP Local operation

172 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®DVM Family

Broadcasting Test and Measurement Solutions

The R&S®DVM family consists of four base units and one expansion unit, all of which have extremely compact designs. All four base units can be configured in accordance with customer requirements and expanded whenever necessary.

Multiple RF, IP and transport stream signals can be monitored and analyzed simultaneously. For example, up to four RF signals can be monitored in a single height unit at the same time.

DTV monitoring and analysis

The R&S®DVM family of instruments combines the tools needed for all monitoring and analysis applications in the area of digital television signal generation and distribution.

An extensive range of analysis tools is available to support the development and testing of digital television equipment such as multiplexers, encoders, modulators and associated components.

Extensive testing can be carried out on a variety of data services such as videotext, subtitles, system software updates (SSU) and DVB-H signals including electronic service guide (ESG). Video and audio elementary streams

(MPEG-2, MPEG-4/AVC/H.264, AAC and AC-3) are analyzed using special software tools.

J

J

Minimal installation effort due to low space requirements and combination of various functions in one instrument

Minimal training required due to intuitive operating

concept

J

J

Cost-effective and future-ready modular design

Portable and simple operation due to small, lightweight design and integrated display (R&S®DVM400)

A hardware decoder processes SD and HD signals coded with either MPEG-2 or MPEG-4/AVC/H.264 to enable the fast and simple analysis of various video formats. Using the qPSNR analysis, the encoding quality of these video signals is also tested and visualized in realtime.

R&S®DVM400 Digital Video Measurement System

Universal and portable

J

Broadest scope of functions – ideal for development and

J maintenance

Monitoring/analysis of transport streams and contents

J

J

J

J

Monitoring, analysis and demodulation of RF signals of various standards

Monitoring, analysis and transcoding of IPTV signals

(Gigabit Ethernet)

Powerful generator and recorder options with extensive

TS libraries and TS multiplexer software

Simultaneous operation of multiple functions

J

Small and lightweight, therefore ideal for portable

applications

R&S®DVM100L MPEG-2 Monitoring System

The space saver

J

Ideal for network operators and program providers

J

Monitoring/analysis of transport streams and contents

J

J

Monitoring, analysis and demodulation of RF signals of various standards

Monitoring of up to 20 signals in one system when

expanded with the R&S®DVM120

12

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Broadcasting Test and Measurement Solutions

Base units

R&S®DVM50 MPEG-2 Monitoring System

The starter package

J

Particularly cost-effective solution for all monitoring

J

J and analysis tasks, including in the lab, for service

applications or unattended in the field

Monitoring/analysis of transport streams and contents

Monitoring, analysis and demodulation of RF signals of

J various standards

Operation via external PC

R&S®DVM50

1)

R&S®DVM120 MPEG-2 Monitoring System

The expansion unit

J

Add-on to the R&S®DVM100L and R&S®DVM400 for

simultaneous monitoring of more than four signals in

J one system

Integration into the base unit user interface

R&S®DVM100L R&S®DVM400

Expansion unit

R&S®DVM120

Height

Number of transport streams that can be

monitored in parallel

Number of RF signals that can be

demodulated and monitored in parallel

Expansion by the R&S®DVM120 for a total of:

Local operation

1 HU

1 to 4

1 to 4

PC required

1 HU

1 to 4

4 HU

1 to 4

1 to 2 1 to 4

20 TS and 18 RF inputs 20 TS and 20 RF inputs –

1 HU

1 to 4 (with RF inputs),

1 to 8 (without RF inputs)

1 to 4 via external monitor, external keyboard and mouse

Remote operation via web server

SNMP (incl. traps)

Alarm relays

TS monitoring and analysis including

TS capture

ES and data service analysis

Streaming function

Software decoder

Hardware decoder with various interfaces

• via PC interface

Recorder and generator options

Gigabit Ethernet/IP interface, monitoring functions and transcoding

Reference clock input

SPI input and output

1)

The operation of the R&S®DVM50 requires a PC. Some of the functions specified are only available via the PC.

• integrated color display, keys and rotary knob; if necessary, external mouse and keyboard

• via base units via base units via base units via base units

• via base units

174 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®VEGA Suite Software

Broadcasting Test and Measurement Solutions

MK_E.indb 175

Detailed media file analysis

R&S®VEGA Suite contains software tools for in-depth offline analysis of media files on a PC. Since it supports the latest standards and technologies, it is ideal for developers of DTV components and devices who can use it to check that their products are standard-compliant, for quality

assurance testing and to improve performance. Broadcast operators and service providers can use this software to find deep-lying signal errors and optimize content.

Many video formats can be analyzed, including H.264,

H.264 SVC, H.264 MVC and VC-1. Supported audio formats include MPEG and a number of Dolby standards.

Data streams such as teletext, DVB subtitling, closed

captioning and EPG can also be analyzed.

R&S®VEGA Suite consists of three products.

R&S®VEGA-H264 is for detailed analysis of video and audio signals. R&S®VEGA-TSA is for analyzing MPEG-2 transport streams and MXF files. R&S®VEGA-SYNC is for checking audio-video synchronization.

J

J

Support of the latest standards and technologies

Detailed analysis capabilities

J

J

Comprehensive visualization functions

Batch mode for checking multiple files

(R&S®VEGA-K11 option)

In-depth audio and video analysis – R&S®VEGA-H264

J

J

J

Support of broad range of DTV standards

Extensive video analysis functions

J

J

Extensive audio analysis functions

Support of several data applications

J

Automated analysis of multiple files – batch mode

(R&S®VEGA-K11)

Comparison of two video signals – video comparator

(R&S®VEGA-K13)

Comprehensive MPEG-2 transport stream analysis –

R&S®VEGA-TSA

J

Extensive analysis functions (MPEG-2 transport streams)

J

Support of characteristics specific to various digital

TV standards

J

J

Special analysis features for data services

Comprehensive analysis of MXF streams

J

Support of PCAP files

Precise audio-video synchronization analysis –

R&S®VEGA-SYNC

J

J

Support of numerous standards

Extensive analysis functions

12

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09.11.2011 17:24:26

Broadcasting Test and Measurement Solutions

R&S®VSA Video Measurement System

The R&S®VSA video measurement system provides several functions in a minimum of space:

J

Video and FFT analyzer

J

J

Three-channel oscilloscope

Vectorscope

J

J

Monitor

System controller

The R&S®VSA is suitable for a wide variety of applications:

J

In labs and service centers

J

J

In automatic measuring and monitoring systems

In production and quality assurance of video equipment

Video and FFT analyzer, vectorscope and

oscilloscope in one unit

The great versatility of the R&S®VSA video measurement system makes it suitable for a wide range of applications.

Users in both laboratory and service environments will value the comprehensive measurement capabilities as well as the operating convenience of the integrated instruments.

The R&S®VSA also offers the following features:

J

Four loop-through video signal inputs with analog

J

9 MHz bandwidth

Convenient menu-driven user interface

J

IEC/IEEE bus controller

J

J

Two serial interfaces (RS-232-C)

SCPI remote control via IEC/IEEE bus or serial interface

J

Hard disk for storing results and application programs

The integrated PC makes the R&S®VSA ideal for use as an automatic test and monitoring system, e.g. for TV transmitters or cable networks. No external controller is required for system control. An integrated hard disk allows a large number of measurement results and graphics to be stored for later evaluation.

Available functions for different signal types

Video and

FFT analyzer

3-channel oscilloscope

Vectorscope Control monitor

CCVS

R/G/B

1)

Y/Cb/Cr

Y/U/V

S-VHS

1)

1)

1)

1)

2)

2)

2)

• •

3)

3) same as CCVS (signals added) or RGB (signals separated)

For the production of video equipment, the R&S®VSA offers unrivaled measurement speed. Results are computed virtually in realtime even if long test reports are called for, and this considerably reduces time and costs.

Specifications in brief

Frequency range

Standard

Signal inputs

Video inputs

Level

Return loss up to 6 MHz

Return loss up to 10 MHz

Decoupling of inputs up to 10 MHz

DC input

Level

Signal outputs

Zero-reference control pulse, 75 Ω

Level

Line position and duration

Interfaces

Remote control

Printer

External monitor

External keyboard

Display

4) SECAM without color subcarrier measurements.

1)

Only one component at a time.

2) Requires sync pulse in the signal or via an additional sync signal.

3)

Only for Y component.

