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.
45 Results
The converters offered for the R&S®ZVA family extend the network analyzers' frequency range up to 325 GHz. This Application Note describes typical measurements on millimeter-wave mixers and millimeter-wave frontends. It also discusses a signal identification method that enables spurious measurements to be performed in the millimeter-wave range using an R&S®ZVA network analyzer in conjunction with a converter.
17-Nov-2008 | AN-No. 1EZ57
The converters offered for the R&S® ZVA family extend the vector network analyzers' frequency range to include the millimeter-wave range (EHF band). This Application Note describes the R&S® ZVA-Z110 converters. They cover the W band (75 GHz to 110 GHz). Several measurement examples are included, explaining in detail how to configure a converter-based vector network analyzer system.
09-Oct-2007 | AN-No. 1EZ55
The R&S® ZVA-Z110 converters offered for the R&S® ZVA family enable network analysis in the W band (75 GHz to 110 GHz). In this Application Note, measurements with three or four converters will be discussed. Test configurations for such measurements have so far been implemented only with coaxial connector systems for a frequency range up to approx. 40 GHz. The term 'multiport measurements' was created for this type of measurements.
09-Oct-2007 | AN-No. 1EZ56
The R&S®ZVA vector network analyzer with the R&S®ZVA-K9 option enables absolute group delay measurements on devices with embedded LO without the need for a calibration mixer
17-May-2013
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 shows how to remote control the switching of RF and digital I/O signals by R&S®OSP Open Switch and Control Platform directly from a Vector Network Analyzer (VNA) or from a Spectrum Analyzer (SA). The R&S®ZVA, R&S®ZVB, R&S®ZNB, R&S®FSW and R&S®FSV families are covered. The application note first describes the requirements and setup procedure. It is shown how to install the software and how to set up the system in order to get highest flexibility and best usability. It is then shown how to calibrate the entire configuration and finally some practical examples are provided. Switching is explained using VNAs as an example, the appendix 5.4 provides hints regarding the differences when using SAs in a similar way.
06-Dec-2013 | AN-No. 1MA226
This application note describes the noise figure measurement using the R&S Vector Network Analyzers of the ZVA and ZVT series. It explains the concept of measuring noise figure without the need for a characterized noise source. Furthermore, it discusses different measurement applications and the respective setup and implications. Some examples guide through the instrument setups and show measurement results as well.
27-Oct-2010 | AN-No. 1EZ61
This Application Note describes testing S-parameters under pulsed conditions with the R&S®ZVA vector network analyzer and either the ZVAX24 Extension unit with pulse modular option or the R&S®SMF signal generator with pulse modulator as a signal source.In addition a constant power level calibration for applications requiring high drive power for test and measurement of device under test (DUT) is also included. A LDMOS S-band radar power transistor is used as example DUT. The pulse profile mode of the R&S®ZVA is used to analyze the time-dependent behavior of the DUT.
11-Apr-2013 | AN-No. 1MA126
This application note describes how to directly transfer S-Parameter Trace Data from R&S Network Analyzers to Microsoft Excel using a direct connection like GPIB or LAN. Prerequisites are a PC running Microsoft Excel, a R&S Network analyzer like ZVA, ZVB or ZVT as well as a working remote control connection between PC and instrument like GPIB or LAN / Ethernet.
22-Mar-2007 | AN-No. RSI02
This document describes how the advanced calibration techniques of the ZVA Vector Network Analyzers can solve the challenges of measuring the S-Parameters on impedance matching devices. The document describes the concept and setup required to perform the calibration of the ZVA and making the measurement. The procedure described in this application note applies to the ZVB and ZVT Vector Network Analyzers as well.
06-May-2009 | AN-No. 1EZ59
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
Spectrum and network analyzers equipped with network interface cards can be integrated in Local Area Networks (LAN). This Application Note describes how to remote control these instruments over a LAN and use VXIpnp instrument drivers over a LAN.
25-Jun-2003 | AN-No. 1EF47
Balanced RF components are advantageous compared to traditional single-ended components, since they cause less EMI, and are less susceptible to EMI. This application note describes the fundamental concepts of differential and common mode signals and of mixed-mode parameters, which are essential for balanced components. Techniques for the measurement of mixed-mode parameters are presented. Examples show the features implemented in the ZVB for balanced device measurement.
20-Sep-2004 | AN-No. 1EZ53
This Application Note describes characterization of devices used in radar systems with pulsed signals. The emphasis is on measurements using vector network analyzers (VNAs), signal generators, vector signal generators and spectrum analyzers.
18-Jan-2008 | AN-No. 1MA124
Application note 1MA25 has been replaced by application note .
28-Aug-2009 | AN-No. 1MA25
Unique automatic level controlled (ALC) based test setup using the R&S®ZVA vector network analyzer and R&S®BBA150 broadband amplifiers provides highly accurate and reproducible results in minimum test time.
27-Sep-2013
Rohde & Schwarz instruments can be shared when users wish to use the same instrument. This can be done quite easily with the LAN interface, which comes as a standard option. Through this interface, Rohde & Schwarz instruments can be connected directly to a network, and users with access to the network can manually operate the instrument from a remote computer. This Application Note lists all instruments that support these features and describes the steps necessary to set up and configure the network connection to operate these instruments remotely.
