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Find the information you need from Rohde & Schwarz. Search for products, technologies, applications, manuals, datasheets, tutorials, FAQs, and more.
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Rohde & Schwarz user manual for the Pulse Sequencer Software for signal generators (options R&S®Snn-K30x), comprising instructions on how to create pulses and sequences, define antenna scans, emitters and receivers and create complex scenarios.
This application note introduces the IVI High Speed LAN Instrument Protocol (HiSLIP) and outlines its features. HiSLIP is the successor to the VXI-11 LAN remote control protocol. This document also describes guidelines for using this protocol.
12-Nov-2014 | AN-No. 1MA208
Based on the new high-performance R&S®SMW200A vector signal generator and the R&S®RTO digital oscilloscope, the solution provides MIMO signal generation and realtime channel emulation (up to 4x4 or 8x2) as well as synchronous analysis of multiple TX antenna signals.
The demystifying 5G video series discusses main topics related to 5G including requirements, timeline, potential frequency and waveform candidates. video, signal generation, signal analysis, FSW, SMW200A he video demonstrates high frequency signal generation and analysis using signal generator and analyzer solutions from Rohde & Schwarz.
The new R&S FE110ST/SR frontends extend the frequency range of Rohde & Schwarz signal sources such as the R&S SMW200A and signal analysis instruments such as the R&S FSW signal and spectrum analyzer to cover the W band from 70 GHz to 110 GHz. This video shows the excellent signal performance and the support of swept measurements and local oscillator coupling of the FE frontend series.
This webinar provides you with an insight into the fundamentals and latest developments in electronic counter measures, and the underlying technologies and concepts.
Based on the R&S®SMW200A vector signal generator and the R&S®FSW signal and spectrum analyzer, the video demonstrates the gain transfer method in order to carry out repeatable and reliable over-the-air (OTA) measurements. Calibrating OTA test systems - gain transfer method | R&S Gain transfer method is an example of OTA test system calibration.
The R&S®SMW200A vector signal generator together with the R&S®Pulse Sequencer software package is a powerful off the-shelf radar signal simulator. It can simulate RF emitter signals from single or multiple moving emitters in the lab. Simulating moving emitters | Rohde & Schwarz Simulating moving radar emitters is important in most test cases.
The 5G NR signal uses a subcarrier spacing of 120 kHz by applying a periodicity of 1.25 ms and is generated with the R&S®SMW200A vector signal generator. How to generate and analyze 5G NR TDD signals? | R&S The 5G NR signal uses a subcarrier spacing of 120 kHz by applying a periodicity of 1.25 ms. Learn how to generate the uplink portion of a 5G NR TDD signal.
The demystifying 5G video series discusses main topics related to 5G including requirements, timeline, frequency bands and waveforms. 5G, mobile network testing, NSA, non-standalone mode, network scanner, drive test, SMW200A, TSMA6, TSME6, ROMES4 The video demonstrates how to measure all synchronization signal blocks (SSBs) in different frequencies with all SSB indices.
It demonstrates how to test a discrete transceiver for 5G NR based on the latest data converters from Texas Instruments, the DAC38RF82 and the ADC12DJ3200, using the R&S®SMA100B RF and microwave analog signal generator, the R&S®SMW200A vector signal generator and the R&S®FSW signal and spectrum analyzer from Rohde & Schwarz.
The demystifying 5G video series discusses main topics related to 5G including requirements, timeline, potential frequency and waveform candidates. video, SMW200A, FSW, signal generator, signal analyzer, 5G, UFMC, GFDM, FBMC In this video we explore how to set up Rohde & Schwarz signal generators and spectrum analyzers to characterize a 5G power amplifier using 5G waveform candidates, such as FBMC,
We show how the SMW200A can be used to easily configure 5G NR signals to test DUTs and to achieve excellent EVM measurements without the need for any extensive calibration procedures. EVM, Optimize EVM, 5G NR, signal generator, signal analyzer, 5G, Component Testing, FR2, SMW, FSW Easy and optimized EVM measurement of 5G NR signals
The new R&S FE110ST/SR TX/RX frontends extend the frequency range of Rohde & Schwarz signal sources such as the R&S SMW200A vector signal generator and signal analysis instruments such as the R&S RTP oscilloscope to cover the W band from 70 GHz to 110 GHz. They complement the company’s portfolio of easy-to-mount frontends.
The R&S®SMW200A vector signal generator together with the R&S®Pulse Sequencer software package is a powerful off the-shelf radar signal simulator. It can simulate RF emitter signals with different angle of arrival in the lab. Simulating Angle of Arrival | Rohde & Schwarz Airborne, naval or land based platforms must have direction finding capability.
