616 Results
Which frequencies are the focus of fundamental research for 6G, and why? Based on a need for available spectrum and experiment licenses, this video explains the reasons for candidate frequencies for fundamental 6G research in the D band (110-170 GHz) and G band (140-220 GHz). Currently, no spectrum is assigned to 6G. However, researchers and industry experts worldwide are convinced that additional
The R&S®NRQ6 frequency selective power sensor This video explains how frequency-selective or receiver-based RF power sensors are different from traditional thermal or diode based sensors. This video explains how frequency-selective or receiver-based RF power sensors are different from traditional thermal or diode based sensors, and discusses the unique capabilities that these sensors provide in making
The R&S®CMW100 communications manufacturing test set with a supported bandwidth of 160 MHz is ready for testing initial 5G NR sub-6 GHz wireless devices in production. 3GPP's 5G NR will support frequency ranges up to 52.6 GHz, but initial 5G designs will use frequencies below 6 GHz with focus on 3.5 GHz. For sub-6 GHz carrier frequencies, 3GPP currently discusses a maximum bandwidth per component carrier
Learn more about the technical challenges of 5G mmWave (FR2), which opens up a new level of complexity in device development. mmWave frequencies imply measurement challenges that call for new testing approaches. 5G NR in the sub 6 GHz frequency range (FR1) can be seen as a natural evolution of LTE to achieve higher bandwidth and more flexibility on the physical layer in order to realize all the new
The verified test solutions from Rohde & Schwarz, based on the R&S®CMX500 and R&S®CMW500 radio communication testers and the R&S®CMsquares unified test software, simplifies signaling testing with DSS in non-standalone (NSA) mode. Dynamic spectrum sharing (DSS) enables 5G NR and LTE to coexist by sharing the same frequency spectrum. The verified test solutions from Rohde & Schwarz, based on the R&S®
Watch this video to learn about solutions developed to meet bandwidth needs for demanding applications such as early 6G research THz communication is an important research area for 6G, the next generation of wireless communication. The new R&S SFI100A wideband IF vector signal generator was developed to meet bandwidth needs for demanding applications such as early 6G research. The instrument significantly
The video demonstrates how to measure all synchronization signal blocks (SSBs) in different frequencies with all SSB indices. The 3GPP standard offers a huge flexibility in refer to the 5G NR air interface. Based on the 5G NR network measurement solution from Rohde & Schwarz, the video demonstrates how to measure all synchronization signal blocks (SSBs) in different frequencies with all SSB indices
Meet the people behind R&S®RTO6 Who are the people behind the development of our new oscilloscope R&S®RTO6? Meet Dirk & Jan. employees, interview, product, development, career, jobs Who are the people behind the development of our new oscilloscope R&S®RTO6? Meet Dirk and Jan.
Discover the insights of Rohde & Schwarz experts and other industry leaders as they discuss the applications and challenges of this exciting technology. A core capability introduced by 6G will be joint communication and sensing (JCAS). This is expected to open up a wide range of use cases. For example, today’s XR applications record their surroundings in 3D using sensor technologies. With JCAS, an
The video demonstrates how to perform 5G NR network measurements at 3.5 GHz. In the example shown, the R&S®SMW200A vector signal generator generates a 5G NR signal The video demonstrates how to perform 5G NR network measurements at 3.5 GHz. In the example shown, the R&S®SMW200A vector signal generator generates a 5G NR signal. The captured RF measurements are visualized with the R&S®ROMES4 drive test
The #ThinkSix video series takes a sneak peek at the future. In this video, we look at the main research areas for what we eventually call 6G. 5G network roll-outs and their optimizations are in full swing. Meanwhile, academia has started the fundamental research phase on what the next generation of wireless communications may encompass. In this video, we look at the main research areas for what we
Discover our innovative one-platform-strategy for 5G mmWave RF testing Watch the video and discover our innovative one-platform-strategy for 5G mmWave RF testing Testing frequencies above 6 Gigahertz has to be over-the-air (OTA), since it is not possible to use RF connectors. To meet the measurement challenges of 5G device testing in the mmWave (mmW) frequency spectrum Rohde & Schwarz offers the R&
Meet the people behind R&S®RTO6 Who are the people behind the development of our new oscilloscope R&S®RTO6? Meet Tim & Markus. employees, interview, product, development, career, jobs Who are the people behind the development of our new oscilloscope R&S®RTO6? Meet Tim and Markus.
