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.
1118 Results
Welcome to our short video tutorials on how to test radars using Rohde & Schwarz test equipment. Access to most information about radar is pretty restricted, as many radar applications are military or secretive industrial research. To show you some basic Radar tests we have created RADAR demo tools, which functions at a frequency of 2.45 GHz, which is in the unlicensed 2.4 GHz Industrial, Scientific and Medical band. So we can even perform our tests in unshielded rooms. The frequencies are also used by radar operating in the ITU "S"-band from 2.3 to 2.5 GHz for air traffic control, weather and marine radar. The videos are suitable for 'from-the-scratch' introduction of R&S RADAR test equipment. They can also be used for plain introduction to the RADAR principle.
03-Feb-2014 | AN-No. 1MA209
Increasing demands on power distribution networks have resulted in smaller DC rails, as well as a proliferation of rails that ensure clean power reaches the pins of integrated circuits.
07-Mar-2017
Recent mobile test methods could not evaluate the quality of data reduced speech signals with different coded and decoded signals. The Perceptual Evaluation of Speech Quality (PESQ) provides the solution for this measuring problem. CDMA2000® PESQ is an add-on tool for CMUgo for automatic measurement of the PESQ for CDMA2000® mobile phones according to recommendation ITU-T P.862.1 featuring selectable fading profiles and variable Additional White Gaussian Noise (AWGN).
05-Jan-2012 | AN-No. 1MA136
GPRS (General Packet Radio Service) and EDGE (Enhanced Data Rates for GSM Evolution) provide data capabilities in widely deployed 2G networks reaching peak and average data rates of 384kpbs and 200kbps, respectively. Within 3GPP Release 7, further improvements to GPRS/EDGE have been specified in the context of EDGE evolution. This application note introduces key features of EDGE evolution and outlines the changes to the radio interface.
02-Apr-2008 | AN-No. 1MA129
In general, most of the existing electronic devices are connected to the AC mains and require a power conversion stage to convert the AC-Voltage to a smaller DC-Voltage. Voltages and frequencies of the power grid differ between different regions. However, different types of AC-DC conversion stages exist to supply the electronic equipment with adequate DC-power.In AC-DC conversion combined with power levels less than 50W, the flyback converter is a commonplace chosen topology because of its simplicity and its low cost. The majority of consumer products make use of this converter type like wall brick power supplies or power adapters for any consumer application and other type of stand-by auxiliary power supply like used in white and brown goods. In AC to DC converter application, an electrical isolation between input and output is mandatory. The flyback topology provides this galvanic barrier.Beside the common advantages of a flyback converter, it has inherently parasitic components, which typically produce ringing waveforms with considerably high voltage spikes. Without suppressing this unwanted ringing, it may have some negative effect on other components like the switching elements. This ringing can also influence the EMI emissions adversely. Therefore, it is an important task to adequate suppress and damp the ringing effect. This damping circuit is known as snubber circuit and provides this functionality. In the flyback converter, different snubber structures can be applied and each of the structure has its advantage and disadvantage.The demand having a snubber circuit in the power supply topology leads to specific verification methods during the design to obtain a proper and reliable design. These verification methods are the main focus of the discussions within this document.
23-Jun-2021 | AN-No. 1SL363
The Doherty Amplifier continues to be rolled out in an increasing number of TxFE (Transmit Frontend) applications, as the quasi-linear amplifier architecture of choice.The advent of 5G, with its inevitable microwave or millimeter wave air interface, increase the design challenges associated with its construction; not least of all because of the potential for increased dispersion in the constituent amplifiers and combiners.This application note describes a measurement-based development methodology by which the Doherty Amplifier may be enhanced, increasing performance and/or performance bandwidth. This methodology is supported with a working example.The methodology may also be extended to balanced, spatially combined and anti-phase (so called "pushpull" or "differential") amplifiers, the latter often itself nested in Doherty configurations.The R&S®Quickstep sequencing software may be downloaded from:
26-Sep-2016 | AN-No. 1MA279
This application note describes how to convert GPS routes from NMEA 0183 file format to waypoint files that can be used by the R&S®SMU200A Vector Signal Generator.
26-Sep-2008 | AN-No. 1MA133
The R&S®SMW200A together with the R&S®FSW is a state of the art testing solution that significantly reduces the required hardware for testing power amplifiers with envelope tracking and/or digital pre-distortion. This application note introduces the test solution in detail and presents corresponding measurement examples.
25-Sep-2014 | AN-No. 1GP104
This application note describes ATSC Mobile DTV standard A/153, ATSC-M/H. This standard is completely implemented in the R&S®AEM100 ATSC-M/H Emission Multiplexer.
22-Jan-2011 | AN-No. 7EB01
Volker Fischer 1EF86 LTE, MIMO, LTE-MIMO, RTO1044, SMU200A, K102, K103, K102PC, K103PC Testing LTE MIMO Signals using a R&S RTO Oscilloscope Testing LTE MIMO Signals using a R&S®RTO Oscilloscope Volker Fischer 1EF86 LTE, MIMO, LTE-MIMO, RTO1044, SMU200A, K102, K103, K102PC, K103PC Testing LTE MIMO Signals using a R&S RTO Oscilloscope Related products
24-Apr-2013 | AN-No. 1EF86
The R&S®NRP-Z power sensors from Rohde & Schwarz represent the latest in power measurement technology. They offer all the functionality of conventional power meters, and more, within the small housing of a power sensor. This application note serves as a coding guide for situations in which the R&S®NRP-Z power sensors are to be used in custom test and measurement software.
