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.
1096 Results
The R&S®QPS product family provides high resolution security scanning and was specifically designed to promote faster, more effective and comfortable people screening at security checkpoints. Utilizing safe millimeterwave radio frequency technology, the R&S®QPS security scanners automatically and safely detect potentially dangerous person-borne threats and contraband.
24-Jan-2019
Impedance measurements with vector network analyzers require maximum precision. The R&S®ZNL is able to characterize a broad range of impedances with the lowest uncertainty among its competitors in the same class.
02-Oct-2019
Noise-Power-Ratio (NPR) measurements are a common procedure and a simple but useful tool to characterize the performance of power amplifiers for satellites or other multi-channel communication systems. The main advantage is the use of wideband signals like noise, multi-carrier CW tones or I/Q modulated signals, which leads to a better simulation of the real environment. This application note provides information how to generate these signals with a vector signal generator and perform NPR measurements with spectrum analyzers. With the R&S®SMW200A vector signal generator any desired test signal can be created. The R&S®FSW spectrum and signal analyzer offers an automated function for NPR measurements. The limiting factors of both a vector signal generator and a spectrum analyzer are explained. Measurement examples show the practical results of NPR measurements.
24-Jun-2019 | AN-No. 1EF108
This application note provides a summary of the current test solutions available with Rohde & Schwarz equipment. The opportunities provided by the individual devices are presented briefly and a demonstration using a spectrum analyzer and a vector signal generator is described.
14-Sep-2009 | AN-No. 1MA112
This application note shows how to configure the R&S®AdVISE visual inspection software to automate the immunity testing in line with EN 55020 and CISPR 35 on TV sets and monitors.
30-Jul-2020 | AN-No. 1S007
Its dual-path concept plus its ability to duplicate baseband signals make the R&S®SMW200A vector signal generator ideal for efficient GSM/EDGE AMsuppression conformance testing.
28-Feb-2017
During wireless transmission over the air a signal is subject to fading. Since fading can strongly influence the communication, devices such as mobile phones must be tested under real-world conditions to verify their performance. The Rohde & Schwarz vector signal generators R&S®SMW200A, R&S®SMU200A and R&S®AMU200A make it possible to perform such tests. Their integrated real-time fading simulators reproduce well-defined and repeatable real-world test scenarios to bring reality into your laboratory. A multitude of standard-compliant, preconfigured fading scenarios make the configuration as easy as possible.This application note gives a brief introduction to fading and explains how to use the fading simulators in custom applications.
26-Apr-2013 | AN-No. 1GP99
Rohde & Schwarz recognizes the potential risk of computer virus infection when connecting Windows®-based test instrumentation to other computers via local area networks (LANs), or using removable storage devices.This white paper introduces measures to minimize malware threats and discusses ways to mitigate risks while ensuring that instrument performance is not compromised.
16-Feb-2017 | AN-No. 1EB01
A high frequency transformer is a key component when designing isolated switching mode power supplies (SMPS). Leakage inductance is essential in the control of many design parameters including efficiency, maximum voltage rating for switching elements and EMI when it comes to designs using customized transformers. Accurate measurement of this parasitic element is mandatory. The R&S®LCX LCR meter is ideal for this challenging measurement task.
15-Feb-2022
This application note describes how to verify and validate a LTE (FDD) RF chipset using R&S® SMU200A vector signal generator, R&S® FSQ signal analyzer and R&S® EX-IQ Box. The related signal generation as well as signal analysis is described
19-Dec-2008 | AN-No. 1MA138
The ‘Data Reduction’ sequence step is an essential part of an EMI Auto Test since it evaluates the relevant frequencies at which the final measurements are to be done. The intention of this application note is to make the data reduction data flow more transparent (contents of input and output tables) and how the parameters (location and relations) influence the evaluation algorithm.
16-Nov-2011 | AN-No. 1SP02
Application note 1MA25 has been replaced by application note .