Discover the insights of Rohde & Schwarz experts and other industry leaders as they discuss the pivotal research areas driving the evolution of wireless technology. As we venture beyond the boundaries of 5G, 6G is charting new horizons in wireless communication research. This new territory underscores the crucial role of collaboration within the 6G community, as we unite to address the challenges and
Learn how a UE is identified to be “5G NR capable” via an LTE base station and is informed where to search for a 5G NR base station (gNB) signal. Without an LTE connection, there is no 5G NR connection possible. This video explains why a UE (supporting LTE and 5G NR) in 5G NR non-standalone mode always requires an LTE connection as anchor. Learn how a UE is identified to be “5G NR capable” via an LTE
The R&S®RTB2000's optional waveform and pattern generator (R&S®RTB-B6) up to 50 Mbit/s is useful for educational purposes and for implementing prototype hardware. The R&S®RTB2000's optional waveform and pattern generator (R&S®RTB-B6) up to 50 Mbit/s is useful for educational purposes and for implementing prototype hardware. Apart from the common sine, square/pulse, ramp and noise waveforms, it outputs
The R&S®NRQ6 frequency selective power sensor This video provides an introduction to the R&S®NRQ6 frequency-selective power sensor and how to configure it for many common measurement applications. Examples are trace and ACLR measurements. Also the setup using the PoE switch is introduced. This video provides an introduction to the R&S®NRQ6 frequency-selective power sensor and how to configure it for
This video shows how to perform pulse compression measurements with the R&S®FSW-K6S time sidelobe measurement application. This video shows how to perform pulse compression measurements with the R&S®FSW-K6S time sidelobe measurement application. video, FSW, spectrum analyzer, signal analyzer, high performance, wideband This video shows how to perform pulse compression measurements with the R&S®FSW-K6S
Integrated R&S®RTB-B6 waveform and pattern generator. The integrated R&S®RTB-B6 waveform and pattern generator up to 50 Mbit/s is useful for educational purposes and for implementing prototype hardware. Apart from the common sine, square/pulse, ramp and noise waveforms, it outputs arbitrary waveforms and 4-bit signal patterns. Waveforms and patterns can be imported as CSV files or copied from oscilloscope
Get more information on beamforming, a well-established antenna technology that is a highly important, built-in capability in 5G NR. Beamforming, a well-known and established antenna technology, is a highly important, built-in capability in 5G NR. It is necessary to compensate for the higher path loss e.g. at 28 GHz or 39 GHz, and enables higher FR2 frequency ranges in 5G. The R&S TSME6 network scanner
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. The Advanced Eye Analysis option enables on the R&S RTP oscilloscope utilizes a hardware-based Clock-Data-Recovery trigger (CDR). In combination with the PAM-N Analysis option this
Meet the people behind R&S®RTO6 Who are the people behind the development of our new oscilloscope R&S®RTO6? Meet Philipp and Michael. employees, interview, product, development, career, jobs Who are the people behind the development of our new oscilloscope R&S®RTO6? Meet Noah and Joel.
Now Wi-Fi 6 available LANCOM addresses how organizations can realize powerful LAN and WLAN infastructures based on WiFi-6 access points and multi-gigabit ethernet switches - designed for data-intensive applications today and tomorrow. Including software defined cloud management. LANCOM addresses how organizations can realize powerful LAN and WLAN infastructures based on WiFi-6 access points and multi-gigabit
Cellular device testing The R&S®CMP180 radio communication is the next generation R&D and production non-signaling test platform for Wi-Fi 6E, Wi-Fi 7, 5G FR1 and many more technologies. Test engineers can use the instrument throughout the entire development phase, from engineering validation tests, design validation tests, and production validation tests, to mass production. The R&S®CMP180 extends
The R&S®SMW200A vector signal generator is the ideal tool for generating the high-quality, complex digitally modulated signals required for the development of new wideband communications systems or the verification of 3G and 4G base stations. The R&S®SMW200A vector signal generator is the ideal tool for generating the high-quality, complex digitally modulated signals required for the development of
Rohde & Schwarz presented 5G massive MIMO base station testing at the GSMA Mobile World Congress 2018 in Barcelona. Rohde & Schwarz presented 5G massive MIMO base station testing at the GSMA Mobile World Congress 2018 in Barcelona. MWC2018, PWC200, base station testing, BS test, massive MIMO, plane wave converter, sub-6 GHz, antenna testing, near-field test, far-field test, GSMA, Mobile World Congress
Rohde & Schwarz is not just an observer; we're actively shaping the future of 6G as part of various research projects. Join us on this journey toward a wireless world. Together, we'll make it extraordinary. Welcome to the future of wireless communication—6G. 6G has the mission of seamlessly blending wireless communication, sensor technology and cloud computing. For this to be possible, a 6G network
This video introduces the topic of phase noise, demonstrates a test setup for investigating phase noise for the latest communication systems, and with D band (110-170 GHz) frequencies a hot tip for 6G research. Data rates have constantly risen with each mobile radio generation; 6G will once again require a significant increase. Higher orders of modulation are bound to play a significant role in increasing
The demo includes R&S signal generators and signal and spectrum analyzers to demonstrate and visualize cutting edge JCAS test capabilities by Rohde & Schwarz. Joint or integrated communication and sensing (JCAS/ICAS) is one of multiple 6G research items investigated in various projects around the world. This test solution enables object emulation within the FR2 frequency band, which is one of the frequency
Watch this video to learn about achievable performance gains when using trained AI/ML models compared to traditional signal processing. With research on the technological components of the future 6G wireless communication standard in full swing, the possibilities of an AI-native air interface are also being explored. In collaboration with NVIDIA, Rohde & Schwarz takes another step forward and presents