Search Rohde-Schwarz.com
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.
6787 Results
Rohde & Schwarz mobile network testing supports Qualcomm Snapdragon 8 Gen 3 chipset that powers the newest smartphones, such as Samsung Galaxy S24 models.
Rohde & Schwarz mobile network testing supports Qualcomm Snapdragon 8 Gen 2 chipset that powers the newest smartphones, such as Samsung Galaxy S23 models.
Models: R&S®BBA150-A125, R&S®BBA150-A160, R&S®BBA150-A200, R&S®BBA150-A400, R&S®BBA150-A700, R&S®BBA150-A1300, R&S®BBA150-A2500, R&S®BBA150-AB75, R&S®BBA150-AB125, R&S®BBA150-AB160, R&S®BBA150-AB200, R&S®BBA150-AB350, R&S®BBA150-AB600, R&S®BBA150-BC70, R&S®BBA150-BC125, R&S®BBA150-BC160, R&S®BBA150-BC250, R&S®BBA150-BC500, R&S®BBA150-BC1000, R&S®BBA150-BC1250, R&S®BBA150-BC1500, R&S®BBA150-BC2000, R&S®BBA150-BC3000, R&S®BBA150-D30, R&S®BBA150-D60, R&S®BBA150-D110, R&S®BBA150-D200, R&S®BBA150-D400, R&S®BBA150-D800, R&S®BBA150-E15, R&S®BBA150-E30, R&S®BBA150-E60, R&S®BBA150-E100, R&S®BBA150-E200, R&S®BBA150-E400, R&S®BBA150-A75A75, R&S®BBA150-A125A125, R&S®BBA150-A200A200, R&S®BBA150-BC70BC70, R&S®BBA150-BC125BC125, R&S®BBA150-BC160BC160, R&S®BBA150-BC250BC250, R&S®BBA150-D30D30, R&S®BBA150-D60D60, R&S®BBA150-D110D110, R&S®BBA150-E30E30, R&S®BBA150-E60E60, R&S®BBA150-E100E100, R&S®BBA150-A75BC70, R&S®BBA150-A75BC125, R&S®BBA150-A75BC250, R&S®BBA150-A125BC70, R&S®BBA150-A125BC125, R&S®BBA150-A125BC160, R&S®BBA150-A125BC250, R&S®BBA150-A160BC125, R&S®BBA150-A160BC160, R&S®BBA150-A200BC70, R&S®BBA150-A200BC125, R&S®BBA150-A200BC250, R&S®BBA150-A400BC70, R&S®BBA150-A400BC125, R&S®BBA150-BC70D30, R&S®BBA150-BC70D60, R&S®BBA150-BC70D110, R&S®BBA150-BC125D30, R&S®BBA150-BC125D60, R&S®BBA150-BC125D110, R&S®BBA150-BC160D30, R&S®BBA150-BC160D60, R&S®BBA150-BC160D110, R&S®BBA150-BC250D30, R&S®BBA150-BC250D60, R&S®BBA150-BC250D110, R&S®BBA150-D30E30, R&S®BBA150-D60E15, R&S®BBA150-D60E30, R&S®BBA150-D60E60, R&S®BBA150-D110E30, R&S®BBA150-D110E60, R&S®BBA150-D110E100, R&S®BBA150-D200E60, R&S®BBA150-D200E100, R&S®BBA150-D200E200, R&S®BBA150-D400E200, R&S®BBA150-D400E400, R&S®BBA150-D30E15
For 2G/3G eCall, the MSD is transmitted via a circuit-switched voice channel to the PSAP using an in-band modem. Next Generation eCall uses IMS and 4G/5G technology to transmit the voice and MSD. NG eCall will be mandatory in Europe from 2026 and other regions are expected to follow.
This is especially important for applications such as Bluetooth hands-free calling and eCall. The process starts accurately measuring speech quality over a 5G connection in a lab environment, such as the HEAD acoustics facility in Aachen, Germany.
With the advent of autonomous driving and advanced infotainment, vehicle users become increasingly reliant on digital services and a seamless wireless performance is essential for the always-connected vehicle. There is constant communication to and from each vehicle in a complex wireless environment.
Solutions and Tipps for NR FR1 in TDD Downlink Mode
5G New Radio (NR) is a radio technology specified by 3GPP and was first released in 3GPP release 15. It is designed to target three use cases, i.e. enhanced mobile broadband (eMBB), massive machine type communication (mMTC) and ultra-reliable low latency communication (URLLC). Among these three use cases, eMBB represents actually a further evolution of mobile broadband communication from LTE standard. According to the technical performance requirement defined by IMT-2020, by deploying 5G technology, peak data rates of eMBB application are expected to reach 20 Gbps in downlink (DL) and 10 Gbps in uplink (UL) direction, respectively. Typical use cases of eMBB are data hungry applications, such as high resolution 8K video streaming, virtual reality (VR), augmented reality (AR) etc.Verification of a 5G capable user equipment (UE) with respect to its achievable maximum data throughput under controllable and deterministic test conditions is an essential process during the design phase of the product. Performance centric verification through identification of the data throughput bottleneck, product benchmarking against a golden device enhances tremendously the user experience in the end.This document focuses on 5G NR frequency range 1 (FR1) with TDD duplex mode in E-UTRAN New-radio Dual Connectivity (ENDC) operating mode. As 5G NR physical layer offers a plethora of flexibility, the motivation here is to provide a kind of guideline of relevant parameter settings to stimulate device under test (DUT)'s max throughput capacity. The status quo of the R&S solutions at the time when the application note is created are described. Shown feature sets are constantly evolving, so the screenshots used and the parameters shown may change.
07-Jul-2022 | AN-No. 1SL379