Search Application Notes & Cards
Learn how to configure Rohde & Schwarz products to fit your application. Search our database by product, technology, or application to find relevant technical documents.
Search Application Notes & Cards
Learn how to configure Rohde & Schwarz products to fit your application. Search our database by product, technology, or application to find relevant technical documents.
734 Results
The option R&S®EMC32-K23 extends the emission measurement of the EMI Auto Test (R&S®EMC32-K10) with 3D measurement capabilities.This extension is useful to display the 3D radiation pattern of each frequency.This Application Notes shows all necessary settings for 3D measurement.
26-Aug-2014 | AN-No. 1SP08
All models of the receiver family ESXS are equipped with a remote-control interface to IEC 625-2 (IEEE 488.2). Via this bus almost all instrument settings can be effected, measurements triggered and test results read in by the PC.
18-Jan-2002 | AN-No. 1EE05
Getting EMI emissions under control is one of those tasks that R&D engineers do not enjoy doing . EMI must often be taken into consideration as early as the design phase, particularly in the case of power electronics systems with increasing switching speeds of wideband gap semiconductors. While EMI receivers or spectrum analyzers are always the preferred choice for these measurements, they are often not available as standard measurement equipment in the R&D lab. To allow optimization early on in the R&D lab, Rohde & Schwarz provides a free tool to simplify conducted emissions debugging using oscilloscopes.
27-Sep-2021 | AN-No. 1SL372
DVB-T can be used for stationary, portable and – using the diversity technique – also mobile reception. Stationary reception via a Gaussian channel and a fixed Yagi antenna on the roof usually poses no problems. This is different with portable reception, for example on a park bench, if there are moving objects in the vicinity of the receiver that has been put up for optimal reception. These may be persons or any kind of vehicles that – while passing by the receiver - generate different types of reflections. With mobile reception, for example when driving on a motorway, poor receiving conditions have the most detrimental effect. Receiving conditions can be considerably improved by employing several antennas, a technique that is referred to as antenna diversity. This application note discusses the improvements that can be achieved with antenna diversity and explains how to simulate a DVB-T channel with the required characteristics by means of TV Test Transmitter R&S SFQ.
31-Jul-2003 | AN-No. 7BM06
This application note describes remote operation or monitoring of the real time spectrum analyzer R&S® FSVR through a standard web browser. The common cross-platform technology Virtual Network Computing (VNC) is used as a server on the instrument.
27-Jul-2010 | AN-No. 1EF74
Spectrum that was previously reserved for TV broadcasting is being freed up in many countries for use under the new Long Term Evolution (LTE) mobile radio standard (keyword: 'digital dividend'). As a result, numerous coexistence scenarios are possible. So network operators and manufacturers from both the mobile radio and the broadcast sector have a vital interest in avoiding any interference and performing in-depth testing of their products. Rohde & Schwarz offers a wideranging product portfolio for such applications. This Application Note presents Test & Measurement equipment for the broadcast and mobile radio sector and discusses some possible test setups.
08-Dec-2011 | AN-No. 1MA176
Frequency converters e.g. in satellite transponders need to be characterized not only in terms of amplitude transmission but also in terms of phase transmission or group delay, especially with the transition to digital modulation schemes. They often do not provide access to the internal local oscillators This application note describes a method using the R&S ZVA to measure group delay of mixers and frequency converters with an embedded local oscillator very accurately. The key aspect of this new technique is, that the network analyzer applies a 2-tone signal to the frequency converter. By measuring the phase differences between the two signals at the input and at the output, it calculates group delay and relative phase between output and input.
27-Aug-2012 | AN-No. 1EZ60
This application note shows how to perform LTE terminal block error rate (BLER) and throughput tests under fading conditions with the R&S®CMW500 Protocol Tester and the R&S®AMU200A Fading Simulator.
27-Mar-2012 | AN-No. 1MA177
This application note explains how to detect, characterize, find and document interferers in cellular networks using the R&S®FSH spectrum analyzer.First it explains how to use the spectrum and interference analysis functions during each step of interference hunting. It also illustrates the explanations with a common interferer example. Then it points out the most common interference sources in cellular networks and gives tips on how to identify them.