Together with the R&S®SMW200A vector signal generator and the R&S®FSVA3000 signal and spectrum analyzer, this setup provides a cost-efficient solution for 5G RF characterization tests. 5G FR2 RF testing, FSVA3044, Tailored solution for OTA measurements thanks to high-frequency frontend modules which can be placed close to measurement chamber.
The R&S®SMW200A vector signal generator transmits a 28 GHz 5G signal that is captured with the R&S®FSW signal and spectrum analyzer. For postprocessing, the R&S®FS-K96PC OFDM vector signal analysis software from Rohde & Schwarz is applied. The demystifying 5G video series discusses main topics related to 5G including requirements, timeline, potential frequency and waveform candidates.
Moreover, they seamlessly integrate with the R&S®SMW200A vector signal generator and R&S®FSW signal and spectrum analyzer , to offer a plug-and-play experience and pave the way for innovative breakthroughs in the W band . Essentials spectrum analyzers, FE110SR, FE110ST Embrace the power of the W band with the R&S®FE110ST/SR W band converters, which cover the 70-110 GHz range.
The demystifying 5G video series discusses main topics related to 5G including requirements, timeline, frequency bands and waveforms. 5G, mobile network testing, NSA, non-standalone mode, network scanner, drive test, SMW200A, TSMA6, TSME6, ROMES4 This video explains how easy it is to configure the R&S®TSME6 network scanner.
It also demonstrates phase noise emulation using the R&S SMW200A vector signal generator and how this function can be used to test correction algorithms to compensate for CPE in a receiver such as a mobile handset. 5G NR PTRS - how to emulate phase noise | Rohde & Schwarz Why does 5G NR require phase tracking reference signals?
The R&S®SMW200A vector signal generator supports signal generation according to the 28 GHz pre-5G specification available at www.5gtf.org. Combined with the R&S®FSW signal and spectrum analyzer supporting an internal 1.2 GHz analysis bandwidth makes this setup ideal for in-depth component characterization such as for 28 GHz power amplifier development.
The R&S SMW200A vector signal generator is used to configure synchronization signal blocks (SSB) including periodicity for the 5G NR signal, and to configure control channel (CORESET) and data channel (PDSCH) to carry data in the specific subframes. Signal analysis of the 5G NR personality is demonstrated on the R&S FSW signal and spectrum analyzer.
The demystifying 5G video series discusses main topics related to 5G including requirements, timeline, frequency bands and key components. 5G, mobile network testing, network scanner, drive test, walk test, coverage test, coverage measurement, TSMA6, TSME6, TSME30DC, ROMES, SMW200A The video introduces a compact backpack that is ideal to perform simultaneous network measurements of 5G NR in mmWave
The test setup, demonstrated in this video, operates at 82.5 GHz and is based on the R&S®AFQ100A baseband generator, the R&S®SMW200A vector signal generator and the R&S®FSW signal and spectrum analyzer.
The demystifying 5G video series discusses main topics related to 5G including requirements, timeline, potential frequency and waveform candidates video, SMW200A, FSW, signal generator, signal analyzer, signal demodulation, UFMC How to generate UFMC signals?
The R&S®AFQ100A baseband generator and the R&S®SMW200A vector signal generator are used to generate a 39 GHz carrier frequency signal for the transmission. The R&S®FSW signal and spectrum analyzer downconverts the received signal and provides digitized I/Q samples to an external software tool to calculate channel impulse response and channel transfer function.
The R&S®SMW200A vector signal generator together with the R&S®Pulse Sequencer software package is a powerful off the-shelf radar signal simulator. It can simulate RF emitter signals from single or multiple static or moving emitters in the lab. Simulating multiple emitters | Rohde & Schwarz In operational situations, many emitter signals are present at the same time.
The example shows an error vector magnitude (EVM) measurement on a two-channel 5.2 Gsample analog to digital converter from Texas Instruments using the R&S®SMW200A vector signal generator, the R&S®SMA100B RF and microwave analog signal generator and the R&S®VSE vector signal analysis software from Rohde & Schwarz.
26-Oct-2022 | Press Release | Test & measurement
Rohde & Schwarz joins forces with Tsinghua University, Actenna Technology and others to conduct RIS technology trialsTo further exploit the huge potential of 5G, the wireless industry has continued to develop the standard up to Release 16, and development continues. But technology does not stand still, and even as 5G presses forward, a new generation of cellular technology is emerging. Cutting-edge 6G research is already underway at communications equipment manufacturers and research institutions, and reconfigurable intelligent surfaces (RIS) is a major area of interest in 6G research. Rohde & Schwarz, with Tsinghua University and Actenna Technology, recently completed an evaluation and trial of RIS technology to comprehensively evaluate the effects and performance of RIS deployment.
Learn about 5G in space and explore NTN base station test solutions. Discover test solutions for 5G from orbit. Get an overview of TS 38.108 and TS 38.181.