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20-Jul-2001 | AN-No. 7BM18

This white paper describes the interaction between intermodulation products generated by a device under test (DUT) and intermodulation products generated internally in a spectrum analyzer. The overall intermodulation distortion may be too optimistic or pessimistic. Examples demonstrating cancelling IM products and necessary steps to avoid an influence of the spectrum analyzer on the measurement results are outlined.

29-Nov-2012 | AN-No. 1MA219

3GPP TS25.141 defines conformance tests for UTRA base stations (NodeB). This application note describes how performance tests (TS25.141 Chapter 8) can be performed quickly and easily by using vector signal generators from Rohde & Schwarz. Examples illustrate the manual operation. A free software program enables and demonstrates remote operation.

04-Mar-2015 | AN-No. 1MA78

This application note shows how to configure, calibrate and perform conducted EMS (Electro Magnetic Susceptibility) measurements according to IEC / EN 61000-4-6 and EMI (Electro Magnetic Interference) measurements according to CISPR 16-2-1 with the R&S®EMC32 software tool.

19-Jul-2013 | AN-No. 1MA212

This application note introduces the program GPIB-Bus Device Finder GPIB FIND.The GPIB-Bus Device Finder GPIB FIND helps you identify the devices connected to a GPIB (IEC or IEEE) bus. It shows the addresses of these devices and their response to the identity query (*idn?). Additionally GPIB FIND helps you to locate GPIB problems with GPIB card installation, incorrect address setting or broken cables. GPIB FIND includes an additional program to send (write) a message to a device or to receive (read) a message from the device.

28-Oct-2009 | AN-No. 1MA17

This white paper describes the POLQA® algorithm implemented in the R&S®UPV Audio Analyzer and shows an example hardware setup for standard independent audio measurements.

30-May-2012 | AN-No. 1MA202

This white paper summarizes significant additional technology components based on LTE, which are included in 3GPP Release 12 specifications. The LTE technology as specified within 3GPP Release 8 was first commercially deployed by end 2009. Since then the number of commercial networks is strongly increasing around the globe. LTE has become the fastest developing mobile system technology ever. As other cellular technologies LTE is continuously worked on in terms of improvements. 3GPP groups added technology components according to so called releases. Initial enhancements were included in 3GPP Release 9, followed by more significant improvements in 3GPP Release 10, also known as LTE-Advanced. Beyond Release 10 a number of different market terms have been used. However 3GPP reaffirmed that the naming for the technology family and its evolution continues to be covered by the term LTE-Advanced. Therefore LTE-Advanced remains the correct description for specifications defined from Release 10 onwards, including 3GPP Release 12.

04-Aug-2015 | AN-No. 1MA252

All digital oscilloscopes are temporarily blind. During this blind time the user will miss critical signal events at his device under test. Thus, it is necessary to understand the impact of blind time to the measurement. This application note explains the background of blind time and points out why a high acquisition rate is important. It furthermore explains the R&S RTO oscilloscope capabilities and how they help for faster debugging, measurement and analysis.

17-May-2011 | AN-No. 1ER02

Determining the field strength from transmitted power is not an easy job. Various, quite complicated formulas have to be evaluated correctly. This application note explains, how to calculate electric and magnetic field strength and power flux density. A program associated to this application note helps to do the calculation and converts Watts to mW and dBm, V/m to mV/m and dBmV/m as well as A/m to mA/m and dBmA/m. Additional applications are calculation of propagation loss or antenna factors.

10-Dec-2018 | AN-No. 1MA85

True or false: 30 dBm + 30 dBm = 60 dBm? Why does 1% work out to be -40 dB one time but then 0.1 dB or 0.05 dB the next time? These questions sometimes leave even experienced engineers scratching their heads. Decibels are found everywhere, including power levels, voltages, reflection coefficients, noise figures, field strengths and more. What is a decibel and how should we use it in our calculations? This Application Note is intended as a refresher on the subject of decibels.