21-Oct-2014 | AN-No. 1EF89
This application note explains how to perform LTE base station measurements over the air (OTA) using the R&S®FSH4/8/13/20 handheld spectrum analyzer. It describes the required measurement setup and explains the results obtained with the different measurement modes.
12-Sep-2013 | AN-No. 1EF87
This application notes introduces the Multi-Standard Radio Analyzer function of the R&S®FSW and shows how it performs the measurement on multi-standard radio transmitters. It reveals interactions caused by the coexistence of signals of different cellular standards and localizes the root cause. With an example of a base station signal consisting of three radio access technologies (GSM/WCDMA/LTE FDD) it shows how easy interactions can be found. The R&S®FSW is the ideal tool for trouble shooting tasks with its combination of a large bandwidth and the versatile Multi-Standard Radio Analyzer in one measurement instrument.
17-Jul-2012 | AN-No. 1EF83
3GPP Release 9 Technical Specification (TS) 37.141 covers multistandard radio base station conformance testing. Multistandard radio includes four standards of mobile communications: GSM, WCDMA, TD-SCDMA, and LTE. This application note introduces the concept of multistandard radio base stations as well as solutions for transmitter and receiver tests based on Rohde & Schwarz signal generators and Rohde & Schwarz signal and spectrum analyzers.
06-Jul-2012 | AN-No. 1MA198
The scope of the subject “radar” has expanded in the recent years in terms of its technical evolution and spreading of applications. This application note along with its corresponding white paper 1MA207 show how to use the R&S radar product portfolio to tackle test and measurement tasks in modern radar technology. Target groups are students who want to become familiar with radar issues as well as radar professionals who want to solve certain test and measurement tasks.
10-Aug-2012 | AN-No. 1MA127
This document describes the typical measurements performed on mixers and how they can be implemented on the ZVA Vector Network Analyzer with the ZVA-K4 Frequency Conversion option. The document describes the concept and setups required to perform Conversion Loss, Isolation, Intermodulation and Reflection measurements.
06-May-2009 | AN-No. 1EZ58
This application note gives a short summary on the Allan variance as a measure of frequency stability and an example on how to calculate it, with measurement results from R&S spectrum analyzers. A software program to sample data from R&S spectrum analyzers and calculate the Allan variance is available.
11-Feb-2009 | AN-No. 1EF69
This application note describes how to integrate R&S®ZVA/ZVB/ZVT vector network analyzers with AWR's electronic design automation (EDA) software. Measured data can be exported using the AWR® TestWave™ tool via GPIB/LAN and verified with simulated data. Basic filter design is simplified with the AWR® iFilter™ filter synthesis wizard, an optimization tool that can be introduced to correlate measured data with simulated data.
01-Jun-2010 | AN-No. 1MA163
In environments such as mobile use as well as in service shops and education, spectrum analyzers with dedicated built-in pulsed-signal analysis features are often not available. This paper describes the smartphone app Pulsed RF Calculator that aids in finding the right choice of spectrum analyzer settings to calculate the so-called pulse desensitization for manual compensation of pulsed signal amplitudes. Automatic compensation and many other features necessary for in-depth pulsed signal analysis require the use of dedicated functionalities and are outside the scope of this app.
24-Sep-2015 | AN-No. 1MA240
The 3GPP TS 36.521-1 “Radio transmission and reception” LTE User Equipment (UE) conformance specification defines the measurement procedures for LTE terminals with regard to their transmitting characteristics, receiving characteristics and performance requirements as part of the 3G Long Term Evolution (3G LTE) standard. This application note describes how to use the LTE Frequency Division Duplex (FDD) and Time Division Duplex (TDD) measurement functionality provided by the R&S®CMW500 wideband radio communication tester to perform LTE transmitter and receiver measurements according to this test specification.
17-May-2013 | AN-No. 1CM94
This application note shows how to configure, calibrate and perform conducted EMS (Electro Magnetic Susceptibility) measurements according to IEC / EN 61000-4-6 and EMI (Electro Magnetic Interference) measurements according to CISPR 16-2-1 with the R&S®EMC32 software tool.