0 Hz to 9 MHz

B/G, I, D/K, PAL, SECAM

4)

, NTSC (R&S®VSA-B1 option)

75 Ω loop-through filters

1 V ± 6 dB

> 40 dB

> 36 dB

> 85 dB

1 MΩ

±5 V

1.4 V adjustable

IEC 625-2/IEEE 488.2, 2 × RS-232-C (9-contact) parallel interface (Centronics)

640 × 480 pixel, VGA color monitor

PC AT keyboard

640 × 480 pixel, color TFT

176 Rohde & Schwarz Test & Measurement | Catalog 2012

Chapter 13

System Components

For demanding computational tasks, Rohde & Schwarz offers system controllers, switch units and test chambers that are versatile and flexible in everyday use. Excellent EMC shielding, reliable test results and modular solutions are core benefits of these

instruments.

System Components

Type

R&S®OSP

R&S®IQR

R&S®RSC

Designation

Open Switch and Control Platform

I/Q Data Recorder

Step Attenuator

Description

Modular solution for RF switch and control tasks

Realtime recording and streaming of digital I/Q data

Precise signal levels and high repeatability

Page

178

180

181

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13

System Components

R&S®OSP Open Switch and Control

Platform

controlling switch and control modules and makes high- performance external interfaces available.

Powerful control and RF relay modules

The switch and control modules are inserted into the three rear module slots. The versatile 18 GHz or 40 GHz RF relay modules, 6 GHz semiconductor relay modules and digital input/output modules as well as modules with terminated relays can be combined as required, allowing users to configure the R&S®OSP cost-efficiently according to the

application.

Modular solution for RF switch and control tasks

The R&S®OSP open switch and control platform is a modular platform designed to handle RF switch and control tasks. A number of optional modules make the R&S®OSP ideal for a wide range of applications from simple RF switch functions to automatic path switchover in complex

RF test systems such as EMC systems.

Special modules make it easier to implement different switch, input and output functions such as control of external power relays.

Expandability

Up to four R&S®OSP150 extension units can be connected via the CAN bus port of the base units. This allows the range of functions of the base units to be considerably expanded while also making it possible to economically meet increasing requirements at a later point in time.

The R&S®OSP120 and R&S®OSP130 base units can be controlled via Ethernet. The R&S®OSP130 has a display with a control panel. The individual switch and control modules of the R&S®OSP130 and of all connected

R&S®OSP150 extension units can be manually operated using the control panel.

Easy control and system integration

All base units of the platform can be controlled via the

Ethernet interface. This interface makes it possible to

connect the platform directly to a PC, integrate it into test systems or remotely operate it via a corporate network.

Modular, reliable, cost-efficient

The modularity provided by the R&S®OSP family helps ensure the fast setup of test and measurement configurations for applications in production, test labs and development departments. The ability to implement complex wiring by means of a single switch and control platform is an essential prerequisite for reliable and reproducible measurements that can be automated to enable cost-efficient test sequences.

Compact and flexible

The R&S®OSP units are accommodated in a compact

19" wide cabinet of two height units. The sophisticated

CPU control functionality provides maximum flexibility for

Compared to the R&S®OSP120, the R&S®OSP130 also has a control panel with a keyboard for direct manual operation of the R&S®OSP130 and any extension units that are connected. Manual operation of the R&S®OSP120 is possible by connecting an external keyboard and a monitor. The supplied operating software or a web GUI can be used to control the switch and control modules easily and directly without special software knowledge.

Of course, it is also possible to control the platform from application programs such as LabVIEW, LabWindows/CVI,

Agilent VEE, C++, C#, Visual Basic, Visual Basic .NET.

Combinations of the R&S®OSP120 or R&S®OSP130 with the R&S®OSP150

R&S®OSP150

R&S®OSP120 or

R&S®OSP130

CAN bus

CAN bus

Up to four R&S®OSP150 extension units can be cascaded

R&S®OSP150

178 Rohde & Schwarz Test & Measurement | Catalog 2012

Overview of modules

Type Designation of module, characteristics

Universal RF switch modules (with SMA plug)

R&S®OSP-B101 RF switch module, 6 × coaxial changeover relays (SPDT), 0 Hz to 18 GHz, non-terminated

R&S®OSP-B111

R&S®OSP-B102

R&S®OSP-B112

R&S®OSP-B107

R&S®OSP-B121

R&S®OSP-B122

R&S®OSP-B123

1)

RF switch module, 6 × coaxial changeover relays (SPDT), 0 Hz to 40 GHz, non-terminated

RF switch module, 2 × coaxial multiposition relays (SP6T), 0 Hz to 18 GHz, non-terminated

RF switch module, 2 × coaxial multiposition relays (SP6T), 0 Hz to 40 GHz, non-terminated

RF switch module, 6 × coaxial changeover relays (SPDT), SSR, 0 Hz to 6 GHz, non-terminated

RF switch module, 3 × coaxial changeover relays (SPDT), 0 Hz to 18 GHz, terminated

RF switch module, 1 × coaxial multiposition relays (SP6T), 0 Hz to 18 GHz, terminated

RF switch module, 6 × coaxial changeover relays (SPDT), 1 × coaxial multiposition relay (SP6T),

0 Hz to 18 GHz, terminated

R&S®OSP-B124

R&S®OSP-B125

1)

1)

RF switch module, 3 × coaxial changeover relays (SPDT), 2 × coaxial multiposition relays (SP6T),

0 Hz to 18 GHz, terminated

RF switch module, 6 × coaxial changeover relays (SPDT), 3 × coaxial multiposition relays (SP6T),

0 Hz to 18 GHz, terminated

R&S®OSP-B126

1)

RF switch module, 3 × coaxial multiposition relays (SP6T), 0 Hz to 18 GHz, terminated

Special switch modules

R&S®OSP-B106 RF switch module, 3 × coaxial changeover relays (SPDT), N connector (f), 0 Hz to 12 GHz,

3 × changeover relays (SPDT), BNC connector (f), 0 Hz to 900 MHz

R&S®OSP-B104

R&S®OSP-B103

R&S®OSP-B108

Relay driver module, control of four external RF power relays, additional digital inputs/outputs, interlock

Digital I/O module, 16 × digital inputs, 16 × digital outputs

Multiplexer module, 6-channel, 4-wire multiplexer, 0 V to 60 V, 30 VA

System Components

Module width

standard standard standard standard standard standard standard double double triple triple double standard standard standard

1) The R&S®OSP-B122 to R&S®OSP-B126 relay modules can be built in or retrofitted in the R&S®OSP120/130/150 models produced in May 2010 or later.

Rear view of the R&S®OSP

Power switch in addition to standby switch on front

Power supply

100 V to 240 V

3 module slots

CAN bus port for connection between base unit and extension unit

13

Ethernet interface for direct connection to a

PC or for integration into an Ethernet network

(not with the R&S®OSP150)

More information | www.rohde-schwarz.com 179

System Components

R&S®IQR I/Q Data Recorder

Realtime recording and streaming of digital I/Q data

The R&S®IQR is a high-speed recorder for recording and playing digital I/Q data streams. When used in combination with one of the many Rohde & Schwarz instruments that have the R&S®Digital I/Q Interface, the R&S®IQR can store and play data in realtime. The real and imaginary parts of digital I/Q data make it possible to completely describe RF signals.

The R&S®IQR is an ideal storage medium for applications such as providing interference or test signals, drive tests, realtime storage of data when archiving RF signals, and for playing recorded I/Q signals. The I/Q data recorder is well suited for research and development applications, for drive tests when measuring wireless communications and broadcast signals, and for military applications.

