LTE – the fastest growing mobile radio standard – had its beginnings in 3GPP Release 8. Initial improvements and new features were implemented in Release 9. This Application Note describes the T&M methods for LTE Release 9 features using Rohde & Schwarz instruments.

26-Apr-2013 | AN-No. 1MA210

The R&S®Scope Rider is a modern versatile handheld oscilloscope featuring lab oscilloscope performance in a portable format with the ruggedness of a battery operated handheld device. Its superior performance is the best in its class.

04-Jan-2016

A great number of measurements have to be performed to determine the quality of FM tuners. This Application Note presents a program that permits these measurements to be carried out in line with DIN EN60315-4.

11-Feb-2003 | AN-No. 1GA43

The fact that cable TV networks are generally located in densely populated areas or extend over large geographical regions makes the presence of line extenders at regular intervals a necessity. Cascading large numbers of amplifiers however calls for excellent noise, SWR and intermodulation distortion specifications for the integrated amplifiers in order to avoid quality of service dropping below minimum acceptable levels. Composite second order, composite triple beat & cross modulation are commonly used figures to specify the performance of CATV equipment. In this application note we describe how to determine these figures with the aid of R&S SMU200A or AFQ100A and SMV vector signal generators.

11-Aug-2006 | AN-No. RAC-0605-016

Autonomous and semi-autonomous vehicles rely on a complex hardware and software architecture to gather and exploit information from numerous radar sensors. To generate reliable data, the sensors require an unobstructed view of the surroundings. The bumpers or radomes mounted in front of the sensors must not impair radar functionality. This requires extensive testing of the deployed plastic parts and their underlying polymer structure. The R&S®QAR50 is the ideal tool to characterize the material properties of polymers and their influence on the quality of the radar signal at an early design stage and in quality control of material development.

24-Jun-2022

Voice over IP for air traffic control

19-Nov-2012

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

Analyzing RF pulses is a key aspect of pulsed radar applications, e.g. in air traffic control (ATC), maritime radar or scientific measurements of the ionosphere. It is essential to analyze the pulse envelope in the time domain because it contains important information needed to characterize the application. The R&S®RTO digital oscilloscope is a very useful measurement instrument for analyzing pulse characteristics.

09-Nov-2017

This Application Note describes how to test and perform measurements on mobile phones in compliance with the GSM standard using the R&S®CMU200 by means of the remote-control program CMUgo or manual operation.

24-May-2005 | AN-No. 1CM57

High sampling rate and automatic pulse analysis make the R&S®NRP-Z8x wideband power sensors ideal for time-domain analysis of radar pulses.

06-Aug-2013

To measure linearity, a single R&S®CLG cable load generator generates the entire full digital channel load of a cable TV network. When the R&S®CLG is used together with the R&S®ETL TV analyzer, the resulting bit error ratio (BER) or carrier-tointerference noise ratio (CINR) can be directly determined in line with IEC 60728-3-1.

18-Jun-2013

This application note addresses the diverse possibilities of interoperability between Rohde & Schwarz power sensors and Rohde & Schwarz signal generators. All current and many legacy Rohde & Schwarz signal generators offer the capability of directly connecting power sensors. This enables power measurements without the need of a base unit or separate PC to display the readings. Furthermore, sensors can be used for special tasks like filling a user correction table or continuously controlling levels at crucial points in the measurement configuration.

31-Aug-2023 | AN-No. 1GP141

broadcasting transmitters, allocated frequencies, monitoring control center, RF power, Automatic monitoring of emission parameters of registered broadcasting transmitters Automatic monitoring of emission parameters of registered broadcasting transmitters broadcasting transmitters, allocated frequencies, monitoring control center, RF power, Automatic monitoring of emission parameters of registered broadcasting

04-Sep-2006

DIRECTV®, a digital TV broadcast system, makes use of transport packets with a length of 130 bytes rather than the more common 188 bytes used in MPEG TS streams. The inputs on the R&S® SFU do not accept transport streams in the DIRECTV® format. This Application Note introduces R&S® DIRECTV tool and explains how it can be used to convert existing 130-byte-based DIRECTV® transport stream content to 188-byte-based ISO 13818-1 streams that are compatible with the R&S® SFU SPI input or the internal R&S® SFU TRP player. This tool is intended for Rohde & Schwarz customers who are licensed to operate an R&S® SFU-K9 DIRECTV coder or R&S® SFU-K108 AMC coder.

05-Oct-2007 | AN-No. 7BM69

The R&S®BTC broadcast test center generates DVB-C2 signals for receiver tests with a variety of simulated interference types. The selection tests stipulated by the DVB Project require a cable TV network with full channel load. Combining the R&S®BTC broadcast test center and the R&S®CLG cable load generator makes it quick and easy to create a flexible cable TV network with full channel load and to simulate all types of realistic interference, permitting tests in accordance with DVB.

30-Jul-2013 | AN-No. 7BM88

The R&S®FSMR3000 (hereinafter FSMR) is a three-in-one instrument incorporating a Measurement Receiver, a Signal and Spectrum Analyser, and a Phase Noise Analyser.This application note demonstrates the use of the FSMR, including the Cross-correlation option (R&S®FSMR3-B60), to measure the Phase Noise characteristics of a raw Signal Generator (R&®SMA100B).The Cross-correlation phase noise measurement improves sensitivity by 5 · log(n) dB, compared with measurements that do not use this option. For example, a measurement using 10 correlations, improves the phase noise floor by 5 dB.

