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.
36 Results
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
To quantify uncertainties for network analyzer measurements, the influence of the entire system (network analyzer plus test setup and DUT) has to be taken into account. Usually, the overall uncertainty of the complete measurement setup is determined with the aid of a verification kit, containing highly accurate verification standards. Of course, the verification standards need to have the same connector type as the DUT. If such verification standards are not available, the overall error has to be estimated.
28-Jul-1998 | AN-No. 1EZ29
This application note describes the suitability of the R&S®ZVM and R&S®ZVK as multichannel microwave receivers for antenna measurements and RCS measurements including measurements on pulsed signals. Application examples describe the measurement possibilities on pulsed signals using the R&S®ZVM/ZVK as stand-alone units. In addition, various R&S®ZVM/ZVK-based antenna measurement systems of the March Microwave company are presented in detail.
10-Sep-2004 | AN-No. 1EZ52
This document describes typical measurements that are required to be made on amplifiers and how the measurement can be implemented on the ZVB Vector Network Analyzer. The document describes the concepts and setups required to perform Gain, Isolation, input impedance measurements, then goes on to describe how more uncommon measurements are made with the ZVB like Harmonics, Stability Factor and compression point.
07-Feb-2007 | AN-No. 1EZ54
Using a Vector Network Analyzer from the ZVR family, not only magnitude and phase can be measured, but also group delay and even phase delay. Whereas phase delay measurements produce the highest accuracy for the electrical length of non-dispersive devices under test, such as coaxial cables, group delay measurements also give a detailed insight into the frequency dependent delay characteristics of dispersive devices, such as filters. In addition to the traditional step aperture technique, Vector Network Analyzers from the ZVR family offer a frequency aperture technique, which allows a well defined and constant aperture for group delay measurements also for a nonlinear frequency sweep.
28-Jul-1998 | AN-No. 1EZ35
A Test Port Adapter System is implemented for all Rohde & Schwarz equipment, which operates above 26 GHz in order to protect the RF front-end from mechanical damage. The Test Port Adapter System consists of an RF front-end interface called the Test Port Adapter Body, and the Test Port Adapter Head which is attached to the Body. The Head provides an interface to a cable or device under test. This Application Note identifies the various types of Test Port Adapters, their parameters, compatibilities and usages.
28-Apr-2015 | AN-No. 1MA100
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 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 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
Application note 1MA25 has been replaced by application note .
28-Aug-2009 | AN-No. 1MA25
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 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
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
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
A special requirement for testing GSM components is to measure the electrical characteristics, such as the gain of a power amplifier, of the DUT under pulsed conditions. The test should be similar to real operating conditions for a mobile telephone.
28-Jul-1998 | AN-No. 1EZ42
Measurement deviations due to systematic errors of a network analysis system can be drastically reduced by an appropriate system error calibration. After system error correction, the residual measurement uncertainties are - besides the stability, linearity, and dynamic range of the network analyzer system - mainly affected by the quality of the calibration standards and the repeatability of the connections. The effective measurement accuracy of the network analysis system can be determined using the results of successive verification measurements utilizing highly precise verification standards.
24-Jan-2001 | AN-No. 1EZ48
3-Port Adapter ZVR-B8 is an optional accessory to all Vector Network Analyzers of the ZVR family, namely ZVRL, ZVRE, and ZVR, and extends the two test ports PORT1 and PORT2 to a total of three test ports PORT1, PORT2 and PORT3. The option comprises an electronic single-pole double-throw switch (SPDT) by means of which PORT1 of the analyzer is switched to either PORT1 or PORT3 of 3-Port Adapter. Test port PORT2 of the analyzer is directly connected to PORT2 of the 3-Port Adapter and is not switched over.
04-Aug-1998 | AN-No. 1EZ26
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 is a very special application note for all those who have seen the ZVatch (ZVR watch) and not really believed the nice red curve on its face. This curve can actually be generated with a Vector Network Analyzer ZVR.
25-Jan-2002 | AN-No. 1EZ28
Embedding and De-Embedding of virtual transformation networks for measuring scattering parameters with a ZVR or ZVC vector network analyzer.
25-Sep-1998 | AN-No. 1EZ45
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
A collection of frequently occurring customer questions on using the ZVR analyzer, calibration, virtual transform networks, and additional applications.
23-Jan-2002 | AN-No. 1EZ38
Using option ZVR-B4 (Frequency Converting Measurements), a ZVR Vector Network Analyzer can be used for measurements on frequency converting devices such as mixers and amplifiers. Using the ZVR's ARBITRARY mode, the source and receiver frequency ranges of the ZVR's generator and receiver, plus for two external signal generators, can be defined independently. As a result, mixer and intermodulation products such as conversion loss or sampling mixers, can all be measured. Used together with option ZVR-B6 (Reference Channel Ports), group delay measurements can also be made on frequency converting devices.
19-Jan-1999 | AN-No. 1EZ47
Using the optional three-port or four-port adapter (ZVR-B8 and ZVR-B14), PORT 1 and PORT 2 of the network analyzers of the ZVR family (ZVRL, ZVRE and ZVR) can be expanded to up to four ports. Thus automatic measurements on three- and four-port DUTs can be easily performed without any reconnection of ports being required. With the electronic switches in the adapters, switchover between the various ports is fast to the extent that the known high measurement and display speed of the analyzers of the ZVR family is fully maintained.
04-Aug-1998 | AN-No. 1EZ37
The option ZVR-B7 allows an enhanced power calibration of the source and of the receiver channels of a ZVR, then being active instead of the standard factory power calibration. Using an external power meter, the power level of input or output wave quantities will be adjusted to a desired value at an arbitrary reference plane.
29-Jul-1998 | AN-No. 1EZ41
Vector Network Analyzers of the ZVR family measure magnitude and phase of complex S-parameters of a device under test (DUT) in the frequency domain. Using an inverse Fourier transform, the results can be transformed to the time domain. The impulse or step response of the DUT is obtained, which gives an especially clear representation of its characteristics. For instance, faults in cables can be directly localized. Moreover, special time domain filters, so-called gates, can be used to suppress unwanted signal components such as multireflections.
04-Aug-1998 | AN-No. 1EZ44
The RSIB interface enables the network analyzers of the ZVR family to be controlled by means of Windows applications via DDE. The interface functions are contained in the DLL RSIB.DLL. The other DLL RSDDE.DLL provides functions for the DDE access to the instrument firmware. These functions are used by RSIB.DLL. The interface of these functions greatly corresponds to that of National Instruments for programming the GPIB. The function names are similar to those of the NI library but preceded by RSDLL. The two DLLs are part of the firmware and are updated with the firmware update kits.
31-Jul-1998 | AN-No. 1EZ33
ZVR is a vector network analyzer equipped with selective input channels for determining phase relations. Thus a wide dynamic range can be obtained. For measurements on frequency-converting DUTs (output frequency not identical to input frequency), the generator and receiver frequency ranges can be separately set. For measurements on DUTs using a built-in conversion oscillator, as is the case here, the conversion frequency must be exactly known so that the receiver can be accurately tuned to the respective output frequency. The maximum receiving bandwidth is 26.5 kHz. When a wide dynamic range is required, this bandwidth has to be reduced with the consequence that the requirement for the DUT output frequency and the ZVR receive frequency to be in agreement will be greater.
04-Aug-1998 | AN-No. 1EZ31