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Supported data rates, LTE, bandwidth, MIMO scheme, modulation format, 3GPP, additional modulation schemes Supported data rates in LTE are dependent on the available bandwidth, MIMO scheme and modulation format used. To further boost possible data rates in LTE, 3GPP adds additional modulation schemes in their upcoming releases.

Achievable data rates, LTE, bandwidth, modulation scheme, MIMO support, carrier aggregation, 3GPP, UE Achievable data rates in LTE mainly depend on the bandwidth, modulation scheme, MIMO support and additional features such as carrier aggregation.

This application note explains how to connect and interface with the SGMA instruments and gives some recommendations and hints about their use.

15-Oct-2015 | AN-No. 1GP103

This application note explains how to synchronize multiple R&S®SMBV100A vector signal generators.

09-Jul-2013 | AN-No. 1GP84

R&S®AMU-K74 MIMO Fading Option - Specifications

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.

13-Sep-2021 | Press Releases

Users of Bluetest reverberation test systems (RTS) can now enjoy the benefits of the R&S CMX500 5G NR radio communication tester from Rohde & Schwarz for 5G FR1 MIMO over-the-air (OTA) measurements. With the R&S CMX500 integrated in the Bluetest Flow control software, the solution provides a stable and reliable environment for measuring throughput as well as receiver sensitivity and output power on multicarrier devices with up to 4x4 MIMO.

LTE-Advanced Technology Introduction

20-Aug-2012 | AN-No. 1MA169

R&S®PWC200 Plane Wave Converter - Product Brochure

This application note focuses on how to measure and analyze FMCW radar signals with up to 6 GHz bandwidth with an R&S® RTP oscilloscope.

07-Aug-2019 | AN-No. GFM318

Describes the specific functions of the application, including the remote control commands with programming examples.

Describes the specific functions of the application, including the remote control commands with programming examples.

Provides the information required to prepare the instrument for use and start working.

Measurement of phase-, timing- and gain offset between 2 signals using multiple spectrum analyzers

28-Sep-2010 | AN-No. 1EF70

This webinar will examine the challenge facing operators to address increasing capacity and performance demands in mobile networks and consider the various macro network enhancements available such as deployment of 4x4 MIMO, Carrier Aggregation, antenna tilt optimization and increased sectorization.

Describes the specific functions of the application, including the remote control commands with programming examples.

The WLAN 802.11ac standard adds new features such as larger channel bandwidth, higher modulation schemes and MIMO. This significantly increases data rates to cope with future high data rate applications such as wireless displays or video streaming.

Describes all instrument functions and remote control commands of the base unit, including measurement and programming examples.

Time-of-arrival (ToA) and Time-Alignment-Error (TAE) are important network synchronization measurements to achieve high network quality and performance.This educational note describes how 5G NR is affected by these synchronization requirements.

17-Aug-2021 | AN-No. 8NT05

In this video, the R&S®CMX500 establishes an LTE anchor cell and a 5G NR TDD cell, configured with 4x4 MIMO and modulation of DL 256QAM to achieve a maximum data end-to-end throughput of 2 Gbps on IP layer using TCP data with a Qualcomm Snapdragon X55 modem.

This application note shows how to perform LTE terminal block error rate (BLER) and throughput tests under fading conditions with the R&S®CMW500 Protocol Tester and the R&S®AMU200A Fading Simulator.

27-Mar-2012 | AN-No. 1MA177

Describes all instrument functions and remote control commands of the base unit, including measurement and programming examples.

This document provides some technical background and guidance on how to optimize the measurement of one of the key performance parameters of WLAN transmitters - the Error Vector Magnitude (EVM).

This application note provides some technical background on how to optimize the measurement of one of the key performance parametersof 802.11be WLAN transmitters.

06-Sep-2022 | AN-No. 1EF114

Describes the specific functions of the application, including the remote control commands with programming examples.

Testing HSPA+

26-Apr-2013 | AN-No. 1MA121

Legacy WLANs have introduced physical layer functionality such as wider bandwidth, MIMO and higher-order modulation schemes, achieving higher throughput. To tackle the challenges of crowded networks, the upcoming new standard IEEE 802.11ax will now focus on increasing overall efficiency.

Describes the specific functions of the application, including the remote control commands with programming examples.

All functions needed are combined in a single instrument: baseband (up to 160 MHz bandwidth, maximum of eight baseband sources), MIMO (up to 8x2 without external add-ons, easy-to-use 4x4 solution), fading (with up to 16 logical faders), AWGN and RF, and all this twice in two paths up to 6 GHz each, plus internal signal calculation.

The instrument offers future-proof hardware with excellent RF performance, 2 independent RF channels and 16 RF ports for mulit DUT / multi technologies and MIMO testing. With the intuitive web based R&S®CMsquares user interface we will demonstrate Wi-Fi measurement in 6 GHz Band.

Oscilloscope, RTP High-performance oscilloscope, Automotive Radar, Pulse Analysis, MIMO, phase-coherant, Mixer, Downconversion Perform phase-coherent measurements on multiple antenna signals.