28-Aug-2009 | AN-No. 1MA25
Vector network analyzers are used in high frequency applications to measure the complex scattering parameters of an unknown device-under-test (DUT). In general, the DUT characteristics can be evaluated by using electromagnetic waves. The correlation between the incident, reflected and transmitted wave quantities at the DUT is defined by its scattering matrix S.
28-Jul-1998 | AN-No. 1EZ30
This Application Note describes two programs for calculating conversions: 1.: The Power Unit Calculator Power, dBm, dBmV and Volts @ 50 W 2.: The VSWR Calculator Reflection, VSWR, Return loss and Power reflection Reflections, Reflectionl to Mismatch Uncertainty.
03-Jul-1998 | AN-No. 1MA12
High-speed serial interfaces often transmit data with differential signaling. For probing on the signal, trace differential probes are used. Besides the differential inputs, these probes often provide an additional connection for ground – especially the higher bandwidth models. The ground connection on the R&S®RT‑ZMxx modular multimode probes can be used to improve measurements on high-speed differential interfaces.
09-Nov-2017
A step by step HOW TO guide to perform manual and automated wireless coexistence testing
At the end of the year 2020, there were over 20 Billion internet of things (IoT) products in the world operating using the licensed and unlicensed frequency bands. This growth trend is projected to keep steady over the coming years as more and more people adopt to a smarter and more connected lifestyle. This will result in a much busier and challenging RF environment than the one we have today. In order to understand the complexity of the RF spectrum, a white paper was published in 2021 from Rohde & Schwarz, which featured RF spectrum activity at multiple locations observed at different times of the day. The locations were selected based on population densities and the amount of known RF transmitters & their frequencies at those locations. It was also concluded that the ISM bands on average have higher channel utilization since most IoT devices take advantage of the unlicensed spectrum. The paper recommended, that while performing wireless coexistence testing, the test conditions should reflect the operational RF environment that the device is intended to operate in. Otherwise, the characterization of RF performance would only reflect ideal case which doesn’t exist in real world operation. Since it is not always possible to test all devices in the real world, relevant test methodologies need to be setup to replicate the real world as much as possible.This will help us get a better understanding of how the receiver of the RF device will behave under different RF conditions. It is also recommended to perform measurements in order to understand the behavior of the device in the future when the spectrum will get even more challenging. Therefore, a through characterization of the capability of the RF receiver to handle in-band and out-of-band interference signals in also of interest.In terms of regulatory compliance requirements for ensuring wireless coexistence performance, the ANSI C63.27 is currently the only published test standard that provides guidance on how to perform coexistence testing on devices. The test complexity is based up on risk imposed on the user’s health in the event of a failure caused by an or a plurality of interference signal. The standard also gives device manufacturers guidance regarding test setups, measurement environments, interference signal types and strategy, performance quality measurement parameters for physical layer using key performance indicator (KPI) and application layer parameters for end-to-end functional wireless performance (FWP).In this application note, the guidance provided by the ANSI C63.27-2021 version regarding test setup, measurement parameter and interference signal have been followed. It will give the reader a clear idea on how to configure standardized test instruments from R&S in order to generate the wanted signal as well as unintended interference signals and conduct measurement to monitor device performance in terms of PER, ping latency and data throughput.This application note provides step-by-step instruction on how to perform measurements using conducted and radiated methodology. Both manual and automated instrument configuration approach is explained in this document.The automation scripts are written using python scripting language and are available for download with this application note, free of charge. Official required to run the scripts are available on the PYPI database.
10-Nov-2022 | AN-No. 1SL392
DVB-T Bursted Noise is a tool for generation of DVB-T compatible noise signals. The IQ data can tranferred to WinIQSIM™ / WinIQSIM2™ for further processing and transmission to an AMU, AFQ, AMIQ, SMU, SMIQ.
