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Find the information you need from Rohde & Schwarz. Search for products, technologies, applications, manuals, datasheets, tutorials, FAQs, and more.
Search Rohde-Schwarz.com
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 R&S®TSMA6B autonomous mobile network scanner
Rohde & Schwarz getting started manual for the R&S®TSMA6B autonomous mobile network scanner.
Rohde & Schwarz user manual for the R&S RTP oscilloscopes including options R&S RTP-K1, K2, K3, K8, K9, K12, K19, K37, K40, K42, K44, K50, K52, K55, K57, K60, K61, K63, K64, K72, K91, K121/122, K133, B1, B6, B7
Rohde & Schwarz User Manual for Ethernet Compliance Test. Describes the test procedures.
Rohde & Schwarz User Manual for DDR3 Compliance Test. Describes the test procedures.
Rohde & Schwarz User Manual for PCI Express 1.1/2.0/3.0 Compliance Test. Describes the test procedures.
Rohde & Schwarz user manual for the R&S RTO6 oscilloscopes including options R&S RTO6-B1,B6,B7,K11,K12,K13,K133,K134,K31,K37,K121,K130, K500,K510,K520,K530,K540,K550,K560,K570,K580,K590,K91
The R&S®ZNL vector network analyzer offers a wide frequency range from 5 kHz to 3 or 6 GHz. The R&S®ZNL vector network analyzer offers a wide frequency range from 5 kHz to 3 or 6 GHz, an output power from –40 dBm all the way up to 0 dBm, and a wide dynamic range of typically up to 130 dB. If you don’t need such a high dynamic range, simply increase the IF bandwidth to speed up your measurements instead
Rohde & Schwarz webinar from March 25, 2015 This webinar focusses on the key technical aspects of LTE multicast. eMBMS transforms an LTE network into a single frequency network (SFN) from a device perspective, to enable broadcast or multicast of any type of content to interested users, such as live sports events, live concerts or a news service. Introduced for UMTS with 3GPP Release 6, MBMS was enhanced
OTA antenna measurements up to the sub-THz range The ATS1000 CATR based 5G NR mmWave test chamber is fully shielded from the outside world to provide the ideal environment for uninterrupted measurements. Future devices beyond 5G might reach into the sub-Terrahertz spectrum. The ATS1000 simplifies the testing needs because no mechanical modification and no additional RF cabling is required to measure
There are several different semiconductor technologies that are currently being discussed for 6G. Watch this video for a deeper insight into the main challenges and findings on semiconductor technologies There are several different semiconductor technologies that are currently being discussed for 6G. All of these technologies come with their own benefits, and 6G will likely use a combination of at
The video explains the concept of synchronization signal blocks (SSB), how SSB beamforming works in sub 6 GHz and mmWave frequencies and how many different beams can be realized by the network infrastructure. Which 5G NR signal components need to be measured to determine network coverage? The video explains the concept of synchronization signal blocks (SSB), how SSB beamforming works in sub 6 GHz and
In this video we explore the fundamentals for mobility in a cellular system and show how (pre-)5G and 5G systems eventually tackle this challenge. mmWave frequencies provide quite some challenges, including a much higher Doppler shift compared to sub-6 GHz frequencies when targeting higher speeds. This puts some significant challenges on system design to enable full mobility. In this video we explore
This video shows a practical demonstration of how to measure the Angle of Arrival of NXP’s Trimension™ NCJ29D6 UWB automotive IC using an R&S®CMP200 radio communications tester and the R&S®ATS800R anechoic chamber. This video shows a practical demonstration of how to measure the Angle of Arrival of NXP’s Trimension™ NCJ29D6 UWB automotive IC in the lab using an R&S®CMP200 radio communication tester
The webinar provides a glimpse into the upcoming Wi-Fi 6 standard, explains related test requirements and demonstrates the value of a novel approach to testing in signaling mode. The new IEEE 802.11ax amendment (Wi-Fi 6) intends to improve the overall data throughput. In order to achieve this, Wi-Fi 6 introduces OFDMA for the first time, which enables the parallel communications with multiple stations
Rohde & Schwarz presented mobile network testing solutions for the complete 5G lifecycle, covering sub-6 GHz and mmWave bands that enable the realisation of 5G NR as it moves from trial networks to commercial deployments at GSMA MWC2019. Rohde & Schwarz presented mobile network testing solutions for the complete 5G lifecycle, covering sub-6 GHz and mmWave bands that enable the realisation of 5G NR