J

Recording and playing of digital I/Q data with a sample rate of up to 66.6 Msample/s or up to 270 Mbyte/s

J

2 × 16 bit I/Q data width

J

J

Touchscreen for easy manual operation

Two models for various requirements: R&S®IQR20

J with up to 20 Msample/s and R&S®IQR100 with up to

100 Msample/s depending on the memory packs used

Easily removable memory packs with hard disk drives

(HDDs) for stationary use and with solid state drives

(SSDs) for higher data rates and mobile use

J

More than 3 hours recording of I/Q data with a bandwidth of 20 MHz (e.g. FM radio) when using

J the R&S®IQR-B110 memory pack (1 Tbyte)

Very robust in combination with the R&S®IQR-B110

J

memory pack (SSD, no moving parts as with HDD)

Very compact combination of devices for receiving

J

(R&S®TSMW) and recording (R&S®IQR)

R&S®IQR-K101 option allowing I/Q data recorded with

J the R&S®FSx or R&S®TSMW to be exported for further

processing, e.g. to MATLAB®

R&S®IQR-K102 option for GPS meta data recording, e.g. when performing drive tests with a combination of

J the R&S®TSMW and R&S®IQR

Extensive internal and external trigger modes for

controlling recording and playing

J

Data generator function for generating various data streams (sinewave, squarewave)

Specifications in brief

Data interfaces

DIGITAL IQ IN/OUT

(R&S®Digital I/Q Interface)

I/O 1 to I/O 8

Reference clock

I/Q data

I/Q word size

Sample rate

Data rate no simultaneous data transfer input clock rate output clock rate trigger signals programmable I/O signals (future release) input socket, BNC output socket, BNC

R&S®IQR20

R&S®IQR100

R&S®IQR20

R&S®IQR100

1 × I/Q input, 1 x I/Q output

66 MHz to 100 MHz

100 MHz

8 × BNC sockets for I/O signals, including max. two for trigger signals

2 × 4 programmable I/O

10 MHz

10 MHz

16 bit per channel

1 ksample/s to 20 Msample/s

1 ksample/s to 66 Msample/s

1) up to 80 Mbyte/s up to 270 Mbyte/s 1)

1) Depending on the memory pack used.

180 Rohde & Schwarz Test & Measurement | Catalog 2012

R&S®RSC Step Attenuator

System Components

67 GHz are available to meet the requirements of wireless communications, electronic products and aerospace and defense. The R&S®RSC is available with one internal step attenuator and allows up to four additional external step attenuators to be controlled.

The R&S®RSC offers a wide scope of functions, including frequency response correction and display of attenuation deviation relative to a nominal value. Moreover, it can display an overall attenuation value, taking into account further test setup components such as high-power attenuators. The R&S®RSC covers a broad range of applications from power measurements to high-precision calibration.

Precise signal levels and high repeatability

The R&S®RSC is a switchable, mechanical step attenuator. It is available in various models with different upper frequency limits (6 GHz or 18 GHz), maximum attenuation ranges and minimum settable step sizes. The R&S®RSC can also control external step attenuators with frequency ranges from DC to 40 GHz or 67 GHz.

The R&S®RSC step attenuator is an ideal choice in all

applications that call for precise signal levels. Operation is intuitive, and all settings are visible at a glance. Featuring high attenuation accuracy and high linearity, the R&S®RSC delivers reliable results and ensures stable conditions for the test setup. This simplifies work for developers of

RF components.

In automated test systems, the R&S®RSC stands out for its high repeatability of 0.02 dB, long life and high reliability with specified 10 million switching cycles. Various frequency ranges from DC to 6 GHz, 18 GHz, 40 GHz and

Its low weight and compact dimensions make the

R&S®RSC ideal for flexible applications in the lab. The step attenuator can be manually operated via its front-panel keypad. The built-in screen shows current device settings at a glance. The R&S®RSC takes up just half a rack width

(½ 19"). It can be delivered with RF connectors optionally on the front or rear panel. Various interfaces (IEC/IEEE,

LAN and USB) are available for remote control. These features make the device ideal for system applications as well.

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Step attenuators with frequency ranges up to 6 GHz,

18 GHz, 40 GHz and 67 GHz

Maximum attenuation ranges up to 139.9 dB, 115 dB and 75 dB

Minimum step sizes of 0.1 dB, 1 dB and 5 dB

Control of one internal plus up to four external step

attenuators by a single R&S®RSC

Outstanding accuracy due to frequency response

correction and user calibration

Specifications in brief

Frequency range

Attenuation range

Connectors

Minimum attenuation step size

Matching

Attenuation uncertainty

(relative to attenuation at 0 dB)

Repeatability

Maximum power- handling capability up to up to

CW

Maximum voltage

Operating life

Switching speed

R&S®RSC model .03/.13

DC to 6 GHz

0 dB to 139 dB type N (f)

1 dB

> 20 dB

< 0.2 dB + 1 % of

attenuation value typ. 0.02 dB

1 W

1)

R&S®RSC model .04/.14

0.1 dB

(corrected) pulse < 10 µs 200 W pulse < 10 µs 150 V

> 10 × 10

6

switching cycles

< 25 ms

1)

0 dB to 139.9 dB

< 0.07 dB + 0.5 % of attenuation value

R&S®RSC model .05/.15

DC to 18 GHz

0 dB to 115 dB

5 dB

1)

< 0.6 dB + 1 % of

attenuation value

> 1 × 10

< 30 ms

6

R&S®RSC-Z405 external step

attenuator

DC to 40 GHz

0 dB to 75 dB

2.92 mm (f)

< 0.5 dB

switching cycles

R&S®RSC-Z675 external step

attenuator

DC to 67 GHz

0 dB to 75 dB

1.85 mm (f)

1)

Model .0x: RF connectors on front panel; model .1x: RF connectors on rear panel.

More information | www.rohde-schwarz.com 181

13

Appendix 

Appendix

Service and Support

We are here to assist you – live with real experts.

At Rohde & Schwarz you talk to people.

Description

Rohde & Schwarz worldwide

Service you can rely on

Training and application support

The future lies with systems

Service for systems

Global sales and service locations, trademarks

Index by type

182 Rohde & Schwarz Test & Measurement | Catalog 2012

Page

183

184

186

188

190

191

192

Appendix 

Rohde & Schwarz worldwide

Headquarters

At company headquarters in Munich, around 2000

employees work in research and development, central sales and service, marketing and administration.

Rohde & Schwarz GmbH & Co. KG

Mühldorfstraße 15

D-81671 München

Phone +49 89 41 29 0

Fax +49 89 41 29 121 64 [email protected]

www.rohde-schwarz.com

Plants

Memmingen plant

[email protected]

Teisnach plant

[email protected]

Vimperk plant

[email protected]

Contact

Sales

For the addresses of the local sales companies in more than 70 countries, visit www.sales.rohde-schwarz.com

Subsidiaries

Arpège SAS

[email protected]

Customer support worldwide live support

Whatever problem you have, our support center is there to help you. Your question will be dealt with fast and in detail.

There are three support centers in three different time zones: Munich, Washington and Singapore. Support is available 24 hours a day, Monday through Friday excluding public holidays. The staff of our support center is optimally trained to assist you in solving your problems. Our regional support centers will be glad to answer any questions regarding our products and service:

DVS Digital Video Systems GmbH

[email protected]

GEDIS GmbH

[email protected]

HAMEG Instruments GmbH

[email protected]

Ipoque GmbH

[email protected]

Europe, Africa, Middle East

Phone +49 89 4129 12345 [email protected]

North America

Phone 1 888 TEST RSA (1 888 837 87 72) [email protected]

Latin America

Phone +1 410 910 79 88 [email protected]

R&S Systems GmbH

[email protected]

Rohde & Schwarz SIT GmbH

[email protected]

RPG Radiometer Physics GmbH

[email protected]

S.C. Rohde & Schwarz Topex S.A.

[email protected]

Asia/Pacific

Phone +65 65 13 04 88 [email protected]

China

Phone +86 800 810 8228/+86 400 650 5896 [email protected]

More information | www.rohde-schwarz.com 183

Appendix 

Service you can rely on

Contractually assured services

Rohde & Schwarz offers full-range service at your command. You can mix and match our services according to your technical and budgetary requirements.

Dear Customer,

At first glance, tradition and high-tech don‘t really seem to fit together. Rohde & Schwarz, however, has shown that these two concepts can make a perfect match: For nearly

80 years, it has been the company‘s tradition to explore the limits of what is physically feasible in generating and measuring electronic signals. As a manufacturer, we have always proved that our products comply with the relevant specifications. We provide this proof with the calibration certificate issued by our service centers. As a matter of course, we apply the same high technological and quality standards that we demand of our products. We know that low calibration costs are the crucial factor when it comes to total cost of ownership. And we are also aware of the high demands placed on our equipment and the necessary scope of measurements. Moreover, we will not accept compromises on quality for the sake of costs. This is why we offer efficient, favorably priced calibration solutions to our customers. These solutions are implemented in the test procedures running on our automatic test systems worldwide. Our driving force is your satisfaction over the complete life cycle of our products. This is yet another

tradition at Rohde & Schwarz.

Service contracts

As the original equipment manufacturer (OEM), we provide the most qualified, responsive and thorough service available. Customer care is especially important to us. We support you with services tailored to your needs:

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Short and reliable turnaround times

Efficient logistics for pickup and return of your equipment

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High spare-part availability

Flexible adjustment of terms during the contract period

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Services tailored to your needs

Service options

Service options are powerful service contracts that are

offered exclusively when you purchase a new product.