21-Apr-2015 | AN-No. 1MA98

Audio Analyzers UPD and UPL with their large variety of functions provide practically all measurement procedures required in audio technology. Thanks to the Universal Sequence Controllers UPD-K1 and UPL-B10, which are available as options, the user is able to considerably expand the range of functions to suit his particular requirements. It is possible, for instance, to add complete measurement functions - eg measurement of ohmic resistance - and to read out, convert or reload sweep results or to add new scale labelling (eg group delay). Another example is the analysis of sweep curves and the display of results in a window next to the curve. As far as softkey labelling and functions are concerned, operation of the sequence control programs is analogous to the softkey control of the UPD/UPL graphics display.

04-Jun-1998 | AN-No. 1GA16

The application note has a focus on the theoretical background of the PLL measurement method and illuminate its application in the R&S FSUP. Based on measurement examples on different sources, the loop settings for optimum measurement performance are discussed.

04-May-2010 | AN-No. 1EF72

Frequency Modulated Continuous Wave (FMCW) radar signals are often used in short range surveillance, altimeters and automotive radars. To ensure proper functionality, signal quality measures such as frequency linearity are of great importance.This application note focuses on fully automated, fast and accurate measurements, of linear FMCW radar signals. It explains the basic signal processing, the impact on radar key performance indicators in case of linearity deviations and explains test and measurement of linear FMCW signals in detail.Measurement of an FMCW radar signal in the 77-81 GHz band with 500 MHz of measurement bandwidth is demonstrated.

25-Apr-2014 | AN-No. 1EF88

With the test setup described, specific auxiliary data can inserted into the MPEG-2 transport streams for testing Set-Top Boxes for MHP and SSU. MHP (Multimedia Home Platform) applications can be added to the MHP test configuration and tested on the receiver, with the SSU configuration software updates of Settop Boxes can be performed according to TS 102 006.

09-Aug-2004 | AN-No. FTK02

Remote control over a public mobile phone network with SMS or via a wireless IP connection.

22-Apr-2013

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20-Jul-2001 | AN-No. 7BM20

The option R&S®EMC32-K24 extends the emission measurement of the EMI Auto Test (R&S®EMC32-K10) with interactive measurement capabilities. This extension is useful for test verification and measurement during product improvement.

25-Jun-2014 | AN-No. 1SP06

This document describes how a Windows®-based R&S® T&M instrument is remotely operated by an Android™ tablet as if working on it locally. Step-by-step procedures are provided for setting up and configuring the T&M instrument and the tablet. On the tablet, a special App implements the Windows® 'Remote Desktop' functionality. T&M instrument and tablet are connected via WLAN (also called Wi-Fi network).

22-Aug-2013 | AN-No. 1MA236

This application note describes an effective method for generating test setups, performing measurements and producing test reports with the hand-held Spectrum Analyzer R&S FSH3

31-Jan-2003 | AN-No. 1EF50

Rohde & Schwarz test receivers of the ESXS, ESS and ESXN series are equipped with a 3.5' floppy-disk drive so that receiver settings, scan results, limit lines, transducer factors and whole sets of transducers can be stored on a floppy disk and reloaded into the receiver. Data can only be loaded into the receiver type from which they have been stored. The reason is that data eg from an ESHS30, which operates in the frequency range from 9 kHz to 30 Hz, should not be loaded into an ESVS30 as the data of the two units may be incompatible to because of the different frequency ranges alone (ESVS30: 20 MHz to 1000 MHz). However, in some cases it may be desirable to load an ESVS20 file into an ESVS30, or an ESN file into an ESVN40.

18-Jan-2002 | AN-No. 1EE19

Nearly all tests in accordance with the Bluetooth low energy test specification V4.0 [1] can be performed using the R&S®CBT alone. Some tests additionally call for signal generators to provide interference signals. This application note describes the tests performed with additional equipment and presents straightforward solutions based on the R&S®CBTgo software.

