391 Results
This video shows how to analyze 5 GHz wide radar signals in the E band with the R&S®FSW85 signal and spectrum analyzer and R&S®RTO2064 oscilloscope.
Defining masks is easy and flexible with the R&S®RTO. Video, RTO2000, Oscilloscope, Industry-leading mask test Defining masks is easy and flexible with the R&S®RTO.
This app note provides an introduction into the various jitter components and elucidates the commonly available jitter separation frameworks.
08-Dec-2021 | AN-No. 1SL375
This document describes a method to separate common-mode and differential-mode separation using two oscilloscope channels. This separation approach works without any additional hardware component.
17-Sep-2020 | AN-No. GFM353
MIPI D-PHY is a low-power, cost-effective physical layer interface, essential in mobile devices and advanced technology systems. It's a high-speed, source-synchronous interface used in smartphone cameras, smartwatch displays, drones, in-car entertainment, automobile cameras, and radar sensors. This application note explores MIPI D-PHY's features, functionality, and testing practices for device compliance, addressing common issues. It highlights Rohde & Schwarz's equipment for ensuring compatibility and solving issues with MIPI D-PHY, aligned with MIPI D-PHY specification version 2.5.Developed by the MIPI Alliance, D-PHY connects cameras and displays to a host processor via CSI-2 or DSI protocols. It features a master-slave, asymmetrical design for reduced link complexity. Key aspects include a unidirectional clock, optional data signal directions, different data rates for half-duplex operation, point-to-point communication, and high-speed (HS) and low-power (LP) modes for data transfer and battery preservation. In HS mode, D-PHY uses differential signaling with specific impedance, while in LP mode, it operates in a single-ended manner with high impedance termination.The application note from Rohde & Schwarz provides insights into characterizing and debugging MIPI D-PHY, offering conformance verification with MIPI Alliance standards and protocol decoding options.
31-Jan-2024 | AN-No. 1SL410
Signal Configuration Learn about key advantages of the PAM-N analysis option on the R&S RTP & RTO6 oscilloscopes. Start with the Signal Configurator. The PAM-N Analysis option enables the measurements and detailed characterization of PAM signals (PAM order of 2-8) with the R&S RTP and RTO oscilloscopes.
R&S®VISA is a standardized software library that allows fast communications over diverse interfaces with a wide variety of T&M instruments that are detected on the network from PC applications.
26-May-2020 | AN-No. 1DC02
Signal Configuration Learn about key advantages of the Embedding and Equalization option of the R&S RTP & RTO6 oscilloscopes. Start with the Signal Configurator. The R&S RTP and RTO6 oscilloscopes feature a powerful and flexible Embedding & Equalization option. Learn in this video how easy it is to get started with the Signal Configurator.
Video, RTO2000, Oscilloscope, Testing conducted emission in the R&D lab This video shows how the powerful spectrum analysis features in the R&S®RTO oscilloscope can be used to verify conducted emission levels relative to the requirements during development thereby ensuring passing results in the compliance laboratory.
Versatile Software Tool for Rohde & Schwarz Instruments
RSCommander is a versatile software tool for a wide range of Rohde & Schwarz spectrum-, network analyzers, signal generators and oscilloscopes. It allows for automatic instrument discovery, making screenshots, reading traces, file transfer and simple script creation.
24-Dec-2017 | AN-No. 1MA074
08-Feb-2021
Rohde & Schwarz introduces the first trigger and decode solution for 1000BASE-T1 automotive EthernetRohde & Schwarz introduces the first trigger and decode solution for 1000BASE-T1 automotive Ethernet.
Zone trigger, time and frequency domain, RTO2000, set up Define up to eight zones of any shape and logically combine them over multiple channels or by using math functions. Depending on how the zones are defined, a trigger signal is activated when a signal either intersects or does not intersect the zone.
Accuracy of RMS Measurements
This paper explains how to use the Rohde & Schwarz IVI.NET instrument drivers in a Visual Studio environment.
31-May-2016 | AN-No. 1MA268
The R&S®VSE is a powerful tool for comprehensive analysis of a variety of signals, providing full support to the Rohde & Schwarz oscilloscope advanced trigger system.
03-Feb-2021
The R&S®RTx-K50 option expands the addressable range of interface standards by adding decoding capability for standardized and proprietary Manchester or NRZ coded buses.
19-Oct-2020
High dynamic range current measurements on IoT devices
01-Oct-2019
Characterize radar warning receivers with advanced triggerbased multichannel pulse analysis, using the R&S®VSE-K6A and a Rohde & Schwarz oscilloscope.
02-Mar-2021
Volume Adjustment of the "BEEP"
R&S RT-ZPR20 Accurate and fast power integrity measurements - Application Card
Export of analog and digital channels of the same acquistion
R&S Scope Suite - Error communicating with oscilloscope
FAQ - Decoding of SENT protocoll shows CRC errors
R&S Scope Suite - eMMC compliance test fails
Connection of DUT and Link partner with test fixture RT-ZF2
25-Jan-2022
Automotive Ethernet test solutions from Rohde & Schwarz accelerate Realtek’s entry into the automotive marketRohde & Schwarz, a leading global test & measurement company, is partnering with the automotive chipset development team of Realtek, one of the world’s foremost network and multimedia fabless IC design companies to ensure compliance with current and future OPEN Alliance standards.
Discover the Bus trigger capability of Rohde and Schwarz oscilloscopes, as displayed on an R&S®RTO or an R&S®RTM. Discover the Bus trigger capability of Rohde and Schwarz oscilloscopes, as displayed on an R&S®RTO or an R&S®RTM. RTM3000, triggering, CAN Bus, automotive Discover the Bus trigger capability of Rohde and Schwarz oscilloscopes, as displayed on an R&S®RTM.
15-Jul-2020
Rohde & Schwarz and TSN Systems provide nanosecond-precision latency measurements for automotive EthernetWith radar, lidar and camera sensors present in automobiles, time sensitivity on networks becomes extremely important, as vast amounts of sensor data need to be transferred and processed within a few milliseconds. Test and measurement expert Rohde & Schwarz and time-sensitive networks specialist, TSN Systems have successfully cooperated on precise timing measurements for in-vehicle networks using automotive Ethernet 100BASE-T1.
We want to measure the voltage of the main line with our oscilloscope.
When I do RMS measurements and an offset is applied, the result changes. I could not see that effect on other scopes. What is wrong here?