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.
1110 Results
The constantly decreasing size of components and the available board space form a challenge to place adequate test connections for RF instruments. Recent improvements in the availability and use of high performance differential building blocks in RF circuits intensify the problems of connecting test equipment. Using oscilloscope probes is a possibility to perform measurements by connecting to printed circuit board lines and chip contacts where only a minimal area is required to make contact. This application note provides information on how to use oscilloscope probes in RF measurements using spectrum analyzers, and show the results of differential measurements with a spectrum analyzer.
28-Jun-2013 | AN-No. 1EF84
Rohde & Schwarz presents the R&S®ATS1000 antenna test system, a highly accurate solution for testing 5G antennas up to mmWave frequencies in a mobile shielded chamber.
17-Oct-2017
This document describes the adaptive frequency hopping mechanism for improved signaling performance in Bluetooth Basic Rate and Enhanced Data Rate devices.The R&S CMW provides this feature for remote operation in TX, Loopback and Connection test mode. Thereby the R&S CMW acts as a master, while the Equipment under Test (EUT) represents the slave(s) of the piconet.
14-Dec-2016 | AN-No. 1C108
Since June 2017 almost all radio transmitters and receivers sold or put into operation in the European Union have to be tested for immunity against interferers in adjacent frequency bands. ETSI standard EN 303 345 defines the tests to be performed on broadcast sound receivers, and the requirements to be passed.This application note describes the test procedures and provides script files and interferer signals for the Broadcast Test Center R&S®BTC.
29-May-2020 | AN-No. 1GP117
Analyzing high speed datacom interfaces is an important task and ensures signal integrity. One major challenge of this analysis is the connection between the physical interface and the oscilloscope, as most of the datacom interfaces do not provide test connections suitable for RF. A test fixture is required as a bridge between the high speed datacom IF and the RF connector of the oscilloscope, but this will affect the signal integrity measurement. The R&S®RTP and R&S®RTO2000 oscilloscopes with the advanced jitter option can analyze and separate jitter contributions. Additionally, the option can evaluate the impact of test fixtures and traces inherently and give the user a good understanding of the impact of their test setup.
31-Mar-2021
NGM200, NGL200 The R&S®NGL200 and R&S®NGM200 can simulate battery cells when testing battery management systems and replace far more expensive dedicated battery simulators. Testing battery management systems with Rohde & Schwarz power supplies NGM200, NGL200 The R&S®NGL200 and R&S®NGM200 can simulate battery cells when testing battery management systems and replace far more expensive dedicated battery
08-Jun-2020
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
Primer
A power sensor is a fundamental measurement tool in RF engineering. However, today's marketplace is filled with myriad choices, and many are making bold claims about attributes such as measurement speed and readings per second. As a result, it can be difficult to cut through the hyperbole and determine which sensor will actually meet the requirements of a specific measurement.This primer outlines the basics of RF power sensors and highlights a few key characteristics that will help you select the best one for each application. The narrative has three parts. First, we focus on choosing the right type of sensor: multipath, wideband, average power and thermal can satisfy slightly different measurement needs. The second section covers the five major attributes of sensor performance, and what to look for relative to your requirements. Finally, we outline three ways to integrate a sensor into your measurement application.
26-May-2021
Simultaneously measure various current levels from μA to A in all phases of IoT device activity – from sleep to receive and transmit mode
01-Oct-2019
Frequency allocation plans are under discussion in the US and Europe to open the lower C band for 5G applications. This portion of the spectrum provides 5G with more bandwidth than conventional lower mobile frequency bands and is contiguous while the C band is actually in use for satellite downlinks to satellite earth stations (SES).
18-Mar-2019
Measuring and optimizing the characteristics of individual elements within an antenna array for beamforming performance of Qualcomm 5G mmWave modems SDX50 and SDX55.