06-Mar-2012 | AN-No. 1GP69
This application note describes how to create and generate standard-conform IEEE 802.15.4 test signals with the Rohde & Schwarz Vector Signal Generators (VSG).
08-Jan-2016 | AN-No. 1GP105
Combining the R&S®Pulse Sequencer software with one of the vector signal generators from Rohde & Schwarz is the perfect solution for defining and playing pulses.
09-May-2017
All electronic devices contain capacitive or inductive components that can cause a disproportionately high current while switching on the device.
09-Oct-2018
This application note shows how to operate the Automation Manager tool in the R&S® CRTU-W to perform an automated FTP operation during a test scenario.
22-Nov-2007 | AN-No. 1CM68
This document provides information on how to perform manual testing based on current R&S TA-TRS QuickStep V4.05 platform in order to adapt to the new released EN 303 345 for broadcast sound receivers. It serves as a bridged document before new standard software package released by R&S for upgrade.
14-Apr-2021
This Application Note describes how to configure and calibrate R&S ZVR network analyzers for conversion gain measurements of devices with two ports that have different impedances. Thus accurate measurements on frequency-converting devices such as low noise converters of sattellite receivers are possible.
16-May-2002 | AN-No. 1EZ50
The Rohde & Schwarz SFU supports several modes of level setting. This Application Note describes the differences between these modes and especially describes a method to achieve a seamless transition without any impact to the output signal during a change of settings on an Rohde & Schwarz SFU (Firmware version > 1.30).
23-Jun-2006 | AN-No. 7BM54
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
Signal generators are often used in automated test environment applications. The replacement of those instruments, e.g., due to malfunction or standard replacement procedures requires special care to be taken in consideration. Replacement of those instruments requires compabitiblity between the replacement and the replaced device in at least the electrical and remote-control features. This application note describes in detail how to use the emulation modes of the R&S® series SMA100A, SMB100A, SMF100A signal generators.
24-Jun-2008 | AN-No. 1GP71
Power converters with a full-bridge topology are frequently used in telecommunications and servers that need to be compact, efficient and cost sensitive, making them more complex. Switching patterns for all the main primary switches including synchronous rectifier switches need to be validated after the first protype is built. This complex validation requires proper measurement of switching patterns to prevent catastrophic switching patterns. Expertise and the right measurement tools are essential when identifying unexpected events in the converter switching process.
17-Jan-2024
Primer
A power sensor is a fundamental measurement tool in RF engineering. However, today's marketplace is filled with myriad choices, and many are making bold claims about attributes such as measurement speed and readings per second. As a result, it can be difficult to cut through the hyperbole and determine which sensor will actually meet the requirements of a specific measurement.This primer outlines the basics of RF power sensors and highlights a few key characteristics that will help you select the best one for each application. The narrative has three parts. First, we focus on choosing the right type of sensor: multipath, wideband, average power and thermal can satisfy slightly different measurement needs. The second section covers the five major attributes of sensor performance, and what to look for relative to your requirements. Finally, we outline three ways to integrate a sensor into your measurement application.
26-May-2021
R&S®Series4200 detection of simultaneous transmissions (DSiT) option for air traffic control
21-Aug-2014
Radar equipment is always designed to work at the technologically feasible limits. Therefore the true performance of radar equipment can only be measured with the most accurate and reliable pulsed test signals. The R&S®SMA100B analog RF and microwave signal generator with its high-quality pulse modulator provides narrow pulse modulation. Thanks to a powerful closed-loop level control concept also for narrow pulses, outstanding level accuracy and repeatability is now available for pulse widths starting at 100 ns.
30-May-2017
Speed up development, verify best performance and start up series production with confidence. Doherty designs achieve high efficiency, greater linearity and increased output power. Get deep insight into your design with a dual-path, precisely synchronized source driving the Doherty amplifier and improve your yield.
12-Jul-2018
This application note helps to understand the measurement uncertainty calculation for a modern spectrum analyzer and provides a tool to calculate the total measurement uncertainty for different measurements.
21-Apr-2010 | AN-No. 1EF63
Software tools allow to make the control of T&M instruments more convenient. The adoption of the following tools for Windows®-based T&M instruments is described: ● Synergy:One mouse and one keyboard control a group of T&M instruments ● CamStudio:Video clips of the display of a T&M instrumentare recorded during operation
13-Jun-2013 | AN-No. 1MA218
This Application Note describes measurements on RFID readers and chipcards according to ISO/IEC 14443 and similar standards, using a signal generator and a spectrum analyzer. Using a modern spectrum analyzer like the R&S®FSL not only increases accuracy and measurement speed, but also simplifies operation. Interoperability tests, in particular, are simplified by generating reader test signals with a signal generator. With software option R&S®SMx/AMU/AFQ-K6 chipcards can be tested without a reader
25-Jan-2010 | AN-No. 1MA113
This application note shows all necessary settings for performing Dual Receiver Measurement using the R&S®EMC32-K27 option via R&S® EMC32 Measurement Software.
28-Sep-2017 | AN-No. 1SP20