18-Jul-2013 | AN-No. 1MA200

The constantly increasing number of telecommunication services and subscribers is putting more and more pressure on the availability of already scarse frequencies. Authorities responsible for monitoring and regulating the radio traffic are confronted with more and more complex problems relating to radiomonitoring and frequency management. Without exact data - a prerequisite for monitoring existing installations and planning new services - it is impossible to solve the problem. It is essential to use the proper measurement equipment. This Application Note deals with the following measurements: Measuring various signal parameters at defined frequencies. Monitoring emissions for compliance with specified limits for field strength, modulation depth/index, frequency deviation and offset.

18-Jan-2002 | AN-No. 1EE13

LTE Location Based Services (LBS) involve the process of determining where a device is located. Global Navigation Satellite System (GNSS) based solutions are highly accurate and the technology of choice for absolute position accuracy, providing the device has a good line-of-sight, but this is not always the case. A device can be in a highly dense urban environment with reduced satellite visibility or indoors with very low signal levels.These limitations of GNSS systems have meant that LTE cellular based alternatives have been developed within 3GPP Release 9 and onwards.They are described in this white paper.

29-May-2015 | AN-No. 1SP05

This application note describes how noise figure and gain of amplifiers or converters in the microwave range from 50 GHz to 67 GHz are measured. For this purpose the R&S FSU67 spectrum analyzer is equipped with application firmware R&S FS-K30 in combination with the Noisecom NC5115-60G, or NC5115-60GT Noise Figure Test Set.

12-May-2009 | AN-No. 1EF64

This application note describes how to connect and use the highly popular R&S®NRP-Z family of USB SMART power sensors with the Android application (app): R&S®Power Viewer Mobile for mobile devices running on Android 4.0 operating systems. Multi-path diode and wideband power sensors as well as thermal R&S®NRP-Z sensors are supported. The app "R&S®Power Viewer Mobile" is available on .

04-Jun-2013 | AN-No. 1MA215

- not available -

20-Jul-2001 | AN-No. 7BM19

This program applies to SFQs which are equipped with the first generation of noise generators (Var 02) and with FW version 1.24 or higher. [[ br /> One of the most important measurements of DVB systems concern noise margins. The C/N signal produced by the SFQ needs to be as accurate as possible. [[ br /> The present application note is intended to this purpose, with a special calibration process.

20-Jul-2001 | AN-No. 7BM08

A simple concept with Azure IoT

Cloud development, microservice architectures and container virtualization are becoming more and more standard. Software components are repacked into containers, networked with each other and then brought into the cloud. The topic is also becoming increasingly interesting for test & measurement.But how do you connect your existing measurement equipment to the cloud, with instruments in some cases not even having an internet connection?This document describes an approach how to establish a remote connection between the instrument and the cloud using an IoT broker. The implementation is done using an Azure IoT Hub and software in .NET Core.

15-Dec-2020 | AN-No. GFM319

As part of Release 13, 3GPP has specified a new radio interface, the Narrowband Internet of Things (NBIoT). NB-IoT is optimized for machine type traffic. It is kept as simple as possible in order to reduce device costs and to minimize battery consumption. In addition, it is also adapted to work in difficult radio conditions, which is a frequent operational area for certain machine type communication devices. Although NBIoT is an independent radio interface, it is tightly connected with LTE, which also shows up in its integration in the current LTE specifications.In this whitepaper we introduce the NB-IoT technology with an emphasis on the tight connection to LTE.

08-Aug-2016 | AN-No. 1MA266

This Application Note describes the operating principle of DME (Distance Measurement Equipment) that is used for distance measurement in aviation. It also describes various test scenarios for the maintenance of a DME transponder. These tests require an R&S®SMA100A signal generator with R&S®SMA-K26 DME modulation option, and an R&S®NRP-Z81 wideband power sensor.

26-Feb-2009 | AN-No. 1GP74