25-Feb-2020
This application note shows how to use Rohde & Schwarz signal generators and analyzers for testing early 5G New Radio components, chipsets and devices. Methods for easy creation and analysis of custom OFDM are explained. The solution provides● a single user interface for signal generation and analysis configuration● Flexible OFDM configuration and signal generation incl. flexible pilot and data allocation● User defined modulation schemes including complex scenarios, e.g. 5G NR PSS
23-Oct-2017 | AN-No. 1MA308
conducted conformance testing according to TS 38.141-1, Rel. 15
3GPP defines the Radio Frequency (RF) conformance test methods and requirements for 5G NR Base Stations (BS) in the technical specifications TS 38.141. This application note describes how all mandatory RF receiver tests (TS 38.141-1, chapter 7), according to Release 15, can be performed quickly and conveniently with signal generators from Rohde & Schwarz by either choosing manual operation or a remote control approach. Moreover, one test case requires a signal or spectrum analyzer from Rohde & Schwarz which is highlighted seperately in the corresponding chapter.In Addition, a new Python software library comes with this application note to enable the remote control approach of base station testing. This example requires the RsInstrument module which can be found on pypi.org or installed via 'pip' and is provided as is.
02-Dec-2020 | AN-No. GFM314
Radar technology is essential for state-of-the art and future vehicles on the path to full autonomous driving. Radar sensors deliver critical information about the surrounding traffic environment or monitor the interior of the vehicle. As safety-relevant parts, radar sensors must adhere to specifications and regulations.
12-Dec-2022
Linking EDA design simulation and hardware testing to enable an easy, straightforward process flow and first-pass design.
16-Aug-2021
Current Radar development is focusing the area of signal processing. This is taken into account by this educational note, where the R&S®SMW / SMBV instruments on the transmitter side and R&S®FSW / FSV instruments on the receiver side are combined to a closed loop Radar system, performing radar detection by means of pulse compression and digital signal processing. Appropriate Rohde & Schwarz sofware tools for such applications are described as well as the interface between the tools and the test instruments. Target reader group are engineering students who want to perform tests using pulsed or chirped signals.
20-Nov-2014 | AN-No. 1MA234
Generation of wideband digital modulated signals in V-band and above is a challenging task and typically requires a set of multiple instruments. This application note aims at simplifying the task and looks into the analysis part as well. Latest signal and spectrum analyzers like the R&S®FSW67 and R&S®FSW85 are first to allow use in V-band up to 67 GHz and E-band up to 85 GHz respectively without external frequency conversion. Up to 8.3 GHz of modulation bandwidth can be covered using the R&S®FSW-B8001 option. Millimeter wave use of analyzers ranging from 26 GHz up is shown. Application note 1MA217 describes V-band signal generation and analysis up to 500 MHz modulation bandwidth. This application note expands modulation bandwidth up to 2 GHz and covers both V- and E-band examples.
18-Jun-2015 | AN-No. 1MA257
RF system noise contributions define receiver capabilities and sensitivity. The noise figure measures how the critical components affect the signal.
28-Jan-2022
Thanks to their multichannel capability, oscilloscopes are ideal for multichannel applications such as the analysis of MIMO signals (e.g. 5G NR, WLAN), multi-antenna radar signals and differential high-speed digital signals (e.g. USB 3.x). These applications require the oscilloscope channels to be tightly aligned. This means the channel-to-channel residual skew has to be measured accurately so that it can be compensated. The channel-to-channel phase mismatch is reduced to a minimum, which plays a crucial role in achieving reliable measurement results.
06-May-2020
Vector network analyzers are the most accurate instruments in the microwave engineer’s lab. The R&S®ZNA takes accuracy to a new level. Not only is the instrument extremely precise, but now it also calculates and displays the measurement uncertainty right on the screen as the device under test is being measured.
19-Jul-2021
Spurious emission search with spectrum analyzers is one of the most demanding measurements in the design, verification and production of RF and microwave devices. RF designers, especially in the aerospace & defense industry need to detect very low level spurs. Very narrow resolution bandwidths are required to measure with a low noise floor, hence increasing measurement time. Even working with very fast spectrum analyzers, a spur search may take several hours or even days.In this paper we will review the basics of spurious measurements and how the parameters used can affect the detection performance. A new technique as used in the R&S®FSW-K50 spurious measurement application which makes spurious search faster and easier to configure.
