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.
64 Results
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
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
The Application Note summarises all measurements for WLAN test, according to the IEEE Standards 802.11a, b and g. For each measurement, an instrument list, test setups, test method, comments, typical results and implementation hints are included. The enclosed free of charge software provides all IEEE 488 bus sequences ready to run or copy into your own test environment.
28-Jul-2004 | AN-No. 1MA69
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
Digital pre-distortion (DPD) is a common method to linearize the output signal of a power amplifier (PA), which is being operated in its non-linear operating range.The R&S K18D application family offers a very easy-to-use method to pre-distort amplifiers without modelling the DUT.However, many engineers in PA design request a simple and easy-to-use tool that delivers a DPD model applicable to any real-world signal.This application note with the accompanying software tool allows engineers without in-depth knowledge of DPD or remote programming to generate a DPD model and verify it against the DUT, based on the results of the K18D application.
25-Mar-2019 | AN-No. 1EF105
The required bandwidth span for power amplifiers is growing, driven by the latest 5G and satellite enhancements.Ideally, amplifiers support multiple bands. This makes wideband testing more essential than ever before.
19-May-2020
The R&S®FPS-K18 amplifier measurement option in combination with the R&S®FPS signal and spectrum analyzer and the R&S®SGT100A SGMA vector RF source enables high-speed amplifier characterization.
13-Jun-2016
This application notes describes remote operation or monitoring of the spectrum analyzers R&S® FSL3, R&S® FSL6, R&S® FSL18 through a standard web browser. The common cross-platform technology Virtual Network Computing (VNC) is used as a server on the instrument.
07-Jan-2009 | AN-No. 1EF66
Linking EDA design simulation and hardware testing to enable an easy, straightforward process flow and first-pass design.
16-Aug-2021
- not available -
20-Jul-2001 | AN-No. 7BM18
Digital pre-distortion (DPD) is a common method to linearize the output signal of a power amplifier (PA), which is being operated in its non-linear operating range.Most PAs operate in their non-linear range for efficiency reasons. The drawback of higher efficiency is the non-linear operating range. In order to maintain signal quality, many transmitters employ DPD. Implementing real-time DPD in a transmitter is a challenging task and often ends in PA models, which are specific to the signal transmitted.Even though these complex models are required for transmitter development, they are not needed during PA verification and development.This article describes an approach to generate a pre-distorted signal based on a hard-clipper. The resulting waveform pushes the output of the DUT as close to the hard-clipper as possible.Due to the waveform approach, the algorithm compensates all memory effects.
13-Sep-2017 | AN-No. 1EF99
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
The scope of this application note is to give a comprehensive guide on how the R&S®FSW signal and spectrum analyzer with the option R&S®FSW-K18 may be used to create a Hammerstein model for the R&S®SMW200A vector signal generator’s output stage. This model can then be applied to counteract inherent non-linearities and memory effects and improve the Error Vector Magnitude (EVM) at high output powers of the R&S®SMW200A vector signal generator.
28-Aug-2023 | AN-No. 1GP139
When measuring the performance of 802.11 wireless LAN compatible receivers, Packet Error Rate (PER) tests are the method of choice today. This application note describes a simple way to conduct PER tests using signal generators on any 802.11 device, independent of their physical layer design (11b, 11a or 11g). The application software works with standard Windows™ drivers on any card independent of manufacturer. No additional hardware specific software is needed. Easy setup of the source signal is included with direct upload to an SMIQ or AMIQ.
09-Jan-2012 | AN-No. 1GP56
TDMA communications systems like GSM, DCS 1800 or PCS 1900 make effective use of the frequency spectrum by assigning several subscribers to the same frequency channel. Each subscriber has access to one predefined time slot for transmitting information. With GSM eight subscribers share one frequency channel with a bandwidth of 200 kHz. In order not to disturb the other users of the 200-kHz channel it has to be ensured that, for instance, a mobile sends in the assigned time slot only and that no power is emitted by the transmitter at other times. For this reason the transmitter power is practically switched off in the transmission intervals.
16-Jan-2002 | AN-No. 1EF18
5G is the fifth generation of wireless communication technology supporting cellular networks. From GSM (2G) through to LTE (4G), each generation addresses technical challenges not overcome by its predecessor. As with previous generations, 5G requires new mobile devices and new base stations (BTS).Unlike previous generations, the use of radio beams in 5G requires completely new approaches with regard to the compliance, coverage, and quality of service testing.The new air interface is called 5G NR ("new radio"). This application note describes the measurement challenges of 5G NR and makes clear the benefits of using a monitoring receiver for measuring 5G signals.Real-world examples explain how to perform various key 5G measurements. The final section covers further 5G measurement possibilities using R&S products. "Over-the-air" (OTA) measurements are essential in 5G. This means staff from regulators and operators must work in unknown radio environments that vary according to location (e.g. urban or suburban) and mission (e.g. 5G BTS compliance testing or interference hunting). Measurement equipment must operate in a wide range of scenarios (close to the mast and far from the mast) and offer user-friendly functionality that enables the required measurements.Considering current global deployment trends, this paper focuses on the FR1 frequency band (sub 6 GHz).
07-Jun-2021 | AN-No. 1SL366
The voltage standing wave ratio (VSWR) is one of the parameters in RF systems that measures the impedance mismatch. Under ideal conditions, when the load is perfectly matched to the source, the VSWR will be 1. A mismatch in the system causes reflections that will increase the VSWR and lead to losses in transmission. Although most RF components are typically designed and specified with a characteristic impedance of 50 Ω , applications and system components for cable television are designed and specified with a characteristic impedance of 75 Ω . This application note describes the measurement procedure for VSWR measurements in 75 Ω systems using the R&S®FSH3-TV handheld TV analyzer.