Taking advantage of a service option ensures optimum performance and availability of your Rohde & Schwarz product at low, predictable operating costs.

Asset management

Our service portal allows you to manage all your measurement instruments serviced by

Rohde & Schwarz. Register for your secure account at http://www.rohde-schwarz.com/service_portal and request access to the service portal. Once your request is processed, you can access the key data of your instruments and check the status of current service jobs

Dr. Klaas Hoekstein

Director of International Service

184 Rohde & Schwarz Test & Measurement | Catalog 2012

Appendix 

Calibration | Repair

Factory standard calibration

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Full calibration (ISO 17025

conformant), returning the

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instrument to the same state as when it originally left the factory

Traceability to national/ international standards

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Certificate and test report

Software updates and hardware modifications included

Instrument adjustment

Accredited calibration

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Same features as factory standard calibration

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Directly traceable calibration in

accordance with ISO 17025

Controlled by national

accreditation authority

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(NIST, DKD/DAkkS)

Certificate and test report

Software updates and hardware modifications included

Instrument adjustment

Performance calibration (only available under service contract)

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Competitive price

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Complete measurement of all specifications as with factory

standard calibration

Certificate and test report

Quality-related software updates and hardware modifications

No instrument adjustments

Adjustment

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Includes adjustment and incoming equipment test report

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Can only be ordered in connection with performance calibration

Standard price repair

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Fixed repair price which covers

J the cost of materials and work

performed

Twelve-month service warranty on the entire equipment (does not

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apply in case of improper handling or alteration of the equipment)

Calibration in line with ISO 9001 including documentation of test results

Latest hardware and software

updates

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Pickup and return of the

equipment (only for shipping by a Rohde & Schwarz logistics partner in the country of the

Rohde & Schwarz service

organization)

If it turns out that only little work and material are needed to eliminate the fault, you pay merely a small lump sum instead of the standard price

Time and material repair

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Repair based on the amount of

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material and work required to

repair the equipment

Twelve-month service warranty on the work performed

Rohde & Schwarz service offers you further

advantages

Service request

Service from the start – higher efficiency, smooth handling and greater visibility through on-line tracking. Just call or visit our website at http://rohde-schwarz.com/RMA to register your instrument. You will immediately receive shipping instructions, the service reference number, preliminary service pricing options and the estimated turnaround time via e-mail.

Service order tracking

The www.servicestatus.rohde-schwarz.com portal allows you to verify the repair or calibration status of your instrument. Service order tracking provides effective transparency. You only need the service reference number and the serial number of your equipment to track its status.

Service for TPM (third party maintenance) products

Rohde & Schwarz also offers the services mentioned here for TPM products.

On-site calibration

You can opt for on-site calibration of your Rohde & Schwarz equipment and TPM products. On-site calibration is convenient and reduces downtime to the absolute minimum.

Various calibrations and minor repairs can be performed at your company; minimum quantities apply.

Pickup service

On request we pick up your equipment at your company.

We can also arrange for the packaging.

Loan equipment

Your local service center can offer a loaner to bridge the repair time – subject to availability.

More information | www.rohde-schwarz.com 185

Appendix 

Training and

application support

The product portfolio of Rohde & Schwarz is accompanied by a comprehensive choice of training seminars and detailed application notes. By offering comprehensive application notes and practice-oriented training, we want to show you how to use our products most effectively. This ranges from first-time users who can choose from detailed introductory courses and practical T & M examples up to seasoned users who can gain deep insight into the numerous – and very special – ways to use the high-performance solutions from Rohde & Schwarz.

Training

The extensive choice of seminars includes everything from standard training classes on numerous topics in radio engineering and test and measurement to practice-oriented product training for Rohde & Schwarz solutions.

If needed, customer-specific training programs designed specially for your wishes and requirements are held in order to achieve optimum benefit for the participants. Skilled trainers convey concise, practice-oriented knowledge at our state-of-the-art, fully equipped training center in

Munich. Alternatively, training can also be held on the customer’s premises or at any other location of choice.

Comprehensive choice of training seminars

Standard seminars

Detailed seminars are offered on

numerous topics in radio engineering and T & M such as RF and EMC testing, as well as classes covering the fields of wireless communications, television and antennas from the

basics up to workshop level.

Customized seminars

Optimum benefit for customers and their participants is the focal point of customer-specific seminars. The training content is tailored specifically to the customer’s wishes and requirements.

Hands-on experience

Practical exercises are an essential part of all seminars to help ensure that the material just learned can be tried out immediately using state-of-the-art test setups. This is crucial for understanding and clarifying the training content in detail.

Small groups

The number of participants is intentionally kept small so that everyone has sufficient time for questions as well as the opportunity to try out the class content in a hands-on environment.

Timetable

Standard training classes are scheduled twice a year. The dates can be viewed on the Rohde & Schwarz homepage. The schedule for customized seminars is drawn up together with the individual customer.

Trainers/training staff

The trainers continuously keep their technical knowledge up to date. They possess not only technical expertise but also the ability to convey it in an understandable and lasting manner.

Location

Classes may be held at the state-ofthe-art training center at company headquarters in Munich. Optionally, seminars can take place on the customer’s premises or at any other suitable location.

Languages

The seminars are conducted either in

German or English. If needed, special training classes can be held in other languages.

Registration and organization

All detailed information regarding the seminars – including class descriptions, registration, cost, procedure and content – is provided on the

Rohde & Schwarz homepage under

Service & Support/Training.

186 Rohde & Schwarz Test & Measurement | Catalog 2012

Appendix 

Limiting the number of participants helps to ensure better communications between participant and trainer. Knowledge is conveyed more intensely, and extra time is available for questions so that the participants can put their newly gained knowledge and skills into practice immediately after the seminar.

Skill and up-to-date knowledge are top priority in all our seminars. The company’s intensive participation in relevant bodies – such as in the standardization of state-of-the-art wireless communications – is reflected in training classes, which are always cutting-edge both in theory and in T & M expertise. Our customers also benefit from this.

Application support

Rohde & Schwarz offers you support for your measurement task no matter which application and which category of industry it involves. We look forward to sharing the knowledge and the experience of our worldwide network of experts with you:

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Local application engineers help you to successfully implement your specific application on site by using

Rohde & Schwarz T & M solutions, and provide guidance services for all T & M matters

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A large number of application notes, often combined with helpful application programs or T & M examples, can be downloaded from www.rohde-schwarz.com/appnote

Abstracts of some popular application notes

Download application notes from: www.rohde-schwarz.com/appnote

Development hints and best practices for using

instrument drivers (1MA153)

To make the programming of your own T & M applications efficient, the Rohde & Schwarz website offers the required device drivers as free-of-charge downloads. Application note 1MA153 provides important hints on how to use these drivers in various development environments and also answers frequently asked questions on how to control the T & M equipment. Therefore, it offers valuable support for application engineers and software developers alike.

RSCommander – versatile software tool for

Rohde & Schwarz instruments (1MA74)

RSCommander is a popular software tool that makes your daily business easier when operating Rohde & Schwarz T & M instruments, and especially when using them via remote control. In addition to many other useful functions, screenshots from T & M instruments can be generated or trace data can be output in

order to process it on your computer. The tool also provides convenient access to the T & M equipment’s file management system.

RSCommander is available for a large number of

Rohde & Schwarz T & M instruments, including signal generators, signal and spectrum analyzers, as well as network analyzers.

LTE base station tests in accordance with TS 36.141

(1MA154 and 1MA162)

Wireless communications networks worldwide are currently being equipped with long term evolution (LTE) technology, which is the follow-up development to the existing UMTS networks and promises even higher data rates for the end customer. These two application notes support developers of LTE base stations with a free-of-charge example program that facilitates the settings of the T & M equipment for all tests required by the standard.

Transmitter and receiver tests in line with the 3GPP TS 36.141 specification are addressed in application note 1MA154, and performance tests in 1MA162.

VoIP measurements for WiMAX™ (1MA149)

Voice quality is a key performance indicator for wireless communications systems and therefore also for the testing of terminal equipment. In the packet-oriented, next-generation wireless communications technologies such as WiMAX™ and LTE, voice over IP is used to transfer speech.

A combination of the R&S®UPV audio analyzer and the

R&S®CMW270 wireless connectivity tester allows the voice and audio quality of a WiMAX™ mobile station to be determined.