14-Jul-2017 | AN-No. 1EF97
Create and simulate detailed traffic situations for the verification of cellular V2X (C-V2X) connectivity.
18-Nov-2019
Application note 1MA25 has been replaced by application note .
28-Aug-2009 | AN-No. 1MA25
The R&S®CMW wideband radio communication tester platform (R&S®CMW500, R&S®CMW270) uses high accuracy distance measurements (HADM) with phase based ranging (PBR) for a comprehensive and fully automated test solution to verify Bluetooth® Low Energy physical layer functionality
06-Sep-2023
The Rohde & Schwarz CMU200 test set can be configured as a standalone Bluetooth test solution for production, R&D, service and QA use, and is the fastest signalling tester for Bluetooth test modes available. This document is intended as a guide to configuring the available measurements to achieve test scenarios very close to the relevant Bluetooth test specifications. BLUETOOTH is a trademark owned by its proprietor and used by Rohde & Schwarz under license.
06-Aug-2001 | AN-No. 1MA46
Impedance measurements with vector network analyzers require maximum precision. The R&S®ZNL is able to characterize a broad range of impedances with the lowest uncertainty among its competitors in the same class.
02-Oct-2019
This application note demonstrates the use of the Measurement Receiver to calibrate the signal output level of a Signal Generator.Calibration in this application is a two-step process.► The absolute output level of the signal source, at a fixed level, is measured using a thermal power sensor (e.g. NRP50T), which in turn outputs its reading to the FSMR.► Output power calibration over a wider dynamic range (to lower power) is performed by connecting the FSMR to the signal source directly, and sweeping the power of the signal source.The FSMR offers a nominal total measurement uncertainty of <0.015 dB +/- 0.005 dB per 10dB step. At 1GHz, the power measurement range covers -152 dBm to +30 dBm. It is this intrinsic linearity, that the accuracy of the calibration relies upon.Absolute power measurement uncertainty, for the NRP50T thermal power sensor used in this Application Note, is 0.040 dB to 0.143 dB.This process may be repeated at multiple frequencies. Calibration values are automatically stored and managed by the FSMR. Measurement frequencies for calibrations are stored, will be automatically recalled by the FSMR, by re-selection of those frequencies.
31-Dec-2021 | AN-No. 1SL377
The Doherty Amplifier continues to be rolled out in an increasing number of TxFE (Transmit Frontend) applications, as the quasi-linear amplifier architecture of choice.The advent of 5G, with its inevitable microwave or millimeter wave air interface, increase the design challenges associated with its construction; not least of all because of the potential for increased dispersion in the constituent amplifiers and combiners.This application note describes a measurement-based development methodology by which the Doherty Amplifier may be enhanced, increasing performance and/or performance bandwidth. This methodology is supported with a working example.The methodology may also be extended to balanced, spatially combined and anti-phase (so called "pushpull" or "differential") amplifiers, the latter often itself nested in Doherty configurations.The R&S®Quickstep sequencing software may be downloaded from:
26-Sep-2016 | AN-No. 1MA279
Before devices can be used in a LoRaWANTM network, they must among other things meet country-specific wireless communications regulations. This application note shows developers and manufacturers of devices with LoRa wireless technology how transmitter measurements are conducted in line with FCC Part 15.247. It also describes how important receiver characteristics can be verified by metrological means. In this context, battery life in particular plays a key role in IoT applications. A further chapter describes how current consumption of LoRa wireless modules can be measured reliably.
29-Nov-2017 | AN-No. 1MA295
This application note describes Battery Life Measurements with the R&S®RT-ZVC02/04 Multi-Channel Probe. The measurements are described with the use of an oscilloscope. The R&S®RT-ZVC Multi-Channel Probe can be used with R&S®RTE1000, R&S®RTO2000 or R&S®RTP.
17-Jan-2019 | AN-No. 1TD07