367 Results
Rohde & Schwarz system manual for the R&S®UD1065 Up- / Downconverter; it provides all the information required to measure IEEE 802.11ad signals.
Rohde & Schwarz Manual for the R&S®SZV100A Q-/V-Band 36- 56 GHz RF-Upconverter.
Using the R&S SMW200A vector signal generator makes it very easy to set up a 5G cell.
Based on the R&S®SMW200A vector signal generator and the R&S®FSW signal and spectrum analyzer, Rohde & Schwarz demonstrated WLAN IEEE 802.11ad signal generation and analysis as an example of a broadband signal up to 2 GHz.
The R&S®FSW signal and spectrum analyzer with the R&S®FSW-K18 amplifier measurement option and in combination with the R&S®SMW200A vector signal generator characterizes amplifiers and other two-port devices with any given stimulus.
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 How about 5G EVM measurements better than 40 dB at 28 GHz?
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. SMW200A, 5G FR2, base station test, OTA test, FSVA3000, FE44 Follow this video series on our latest T&M innvoations for 5G devices, base stations and 5G mobile networks and many more topics.
Based on the R&S®SMW200A vector signal generator and the R&S®FSW signal and spectrum analyzer, Rohde & Schwarz demonstrated WLAN IEEE 802.11ad signal generation and analysis as an example of a broadband signal up to 2 GHz.
25-Jan-2024
Rohde & Schwarz at MWC 2024: T&M solutions for the mobile industry that enable connection and empower innovationRohde & Schwarz will showcase at MWC Barcelona 2024 under the motto “Enabling Connections, Empowering Innovations” a wide-ranging portfolio that helps industry leaders, manufacturers and visionaries turn their ideas for new mobile products, applications and technologies into reality.
Rohde & Schwarz Quick Start Guide for the R&S®SMJ100A vector signal generator, with basic information on the initial operation and the functions of the generator.
FE170ST, FE170SR, 6G tester, 6G test quipment, D-Band test equipment The basebands of a 2-path R&S®SMW200A signal generator can be combined to provide a signal with 4 GHz RF bandwidth.
R&S Pulse Sequencer Powerful radar signal simulation software - Flyer
Cutting-edge radar simulation and testing - Flyer
This Application Note covers 2x2 MIMO in the LTE downlink. Remote control programming is demonstrated by examples for a free-of-charge program.
09-Oct-2014 | AN-No. 1MA143
A versatile RF Fading Simulator can easily be built using an R&S®FSW, R&S®FSQ, R&S®FSG, R&S®FSV signal analyzer.
27-Feb-2015 | AN-No. 1MA145
Russian version - Гибкая генерация целей для испытаний радиолокационных приемников
Rohde & Schwarz User Manual for the 3GPP FDD application of the signal generator R&S®SMM100A, including HSPA/HSPA+, Enhanced BS/MS tests; options R&S®SMM-K43/-K83.
08-Dec-2021
Sivers Semiconductors and Rohde & Schwarz collaborate on testing 5G RF transceivers up to 71 GHzAs 5G networks are being rolled out globally, the evolution of the 5G NR standard continues. With Release 17, 3GPP will extend the frequency support of 5G NR mmWave bands into the unlicensed spectrum up to 71 GHz, a frequency band traditionally used by non-cellular standards like IEEE 802.11ad and 11ay. To address new testing challenges related to this bandwidth extension and to evaluate the performance of the latest generation RF transceiver chipsets, Rohde & Schwarz and Sivers Semiconductors teamed up to test RF transceivers for 5G NR up to 71 GHz.
Reliable and flexible simulation of angle of arrival (AoA) - Flyer
Rohde & Schwarz User Manual for the IEEE 802.11 WLAN application of the signal generator R&S®SMM100A, including IEEE 802.11 a/b/g/n, IEEE 802.11ac, IEEE 802.11ax, IEEE 802.11be; options R&S®SMM-K54/-K86/-K142/-K147.
Due to the lack of a 6G standard, we showcase a 5G NR PUSCH multi-user MIMO scenario, emulating two users with 2x2 MIMO, that are independently faded to simulate realistic channel conditions using the R&S SMW200A vector signal generator. The signal is captured using the MSR4 satellite receiver and transferred to a server.
Guidelines for MIMO Test Setups – Part 2
14-Oct-2009 | AN-No. 1GP51
Radar simulation with modern vector signal generators - Application Brochure
R&S®Forum for Instrument Remote Control
28-Jun-2018 | AN-No. 1MA196
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.
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.
How Kyrio found its perfect O-RAN conformance T&M solution from Rohde & Schwarz and VIAVI Solutions.
The focus is on understanding as early as possible in the design process performance enhancements through linearization of non-linear devices.
20-Apr-2022 | AN-No. 1SL383