Application note 1MA149 describes the steps required for

performing the measurement and for configuring the T & M equipment.

More information | www.rohde-schwarz.com 187

Appendix 

The future lies with systems

Customer-specific solutions are implemented to an increasing extent by integrating measuring instruments and specially developed devices into overall systems.

Rohde & Schwarz has many years of experience implementing turnkey EMC test centers, conformance test systems for mobile phones, mobile test systems for coverage measurements and mobile phone production lines.

Production test systems, board testers – a strong

concept

A development and production chain is only as strong as its weakest links, which used to be highly complex measurement systems and time-consuming final testing. Market launch of the products was often subject to delays.

Today, to reduce test time, production test systems and conformance systems from Rohde & Schwarz can be used wherever electronic equipment is produced. Efficient solutions in this field range from precompliance test equipment through to complete production lines.

The unique Rohde & Schwarz modular hardware and software concept supports a large variety of test combinations for alignment, RF test, optical check, board test, etc.

System applications

In numerous branches of industry, measurements and tests often have to be carried out repeatedly on a series of

DUTs, e.g. in:

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Incoming inspection: component or module tests

Production: automatic alignment

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Quality assurance: testing at the various stages of

production and final testing

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Research and development: series measurements on

prototypes

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Service: long-time measurements (e.g. of temperature) at defined test intervals

Project handling by Rohde & Schwarz

A high-performance measurement system requires extensive development and design efforts. The choice of the right instruments and components as well as their careful installation are essential for the high performance and availability of a system.

Our production test systems are tailored to the needs of the customers and provide overall solutions: measurements with DUT adaptation also in the RF range via test prods; with conveyor belts; networking within user- specific computer networks; logistics; consulting and advice

regarding the selection of suitable tests for optimizing measurement times and test depth.

Conformance test systems for mobile phones and

devices of digital radio networks

Rohde & Schwarz test systems, especially for conformance testing, are at the leading edge in their field. Our customers benefit from this high innovation potential. Specialists at Rohde & Schwarz implemented the latest requirements for conformance measurements in the appropriate test systems using ultramodern measuring equipment from our production.

System design at Rohde & Schwarz ensures full utilization of a large variety of measuring instruments of advanced technology and highest precision from both

Rohde & Schwarz and other manufacturers. System responsibility lies always with Rohde & Schwarz, irrespective of the origin of the measuring equipment and individual system components.

Rohde & Schwarz has experienced and optimally trained staff to implement a project from the initial planning through to the operational system.

Rohde & Schwarz test systems

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Production test systems, board testers

Conformance test systems for mobile phones

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Coverage measurement systems for all modern radio

networks

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EMC test systems and test centers

188 Rohde & Schwarz Test & Measurement | Catalog 2012

Appendix 

This synergy of available equipment and new system applications yields optimum results. For instance, it is possible to achieve maximum test depth while ensuring the highest degree of ergonomics and operational reliability. And another great advantage is self-calibration. Customers can utilize all these benefits to make their products fit for both present-day and future markets.

Rohde & Schwarz also offers test systems for over-the-air

(OTA) performance measurements for characterizing DUTs with built-in antenna as well as systems for measuring ambient electromagnetic fields (EMF).

Future-oriented design

Rohde & Schwarz measurement and test systems feature extremely flexible hardware and software concepts that

allow adaptation to modified requirements at any time.

Coverage measurement systems for all modern radio networks

Rohde & Schwarz test systems are not only used where electronics is produced but also where it is made to

“work“: in mobile radio networks, for instance. Our range of mobile coverage measurement systems ensures full monitoring of analog and digital radio networks as well as smooth, optimal operation.

EMC test systems

Rohde & Schwarz offers complete EMC test systems that can handle all the complex aspects in this field. No matter whether it is about precompliance tests at the manufacturer, acceptance tests in accredited test houses or market monitoring by government authorities, Rohde & Schwarz always provides an appropriate solution ranging from the compact system based on a test cell to the complete test center.

Support

Rohde & Schwarz test stations are powerful instruments for increasing productivity in automated production.

Rohde & Schwarz products include a complete service package, which allows the full performance of the system to be utilized from the very first day. This package includes training, application support, maintenance, fixture design,

24-hour spare parts service and a telephone support line.

References

Rohde & Schwarz measurement and test systems are successfully used all over the world: Tailored to the needs of the customers, the test systems can be found at renowned industrial companies, test houses and government institutes − the impressive list of references can be supplied on request.

Applications

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Commercial

Wireless

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Automotive components

Automotive vehicles

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MIL

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Medical

More information | www.rohde-schwarz.com 189

Appendix 

Service for systems

First-hand service

Rohde & Schwarz systems combine the latest achievements in hardware and software with the know-how and experience gained over many decades. In line with the

Rohde & Schwarz system philosophy, the high level of expertise does not stop with system development but is maintained during the operational life of the systems by means of the services offered.

Enhanced warranty service

The enhanced warranty service supplements the standard warranty services of Rohde & Schwarz to satisfy – even during the warranty period – the high demands placed on system availability and offers a service time of eight hours and defined response time.

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Database-supported information system with direct

customer access

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Telephone support line service

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Access to a pool of spare modules

On-site repair, if necessary

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Escalation procedure

Telephone support, continuous updating of system software, fast replacement and repair of equipment and modules in case of a fault are essential prerequisites for the high availability of an operational system.

Rohde & Schwarz offers complete packages and solutions for servicing the systems. The service concept is of modular structure and consists of unit blocks providing an entire series of services for hardware and software.

After-warranty service

The after-warranty service contains all the unit blocks of the enhanced warranty service plus the following:

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Repair of faults

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Supply of software updates

Calibration service

The calibration service assures you that the parameters of your system will be checked at regular intervals and

corrected if necessary.

Services available during warranty period

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Enhanced warranty service

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Problem report service

Telephone support line service

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Access to a pool of spare modules

Calibration service

Services available after warranty period

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After-warranty service

Problem report service

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W

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Telephone support line service

Access to a pool of spare modules

Software service

Calibration service

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Calibration by an accredited calibration laboratory in line with EN ISO/IEC 17025

Calibration at specified calibration intervals in line with

DIN EN ISO 9001

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Traceability of calibration to national or international

standards

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Calibration reports and certificates

On-site calibration possible

Telephone support line

Repair Support

System

Spare parts Update

Calibration

190 Rohde & Schwarz Test & Measurement | Catalog 2012

Appendix 

Rohde & Schwarz worldwide

Sales level

Sales locations

Service level

Backup service

Area support center

Local service center

Calibration and maintenance with standardized automatic calibration systems

Calibration and maintenance

Maintenance

Canada

Portland

Los Angeles

USA

Dallas

Mexico

Columbia/Maryland

Colombia

Brazil

Chile

Argentina

Uruguay

Finland

Norway

Denmark

United

Kingdom

Netherlands

Belgium

Italy

Czech Republic

France

Switzerland

Austria

Hungary

Slovenia

Romania

Serbia

Ukraine

Bulgaria

Portugal

Spain

Sweden

Estonia

Latvia

Lithuania

Poland

Greece

Turkey

Russian

Federation

Azerbaijan

Malta

Cyprus

Germany

Cologne

Munich

Algeria

Tunisia

Senegal

Ghana

Nigeria

Kazakhstan

Mongolia

Beijing

Syria

Israel

Jordan

Egypt

Iran

Saudi

Arabia

United

Arab

Oman

Emirates

Pakistan

Bangalore

New Delhi

China

Shanghai

India

Shenzhen

Taiwan

Hong Kong

Hyderabad

Vietnam

Thailand

Philippines

South

Korea

Japan

Ethiopia

Kenya

Malaysia Singapore

Tanzania

Indonesia

Australia

South Africa

New Zealand

Trademarks

Trade names are trademarks of the owners

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R&S® is a registered trademark of Rohde & Schwarz GmbH & Co. KG. Example: R&S®FSU spectrum analyzer

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Windows is a registered trademark of Microsoft Corp., USA

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CORBA is a registered trademark of the Object Management Group, Inc.