01-Mar-2008 | AN-No. 7BM72
Measuring cable characteristics is important when it comes to installing and servicing cable TV systems. Cable pinches or poor connections considerably influence the characteristics of cable TV systems. This document shows how the measurement is carried out in a 75 Ohm system. The basics of distance-to-fault measurements, the test setup, calibration and measurement are discussed.
21-Sep-2006 | AN-No. 7BM60
DOCSIS has become the established standard for return channels when it comes to implementing interactive services in broadband cable networks. The quality of these signals is essential to network efficiency. The analysis can be done using the highprecision R&S®ETL, R&S®EFA and R&S®FSH3-TV TV test receivers that have proven themselves in the downstream. These T & M instruments can be quickly and easily configured for measuring the upstream.
13-Jul-2012
Spectrum clearance in mobile networks is becoming ever more important as operators use new bands that previously contained other services. This is particularly important for the 5G NR rollout. 5G NR has already initiated a worldwide deployment of TDD networks in an unknown radio environment where unwanted transmitters can create uplink interference masked by downlink signals, making interference hunting particularly demanding. Automated detection of interference signals before a network switches on can be a big help in addition to traditional manual techniques.
19-Apr-2024
Integrated sensing and communication (ISAC) is a pillar of 6G. Combining two different yet similar worlds – communications and environmental sensing – brings the future to life in the 6G era. The key ISAC drivers are beamforming with MIMO arrays, artificial intelligence (AI), modern modulation schemes and dense network infrastructure. The R&S®AREG800A automotive radar echo generator is a core element of a versatile research and development test solution in the ISAC community.
11-Mar-2024
The R&S®RTO6 oscilloscope has an in-depth tool for debugging custom and commercial off-the-shelf serial buses for the avionics and aerospace industries.
20-Dec-2023
New technologies and applications like 6G communications and sensing extend into sub-THz frequencies in the D band and beyond. New semiconductor technologies and processes need to be commercialized to support these efforts.
12-Dec-2023
Leaving aside the microwave generators, the present line of Rohde & Schwarz products comprisessignal generators up to 1 GHz (SMX, SMG), up to 2 GHz (SMH, SMGU), up to 3 GHz (SME, SMT) and up to 4.3 GHz (SMHU). For applications at higher frequencies, all signal generators can also be operated with an external passive frequency doubler. This extends the range of possible applications up to 8.6 GHz. Some degraded specs regarding level and modulation are described below. For people using the frequency range 3 to 6 GHz, the low priced combination SMT plus frequency doubler will mainly be interesting. Signal generator SMHU is useful for the frequency range up to 8.6 GHz. Especially the phase noise performance is excellent with this instrument. the required output signal. It should also be pointed out that the residual FM and the SSB phase noise will be 6 dB poorer as a result of frequency doubling.
20-Apr-1998 | AN-No. 1GPAN03
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
Since the video signal - composite or component - is a most complex one regarding the spectral density or even the group delay in the baseband, you need special procedures to measure the signal parameters with an objective and absolute accuracy of less than one percent over the whole frequency range up to 6 MHz. The following describes a method allowing the precise measurement of a baseband signal, which then may be taken for the calibration of video analyzers such as the well-known R&S units UAF or UVF and future products.
20-Jul-2001 | AN-No. 7BM22
Most of the tests specified in standard TS 34.121 [1] for 3GPP Rel-5 can be performed with R&S®CMU200. This document provides a step by step guide on how to perform Rel-5 measurements on transmitter characteristics, receiver characteristics and performance tests according to TS 34.121 V8.7.0 clauses 5, 6 and 9 with standalone R&S®CMU200. Test cases that require additional instruments, e.g. fading generator (R&S®SMU200A or R&S®AMU200A) will be discussed in brief in this application note with recommended reference. A set of *.sav files based on R&S®CMU200 firmware V5.03 for UE supporting operating band I with power class 3 in RMC 12.2 kbps + HSDPA is attached to this application note.
13-Oct-2009 | AN-No. 1CM72
3GPP TS25.141 defines conformance tests for W-CDMA base stations (including HSPA+ features). This application note describes how all required receiver (Rx) tests (TS25.141 Chapter 7) can be performed easily and quickly by using vector signal generators and CW sources from Rohde & Schwarz. One test additionally requires a spectrum analyzer from Rohde & Schwarz.Example illustrates manual operation. A free software program enables and demonstrates remote operation. The W-CDMA base station transmitter (Tx) tests (TS25.141 Chapter 6) are described in Application Note 1MA67.
21-Oct-2014 | AN-No. 1MA114
During development of MU-MIMO antenna arrays, the beamforming algorithms undergo steady revision. Whether used in regression testing or verification of newly introduced features, fast beamforming verification helps to speed up R&D for beamforming antennas and improve performance of your product.
07-Jul-2020
This Application Note describes measurements on RFID readers and chipcards according to ISO/IEC 14443 and similar standards, using a signal generator and a spectrum analyzer. Using a modern spectrum analyzer like the R&S®FSL not only increases accuracy and measurement speed, but also simplifies operation. Interoperability tests, in particular, are simplified by generating reader test signals with a signal generator. With software option R&S®SMx/AMU/AFQ-K6 chipcards can be tested without a reader
25-Jan-2010 | AN-No. 1MA113