19-Jul-2013 | AN-No. 1MA212
Audio Analyzers UPD and UPL with their large variety of functions provide practically all measurement procedures required in audio technology. Thanks to the Universal Sequence Controllers UPD-K1 and UPL-B10, which are available as options, the user is able to considerably expand the range of functions to suit his particular requirements. It is possible, for instance, to add complete measurement functions - eg measurement of ohmic resistance - and to read out, convert or reload sweep results or to add new scale labelling (eg group delay). Another example is the analysis of sweep curves and the display of results in a window next to the curve. As far as softkey labelling and functions are concerned, operation of the sequence control programs is analogous to the softkey control of the UPD/UPL graphics display.
04-Jun-1998 | AN-No. 1GA16
The measurement speed for spurious signal measurements is mainly defined by the spectrum analyzer sweep speed. With traditional swept spectrum analyzers and tight spurious limits the measurement can easily take hours or even a full day. This application note describes the differences in sweep speed between swept spectrum analyzers and modern spectrum analyzers with a wide-band FFT process, and how this improves the measurement speed for general spurious measurement.
10-Jul-2012 | AN-No. 1EF80
For several years, automobile makers and government agencies have sought ways to improve safety on roadways and effectively manage traffic flow. As wireless communication systems are advancing, the vision of automobiles talking to each other and to roadside units is becoming a reality. These planned automotive wireless communication systems are known as ITS (Intelligent Transportation System). This paper will provide an overview of the current status of the ITS worldwide with a focus on the IEEE 802.11p PHY. Additionally, the paper provides information on test and measurement solutions for devices and components used in ITS.
23-Jan-2014 | AN-No. 1MA152
All digital oscilloscopes are temporarily blind. During this blind time the user will miss critical signal events at his device under test. Thus, it is necessary to understand the impact of blind time to the measurement. This application note explains the background of blind time and points out why a high acquisition rate is important. It furthermore explains the R&S RTO oscilloscope capabilities and how they help for faster debugging, measurement and analysis.
17-May-2011 | AN-No. 1ER02
This application note describes the testing of the re-synchronisation capability of DAB receivers according to the European Standard EN 50248 ‘Characteristics of DAB receivers’, using the test system 'Automatic DAB Receiver Test'.
11-Nov-2005 | AN-No. FTK04
Fading is known from shortwave transmission, where the received field strength level may strongly vary due to atmospheric disturbances. In analog TV, the term 'fading' is practically unknown. Rather, one talks of 'antenna shadows' or 'ghost images'. The effect in question, however, is fading, ie constant reflection of the eletromagnetic waves emitted by the TV transmitter by walls of buildings, mountain slopes and similar reflecting natural or artificial obstacles. In analog TV, fading is of minor importance since the effects thereof can be eliminated almost completely through the directivity and exact orientation of the Yagi roof antenna for stationary TV reception at home. [[ br />Fading effects can also be observed in analog cable TV, for example in a block of flats linked to the cable network with one or several antenna sockets in every flat. If the taps for the sockets are not match-terminated, reflections with constant level and constant phase arise which may cause level reductions of several dB at exactly calculable points in the cable. [[ br />Moreover, the reception of TV signals broadcast via satellite can be impaired by fading. A known phenomenon is flickering of the received picture, produced by planes flying past or a drop in receive field strength caused by an approaching thunderstorm. All the above receive conditions have one thing in common: reception is stationary with a direct line of sight to the TV transmitter. [[ br />Looking at receive conditions in DVB, the effects in cable and satellite reception (DVB-C and DVB-S) are found to be similar as in analog reception. In these two modes reception is stationary, too. Terrestrial transmission (DVB-T) not only provides for stationary operation but also for portable and mobile reception. This considerably accentuates the effects of fading. [[ br />In this application note we investigate fading effects in DVB, with the emphasis on those in DVB-T signals.
06-Feb-2001 | AN-No. 7BM05
This application note discusses several basic methods for reading and displaying measurement results from EMI test receivers. The included free programming example is small and easily comprehended, so that users can quickly learn how to program test receivers.
01-Dec-2012 | AN-No. 1MA185
This application note describes the testing of the sensitivity of DAB receivers according to the European Standard EN 50248 ‘Characteristics of DAB receivers’, using the test set 'Automatic DAB Receiver Test'.
11-Nov-2005 | AN-No. FTK03
This application note describes the techniques to measure the dielectric properties of materials using a vector network analyzer. It also shows methods for converting the s-parameters to dielectric properties.
23-May-2012 | AN-No. RAC-0607-0019