“WiMAX Forum” is a registered trademark of the WiMAX Forum. “WiMAX”, the WiMAX Forum logo, “WiMAX Forum

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Certified” and the WiMAX Forum Certified logo are trademarks of the WiMAX Forum

The Bluetooth® word mark and logos are registered trademarks owned by Bluetooth SIG, Inc. and any use of such

J marks by Rohde & Schwarz is under license

CDMA2000® is a registered trademark of the Telecommunications Industry Association (TIA - USA)

More information | www.rohde-schwarz.com 191

Appendix 

Index by type

Type

A

R&S® AFQ100A

R&S® AFQ100B

R&S® AFQ-Kxx

R&S® AMU200A

R&S® AMU-Kxx

R&S® ATSI100

R&S® ATSI-AM

R&S® ATSI-ATV

R&S® ATSI-DAB1

R&S® ATSI-DVBT1

R&S® ATSI-FM

R&S® ATSI-GPS1

R&S® ATSI-ISM

R&S® ATSI-K1

R&S® ATSI-K10

R&S® ATSI-K11

R&S® ATSI-K12

R&S® ATSI-K2

R&S® ATSI-K4

R&S® ATSI-K5

R&S® ATSI-K7

R&S® ATSI-K8

R&S® ATSI-K9

R&S® ATSI-MF

R&S® ATSI-MON1

B

R&S® BBA100

R&S® BCDRIVE

C

R&S® CBT/CBT32

R&S® CMS54/57

R&S® CMU200

R&S® CMW-Z10/-Z11

R&S® CMW270

R&S® CMW500

R&S® CMW500-PT

R&S® CompactTSVP

R&S® CRTU-W/G

R&S® CTH

D

R&S® DST200

R&S® DVM

R&S® DVM100L

R&S® DVM120

R&S® DVM400

R&S® DVM50

R&S® DVMS

R&S® DVSG

Designation Data sheet News from Rohde & Schwarz Page

I/Q Modulation Generator

UWB Signal and I/Q Modulation Generator

PD 5214.0799

189, 194, 199

PD 5214.0799

199

Application Firmware Packages for R&S®AFQ generators

Baseband Signal Generator and Fading Simulator

PD 5213.7954

192, 193, 199, 200, 201, 204

Application Firmware Packages for the R&S®AMU200A

Infotainment Test System

AM Generator

Analog TV Generator

PD 5213.8909

PD 5213.9328

PD 5213.9334

204

189

DAB Repeater

DVB-T Repeater

FM Generator

GPS Repeater

ISM Generator

Sequence Controller

R&S®SFE100 DAB Interface

R&S®SFE100 DVB-T Interface

PD 5214.2804

PD 5214.0553 –

PD 5214.1072

189

ISM Interface

Remote Interface

Loudspeaker Test

Audio Analysis

System Configuration 1

System Configuration 2

Database Interface

Module Frame

Monitor Module

189

189

155

157

157

157

156

156

155

156

72

154

155

155

70

70

72

69

157

157

157

155

156

157

157

157

157

Broadband Amplifier

Broadcast Drive Test Software

Bluetooth® Testers

Radiocommunication Service Monitors

Universal Radio Communication Tester

RF Shielding Box and Antenna Coupler

Wireless Connectivity Tester

Wideband Radio Communication Tester

HSPA+ and LTE Protocol Tester

Open Test Platform

Protocol Test Platform

Portable Radio Test Set

RF Diagnostic Chamber

Digital Video Measurement System

MPEG-2 Monitoring System

MPEG-2 Monitoring System

Digital Video Measurement System

MPEG-2 Monitoring System

Digital TV Monitoring System

Digital Video Signal Generator

PD 5214.0753

201

PD 5214.5761

122

170

PD 0758.1287

182, 188, 196, 198

PD 5213.8996

158

PD 0758.0039

165, 167, 168, 169, 170, 171, 173, 174,

175, 177, 179, 182, 186, 187, 188, 189,

190, 191, 193,

PD 5214.0601

PD 5213.8880

195, 197, 199, 200, 201, 202, 203, 204

PD 5213.9211

PD 5214.2833

195, 197, 199, 201, 202, 203, 204

PD 5213.9363

196, 199, 203

PD 5214.2204

180, 186

PD 5213.5574

176, 178, 179, 181, 182, 184, 185, 187,

188, 190, 191, 193, 194, 195, 196, 199

PD 5214.4671

16

14

13

23

11

12

18

148

17

15

PD 5214.3600

201

PD 5213.5274

179, 182, 183, 184, 186, 188, 192, 194,

195, 196, 199

PD 5213.5274

199

PD 5213.5274

179, 199

PD 5213.5274

182, 194, 199

PD 5213.5274

183, 199

PD 5214.4788

202, 203, 204

PD 5213.9892

197, 201

23

173

173

174

173

174

172

159

192 Rohde & Schwarz Test & Measurement | Catalog 2012

Appendix 

Type

E

R&S® EFA

Designation Data sheet News from Rohde & Schwarz Page

R&S®

R&S®

R&S®

R&S®

R&S®

R&S®

R&S®

R&S®

R&S®

R&S®

R&S®

R&S®

EFA-K1

EFL240/EFL340

EMC32

EMF-M

ENV216

ENV4200

ENY21

ENY41

ENY81

ENY81-CA6

ES-SCAN

ESCI

R&S® ESH2-Z2/-Z3

R&S® ESH2-Z31

R&S® ESH2-Z5

R&S® ESH3-Z2

R&S® ESH3-Z6

R&S® ESL

R&S® ESPI

R&S® ESU

R&S® ESV-Z1

R&S® ETH

R&S® ETL

R&S® EVS300

R&S® EX-IQ-BOX

R&S® EXBOX-Kxx

R&S® EZ-12

R&S® EZ-17

R&S® EZ-24

R&S® EZ-25

F

R&S® FMAx

TV Test Receiver Family

EFA-SCAN Measurement Software

Portable TV Test Receiver

EMC Measurement Software Platform

EMF Monitor Station

Two-Line V-Network

200 A Four-Line V-Network

Two-Wire Coupling Network

Four-Wire Coupling Network

Eight-Wire Coupling Network

Eight-Wire Coupling Network for cable category CAT 6

EMI Software

EMI Test Receiver

Voltage Probes

Attenuator

25 A Four-Line V-Network

Pulse Limiter

150 A Single-Line V-Network

EMI Test Receiver

Test Receiver

EMI Test Receiver

VHF Current Probe

Handheld TV Analyzer

TV Analyzer

VOR/ILS Analyzer

PD 0757.5289

178

158

175

PD 0758.1535

158

PD 5214.0430

197

PD 0758.0745

170, 171, 175, 181, 185, 189, 194, 195

PD 5213.6693

190, 192, 193, 195

178

PD 5213.9592

199

PD 5213.7748

193, 195, 196, 198, 199, 200, 202, 203

PD 5213.6070

188, 194, 195, 196, 203

Digital Signal Interface Module

PD 5213.9511

196, 198, 202

Application Firmware Packages for the R&S®EX-IQ-BOX

– 202

Antenna Impedance Converter

Current Probe

Ferrite Clamp

150 kHz Highpass

PD 0758.2254

PD 5213.6835

PD 5214.4836

152, 157, 160, 164, 167, 170, 172, 173,

