.NET programming interface for R&S®GTSL and R&S®EGTSL

08-Mar-2016 | AN-No. 1SE001

Measurement of Frequency Settling Time of Synthesizers and Transmitters

12-Feb-1999 | AN-No. 1MA15

This application note shows how to measure the phase accurately between several signals using vector network analyzers of the R&S®ZNA, R&S®ZNB and R&S®ZNBT families.

11-Jul-2019 | AN-No. 1EZ82

Testing S-Parameters on Pulsed Radar Power Amplifier Modules

11-Apr-2013 | AN-No. 1MA126

R&S CMWrun - Audio performance testing solution

20-Feb-2015

AutoCal: Automatic Calibration of Vector Network Analyzer ZVR

28-Jul-1998 | AN-No. 1EZ30

This application note explains how to use the SMW for testing higher order MIMO systems by presenting different key applications.

24-Feb-2016 | AN-No. 1GP97

R&S®CMWcards is an intuitive and user-friendly software application that makes NB-IoT OTDOA positioning design verification easier than ever.

26-Nov-2018

An error in DVB-T2 signal feed to the transmitter can cause failure of the entire DVB-T2 network. For this reason, the established ETSI TR 101 290 DVB measurement guidelines have been expanded to include measurements for the new T2-MI interface. The instruments of the R&S DVMS family monitor T2-MI signals by performing these newly defined measurements and even provide in-depth analysis of these signals.

01-Sep-2011

Reliable testing of HARQ feedback and UL timing adjustment on LTE eNBs with the R&S®SMW200A simplifies eNB performance testing and eliminates the need for test UEs

01-Jun-2016

Creating LabVIEW Drivers for the R&S CompactTSVP by Using GTSL Shared Library Import

28-Dec-2007 | AN-No. 1SP801

It is extremely important to test the application level functional performance of home automation products in the presence of interference.

11-May-2020

T-Check Accuracy Test for Vector Network Analyzers utilizing a Tee-junction

04-Aug-1998 | AN-No. 1EZ43

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

Automotive radar sensors are safety-relevant and have to be comprehensively tested for reliable functioning. The R&S ® AREG100A automotive radar echo generator is a versatile instrument for stimulating radars in the 24 GHz ISM band and in the 77 GHz and 79 GHz frequency bands. Together with the R&S ® ATS1500A shielded chamber, it offers a compact solution in a minimum footprint – perfect for lean production environments.

06-Aug-2018

The ground connection on the R&S®RT‑ZMxx modular multimode probes can be used to improve measurements on high-speed differential interfaces.

29-Jan-2025

R&S VCS-4G VoIP for Air Traffic Control (for drilling companies / offshore industry)

15-Oct-2012

Interference hunting for critical infrastructure

11-Apr-2024

This application note explains how to measure the oscilloscope ENOB and shows results for the R&S®RTO for different settings.

13-May-2011 | AN-No. 1ER03

The numerous supply voltages of FPGAs, CPUs and DSPs need to be powered-up in a specific order to ensure reliable operation.

08-Oct-2018

WLAN Tests According to Standard 802.11a/b/g

28-Jul-2004 | AN-No. 1MA69

This Application Note covers 2x2 MIMO in the LTE downlink. Remote control programming is demonstrated by examples for a free-of-charge program.

09-Oct-2014 | AN-No. 1MA143

Limit Checking with the Audio Analyzers UPL and UPD

04-Jun-1998 | AN-No. 1GA33

Producing Epicycloid Traces

25-Jan-2002 | AN-No. 1EZ28

The arbitrary waveform feature o Rohde & Schwarz solutions allow you to simulate device behaviors and replaces basic standalone arbitrary waveform generators.

04-Nov-2019

How To Demonstrate Improved ACLR Dynamic Range With FSU and Noise Correction

16-May-2002 | AN-No. 1EF49

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.

15-Jan-2009 | AN-No. 1EF67

CDMA2000 1xEV-DO Rel. B Non-Signaling Testing

29-Jun-2009 | AN-No. 1CM74

This application note presents a solution for testing the complete radar system by generating any kind of radar echo signals.

01-Aug-2016 | AN-No. 1MA283

Measurements on Tuners using the Audio Analyzers UPL or UPD and Signal Generator SMT

16-Feb-1998 | AN-No. 1GA24