31-Dec-2021 | AN-No. 1SL376

The R&S®SITLine ETH provides certified cryptography to safeguard data communications within Hitachi file and content systems.

27-Jan-2014

Integrating automotive radar sensors into cars is very challenging. Radars operate behind bumpers, design emblems, in side mirrors or other plastic parts of the car. All radome materials need to be sufficiently transparent and homogeneous for automotive radars, which operate in the 77 GHz and 79 GHz band or even both simultaneously. The new system measures, visualizes and analyzes radar radomes in a manner you have never seen before. Optimize your radome material for best performance and effective integration of modern automotive radar sensors.

27-Aug-2019

This document presents a simple procedure for network analysis that is more cost-effective than the use of scalar network analyzers. It allows the accurate measurement of the transmission characteristics of filters, amplifiers and frequency converters over a large frequency and dynamic range. In order to reach very high measurement speeds, Rohde & Schwarz signal generators are operated in 'List Mode', and Rohde & Schwarz power meters are operated in 'Buffered Mode.' The required programming for the signal gene­rator and the power meter is illustrated by excerpts from a Visual Basic program which is available, free of charge, upon request.

14-Jul-2006 | AN-No. 1MA101

The R&S®ZNA vector network analyzer with integrated LO output and direct IF input options is a simple, cost-effective solution for 2-port and 4-port measurements using Rohde & Schwarz mmWave converters.

27-Apr-2023

The R&S®ZNA vector network analyzer offers a dynamic range that is unbeatable on the market. This kind of sensitivity unlocks potential applications that previously could not be addressed with a vector network analyzer.

07-Jan-2019

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

With its small footprint, the R&S®ATS1000 antenna test system is the ideal direct far-field OTA system to test phased array antennas. The system tests and optimizes the radiation characteristics of any modules using the AiP technology from 18 GHz to 87 GHz.

12-Mar-2020

This application note explains how to convert different Rohde & Schwarz I/Q file formats among each other using the supplied software tool.

23-Sep-2015 | AN-No. 1EF85

Rohde & Schwarz has made a breakthrough for better jitter and noise separation with the launch of SW options (RT-K133 & RT-K134). Technical information on this new algorithm were presented at . We received a lot of positive feedback on this new technique. However, one fundamental question still remained. How does this new algorithm compare to established solutions available on the market today?This app note provides an introduction into the various jitter components and elucidates the commonly available jitter separation frameworks. Finally, it provides a comparison between the different commercial solutions, while explaining the used waveforms and signals to achieve the results. Curios? Read on, to learn how Rohde & Schwarz’s new option for jitter and noise separation delivers dependable and stable results. If you are interested in evaluating on your own, you may download the waveform files with registration.

08-Dec-2021 | AN-No. 1SL375

Energy efficiency of RF Frontends (RFFE), especially transmitters, continues to gain greater prominence.Meeting the efficiency challenge is increasingly difficult at higher operating frequencies and bandwidths, such as those proposed for 5G.There is a group of transmitter RFFE architectures whose signal output is constructed from two, or more, efficiently generated components. This signal construction in effect, means that such architectures use predictive, post-correction linearization. Their predictive nature enables distortion to be completely eliminated.The capabilities of multi-channel signal synthesis setups with R&S®SMW200A, in combination with the R&S®FSW analyzer enable measurement, hence development, of these types of transmitters.The document focusses on devices for the 3.5 GHz NR (5G New Radio) candidate band, but its findings are equally applicable to developments and measurements for, for example, K-band satellite applications or mmW NR candidate bands, where efficiency is an even more crucial design target.

01-Aug-2017 | AN-No. 1MA289

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

Signal monitoring has proven an effective technique when it comes to identifying and correcting quality problems in transmitted TV broadcast signals during broadcast operation. For a DVB‑T2 signal using multiple physical layer pipes (multi-PLP), a separate receiver is required to analyze each PLP. The R&S®DVMS digital TV monitoring systems are extremely flexible and can be configured to meet customer's needs – from sequential PLP monitoring systems with a single receiver to systems providing seamless, parallel multi-PLP analysis.

24-Jul-2012

The R&S® Broadcast Test Center BTC supports the new “Next Generation Broadcast Standard ATSC 3.0” with BTC firmware version 2.20 and later.This application note describes the necessary settings in the user interface of the R&S® Broadcast Test Center BTC.

27-Mar-2018 | AN-No. 1GP119

Secondary surveillance radar (SSR) bridges the gap between communications systems and classic radar systems. Despite the increasing capabilities of mobile communications, SSR remains a major component in airspace surveillance. State-of-the-art methods such as Mode S reply enhance SSR with broadcast-like capabilities and enable airports in remote locations to surveil the airspace even if no radar is available. More advanced techniques such as automatic dependent surveillance broadcast (ADS-B) utilize the infrastructure provided by a Mode S reply transponder to provide even more information for ground control and other aircraft.

17-May-2021