174, 175, 178, 179, 184, 185, 189, 199

PD 0758.0416

179

PD 5214.6000

PD 5214.0147

172, 178, 179, 184, 186, 191, 198, 201

PD 5213.8715

PD 5214.0299

197

PD 5213.7977

197

PD 5213.9286

PD 5213.9286

PD 5213.9386

197

PD 5214.1772

PD 0758.1558

PD 5214.2762

194, 197

182, 185, 195, 200

PD 0758.2531

178

PD 5213.7919

PD 5213.8144

Modulation Analyzers

PD 0756.9300

PD 0758.0797

PD 0757.0912

PD 0758.1987

196

R&S® FMU36

R&S® FS-K10

R&S® FS-K110

R&S® FS-K130PC

R&S® FS-K15

R&S® FS-K30

R&S® FS-K40

R&S® FS-K7

R&S® FS-K72/-K73/

-K73+/-K74/-K74+

R&S® FS-K76/-K77

R&S® FS-K8

R&S® FS-K82/-K84

R&S® FS-K83/-K85

R&S® FS-K96/-K96PC

R&S® FS-Z10

R&S® FS-Zxx

R&S® FSC

R&S® FSG

Baseband Signal Analyzer

GSM/EDGE/EDGE Evolution Analysis Firmware

TETRA Release 2 Analysis Firmware

Distortion Analysis Software

VOR/ILS Demodulation Firmware

Noise Figure and Gain Measurement Firmware

Phase Noise Measurement Firmware

AM/FM/φM Measurement Demodulation Firmware

WCDMA 3GPP Measurement Firmware

TD-SCDMA Test Firmware

Transmitter Measurements for Bluetooth® V2.0 and EDR

Base Station Test Firmware

Mobile Station Test Firmware

OFDM Vector Signal Analysis Software

Coherence Unit

External Mixers

Spectrum Analyzer

Spectrum Analyzer

PD 5213.7025

PD 5213.0982

PD 5214.1095

PD 5214.4113

PD 5214.0182

PD 0758.0839

PD 0758.2631

PD 0758.2331

PD 0758.2260

193, 196

201

196

182

186, 190, 194

186, 191, 194

174, 175, 181, 182, 190, 191

PD 0758.0880

181, 182, 191

PD 0757.7730

PD 0758.1712

PD 0758.1729

PD 5214.4820

PD 5214.2285

PD 5213.5868

PD 5214.3330

PD 5214.3830

182

175, 181, 182, 191

181, 182, 191

203

182, 194

PD 5213.8721

196, 203

169

57

38

55

47

48

45

49

41

46

53

54

52

43

43

32

50

46

50

51

124

124

125

125

169

168

120

118

125

125

119

111

71

72

126

127

127

165

167

56

128

126

124

113

112

110

126

126

124

126

More information | www.rohde-schwarz.com 193

Appendix 

H

R&S® HE202

R&S® HE302

R&S® HF907

R&S® HFH2-Z2

R&S® HFH2-Z6

R&S® HK116

R&S® HK5000

R&S® HL033

R&S® HL040

R&S® HL046

R&S® HL046E

R&S® HL050

R&S® HL223

R&S® HL562

R&S® HM020

R&S® HZ-10

R&S® HZ-14

R&S® HZ-15

Type

R&S® FSH3-TV

R&S® FSH3/18

R&S® FSH4/8

R&S® FSL

R&S® FSL-K14

R&S® FSL-K30

R&S® FSL-K7

R&S® FSL-K8

R&S® FSMR

R&S® FSQ

R&S® FSQ-K100/-K101/

-K102/-K103/

-K104/-K105

R&S® FSQ-K70

R&S® FSQ-K94

R&S® FSU

R&S® FSUP

R&S® FSV

R&S® FSVR

R&S® FSV-K10

R&S® FSV-K100/-K101/

-K102/-K103/

-K104/-K105

R&S® FSV-K14

R&S® FSV-K30

R&S® FSV-K40

R&S® FSV-K54

R&S® FSV-K7

R&S® FSV-K70

R&S® FSV-K7S

R&S® FSV-K8

R&S® FSV-K83/-K85

R&S® FSW

R&S® FSx-K91/-K91n/

-K91ac

R&S® FSx-K92/-K93

Designation

Handheld TV Analyzer

Handheld Spectrum Analyzer

Data sheet News from Rohde & Schwarz Page

PD 0758.2648

186, 190

166

PD 0758.1593

PD 0758.1735

175, 177, 181, 182, 189, 190, 193

29

Handheld Spectrum Analyzer

Spectrum Analyzer

Spectrogram Measurement Firmware

Noise Figure and Gain Measurement Firmware

PD 5214.0482

198, 199

PD 0758.2790

186, 189, 190, 193, 195

– –

PD 0758.0839

AM/FM/φM Measurement Demodulation Firmware

PD 0758.2331

195

Transmitter Measurements for Bluetooth® V2.0 and EDR

PD 0757.7730

Measuring Receiver

Signal Analyzer

PD 0758.2319

185, 190, 191, 196

PD 0758.0945

174, 178, 180, 181, 182, 183, 184, 185,

186, 187, 190, 191, 193, 196, 203

EUTRA/LTE Signal Analysis Firmware

PD 5213.8521

PD 5213.9186

PD 5214.3281

193, 198

45

46

42

39

30

33

47

47

53

49

52

Vector Signal Analysis Firmware

WiMAX™ MIMO TX Measurement Firmware

Spectrum Analyzer

Signal Source Analyzer

Signal and Spectrum Analyzer

Real-Time Spectrum Analyzer

GSM/EDGE/EDGE Evolution Analysis Firmware

EUTRA/LTE Signal Analysis Firmware

PD 0758.1706

178, 181, 182, 183, 184, 185, 191, 199

PD 5213.8550

PD 5214.1289

PD 0758.0016

170, 171, 174, 175, 181, 182, 183, 184,

185, 186, 187, 189, 190, 191, 194, 196

PD 5213.6729

190, 192, 199

PD 5214.0499

197, 198, 200, 203

PD 5214.3381

202, 203, 204

PD 5214.0447

PD 5213.8521

PD 5213.9186

PD 5214.3281

193, 198

Spectrogram Measurement Firmware

Noise Figure and Gain Measurement Firmware

Phase Noise Measurement Firmware

EMI Measurement Application

– –

PD 5214.1837

PD 5213.9705 –

PD 5214.5661

AM/FM/φM Measurement Demodulation Firmware

Vector Signal Analysis Firmware

PD 5214.0530 –

PD 5214.0599 200, 203

FM Stereo Measurement Firmware

PD 5214.0530 –

Transmitter Measurements for Bluetooth® V2.0 and EDR

PD 0757.7730

Mobile Station Test Firmware

Signal and Spectrum Analyzer

WLAN TX Measurement Firmware

PD 0758.1729

181, 182, 191

PD 5214.5984

204

PD 5214.1450

PD 5214.1989

WiMAX™ TX Measurement Firmware

PD 5213.8550

PD 5214.1466

37

52

40

34

35

46

53

45

48

45

46

47

47

48

54

51

36

51

Active Receiving Dipole

Active Receiving Dipole

Double-Ridged Waveguide Horn Antenna

Loop Antenna

Rod Antenna

Biconical Antenna

EMS Broadband Dipole

Log-Periodic Broadband Antenna

178

178

197

160

199, 200

154, 178, 181

Log-Periodic Broadband Antenna

Log-Periodic Broadband Antenna

High Gain Log-Periodic Antenna

Log-Periodic Antenna

Log-Periodic Antenna

ULTRALOG

Triple-Loop Antenna

Shielded, Calibrated Magnetic Field Pickup Coil (MIL)

