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Automotive field-to-lab testing with R&S®CMWcards

19-Feb-2019

This application note describes the functionality of the equalizer filter and how to set the filter parameter manually in an accurate and fast way.

06-Feb-2009 | AN-No. 1EF61

With the R&S®Pulse Sequencer radar simulation software, users can easily and intuitively create scenarios for simulation of angle of arrival (AoA).

02-Apr-2020

This application note is step by step guide on 5G New Radio (5G NR) signal generation and analysis capabilities using the R&S®SMW200A Vector Signal Generator.

22-Nov-2019 | AN-No. GFM322

Comprehensive PCR Analysis - Using the R&S DVM Family from Rohde & Schwarz R&S DVM50/DVM100/DVM120/DVM400

01-Jun-2006 | AN-No. 7BM55

Creating MediaFLO™ Test Scenarios in Accordance with the Minimum Performance Specification (MPS) V 1.2

31-Aug-2006 | AN-No. 7BM62

The validated UWB PHY test suite for the R&S®CMP200 radio communication tester simplifies FiRa™ Consortium PHY conformance testing.

21-Jun-2022

This application note explains how to generate phase coherent signals with a compact easy-to-use solution.

07-Sep-2016 | AN-No. 1GP108

Combinational tests for telephone terminal equipment

26-Apr-2006

The R&S SFU broadcast test system is used as a reference signal generator to simulate the influence of LTE and other mobile radio signals on digital TV signals and receivers.

20-Jun-2012

Verifying 5G transmitted signals in the field with the R&S®Spectrum Rider FPH handheld spectrum analyzer

30-Jul-2024

Measurements of Dual-tone Multifrequency Dialling Signals with the Audio Analyzers UPL and UPD

04-Jun-1998 | AN-No. 1GA23

Rohde & Schwarz oscilloscopes meet frequency response analysis task requirements and provide a cost-optimized alternative to dedicated standalone low frequency network analyzers.

19-Jun-2019

NTP and ACP Measurements to ETS 300 175-2 for DECT using Spectrum Analyzer FSE

28-Apr-1998 | AN-No. 1EF42

Interface Control Document for xDW streaming

25-Aug-2021 | AN-No. 1GP133

SNMP Example: DVM Management Center Monitoring in a Broadcast Network

31-May-2007 | AN-No. 7BM66

Inside the lab and on the production line – this Rohde & Schwarz solution offers speed, accuracy and convenience for testing TX beamforming passive array antennas.

04-May-2018

WCDMA / CDMA2000 Intermodulation Calibration for Zero IF Chipsets

16-Dec-2004 | AN-No. 1CM54

conducted conformance testing according to TS 38.141-1, Rel. 15

This application note describes how all mandatory RF receiver tests can be performed quickly and conveniently with signal generators from Rohde & Schwarz.

02-Dec-2020 | AN-No. GFM314

PESQ^® Measurement for GSM with R&S^®CMUgo

05-Jan-2012 | AN-No. 1MA119

Reproducible receiver tests under car-to-car fading conditions

06-Nov-2017

Guidelines for MIMO Test Setups – Part 2

14-Oct-2009 | AN-No. 1GP51

This application note describes how to measure the antenna pattern of a mm-Wave device in the R&S®ATS1000 shielded chamber. This includes the required calibration of the measurement setup and a possible near field to far field transformation when measuring larger devices.

28-May-2018 | AN-No. 1MA304

This application note is for readers that work with digital radio transmitting and receiving devices or maintain analog radio communication equipment.

10-Feb-2017 | AN-No. 1MA277

High dynamic range current measurements on IoT devices

01-Oct-2019

Mobile Tests for GSM under Fading Conditions

23-May-2000 | AN-No. 1MA19

eCall is deployed in Europe and is required by law in new cars as of March 2018. Next generation eCall (NG eCall) is built on LTE and 5G.

06-Jun-2018

This application Note is based on CMW500, SMBV100B and Vector CANoe.Car2x Software and guides to how to simulate the specific Cellular Vehicle-to-Everything (C-V2X) wireless environment in respect to road transport scenarios and transmitted messages around the Device Under Test (DUT) like a Telematics Control Unit (TCU). It shows how to verify and validate the C-V2X application of the DUT in laboratory environment. The virtual simulation scenario is not limited to the requirements of CSAE53-2017 specification, and it could be modified by user according to this operating guide with CANoe.Vehicle-to-everything (V2X) is a new generation of information and communications technologies that connect vehicles to everything. The objective of V2X is to increase road safety and manage traffic efficiently.C-V2X is designed to offer low-latency vehicle-to-vehicle (V2V), vehicle-to-roadside infrastructure (V2I) and vehicle-to-pedestrian (V2P) communications services to add a new dimension to future advanced driver assistance systems (ADAS). C-V2X as one communications standard defined by 3GPP in Release 14 uses LTE technology as the physical interface for communications. The standard describes two types of communications. The vehicle-to-network (V2N) communications type, exploits the cellular Uu interface, uses traditional cellular link to enable cloud services to be integrated into end-to-end solutions, e.g. to allow road and traffic information for a given area to be distributed to the vehicles.The second type is referred to as direct or PC5/Sidelink (V2V, V2I, V2P) communications, where data transmission takes place over the PC5 interface. In that type, C-V2X does not necessarily require a cellular network infrastructure. It can operate without a SIM and without network assistance and uses GNSS as its primary source for time synchronization.Verifying system functionality and performance exclusively by field testing in a real-world environment can be time-consuming, costly and very challenging. Requirements regarding functionality, and consequently the required assistance functions, are constantly changing. Due to this fact, test solutions are needed during the development and introduction phase to verify compliance with the standards. The PC5 direct communications type allows exchange of time sensitive and safety relevant information. Using a mobile communication tester like the R&S® CMW500 together with a C-V2X scenario simulation tool delivers reproducible test scenarios. This is essential for the standardization of verification processes for C-V2X in order to obtain reliable and comparable results, and it helps to demonstrate that end-to-end functionality between two C-V2X devices from different vendors works properly.

02-Jun-2021 | AN-No. GFM341

This application note describes Methods of Implementation (MOI) for precise, fast, and error-free compliance testing of USB Type-C to Type-C cable assemblies supporting USB4 Gen3, USB4 Gen2, USB 3.2 Gen2, USB3.2 Gen1, and USB2.0.

30-Nov-2023 | AN-No. 1SL405

CDMA2000^® 1xRTT/1xEV-DO Hybrid Mode Testing

01-Oct-2007 | AN-No. 1CM65