08-Jul-2009 | AN-No. 1MA51
Integrated beamformer ICs shrink the size of antenna feed electronics. Multiport network analyzers shrink the necessary test setup down to one instrument.
08-Jan-2019
Automating measurement setups is advantageous for multiple reasons. It saves time in case of repeated measurements and in hazardous environments, instruments can be operated from a distance. The measurements are repeatable because they are always performed with a defined procedure, leading to higher test confidence.But in remote control applications, users often perceive synchronization and binary transfers as challenging. Therefore, this application note focuses on binary transfer of data to and from the instrument and shows code example to demonstrate the ease of use.
31-Mar-2022 | AN-No. 1SL381
The R&S®FSW signal and spectrum analyzer is a high-performance instrument capable of measuring many key system and component parameters. Using the bit error rate (BER) functionality of the R&S®FSW-K70P option, the raw data error performance of a component or system can be accurately determined.
26-Sep-2018
This application note describes remote operation or monitoring of the signal and spectrum analyzers R&S® FSV3, R&S® FSV7, R&S® FSV13, R&S® FSV30 through a standard web browser. The common cross-platform technology Virtual Network Computing (VNC) is used as a server on the instrument.
15-Jan-2009 | AN-No. 1EF67
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
This R&S®CMU200 1xEV-DO Release B non-signaling testing application provides the means to allow users to perform RF measurements on a 1xEV-DO Rel. B access terminal in a mode that does not require any signaling. This allows the calibration and final tests of a Rel. B AT, according to the minimum performance standards with the R&S®CMU200.
29-Jun-2009 | AN-No. 1CM74
This application note is based on collaborative work between Cadence and Rohde & Schwarz.The focus is on understanding as early as possible in the design process performance enhancements through linearization of non-linear devices, in our case the RF power amplifier (PA). In other words, what performance benefits can be reached with linearization techniques such as digital predistortion (DPD). Typically, this is investigated when the device is available and physical RF measurements are conducted. In this application note, it is looked at earlier in the design process while using electronic design automation (EDA) such as Cadence® AWR® Visual System Simulator™ (VSS) software. The goal is to allow an RF designer to evaluate the linearizability of his design without in-depth knowledge of DPD algorithms. In the end, the designer can get closer to the optimal efficiency with earlier access to DPD, while at the same time improving time-to-market.The application note brings code examples and an exemplary setup for VSS software to provide an easy start to replicate and use the described procedure.
20-Apr-2022 | AN-No. 1SL383
The R&S®Pulse Sequencer software offers an interface to import lists of pulse descriptor words (PDW). Users can define their specific PDW format in the software before importing the PDW list. The R&S®Pulse Sequencer software automatically uploads the interpreted PDW lists on the R&S®SMW200A to generate the most agile radar signals.
20-Feb-2018
For automated test applications, measurement time is often as important as the quality of the measurement. As with many situations, time is money. In practice, phase noise measurements are generally not considered fast, but test engineers still desire to save as much test time as possible. The Rohde & Schwarz®FSWP (FSWP) is a modern, digital signal processing based, phase-noise test set that performs many tasks in parallel in an effort to improve measurements speed. However, several measurement settings drastically affect measurement speed. This paper will discuss these settings and provide suggestions on improving overall measurement speed.The three key instrument parameters that affect FSWP measurement speed are:1. Number of cross correlations2. Resolution bandwidth (RBW)3. Offset frequency span
08-Oct-2020 | AN-No. GFM354
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
Complex production workflows in several broadcast, post production or presentation environments not only need a solid storage architecture, but also intelligent project sharing since several teams require access to all data.
18-Nov-2014
RF components, On-wafer, Early wafer-level qualification, Early wafer-level qualification of RF components ensures quality and saves money On-wafer qualification of RF components RF components, On-wafer, Early wafer-level qualification, Early wafer-level qualification of RF components ensures quality and saves money On-wafer qualification of RF components RF components, On-wafer, Early wafer-level
14-Jul-2022