PD 5213.6658

PD 0757.0458

178

181, 200

178

165, 178

156, 162, 178

H Near-Field Probe Set

PD 5213.7883

156, 197

Probe Set for E and H Near-Field Emission Measurements PD 5213.6687

197, 198

132

133

132

129

131

131

131

132

129

129

130

133

132

131

133

133

133

130

194 Rohde & Schwarz Test & Measurement | Catalog 2012

Appendix 

Type

R&S® HZ-16

R&S® HZ-9

I

R&S® IQR

M

R&S® MDS-21

N

R&S® NRP2

R&S® NRP-Zxx

R&S® NRP-Z5

R&S® NRPV

R&S® NRT

R&S® NRT-Zxx

R&S® NRV-Zxx

R&S® NRVC

R&S® NRVD

O

R&S® OSP

R

R&S® R-Line

R&S® ROMES2GO

R&S® ROMES4

R&S® ROMES4NPA

R&S® RSC

R&S® RTM

R&S® RTO

S

R&S® SFC

R&S® SFE

R&S® SFE100

R&S® SFU

R&S® SGS100A

R&S® SMA100A

R&S® SMATE200A

R&S® SMB100A

R&S® SMBV100A

R&S® SMC100A

R&S® SMF100A

R&S® SMJ100A

R&S® SMU200A

R&S® SMx-Kxx

R&S® SMZ

R&S® Stream Libraries

T

R&S® T80-K1

R&S® TS-EMF

R&S® TS-ISC

R&S® TS-PAM

R&S® TS-PCA3

R&S® TS-PCAL2

R&S® TS-PDFT

R&S® TS-PFG

R&S® TS-PHDT

Designation

Preamplifier

Power Supply

I/Q Data Recorder

Absorbing Clamp

Power Meter

Power Sensors

Sensor Hub

Virtual Power Meter

Power Reflection Meter

Power Sensors

Power Sensors

Calibration Kit

Dual-Channel Power Meter

Open Switch and Control Platform

Data sheet News from Rohde & Schwarz Page

PD 5213.6687

129

– –

130

PD 5214.4394

202, 204

PD 5213.7919

160

180

128

PD 5213.5539

174, 180, 183, 184, 185, 186, 188, 189,

192, 195, 197, 198, 199, 200

PD 5213.5539

174, 180, 183, 184, 185, 186, 190, 192,

195, 197, 198, 199, 200, 202

PD 5213.5539

202

PD 5214.0018

204

PD 0758.2202

153, 159, 161, 166, 183, 189

PD 0758.2202

161

PD 0758.2248

150, 152, 153, 157, 162, 165, 166, 168,

177, 199

– 157

PD 5213.5551

150, 151, 152, 153, 156, 157, 162, 165,

166, 168, 172, 177

135

135

138

138

139

139

140

141

140

PD 5213.9928

PD 5214.1437

195, 197, 202, 203

178

Compact Test Chamber

3GPP Walk Test Solution

Drive Test Software

Network Problem Analyzer

Step Attenuator

Digital Oscilloscope

Digital Oscilloscope

System Software

Portable EMF Measurement System

In-System Calibration Kit

Signal Analyzer Module

CompactTSVP Test and Measurement Chassis

Calibration Module

Digital Functional Test Module

Function Generator Module

High-Speed Digital Test Module

PD 5214.0253

197

PD 5214.1789

198, 199, 200

PD 5214.2062

192, 193, 194, 195, 197, 198, 199, 200

PD 5214.2062

200

PD 5214.4413

PD 5214.0276

201

PD 5214.2327

201, 202, 204

Compact Modulator

Broadcast Tester

Test Transmitter

Broadcast Test System

SGMA RF Source

Signal Generator

Vector Signal Generator

RF and Microwave Signal Generator

Vector Signal Generator

Signal Generator

Microwave Signal Generator

Vector Signal Generator

PD 5214.5910

PD 5213.8596

194, 197, 198, 199

PD 5213.9234

197, 198, 199

PD 0758.1658

183, 185, 190, 194, 198, 199, 200, 201

PD 5214.5703

204

PD 5213.6412

189, 191, 192, 195, 197, 198, 199, 200

PD 0758.1893

186, 189, 190, 193, 195, 198, 199, 204

PD 5213.8396

194, 195, 197, 198, 199, 203, 204

PD 5214.1114

198, 199, 203, 204

PD 5214.1143

198

PD 5213.7660

192, 194, 197, 199

PD 5213.5074

186, 187, 188, 189, 190, 193, 194, 195,

196, 198, 199, 204

Vector Signal Generator

PD 0758.0197

180, 182, 183, 184, 185, 187, 188, 189,

190, 193, 194, 195, 196, 198, 199, 204

Application Firmware Packages for R&S®SMx generators

Frequency Multiplier

PD 5214.4336

199, 204

204

Test Signal Libraries

PD 5213.7202

173, 177, 188, 190, 198

62

66

67

61

63

64

60

65

164

162

163

161

59

72

68

160

PD 0757.1525

PD 0758.2777

177, 180, 181, 204

PD 5214.1972

PD 0758.0668

180, 186

PD 0758.0597 180

– –

PD 0758.0645

180, 193

PD 0758.0639

180

– 193

123

101

99

100

181

26

25

148

153

151

152

151

115

117

153

152

More information | www.rohde-schwarz.com 195

Appendix 

Type

R&S® TS-PICT

R&S® TS-PIO2

R&S® TS-PIO3B

R&S® TS-PMB

R&S® TS-PSAM

R&S® TS-PSC0

R&S® TS-PSC4C

R&S® TS-PSC5

R&S® TS-PSM1

R&S® TS-PSM2

R&S® TS-PSU

R&S® TS-PSU12

R&S® TS-PTRF

R&S® TS-PWA3

R&S® TS51GA30

R&S® TS6300

R&S® TS6600

R&S® TS6710

R&S® TS712x

R&S® TS895xG/W/GW

R&S® TS8980

R&S® TS8991

R&S® TS8996

R&S® TS9955

R&S® TS9975

R&S® TS9980

R&S® TS9982

R&S® TSMU-Z3

R&S® TSMW

R&S® TSMx

R&S® TSMX-PPS

R&S® TVSCAN

U

R&S® UPP

R&S® UPV

R&S® UPZ

R&S® URE3

V

R&S® VEGA Suite

R&S® VSA

W

R&S® WinIQSIM2™

Z

R&S® ZCAN

R&S® ZNB

R&S® ZNC

R&S® ZV-WRxx

R&S® ZV-Z121/-Z132

R&S® ZV-Z2xx

R&S® ZV-Z5x

R&S® ZV-Z81

R&S® ZV-Z82

R&S® ZVA

R&S® ZVA-Zxx

R&S® ZVAX24

R&S® ZVB

R&S® ZVH

R&S® ZVL

R&S® ZVT

Designation

In-Circuit Test Extension

Data sheet News from Rohde & Schwarz Page

– 180

150

Analog and Digital I/O Module

Digital I/O Module

Switch Matrix Module

Analog Source and Measurement Module

System Controller

System Controller

System Controller

Power Switching Module

Multiplex and Switch Module

Power Supply and Load Module

Power Supply and Load Module

Signal Port and Transmission Module

PowerTSVP Switching Application Chassis

Coverage Suitcase System

ILS Test System

Radar Test Generator

PD 5213.8009

193

PD 5214.2204

PD 0758.0600

180

PD 0758.0580 180

180

– –

PD 5213.6558

PD 5214.0201

PD 5214.2204

PD 0758.0622

180

– –

PD 5214.4342

203

– –

TRM Radar Test System

Shielded RF Test Chambers

GSM/GPRS/EDGE/WCDMA RF Test System Family

RF Test System for LTE and WCDMA

OTA Performance Test System

RSE Test System

High-Performance Drive Test System

EMI Test System

PD 5214.5078

PD 5213.6058 187, 189

PD 0757.6956

174, 178, 181, 187, 194, 196

PD 5214.1150

200, 202, 203

PD 5213.8796

192, 197, 203

– 197

158, 166

152

EMS Test System for Audio and Video and TV Monitoring PD 0757.1525

173, 176, 187

EMS Test System

– –

Coverage Backpack

Universal Radio Network Analyzer

PD 5213.9934

186

197, 200

Radio Network Analyzers

GPS Module

Automatic TV Channel Scan Software

PD 5214.3246

PD 5214.0930

PD 5214.5484

189, 190, 192, 193, 194, 195, 197, 199

115

116

103

97

97

98

171

21

22

102

114

7

23

19

20

148

101

8

9

150

152

152

151

149

149

149

150

151

151

150

149

Audio Analyzer

Audio Analyzer

Audio Switcher

RMS/Peak Voltmeter

Media File Analysis Software

Video Measurement System

Simulation Software

Manual Calibration Kits

Vector Network Analyzer

Vector Network Analyzer

Manual Waveguide Calibration Kits

Manual Calibration Kits

Manual Calibration Kits

Automatic Calibration Units

Switch Matrix

Switch Matrix

Vector Network Analyzer

Millimeter-Wave Converters

Extension Unit

Vector Network Analyzer

Cable and Antenna Analyzer

Vector Network Analyzer

Multiport Vector Network Analyzer

PD 5214.3846

201

PD 0758.1306

183, 185, 186, 187, 193, 196, 197

PD 0758.1170

175, 196

PD 0756.8326

PD 5214.5490

PD 5213.5697

150

PD 5213.7460

159, 168, 171, 173, 204

PD 5214.1950

PD 5214.5384

203

PD 5214.5610

203

PD 5214.0476

PD 5214.0801

– –

PD 0758.2554

188, 189

PD 5213.6864

PD 5213.6870

PD 5213.5680

188, 192, 194, 198, 200, 203

PD 5213.8273

PD 5214.2033

194

PD 5214.2291

200

PD 0758.1529

183

PD 5214.4588

203

PD 5213.8150

193, 200

PD 0758.0651

189, 192, 194, 200

175

176

84

144

143

145

141

95

95

95

94

95

87

88

94

94

89

93

94

91

31

92

90

196 Rohde & Schwarz Test & Measurement | Catalog 2012

Test & Measurement

Catalog 2012

R&S® is a registered trademark of Rohde & Schwarz GmbH & Co. KG

Trade names are trademarks of the owners | Printed in Germany (kr/ft)

PD 5213.7590.42 | Version 01.00 | December 2011

Subject to change

© 2011 Rohde & Schwarz GmbH & Co. KG | 81671 München, Germany

R&S®FSW

Signal and Spectrum Analyzer – setting standards in RF performance and usability

▷ See page 36

R&S®NRP2

Power Meter

R&S®RTO

Digital Oscilloscope

R&S®ZNB

Vector Network Analyzer

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