R&S®RTP – Mediencenter

Embedding & Equalization with the R&S RTP Oscilloscope (Part 1)

Learn about key advantages of the Embedding and Equalization option of the R&S RTP & RTO6 oscilloscopes. Start with the Signal Configurator.

Embedding & Equalization with the R&S RTP Oscilloscope (Part 2)

Learn how easy it is to configure a cable emulation within the Embedding setup dialog. For interface standards such as USB, necessary S-parameter files are included in the oscilloscope software.

Embedding & Equalization with the R&S RTP Oscilloscope (Part 3)

The Eye Diagram is an effective tool to validate signal integrity. This video compares the eye diagram on a signal acquired at the output of a USB transmitter versus a waveform with some added cable emulation.

Embedding & Equalization with the R&S RTP Oscilloscope (Part 4)

Learn how easy it is to configure a equalizer emulation within the Equalizer setup dialog. For interface standards such as USB, PCIe or DP, the necessary S-parameter files are included in the oscilloscope software.

RTP Oscilloscopes with External Frontends (Part 1)

The R&S FE External Frontends extend the frequency range of the RTP Oscilloscope up to 170 GHz. No additional equipment is needed for this compact and fully calibrated solution. Learn how easy it is to configure a external frontend directly by the RTP GUI.

RTP Oscilloscopes with External Frontends (Part 2 )

The R&S RTP oscilloscope offers a comprehensive set of tools for analysing widebad RF signals together with the external frontends downconverted. Start with powerful trigger events, responsive spectrum analysis or the unique IQ mode to prepare in depth signal analysis. .

RTP Oscilloscopes with External Frontends (Part 3 )

The R&S VSE software offer a comprehensive set of analysis options for RF signal analysis. This video demonstrates how easy the VSE software can analyze a 5G FR2 signal that was captured and downconverted by the FE44S external frontend and acquired by the RTP oscilloscope.

RTP Oscilloscopes with External Frontends (Part 4 )

The RTP oscilloscope can use up to 4 external frontends to acquire the respective IF signals for further analysis. Here we use two FE44S external frontends to test a 5G FR2 signal at 28 GHz. Signal analysis is performed by the R&S VSE software running directly on the RTP oscilloscope.

RTP Oscilloscopes with External Frontends (Part 5 )

Use the R&S RTP Oscilloscope with the R&S External Frontend FE110SR to debug your automotive radar devices. This example demonstrates the analysis of a bursted radar chirp signal with the FFT and Spectrogram. Analysis with the R&S VSE software and the Transient option enhances the characterization of radar signals. Additionally, the acquisition of two FE110SR signals with a maximum bandwith of 10 GHz in a frequency range of 70 to 110 GHz is possible the RTP oscilloscope.

PAM-N Analysis with the R&S RTP Oscilloscope (Part 1)

Learn about key advantages of the PAM-N analysis option on the R&S RTP & RTO6 oscilloscopes. Start with the Signal Configurator.

PAM-N Analysis with the R&S RTP Oscilloscope (Part 2)

Learn about key advantages of the PAM-N analysis option on the R&S RTP & RTO6 oscilloscopes. In combination with the CDR option, obtain the fastest eye diagrams to characterize signal behaviour in seconds.

PAM-N Analysis with the R&S RTP Oscilloscope (Part 3)

Learn about key advantages of the PAM-N analysis option on the R&S RTP & RTO6 oscilloscopes. In combination with the CDR option, obtain the fastest eye diagrams to characterize signal behaviour in seconds.

Towards 6G: MIMO measurements up to 110 GHz

This video demonstrates signal transmission and analysis of a 2x2 MIMO signal at 90 GHz.

Powerful spectrum and spectrogram. RTP - see the difference

Use the accuracy of the RTP for the analysis of wide-band RF signals.

Accelerate your EMI debugging. RTP - see the difference

See on our debugging example how to use the powerful spectrum analysis with log display, peak list and limit lines for visualizing and evaluating the EMI emission.

Automated measurements. RTP - see the difference

The RTP offers of more than 90 automated measurements, with statistical analysis and histogram and track display for data visualization. Learn to use it most easily.

Meet the R&S RTP Oscillscope

The R&S RTP is the most versatile multi-purpose oscilloscope.

How does high update rate help? RTP - see the difference

Benefits from the RTP oscillscopes, offering the fastest update rate of maximum 750,000 waveforms/s.