With its low weight of only 6 to 8 kg and its carrying handle, you can take the R&S®ZNL wherever you need it. With its low weight of only 6 to 8 kg and its carrying handle, you can take the R&S®ZNL wherever you need it. Two batteries last for three hours and can be hot-swapped. A padded carrying bag keeps the ZNL well protected during transport and operation in rough environments. R&S®ZNL, ZNL, vector
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. Configure technology standards to the captured signal and get
The video introduces a compact backpack that is ideal to perform simultaneous network measurements of 5G NR in mmWave and sub 6 GHz frequencies. How to perform 5G NR and LTE network coverage measurements during walk tests efficiently? The video introduces a compact backpack that is ideal to perform simultaneous network measurements of 5G NR in mmWave and sub 6 GHz frequencies. It also enables to carry
Can machine learning models replace conventional signal processing blocks for 6G air interface? This video looks into the future to see whether this work can transform the air interface for a 6G standard. How might an AI based air interface be realized? The first stage is likely to be the front end, using machine learning to model the non-linearities of the transmitter and outperforming existing methods
Which frequencies from 7.125 GHz to 24.25 GHz are being considered for 6G? This video runs through the frequencies from 7.125 GHz to 24.25 GHz, highlighting the bands with the maximum potential for next-generation wireless services. The frequency range from 7.125 GHz to 24.25 GHz is attracting attention as possible additional spectrum for 6G, and is already being unofficially referred to as FR3. The
This video explores the evolution of 5G NR and a potential timeline for 6G, based on the experiences with 5G and the success of 4G LTE. Release 16, the second phase of standardization for 3GPP’s 5G NR standard, is estimated to be complete in September 2020. While its commercial implementation is still far away, the educational sector has started discussing what is beyond 5G. This video explores the
Learn need-to-know essentials about test and measurement for 5G FR1, 5G FR2, and Wi-Fi 6/7. Learn need-to-know essentials about test and measurement for 5G FR1, 5G FR2, and Wi-Fi 6/7. Test and measurement, 5G, Wi-Fi Learn need-to-know essentials about test and measurement for 5G FR1, 5G FR2, and Wi-Fi 6/7.
The future of wireless communications testing is here, and the R&S®FE170SR and R&S®FE170ST RF frontends are leading the way. Designed for sub-terahertz frequencies, this solution delivers exceptional accuracy, stability, and modulation capabilities for future mobile communications with a big focus on early-6G research and other advanced wireless technologies such as automotive radar applications. Our
The video provides insights into the channel raster and synchronization raster in 5G NR in order to explain how to perform coverage measurements for 5G non-standalone and standalone mode. How do 5G NR devices identify the 5G carrier and find the SSB for coverage measurements? The video provides insights into the channel raster and synchronization raster in 5G NR in order to explain how to perform coverage
Learn about the role that AI and ML may play in signal processing, battery-powered mobile devices and more. Machine learning (ML) has been very successful in image and video recognition as well as natural language processing. For 6G, researchers are interested in applying machine learning to signal processing, so that a signal can be modified based on: Application Learned characteristics of the mobile
Instant insight meets in-depth information The R&S®RTO6 series oscilloscopes have a broad measurement toolset, a 15.6" touchscreen and streamlined user interface to help you quickly solve simple or complex circuit issues. Learn more in our video. The R&S®RTO6 series oscilloscopes have a broad measurement toolset, a 15.6" touchscreen and streamlined user interface to help you quickly solve simple or
For early 6G R&D from 110-170 GHz, extra bandwidth supports higher data rates The #ThinkSix video series takes a sneak peek at the future. In this video, we look at early 6G R&D from 110-170 GHz and higher data rates supported by extra bandwidth. A powerful factor in the drive towards higher frequencies in the D-band and beyond into Sub-Terahertz frequencies is the demand for ever more bandwidth. To
A setup for investigating wave propagation properties at 160 GHz High frequencies completely new to mobile radio mean that researching channel characteristics to determine the effects on transmitted signals of propogation delays resulting from reflection, and losses due to scattering, are a major requirement for 6G research. In this video we demonstrate a test setup for channel sounding in the D-band
Live Eye Diagram 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. Characterize and verify the signal quality of a PAM signal with the Advanced Eye diagram and the PAM-N Analysis option. Benefit from predefined setting for technology standards such