05-Jul-2007 | AN-No. RAC-0703-0029
This application note explains how to create screenshots of Rohde & Schwarz instruments using instrument drivers. The presented examples are written in C (LabWindows/CVI), C# programming language and LabVIEW. The examples are available at the instrument driver download site.
11-Dec-2009 | AN-No. 1MA160
Power Added Efficiency (PAE) is a key parameter for the characterization of an amplifier.This application notes introduces two alternative methods how to do the Power Added Efficiency measurement. The first one is based on the R&S ZNB vector network analyzer (VNA) measurement function. Alternatively to this, the PAE tracer macro is introduced. This macro offers to make the PAE at an user selected compression point of the amplifier versus frequency. The PAE tracer macro is provided together with this application note.
22-May-2013 | AN-No. 1EZ64
Welcome to this introductory video show about the R&S® ZVA family of network analyzers. Network analysis is sometimes considered to be cumbersome and difficult to understand, a very offputting reputation for newcomers to network analyzers. To help you look at network analyzers in a different light, we have created this video series. We have intentionally refrained from explaining any theory in depth. Rather, we want to show you how to operate our analyzers for simple and useful applications. As well as just watching this video show, you can also use it as a guide and try yourself. All the operational steps shown only require a standard RF power amplifier which should be available in almost every lab. So, before we get properly started, we hope you enjoy this video show and much success in becoming familiar with network analysis in general, and our R&S products in particular.
13-Feb-2014 | AN-No. 1MA50
This application note describes methods using an R&S®ZVA network analyzer, one or two R&S®SMB100A signal generators and an R&S®FSW signal analyzer to accurately measure all the key parameters of frequency converters with embedded local oscillator. A commercial satellite up-converter is used as a device under test example.
30-Apr-2015 | AN-No. 1MA224
The use of Rohde & Schwarz device drivers under VEE software is not complicated. However, a number of factors are involved, the errors that occur are often difficult to diagnose. This application provides easy and detailed support for installation and troubleshooting using National Instruments or Agilent GPIB boards.
20-Dec-2012 | AN-No. 1MA035
After a communications satellite is on its target orbit, several routines need to be performed in order to ensure proper performance from the transponders in the payload. The on-orbit measurements are a vital part of the maintenance of a live satellite as well. Operating a satellite channel for an on-orbit measurement rather than the intended application comes with significant opportunity cost and hence test duration needs to be minimized as much as possible. Rohde & Schwarz test and measurement equipment recommended in this paper is market leading not only in terms of measurement accuracy but also offers unparalleled speed of measurement. This application note focuses on satellite post-launch or on-orbit measurement and monitoring strategies used for satellite functionality checks when running maintenance routines. A complementary paper treats pre-launch payload measurements.
25-Nov-2016 | AN-No. 1MA263
This application note provides hints for implementing remote control programs using Rohde & Schwarz spectrum and network analyzers. The document makes suggestions for improved remote control performance and describes aspects of measurement synchronization in detail. Finally the document discusses some typical challenges of remote control in production test.
19-Aug-2014 | AN-No. 1EF62
Versatile Software Tool for Rohde & Schwarz Instruments
RSCommander is a versatile software tool for a wide range of Rohde & Schwarz spectrum-, network analyzers, signal generators and oscilloscopes. It allows for automatic instrument discovery, making screenshots, reading traces, file transfer and simple script creation.
24-Dec-2017 | AN-No. 1MA074
Designing and implementing an active phased array antenna requires precise characterization of individual components and the integrated performance of the array. To ensure an accurate test of the intended adaptive nature of the active phased array antenna, the embedded algorithms need to be tested as well.This application note aims to explain test procedures and give recommendations towards characterization of the relevant parameters for active phased array antennas and their passive subsystem, as often used in applications for Mobile Communication and RADAR. This application note describes transmit signal quality testing, multi-element amplitude and phase measurement techniques both in receive and transmit cases and introduces a new automated test methodology antenna radiation pattern measurement over frequency. This paper also describes the test system used for transmit and receive module (TRM) characterization in active array antennas.
04-Jul-2016 | AN-No. 1MA248
This document describes how a Windows®-based R&S® T&M instrument is remotely operated by an Apple iPad as if working on it locally. Step-by-step procedures are provided for setting up and configuring the T&M instrument and the iPad. On the iPad, a special App implements the Windows® 'Remote Desktop' functionality. T&M instrument and iPad are connected via WLAN (also denoted as Wi-Fi network).
28-Mar-2013 | AN-No. 1MA216
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
Rapid and accurate verification of beamforming weights is required for example, for codebook generation or beamforming algorithm development or verification. This document describes the unique application of Rohde & Schwarz VNA (Vector Network Analyzers) to fully characterize the passive part of multi-element antennas intended for beamforming.A range of R&S VNA models are optionally equipped with multiple independent sources, whose relative amplitude and phase may be arbitrarily controlled ("defined coherence mode"), in addition to frequency and true time delay. These sources may be connected to individual elements of a multi-element antenna to derive and verify transmit (Tx) mode beamsteering and beamforming operation.The R&S®ZVA in "Defined Coherence Mode" can electronically be switched to / from the conventional S-parameter mode. Therefore, Sparameter and beamforming measurements may be performed efficiently within a single connection cycle of the antenna.Multiple VNA may be daisy-chained, to extend the concept shown to support an arbitrary number of ports.The R&S®Quickstep sequencing software may be downloaded from:https://www.rohde-schwarz.com/software/quickstep/
20-Mar-2017 | AN-No. 1MA278
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