Isolate signal details with precise digital trigger. See the difference

RTP oscilloscopes can trigger on signals as small as 1/1000th of a vertical division thanks to digital triggering and adjustable hysteresis.

Serial bus decoding. RTP - see the difference

The 16 digital channels of the MSO option extend the measurement resources of the RTP. Use them for protocol-based triggering and decoding of low-speed interfaces such as I2C, SPI, MIL1553 or MIPI RFFE.

Quickly access your favourite tools. RTP - see the difference

Access your favourite scope functions most quickly via the toolbar.

Superior user experience. RTP - see the difference

Learn how easy it is to organize your waveforms and results with the RTP oscilloscope.

Compensate signal losses in real-time. RTP - see the difference

Compensate signal losses from test fixtures or cables in real-time.

Differential signal math in real-time. RTP - see the difference

Benefit from differential and common mode signals beeing calculated in real-time.

Trigger on Zones in real-time. RTP - see the difference

The RTP's Zone trigger allowes as the only oscilloscope in the world to isolate events in the time and the frequency domain.

Phasenkohärente Mehrkanal-Pulsanalyse

Skalierbare und leicht konfigurierbare Lösung für Radar-/EK-Systeme für die exakte und phasenkohärente Analyse von mehreren Pulssignalen.

Erweiterte Jitter-Analyse mit Rohde & Schwarz-Oszilloskopen

Algorithmus zur Jitter-Separation mit innovativem Signalmodell

TDR-/TDT-Analyse mit Rohde & Schwarz-Oszilloskopen

Messung von Impedanz und Transmissionsdämpfung

Erweiterte Korrektur von Integral-Mathematikkurven

Erfahren Sie, wie Sie 1/f-Rauschen in einer Integral-Mathematikkurve für die Analyse von sinusförmigen oder gepulsten Signalen mit Hilfe erweiterter Mathematikfunktionen beseitigen können.

Energiemessung für gepulste Signale

Erfahren Sie, wie Sie die Energie eines gepulsten Sinussignals mit Hilfe erweiterter Mathematikfunktionen messen können.

I/Q-Modus für die HF-Signalanalyse

Herunterkonvertieren der HF-Signale im Oszilloskop und Analyse der resultierenden I/Q-Samples mit der R&S®VSE Software oder externen Tools.

77-GHz-Automotive-Radar (Teil 1)

Erfahren Sie mehr über den prinzipiellen Messaufbau zum Testen eines Automotive-Radargeräts mit dem R&S®RTP High-Performance-Oszilloskop.

77-GHz-Automotive-Radar (Teil 2)

Deembedding von Konvertern und anderen Messaufbaukomponenten in Echtzeit.

77-GHz-Automotive-Radar (Teil 3)

Demodulieren von Radarpulsen mit integrierten Oszilloskopfunktionen.

77-GHz-Automotive-Radar (Teil 4)

Durchführen von phasenkohärenten Messungen an mehreren Antennensignalen.

Clock and LO components in 5G base stations (part 2/3)

Learn how to verify the performance of RF sampling clock generator / jitter attenuator with low noise signal generator and high-performance oscilloscope.

Fehlersuche an USB 3.1-Schnittstellen mit Echtzeit-Deembedding

Zeigt, wie man Echtzeit-Deembedding bei einem USB 3.1 Gen1-Gerät durchführt.

Zeitverzögerungsanalyse mehrerer Breitband-HF-Signale

Analyse mehrerer HF-Signale, die typischerweise benutzt werden, z. B. bei der Peilung

DDR3 Signalintegritäts-Debugging

Zeigt, wie man Signalintegritäts-Debugging bei einem DDR3-Gerät durchführt.

Signalintegritäts-Debugging

Gezeigt auf einem USB 3.1 Gen1-Gerät.

Analyse von breitbandigen, gepulsten HF-Signalen

Analyse der Grundparameter gepulster HF-Signale.

Power-Integrity-Debugging

Power-Rail-Tastkopf in Verbindung mit einem Hochleistungsoszilloskop.

Echtzeit-Deembedding

Merkmale und Vorteile

Analyse komplexer Radarsignale

Analyse von Up- und Down-Chirps im Zeit- und Frequenzbereich.

Leistungsfähige FFT und Spektrogramm

Einfache Konfiguration und Frequenzbereichsanalyse.

HF-Pulsfolgenanalyse

Zeigt, wie man Pulsfolgen im Zeit- und Frequenzbereich misst.

Triggern im Frequenzbereich mit Zone Trigger

Einzigartige Triggerfunktionalität.